YSI 6-Series Drinking Water Systems Manual
Contents
1. GORE N 0 0 000 E 0 0 000 740 3mmH9 om N 0 0 000 E 0 0 000 740 0mm os 000 E 0 0 000 739 7mmHg 06 01 2000 18 26 03 Ammam 06 01 2000 18 26 59 mmm 06701 2000 18 34 08 A The user manually records the data from the site and turns the system off 3 5 2 3 EXAMPLE 2 CONTINUOUS LOGGING APPLICATION TO SONDE MEMORY A user wants to carry out a vertical profile of a lake from 0 to 30 feet in order to detect the presence of a thermocline and if identified to locate its position in the water column The experiment will involve lowering a 6920 sonde in 1 foot increments until the bottom of the lake is detected leaving the sonde at each depth for 3 minutes to allow the sensor readings to stabilize while logging data continuously Thus the user will generate data over a 90 minute time period 30 increments times 3 minutes per increment If data were logged directly to sonde memory at the default 0 5 second sample interval a very large data file containing 5400 data points would be generated with little benefit gained from its size With this in mind the user decides to increase the sample interval to 16 seconds thus greatly reducing the amount of data in the file with no loss of real resolution As explained above the sample interval for logging to sonde memory is set in the Discrete sample menu of the sonde and thus the user MUST activate the 650 Run display indirectly using the 6502. Follow the prompts on this screen to prepare your 600XLM 6600 6920 or 600 OMS battery version sonde for unattended deployment as described below e Verify that the current time and date are correct to ensure that your unattended sampling study begins and ends when you desire To verify correct the time and date return to the Main menu and enter 4 Status or 5 System You may enter the correct date and time from either of these submenus e Select 1 Interval and enter the desired time between samples Use the 24 hour clock format to enter interval e Select 2 Start Date and 3 Start Time to set the time that data will begin to log to sonde memory If you do not make any change to these entries then the study will automatically begin at the next integral time interval once you have pressed C Start logging Example If the current time is 17 20 00 and your sample interval is 15 minutes logging will automatically begin at 17 30 00 It is better to start the study prior to taking the unit to the field so that you can confirm that readings are being saved to memory and carry out initial quality assurance measurements However if your study demands that you start the instrument at the site at 6 00 PM change the Start Time to 18 00 00 e Select 4 Duration and set the length of the study in days The default value is 365 days which is longer than most deployments In most cases you will either want to stop the unattended study manua
3. N 0 0 000 E 0 0 000 Configure 743 1mmHg Configure Enter info Filename WEST then chose OK OK rSite description B A 06 07 2000 15 34 41 Enter info Filename WEST rSite description GoD 0 0 000 E 0 0 000 06707 2000 15 35 32 M iH then chose OK Run 650 00 080 TARIM cc C E EE IBLUE LAKE Configure N 0 0 000 E 0 0 000 06 07 2000 15 36 40 743 0mmig A Nine N 0 0 000 E 0 0 000 14 88 S onde sR OU Sa ie Log one sample Oc Start logging Clean optics 07 12 2001 mpy 5o s c 1 ases 0 0 001 rs Configure YSI Incorporated 06 07 2000 15 37 40 743 0mmHg D0 A ni N 0 0 000 E 0 0 000 07 12 2001 09 16 27 fa O Volt 739 7mmig emm Drinking Water Monitoring Systems Operations Manual 3 34 650 MDS Section 3 Using the arrow keys the Filename window is highlighted the user presses the Enter key and then inputs the file name in this case WEST from the keypad as shown above A site name BLUE LAKE is then entered from the keypad by highlighting the Site description window and proceeding as for the File name Pressing Enter confirms the Site entry The user then highlig
4. No interaction with the sonde occurs when pressing Sonde run or Sonde menu from the 650 menu Make certain that a the cable is connected properly between sonde and 650 and b that Sonde power is activated in the 650 System setup menu Instrument software appears to be locked up as evidenced by no response to keypad entries or display not changing First attempt to reset the instrument by simply turning off and then on again If this fails remove battery power from the instrument for 30 seconds and then reapply power When using C cells remove the battery lid and one of the batteries when using the rechargeable battery pack remove the pack completely from the instrument After 30 seconds replace the battery or battery pack and check for instrument function Upload of files to 650 from sonde fails 1 Make sure that cable is connected properly to both 650 and sonde 2 Make certain that you are accessing the upload routine from the sonde File menu and NOT from the 650 File menu Upload of files from 650 to PC fails 1 Make sure that cable is connected properly to both 650 and PC 2 Make certain that the proper Comm port is selected in EcoWatch for Windows GPS and or barometer data is not stored with sonde data file Make sure Store barometer and Store Lat and Long are active in 650 Logging setup menu Site Designations in the Site List are grayed out and not available for appending f
5. Mm Nitty Note that the data from two sites is identified by the Site Number attached to each data record To index these numbers to the appropriate locations the user must consult the Site list by activating Edit site list from the 650 Logging setup menu The correlation between site names and numbers is found here indicating that Site 1 is WEST and Site 2 is EAST YSI Incorporated Drinking Water Monitoring Systems Operations Manual site list name Site Num 2 0 to move a site insert a site delete a site Tip Leave blank to use the same filename as the previous site N 0 0 000 E 0 0 000 07711 2001 15 17 50 A zas sanii 3 42 650 MDS Section 3 This file will remain in 650 memory so that you can return to each location at a future time and log more data to the Site designations WEST and EAST The key for this site list setup is that all data logged will be stored in the same file BLUELAKE under different Site Numbers for each location 1 for WEST and 2 for EAST NOTE CAREFULLY The same limitation noted above applies for appending the file BLUELAKE with additional data from these or other sites the logging setup sonde parameters barometer GPS must be identical to that for the initially stored data If there has been a change in setup the Site Designation will be grayed out in the Site List indicating a parameter mismatch 3 5 3 4 EDITING YOUR SITE LIST The 650 so
6. Date amp time setup E 4 4 digit year 2 d m y 5 Date 08 11 98 3 y m al 6 Time 11 12 30 Select option 0 for previous menu Select 4 Instrument ID from the System setup menu to record the instrument ID number usually the instrument serial number and press Enter A prompt will appear which will allow you to type in the serial number of your sonde This will make sure that any data that is collected is associated with a particular sonde Note that the selection 5 Circuit Board SN shows the serial number of the PCB that is resident in your sonde not the entire system as for Instrument ID Unlike the Instrument ID the user cannot change the Circuit Board SN The 6 GLP filename and 7 SDI 12 address selections will be explained in Section 2 9 5 Press Esc or 0 to return to the System setup menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 21 Sondes Section 2 At the bottom of the menu choose the language you prefer for the sonde software For example press 7 English to use the sonde with English menus 1 Date amp time 2 Comm setup 3 Page length 25 4 Instrument ID YSI Sonde S5 Circuit Goare SNA 00003001 6 GLP filename 00003001 7 SDI 12 address 0 8 English 9 Fran ais A Deutsch Select option 0 for previous menu Then press Esc or 0 again to return to the Main menu Main 1 Run 5 System 2 Calibrate 6 Report SP a Le
7. it ob whee e ai Yy y YY 8 20 ma DUTPUTSg Relays Ja soldered to PCB 8 pin connectors 2 for 4 20 mA outputs Select a Location for the Drinking Water Sonde and the 6500 Process Monitor The sonde should be located as close as possible to a water tap and a drain to minimize the tubing required The 6500 should also be located as close as possible to the sonde to minimize cable cost and must be within 250 feet 75 m in order to assure proper communication between the sonde and the 6500 YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 2 Using Your DW Sonde with a 6500 Process Monitor Appendix G Mount the 6500 to a Wall Attach the two mounting brackets supplied with the 6500 to the back of the monitor as shown in the picture below left Then attach the monitor to the wall with screws as shown in the picture below left Use anchors if necessary Mount the DW Sonde at the Monitoring Site There is no right or wrong way to mount the sonde at the deployment sites One typical method is to simply set the sonde on a bench or other flat surface near the water inlet and drain If a relatively large sink is present at the monitoring site then the sonde can simply be placed upright directly in the basin with the effluent hose discharging directly into the sink drain To prevent the sonde being inadvertently knocked over the son
8. Highlight the Sonde menu selection in the 650 Main menu and press Enter Then use the arrow keys to highlight the Calibration selection and press Enter YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 23 650 MDS 650 Main Menu Sonde run File Logging setup System setup N0 0 000 E 0 0 000 LK 06 01 2000 17 06 37 mmm Section 3 Main Run File Status System Report Sensor Advanced N 0 0 000 E 0 0 000 739 3mmlg 05 31 2000 15 56 06 Cmm Use the arrow keys to highlight the Dissolved Oxygen selection and press Enter Then Use the arrow keys to highlight the DO selection and press Enter Calibrate Conductivity ISE1 pH ISE2 Orp Turbidity Chlorophy11 N 0 0 000 E 0 0 000 739 1mmhg 05 31 2000 15 57 13 pmm DO calibration DO DO mg L N 0 0 000 E 0 0 000 739 2mmiig 05 31 2000 15 57 57 Use the 650 numeric entry keys and the right left arrow keys to enter the current local barometric pressure Then press the Enter key and observe the dissolved oxygen reading until stabilization occurs Make sure the Calibrate selection is highlighted in upper window NOTE The current barometric pressure as read by your 650 will automatically appear as the default value if your 650 is equipped with a barometer DO calibration Enter Barometric Pressure mmHg 73580 N 0 0 000 E 0 0 000 739 4mmAg re 05 31 2000 16 00 02 i
9. The Report menu allows you to configure all reports displayed by the sonde software You will be able to select which parameters and units of measure that are displayed during operation Select 6 Report from the sonde Main menu The following menu or a similar menu will be displayed The parameters listed depend on both the sensors available and enabled on your sonde Therefore your screen may not be identical to that shown below Select Report from the Main sonde menu to setup the report section The Report Setup menu will be displayed INSIOOIE SSC UO iL 5 Dace AOC 2 etime llagmgss B jolal SET Teme C C Jan my 4 SpCond uS cm D Os my S J CONE i _ PYAIRIL 6 Resist F PAR2 7 IDS G ruro el NANU 8 Sal ppt a Cal ug L 9 pree CZ i Pilweie STS Select option 0 for previous menu The asterisks that follow the numbers or letters indicate that the parameter will appear on all outputs and reports To turn a parameter on or off type the number or letter that corresponds to the parameter after Select option The parameters PAR1 and PAR are associated with a special sonde equipped with a sensor for Photosynthetically Active Radiation PAR which can be purchased from the YSI Massachusetts but is not likely to be useful in drinking water studies See Section 8 of this manual for contact information if you have questions about this sensor Note that t
10. greater than 500 mL per minute and is relatively constant However the varying flow conditions which exist directly in water storage tanks from completely stagnant to significant flow during filling and emptying operations will result in significant inaccuracies in the free chlorine data These errors could be up to 30 of the reading depending on the time of calibration in addition to the 0 15 mg L accuracy specification associated with the sensor when used in flowing water In addition if the chlorine content of the tank is stratified obtaining a representative sample for calibration my also be difficult and would result in an additional error component Users with tank applications should be prepared for levels of error significantly higher than those specified for flow cell applications if they suspend their drinking water sondes directly in storage tanks INTERFACING TO YSI DRINKING WATER SONDES What modes of operation can be used with the YSI Drinking Water Sondes As described below the YSI DW sondes are designed to operate in a variety of modes while acquiring long term continuous data e Stand alone In this mode the sonde is set up and calibrated off line except for free chlorine see below and then installed at the site in the appropriate flow cell with the sonde powered by internal batteries An Unattended study is then begun at a suitable interval usually 5 15 minutes and data is logged to internal memory for the
11. 4 Graph There may be one or more graphs depending upon how many parameters are selected Each graph may have one or two traces Data can be displayed either in graphs or in a table or both 5 Table Numbers arranged in rows and columns Data can be displayed either in graphs or in a table or both YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 1 EcoWatch for Windows 6 Page 7 Terminal window Sonde COM2 new dat office dat sample dat Data Files dat Z 9 PC6000 data file 9 Study 4 1 3 TUTORIAL Section 4 The Data Display Window can be divided in two pages a graph page and a table page A page becomes active when you click on it This is the window that is open to display the sonde s internal menu Allows the user to interact with the sonde or display logger The terminal window is a communication interface with another piece of equipment whereas the Data Display Window is direct interaction with the EcoWatch software ae E ecowwin Sy data A data file that is in a format compatible with EcoWatch for Windows or PC6000 software A single data file in PC6000 format This brief EcoWatch tutorial is to be used with the sample data file that is provided with EcoWatch YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 2 EcoWatch for Windows Section 4 EcoWatch starts without an open data file or DAT file When a data fi
12. The binary transfer option is for future YSI upgrades After transfer the file will be located in the C ECOWWIN DATA subdirectory of your PC hard drive 3 6 4 VIEW FILE The View file selection in the 650 File menu allows the user to examine the data in files logged or uploaded to 650 memory Highlight the View file selection and press Enter to display a list of files present Then highlight the file of interest and press Enter to view the data on the 650 display 650 File Filename Samples Bytes Directory PROFILE1 dat 179 9047 Upload to PC DEPLOY1 dat 8 668 File memory Delete all files N 0 0 000 E 0 0 000 742 1mmHg D N 0 0 000 E 0 0 000 739 0mmig 0 06 06 2000 17 56 23 me 07 12 2001 07 16 17 PROFILE1 Date Cond i m d y mm mS cm 0670472000 745 3 003 06 04 2000 003 06 04 2000 003 06 04 2000 003 06 04 2000 003 06 04 2000 003 06 04 2000 003 06 04 2000 003 06 04 2000 003 oo0oo0oo0o0000 N 0 0 000 E 0 0 000 ras puai z 06 05 2000 18 26 59 7mm YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 49 650 MDS Section 3 Use the arrow keys to scroll vertically to view more data points with regard to time or horizontally to view more sensor data within a particular data entry The vertical and horizontal scroll bars identify your location within the data file 3 6 5 FILE MEMORY The File memory selection in the 650 Fi
13. The free chlorine sensor operates on the same amperometric principles as the YSI Rapid Pulse dissolved oxygen sensor which is used in all YSI 6 series sondes designed for surface and ground water studies Basically the hypochlorous acid HOCI and hypochlorite ion OCT formed when gaseous chlorine is dissolved in water diffuses through a permeable membrane which covers the electrodes of the sensor The HOCI OCT is then reduced at the cathode of the sensor producing a current which is proportional to the amount of free chlorine present in the solution outside the membrane As the free chlorine is reduced at the cathode the silver anode is oxidized to silver chloride AgCl The electrochemistry of the chlorine sensor is carried out in a pulsed mode with the cathode polarized for only 1 100 of the time 40 mS and depolarized for 99 100 of the time 3960 mS in order to a use the existing Rapid Pulse DO circuitry and software b reduce the flow dependence of the free chlorine sensor and c minimize the deposition of AgCI on the anode the removal of which requires a maintenance protocol One major difference between the Rapid Pulse oxygen and chlorine sensors is that the reducing and hold potentials are set to much more positive values where chlorine is reduced but oxygen is not The second major difference is that a hydrophobic Teflon membrane is used to cover the electrodes of the dissolved oxygen sensor while a hydrophilic polyvinylid
14. Accurately weigh the remaining solid Divide the weight of the solid in grams by the volume of water used in liters to yield the TDS value in g L for this site Divide the TDS value in g L by the specific conductance of the water in mS cm to yield the conversion multiplier Be certain to use the correct units 6 Enter the determined constant into the sonde software from the AdvancedlSensor menu to view the correct TDS values from a computer sonde interface Sie CAUTION The default value 0 65 for conversion of specific conductance in mS cm to TDS in g L which is resident in the AdvancedlSensor menu of the software is only useful for a gross estimate of the TDS As noted above to attain any degree of accuracy for TDS the user must determine the conversion factor empirically Even then if the nature of the ionic species at the site changes during an unattended study or between sampling studies the TDS values will be in error It is important to recognize that generally speaking TDS cannot be calculated accurately from specific conductance unless the make up of the chemical species in the water remains constant NOTE EcoWatch for Windows contains a conversion factor of 0 65 for conversion of specific conductance in mS cm to TDS in g L However unlike the sonde software this constant cannot be varied in EcoWatch Thus to calculate TDS from data resident in an EcoWatch file the user should export the specific conductance readings to a s
15. Auto sleep SDI12 Activation of this feature enables the power savings system when communicating with the sonde in SDI 12 mode This is basically the same as item 5 above except that it is used in communication via the SDI 12 interface Also the sonde will sleep in about 100 milliseconds in the absence of communication rather that waiting one minute in the Auto sleep RS 232 mode YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 89 Sondes Section 2 7 Multi SDI12 Modifies the SDI12 protocol as follows 1 No SDI12 service request will be issued 2 Break commands will not cause a measurement reading to be aborted Normally you should leave this feature off 8 Full SDI12 Enabling this feature forces full SDI 12 specification in order to pass the NR Systems SDI 12 Verifier Disabling this feature will allow the unit to be more fault tolerant and will save some power We recommend that you leave this feature off 9 Sample and Hold This feature is designed to be activated ONLY for studies in which your drinking water sonde is attached to a YSI Process Monitor When Sample and Hold is active the 6500 display and the SCADA output of the 6500 becomes equivalent to the internal memory of the sonde while an Unattended study is running In the Unattended mode the sonde sleeps between periodic samples with the interval between samples defined by the user This method of operation results th
16. RS 232 to all sondes and for data transfer to PC and for software updates GPS via Y cable NMEA 0183 Standard Backlight Feature 4 LEDs illuminating LCD Keyboard 20 keys including Meter On Off Backlight On Off Enter Escape 10 Number Letter Entry Keys 2 Vertical arrow keys 2 Horizontal arrow keys 1 minus hyphen entry key 1 decimal point period YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 62 1 Data Display Window 2 Parameter EcoWatch for Windows Section 4 SECTION 4 ECOWATCH FOR WINDOWS 4 1 INTRODUCTION EcoWatch for Windows is intended to be the PC software interface to YSI s 6 Series environmental monitoring systems equipment From EcoWatch you can program field equipment upload data collected on the equipment and format the data in easy to understand graphs and tables 4 1 2 GLOSSARY These are a few of the more commonly used terms used in EcoWatch W EcoWatch SAMPLE DAT Eie Edt m Comm Ee Setup Window Bep CES SAMPLE DAT 4 Graph 6 Page j ae Trace 5 Table Term Definition 1 Data display window The window that appears when you open a DAT file 2 Parameter A measurement such as temperature dissolved oxygen pH etc Ona graph the data of a parameter is displayed as a trace 3 Trace The plot of the data of any one parameter There may be one or two traces per graph
17. Successful completion of the above list is essential for you to continue on to Section 3 3 which focuses on the custom setup of the 650 In subsequent sections you will learn about how to set up sonde menus via the 650 interface log data to both sonde and 650 memory and use the GPS and barometer features of the 650 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 1 650 MDS Section 3 3 2 1 UNPACKING Remove the instrument from the shipping box being careful not to discard any parts or supplies Use the packing list to ensure all items are included and inspect all assemblies and components for damage If any parts are damaged or missing contact your YSI representative immediately If you do not know which YSI dealer you obtained your YSI 650 from refer to Section 8 of your 6 series sonde manual for contact information The 650 is offered in four configurations 650 01 Low memory with no barometer 650 02 High memory with no barometer 650 03 Low memory with barometer 650 04 High memory with barometer All configurations include the 650 with hand strap and strain relief lanyard installed and the 655174 PC interface cable for use in data transfer to a PC and software updates from a PC Make certain that you have received these two items 650 itself and PC Interface Cable during the unpacking process The following optional accessories are offered for use with the 650 e 6113 Rechargeable Batte
18. To begin the calibration place the correct amount see Tables 1 5 of 0 NTU standard clear deionized or distilled water into the calibration cup provided with your sonde Immerse the sonde in the water Input the value 0 NTU at the prompt and press Enter The screen will display real time readings that will allow you to determine when the readings have stabilized Activate the wiper 1 2 times by pressing 3 Clean Optics as shown on the screen to remove any bubbles After stabilization is complete press Enter to confirm the first calibration and then as instructed press Enter to continue Dry the sonde carefully and then place the sonde in the second turbidity standard 100 NTU is suggested using the same container as for the O NTU standard Input the correct turbidity value in NTU press Enter and view the stabilization of the values on the screen in real time As above activate the wiper with the 3 key or manually rotate the sonde to remove bubbles After the readings have stabilized press Enter to confirm the calibration and then press Enter to return to the Calibrate menu NOTE CAREFULLY If you are calibrating a 6136 turbidity sensor you MUST use either a modified calibration cup arrangement or laboratory glassware with the probe guard installed for the calibration See YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 34 Sondes Section 2 section 2 6 1 above for details Failure to carry out the calib
19. change the Start Time to 18 00 00 Q Select 4 Duration and set the length of the study in days The default value is 365 days which is longer than most deployments In most cases you will either want to stop the unattended study manually or allow the batteries to be expended It is wise to set the duration to a value longer than the anticipated deployment If you cannot retrieve the sonde at the expected time due to factors beyond your control such as weather or illness data will continue to be acquired as long as battery power is present Q Select 5 File and enter a name of no more than 8 characters that will be used by your external computer to identify the study Be sure to use ONLY alpha numeric characters Q Select 6 Site and enter a site name of no more than 31 characters This filename will appear in your sonde file directory but will not be used to identify the file after transfer to your computer Q Check 7 Battery to make certain that the voltage is suitable for the length of the study that you are about to begin No change can be made to this item via the software YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 42 Sondes Section 2 Q Skip B View params to log in this initial test study This feature will be explained in detail in Section 2 9 Sonde Menu After making the above entries the sonde software will automatically calculate the expected battery life and the time it will take for the sonde
20. containing organisms mechanical rupturing of the collected cells and extraction of the chlorophyll from the disrupted cells into the organic solvent acetone The extract is then analyzed by either a spectrophotometric method using the known optical properties of chlorophyll or by high performance liquid chromatography HPLC This general method is detailed in Section 10200 H of Standard Method and has been shown to be accurate in multiple tests and applications as long as a competent laboratory analyst carries out the protocol The procedure is generally accepted for reporting in scientific literature The method is time consuming however and usually requires an experienced efficient analyst to generate consistently accurate and reproducible results It also does not lend itself readily to continuous monitoring of chlorophyll and thus phytoplankton since the collection of samples at reasonable time intervals e g every hour would be extremely tedious YSI has developed the YSI 6025 chlorophyll sensor for the determination of chlorophyll in spot sampling and continuous monitoring applications It is based on an alternative method for the measurement of chlorophyll which overcomes these disadvantages albeit with the potential loss of accuracy In this procedure chlorophyll is determined in vivo i e without disrupting the cells as in the extractive analysis The YSI 6025 chlorophyll sensor is designed for these in vivo applications and its use
21. dat 33 CLRLAKE2 dat 5 DWNLAKE2 dat 6 00003001 glp 1 View file 2 File 00003001 glp 3 Samples 39 4 Bytes 790 Pressing 1 View file will show the calibration record for the sonde An example is shown below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 76 Sondes m d y hh mm ss 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 08 23 2001 INTS 08 23 2001 08 23 2001 SSS SS SS SS SS Se Se ESE S S N 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 00003001 pH gain pH offset ORP of TDS consta Offset Turb Al su uibralomel Vials MORA Turb M Type CIZ Genma O10 0 01010 pH 7 K mV pH 7 K fFset mV Ikoig Ciel Ore Ss Cinale Cmi Chl Ch Fluor Offse C12 gain 1 103424 Value Conductivity gain 1 000000 nt t 009833 0 000000 0 000000 0 650000 0 000000 500 0000 500 0000 1000 000 1000 000 0 000000 100 0000 100 0000 200 0000 200 0000 0 000000 Section 2 The data in the display shows a new sonde Circuit Board 00003001 which has just had its free chlorine sensor calibrated Note that the initial values for all paramete
22. e Copy to Custom The Copy to Custom button is sometimes helpful in defining your own settings If there is a similar modem choose it from the list and then click Copy to Custom Choose Custom from the list and edit the settings It transfers all modem settings from the currently selected modem to the Custom modem so you can modify the setting later e Dialing If there is no entry for Phone Number then every time you choose an option that opens the COM port that connected to a modem EcoWatch will ask you for a phone number Timeout specifies how long in seconds EcoWatch will wait for the phone to answer Use the Dial option to select Tone or Pulse dialing YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 27 EcoWatch for Windows Section 4 Other Setup This is where you choose a default port for communicating with a sonde and default capture files for each sonde port This tab addresses several COM port settings not covered on the other two tabs Communication Settings e Default Capture File While communicating to a sonde in terminal mode using the Sonde command you may want to capture measurements to a file You may type in a default file name in the accompanying text box If you specify a file name here and select the Use on Capture check box then whenever you capture data the program will write to that file without first asking you to confirm If you specify a file but do not select the check box t
23. g a Z 234 E 206 ae ian 2717 T ARAA TRAR M EcoWatch SAMPLE DAT oix 2 i Eile Edit View Comm Realtime Graph Setup 6200 Appl Window Help 6 zo f xi i 0 a 2 E z i a G 1 ae ae ee SEE ES EB Or 11 2 X g ga SAMPLE DAT B g 22 78 r g 3119 R AEn 7717 Ad TAR g 2014 ya j 5 1916 28 amp 1818 EAA 1736 Ga A l ick y i I i y KEN ETT nara 1718 9147 NANA aman 740 r r 08110 qan 2717 NAAA ARAA E 08030 y j 3 07950 A 5 07870 134 S 07790 1656 Be tga nie Ad 1918 Wa NANA aman 148 0 7 B r E ii4 Aan 7717 NRAA IRAR 3 gg E i i 5 k i 50 24 gen naaa TATA ZEG NANA aman hiha VAD i ABBA ABR ott 0621 1993 06 22 1993 06 24 1993 06 25 1993 7362 DateTime M D Y 7210 see nied 1818 4 NANA aman 131 66 E 18072 For Help press F1 130 72 188 84 187 90 r 1 anna NAAA 151A 9147 NSA aman ree Si By 70 T T T T 1 NFN NGAA 1619 WAI nan awan 06 24 1993 06724 1993 06 24 1993 06 24 1993 06 25 1993 06 25 1993 DateTime M D Y For Help press F1 NUM To return to the full set of data again click on Graph then Cancel Limits If you desire a hard copy of any graph or table or even a subset expression as shown above you may use the Edit Copy command to copy the graph in the active window to the Clipboard You can then paste this graph to the Windows application program of your choice You may also be able to print graphs and tables as described in the next section
24. l _ 2 07711 2001 15 35 28 07711 2007 15 38 32 The two inserted entries can be moved either up or down in the list by highlighting them and pressing the Up or Down arrow key while holding down the Enter key or completely deleted by highlighting the entry and pressing the Left arrow key while holding down the Enter key as shown below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 43 650 MDS Section 3 Edit site list Fdit site list Site list Filename Site name Site Num i i name Site Num BLUELAKE WEST 1 1 BLUELAKE EAST BLUE LAKE BLUE LAKE or to move a site or to move a site to insert a site e to insert a site to delete a site to delete a site Tip Leave blank to use the same Tip Leave blank to use the same filename as the previous site filename as the previous site N0 0 000 E 0 0 000 736 9mmig 5 N0 0 000 E 0 0 000 737 at 07 11 2001 15 41 55 CME 07 11 2001 15 42 51 Am E Finally the user should be aware of a timesaving tip that is displayed when the Filename entry is highlighted The tip allows much easier generation of Multi Site Designations where the Filename is identical for several files To copy the Filename from the previous file to a new entry below simply highlight the new Filename block press Enter and then enter site names and site numbers
25. out of the drain under flow conditions e Turn on the water to the cell so that the flow is 500 1000 mL per minute minimum 500 mL min and allow water to flow through the cell for at least 1 hour before proceeding e Connect the drinking water sonde to the 6500 using a YSI 609X field cable Make sure that readings are displayed on the screen in real time e Activate the Sample and Hold feature of the software by pressing the Esc and Enter keys on the 6500 front panel simultaneously and then selecting the Setup sonde menu After activation of the feature use the arrow keys to set the sample interval e Observe the displayed free chlorine readings for 2 3 hours to assure that they are stable Then proceed with the calibration as described below e Collect a sample of water from the outlet hose of the flow cell and immediately analyze it for free chlorine using an independent method e g the DPD method with a YSI 9100 Photometer e Press the Cal key on the 6500 face plate and then select Free C12 Press Enter and then input the correct chlorine value in mg L as determined by the DPD test Press Enter and the calibration will occur automatically See the 6500 manual for additional details about the calibration procedure pH When selecting 4 ISE1 pH you will be given the choice of 1 point 2 point or 3 point calibrations YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 69 Sondes Section 2 Select the 1
26. you will be required to select which parameters you want to output to your SCADA via the 4 20 mA function and to enter the parameter values which correspond to the 4 mA and 20 mA values for each parameter To activate the menu section of the 6500 software press the Esc and Enter keys simultaneously to display the Main menu as shown below stem status Then highlight the 4 20 mA entry press Enter and follow the instructions in Section 3 3 4 of the 6500 manual until all 4 20 mA outputs have been activated and properly configured Press Esc to return to the Main menu Set Up Your Sonde Configuration and Calibrate Your Sensors Prior to attaching your DW sonde to the 6500 Monitor you will need to activate the proper sensors and report parameters and calibrate all of the sensors EXCEPT free chlorine The free chlorine sensor will be calibrated at a later time after installation in the flow cell at the site CAUTION Be certain that the free chlorine sensor is NOT present in the sonde bulkhead while calibrating the other sensors pH ORP Conductivity Turbidity etc Some of the calibration reagents may temporarily bias or damage the free chlorine electrodes which will then require reconditioning The setup and calibration processes can be accomplished by two different methods as described below e Interface of the 6 Series Sonde with the 6500 Monitor via the matching MS 8 connectors on the sonde cable and the 6500 enclosure To carry out t
27. 0 0 000 E 0 0 000 act N 0 0 000 E 0 0 000 740 3mmAg 06 01 2000 17 06 37 pmm 06 04 2000 12 57 53 mmm Use the arrow keys to highlight the Salinity selection and then press the Enter key to activate the parameter as shown by a dot in the open circle Note that the entire report list can be accessed by continuing to scroll the highlighting block down with the arrow key After activation of salinity in the Report setup of the sonde press the Escape key twice in succession to return to the Main sonde menu Report setup Report setup Date OResist Time hh mm ss TDS g L Temp C Osal ppt O OO OOOO O O SpCond uS cm DoOsat OCond DO mg L OResist ODOchrg TDS g L pH OpH my 000 E 0 0 000 740 2mmHg N 0 0 000 E 0 0 000 739 8mmHg o gt cmm 08704 2000 13 00 55 pm 7 05731 2000 15 24 48 cmm Example 2 Calibrating the Dissolved Oxygen Sensor NOTE In the following example it is assumed that the Autosleep RS232 function of your sonde has been disabled in the sonde AdvancedlSetup menu If Autosleep were active then the display would indicate a countdown of the DO warm up time and calibrate automatically at the end of this time period See Section 3 4 9 of this manual and Section 2 of your 6 series manual for more information on the Autosleep function Place the sonde in the calibration chamber with the dissolved oxygen probe in water saturated air
28. 0 100 Percent Full Scale FS Fluorescence Units ACCULACY eeseeeeee No specification provided Resolution 0 1 ug L Chl 0 1 FS Rhodamine WT Sensor type Optical fluorescence with mechanical cleaning Range eee 0 to 200 ug L Rhodamine WT ACCULACY eee 5 of the reading or 1 ug L whichever is greater Resolution 0 1 ug L Rhodamine WT Nitrate Nitrogen Sensor Type Ion selective electrode Range eee 0 200 mg L N ACCULACY sees 10 of reading or 2 mg L whichever is greater Resolution 0 001 mg L N to 1 mg L N range dependent Ammonium Nitrogen Sensor Type Ion selective electrode Range 0 200 mg L N ACCULACY eee 10 of reading or 2 mg L whichever is greater Resolution 0 001 mg L N to 1 mg L N range dependent Ammonia Nitrogen Sensor Type Calculated from ammonium pH and temperature Range 0 200 mg L N ACCULACY eee 10 of reading or 2 mg L whichever is greater Resolution 0 001 mg L N to 1 mg L N range dependent Chloride Sensor Type Solid state ion selective electrode Ran Ge iiir 0 1000 mg L ACCULACY sees 15 of reading or 5 mg L whichever is greater Resolution 0 001 mg L to 1 mg L range dependent SOFTWARE SPECIFICATIONS EcoWatch for Windows included IBM PC compatible computer with CD ROM drive and with a 386 processor or
29. 07 12 2001 07 59 28 As shown above enter the designation YSI 650 using the general instructions outlined above Start by pressing the numeric 9 key three times in rapid succession while viewing the characters on the display until a Y appears After the entry is complete pause and the cursor will automatically move to the next entry position Now press the numeric 7 four times in succession while viewing the characters on the display When an S appears pause and the cursor will move automatically to the next entry position Continue with the entries in this way until ID designation is complete If you make a mistake you can use the left arrow key to highlight the flawed entry and correct it When the entry is complete press Enter to confirm it Note that for this example where both alpha and numeric entries are appropriate the user must press the numeric 2 key 4 times in succession to generate the number 2 as opposed to the previous clock setting example where a single press of the numeric 2 key generated the number 2 After completing the above example press the Escape key repeatedly to return to the 650 Main menu and then proceed to the next section 3 2 9 CONNECTING TO A SONDE The primary use of the 650 is to interface with YSI 6 series sondes In this configuration you will be able to see data from the sond
30. 2 That parameter must be activated in the Report Setup menu described below Select Report from the Main menu A Report Setup menu similar to the one shown below will be displayed REVO meEES CLAW D OR mV E NH4 N mg I F NH4 N mv G NH3 N mg L H NO3 N mg I I NO3 N mv J CrS maL K CL my w uone NAU Select option 0 for previous menu Note that the exact appearance of this menu will vary depending upon the sensors that are available and enabled on your sonde The asterisks that follow the numbers or letters indicate that the parameter will appear on all outputs and reports To turn a parameter on or off type the number or letter that corresponds to the parameter Note also that since a 6026 turbidity probe was selected in the Sensor menu above the units of turbidity are presented as turbid NTU If a 6136 turbidity probe had been selected the units of turbidity would be presented as turbid NTU This new designation is designed to differentiate the data from the two sensors types in later analysis YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 23 Sondes Section 2 For parameters with multiple unit options such as temperature conductivity specific conductance resistivity and TDS a submenu will appear as shown below for temperature allowing selection of desired units for this parameter Selec
31. 2733 06283 210083M02 DAT prenime enon ner 310083M03 DAT NUM EXAMPLE OF CUSTOMIZING A SUBSET OF SAMPLE DAT To conclude this section we have used a few of the many tools available in EcoWatch to demonstrate how you might use this powerful plotting and reporting program to express study results We encourage you to try some of the tools and learn more about EcoWatch by using the Window s Help function which is available when the EcoWatch program is running Using SAMPLE DAT we decided that some of the data were not of particular interest so using top line menu item Setup then Parameters then Add Remove we removed ORP and Depth results from the data set Note that we have not deleted this information from the file but rather we are choosing not to display it You can always return to this function and add original data back Under the same Parameters function we have selected Attributes and changed the Average Interval from the default 0 to 60 Since data was collected every 15 minutes the change to a 60 minute interval helps to smooth out the graph and average out any short term noise events Next we again select Setup then Graph From the functions available we first selected Title Page and typed in a name Clear Lake Study 2 and below that we typed the parameters that are shown in the graph Just below Title Page we clicked on 2 Traces per Graph This combines adjacent parameters which is sometimes useful in para
32. Data with Right Button Mouse Function M EcoWatch SAMPLE DAT ox Eile Edit View Comm Realtime Graph Setup 6200 Appl Window Help 8 xi al aan SAMPLE DAT wu 2 ee if L ant SADIE DE Pile Es A r FEN Eile Edit View Comm Realtime Graph Setup 6200 Appl Window Help le uii xl E 0 n ESCs PEE 5 0 9 010 wi SAMPLE DAT So 94 g 2u 5 if 21 27 38 4 S 38 Bal E 6 3 3 a 7717 E ire ai 188 filial 9719 NRSA IERA Ante nann rbd o so5 2 323 7410 034 Pri _ 016 z tied A oaii 9919 nid 15 ah nna nenn B Iia 10 89 E 4 4480 5 8 a aha 2717 o 2 i 02 g 4 aan 2717 find IFRA nne nann 5 g4 752 z id 34 p54 eoe 49 20 9749 34 i 06 21 1993 06 22 19 A KEET 49 nAAa TRA ANA nann 189 E 7 B12 For Help press F1 S 1988 1 i E REN 2717 npr IARA NNA nann 4 912 N Fo ee 5 4 06722 1993 06 24 1993 0625 1993 06 27 1993 06 28 1993 6 25 1993 16 45 44 DateTime M D Y T For Help press F1 NUM CHANGING DISPLAY FORMATS USING SETUP Beyond selecting data viewing options such as table format or graphical format you may also customize your data displays For example you may change the order in which parameters are viewed you may add and delete parameters you may change plot appearance using different interval times and different units and you may change the x axis if you prefer a parameter other than date or time The Top Line menu s
33. FERRITE BEAD INSTALLATION 3 57 3 13 SAFETY CONSIDERATIONS 3 58 3 14 650 MDS SPECIFICATIONS 3 61 SECTION 4 ECOWATCH FOR WINDOWS 4 1 INTRODUCTION 4 1 4 2 DATA ACQUISITION AND ANALYSIS 4 7 4 3 ECOWATCH MENU 4 12 SECTION 5 PRINCIPLES OF OPERATION 5 1 CONDUCTIVITY 5 1 5 2 SALINITY 5 2 5 3 TOTAL DISSOLVED SOLIDS TDS 5 2 5 4 OXIDATION REDUCTION POTENTIAL ORP 5 3 5 5 pH 5 4 5 6 TEMPERATURE 5 5 5 7 FREE CHLORINE 5 5 5 8 NITRATE 5 9 5 9 AMMONIUM AND AMMONIA 5 10 5 10 CHLORIDE 5 12 5 11 TURBIDITY 5 14 5 12 CHLOROPHYLL 5 16 5 13 RHODAMINE WT 5 23 SECTION 6 TROUBLE SHOOTING 6 1 CALIBRATION ERRORS 6 2 SONDE COMMUNICATION PROBLEMS 6 3 SENSOR PERFORMANCE PROBLEMS SECTION 7 COMMUNICATION 7 1 OVERVIEW 7 2 HARDWARE INTERFACE 7 3 RS 232 INTERFACE 7 4 SDI 12 INTERFACE SECTION 8 WARRANTY AND SERVICE INFORMATION 8 1 LIMITATIONS OF WARRANTY 8 2 AUTHORIZED SERVICE CENTERS 8 3 CLEANING INSTRUCTIONS APPENDIX A HEALTH AND SAFETY APPENDIX B REQUIRED NOTICE APPENDIX C ACCESSORIES AND CALIBRATION STANDARDS APPENDIX D EMC PERFORMANCE APPENDIX E SPECIFICATIONS APPENDIX F QUICK START GUIDE TO DRINKING WATER APPLICATIONS APPENDIX G USING YOUR DW SONDE WITH A YSI 6500 PROCESS MONITOR APPENDIX H FREQUENTLY ASKED QUESTION ABOUT DW SYSTEMS 6 1 6 2 6 3 7 1 7 1 7 2 7 2 8 1 8 2 8 2 B 1 C 1 D 1 E 1 F 1 G 1 H 1 Introduction Section 1 SECTION 1 INTRODUCTION 1 1 ABOUT YSI INCORPORATED From a three man partnership
34. I S ENSOT 4 Status 8 Advanced Select option 0 for previous menu ENABLING SENSORS To activate the sensors that are in your sonde select Sensor from the Sonde Main menu Sensors enabled i Cs B Gs Time Temperature 3 7 Coimelnciesivahiey A x2 eee CALA 5 ISE1 pH ISE2 Orp E3 NH4 G E4 NO3 Q E5 NONE Ae orehi 0026 6 7 T I Select option 0 for previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 22 Sondes Section 2 Note that the exact appearance of this menu will vary depending upon the sensors that are available on your sonde Enter the corresponding number to enable the sensors that are installed on your sonde An asterisk indicates that the sensor is enabled When selecting any of the ISE or Optical ports a submenu will appear When this occurs make a selection so that the sensor corresponds to the port in which the sensor is physically installed Only ORP can be enabled as ISE2 Optic T and Optic C generate a submenu on selection Each optical port can have one of four probes 6026 turbidity 6136 turbidity chlorophyll or rhodamine WT installed as indicated by the submenus After all installed sensors have been enabled press Esc or 0 to return to the Main Menu ENABLING PARAMETERS In order for a specific parameter to be displayed 1 The sensor must first be enabled as described above
35. MDS Section 3 Once these conditions are met follow the instructions in Section 3 5 3 above for logging of sonde sensor readings to 650 memory The GPS readings will automatically be added to the file at the sample interval selected for the sonde readings GPS readings stored in 650 memory will remain as part of the sensor data file that can be viewed from the 650 display and or uploaded with the data file for analysis in EcoWatch for Windows Latitude and longitude are however displayed somewhat differently by the 650 and EcoWatch as noted below e For both display formats the GPS are indexed relative to the point where the Greenwich Mean Time line crosses the equator e For the 650 Status Bar readings are displayed in degrees and then decimal minutes relative to this point with actual N north S south E east and W west designations relative to the index point e When analyzing data in EcoWatch the user will have the choice of two formats decimal degrees e g 47 5400 degrees or degrees decimal minutes e g 47 32 400 For EcoWatch alpha directional characters N S E and W are NOT used Instead points north and east of the index point are designated as positive while points south and west are designated as negative These criteria mean that the GPS coordinates of Yellow Springs Ohio USA are approximately 39 47 33 latitude and 83 54 13 longitude
36. Make certain that Wipe Int is set to some finite value prior to setting up an Unattended study or no automatic cleaning will occur SDI12 M Wipe 1 This is the number of wiping cycles when the sonde is in SDI12 mode The wiper for the 6026 and 6136 turbidity 6025 chlorophyll and 6130 rhodamine WT sensors will automatically wipe each time this many SDI12 M commands have been issued If this value is set to zero then no automatic wiping will occur This item will only appear if a turbidity chlorophyll or rhodamine WT sensor is enabled in the Sensors menu Turb temp co C 0 3 This entry sets the coefficient for the temperature compensation of turbidity readings from the 6026 and 6136 sensors The default values of 0 3 6026 and 0 6 6136 should not be changed by the user without consulting YSI Customer Service This item will only appear if a turbidity sensor is enabled in the Sensor menu Turb Spike Filter When this item is activated the output of the turbidity sensor is mathematically processed to minimize the effect of unusual or bad readings on the overall data presentation In most cases these spike events are the result of the chance passage of large suspended particles across the probe optics just at the time a reading is taken Activation of this option generally results in a better display of the average turbidity of the water under examination and its use is recommended for most sampling and unattended
37. OFNHI 4 Time MMDD Y Y 5 Print Your Graph To print the graph open the File menu choose Print Setup or Print to choose exactly how the print should look YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 6 EcoWatch for Windows Section 4 4 2 DATA ACQUISTION AND ANALYSIS 4 2 1 CONNECT A YSI SONDE OR A 650 DISPLAY LOGGER EcoWatch may be used with various sondes or display loggers To utilize the configuration that will work best for your application make sure that you have all of the components that are necessary Sonde to Lab Computer Power Supply 6037 220 VAC 6038 110 VAC MS 8 Field Cable gt You will need LI Sonde Q Field Cable Q Computer with Com Port Q 6095B MS 8 DB 9 Adapter L Power Supply Not required if you use sonde battery power 650 MDS to Lab Computer You will need 650 C 655174 PC Interface e 650 Cable e YSI655174 z PC interface pi cable yO p e PC with p p P active serial N Ds a se 4 port PC Serial port _ gt DE 9 YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 7 EcoWatch for Windows Section 4 A sonde or 650 display logger must be connected to one of the serial communication ports on the back of your PC These ports are usually referred to as COM1 COM2 etc Most computers have at least two COM ports but they are o
38. Optie aOR Chlorophyll OQjoiese W oie Rhodamine Select option 0 for previous menu Any available optical probe can be installed in any optical port on YSI 6 series sondes The single optical port in the 6920DW will be designated Optic T in the software even though the port is not physically labeled with a T on the bulkhead 2 9 8 ADVANCED From the Sonde Main menu select 8 Advanced to display the sensor calibration constants additional setup options sensor coefficients and constants and digital filtering options The parameters listed depend on both the sensors installed and the sensors enabled therefore your screen may not be identical to those shown below Advanced 1 Cal constants 2 Setup 23 Sensor A Deca kileter Select option 0 for previous menu Select 1 Cal constants to display the calibration constants as shown in the following example Note that values only appear for the enabled sensors Cal constants domes B NO3 A 2 543 2 C12 gain 1 3048 CC JES SMW OLE SSTL O Dae S3 0 195 AT PHR Ossie Sine BC ell Ase 545 Hola gains 5 lt WS8Ss T Tturo OnziEsiSie 90 GNM weSil Z G iibuels JALg SOW Fae S30 195 ebay Mile2 5 010 8 NH4 A 1 092 f Turp ANA LOOC YSANOS de IY 5 Jods M23 LOO ASNO S30 195 Select option 0 for previous menu 0 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 87 Sondes Section 2
39. Port Q 6095B MS 8 DB 9 Adapter YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 3 Sondes Section 2 Sonde to 650 Display Logger O 650 MDS MS 8 Field Cable gt You will need s Sonde Field Cable U 650 MDS Display Logger Sonde YSI 650 operates on C cells or rechargeable batteries Sonde to 6500 Process Monitor You will need Sonde Field Cable 650 MDS Display Logger YSI 6500 operates on 90 230 V AC Power YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 4 Sondes Section 2 2 3 PREPARING THE SONDE FOR USE To prepare the sonde for calibration and operation you need to install probes sensors into the connectors on the sonde bulkhead In addition to probe installation you need to install a new membrane on the YSI 6572 Free Chlorine Probe It is highly recommended that you install the free chlorine membrane before installing the probe onto the bulkhead The next step is providing power for the sondes through batteries or AC and then connecting a cable The four steps necessary for getting your sonde ready for use are listed below Step 1 Installing the Free Chlorine Membrane Section 2 3 1 Step 2 Installing the Probes Section 2 3 2 Step 3 Supplying Power Section 2 3 3 Step4 Connecting a Cable Section 2 3 4 2 3 1 STEP 1 INSTALLING THE FREE CHLORINE PROBE MEMBRANE The 6572 Free Chlorine probe i
40. Rhodamine WT fresh sea or polluted water 5 to 45 C 40 to 60 C for sonde and all sensors except pH and pH ORP 20 to 60 C for pH and pH ORP sensors Polyurethane PVC Stainless Steel 2 9 inches 7 4 cm 18 25 inches 46 4 cm 3 74 pounds 1 7 kg with sensors RS 232C SDI 12 Drinking Water Monitoring Systems Operations Manual E 1 Specifications Appendix E Internal logging memory size 384 kilobytes 150 000 individual parameter readings Power 8 AA size Alkaline Batteries or External 12 VDC Battery Life Approximately 30 days at 20 C at 15 minute logging intervals a 40 second DO warm up time and turbidity chlorophyll or rhodamine WT active SENSOR SPECIFICATIONS The following are typical performance specifications for each sensor Specifications do not include drift Temperature Sensor Type Thermistor Range 5 to 45 C ACCULACY sees 0 15 C Resolution 0 01 C Conductivity Sensor Type 4 electrode cell with autoranging RANGE isic 0 to 100 mS cm ACCULACY eee 0 5 of reading 0 001 mS cm Resolution 0 001 mS cm to 0 1 mS cm range dependent Free Chlorine mg L Sensor Type Rapid Pulse Clark type polarographic Range eee 0 to 3 mg L ACCULACY eee 15 of the reading or 0 05 mg L whichever is greater to maintain accuracy specification flow must be at least 500 mL min and pH should not chang
41. Section 2 If Auto sleep is deactivated the sonde runs continuously no matter what sample interval has been selected Under these conditions the user retains manual control of the free chlorine calibration routine viewing the stabilization of the readings in real time and confirming the calibration with keyboard entries Q_sIf Auto sleep is activated the sonde will warm up the sensors for the period of time selected for the free chlorine sensor Under these conditions the user loses manual control of the free chlorine calibration routine Free chlorine will automatically calibrate after the selected time for warm up of the C12 sensor has expired In this mode of calibration you do not observe stabilization of the readings in real time but instead will observe a countdown of the warm up period followed by a message indicating that the free chlorine calibration is complete Only the calibration of free chlorine is affected by whether Auto sleep is on or off the user retains manual control of the calibration of all other parameters regardless of the Auto sleep setting Once a particular warm up time in seconds has been utilized in free chlorine calibration the length of that time should not be changed during a study A new calibration should be performed whenever the value of the warm up time is altered From the Main sonde menu select 2 Calibrate The Calibrate menu will be displayed Only the enabled parameter
42. Section 2 9 1 RUN EcoWatch Sonde COM1 File View Comm Realtime Appl Window Help el UERN 1 2 Calibrate 3 File 4 Status 8 Advanced Select option for previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 59 Sondes Section 2 2 9 1 RUN Select 1 Run from the Main menu to begin taking readings or to set verify the parameters required for a study There are two options in the Run menu Run setup 1 Discrete sample 2 Unattended sample Select option 0 for previous menu DISCRETE SAMPLING Discrete sampling is usually used in short term spot sampling applications when the user is present at the site and the unit is attached to a data logger or laptop PC It could be used in the vertical profiling of a lake or river where the user lowers the sonde incrementally into the water and data acquired for a few minutes at each depth In this section you will learn how to use the sonde menu structure to open and close files set the interval between samples start the sampling operation and log data to the internal memory of the sonde Select 1 Discrete sample from the Run menu The Discrete sample menu will be displayed Discrete sampl 1 Start sampling 2 Sample interval 4 3 File 4 Site 5 Open file Select option 0 for previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 60 Sondes Section 2 Select 1 Star
43. Springs Ohio for a copy of the document See Section 8 Warranty and Service Information for contact information YSI Incorporated Drinking Water Monitoring Systems Operations Manual D 1 EMC Performance Appendix D YSI Incorporated Drinking Water Monitoring Systems Operations Manual D 2 Specifications Appendix E APPENDIX E SPECIFICATIONS SONDE SPECIFICATIONS 600DW B SONDE Available Sensors Operating Environment Medium Temperature Storage Temperature Material Diameter Length Weight Computer Interface Internal logging memory size Power Battery Life 6920DW SONDE Available Sensors Operating Environment Medium Temperature Storage Temperature Material Diameter Length Weight Computer Interface YSI Incorporated Temperature Conductivity Free Chlorine pH and ORP fresh sea or polluted water 5 to 45 C 40 to 60 C for sonde and all sensors except pH and pH ORP 20 to 60 C for pH and pH ORP sensors PVC Stainless Steel 1 65 inches 4 2 cm 21 3 inches 54 1 cm with no depth 1 48 pounds 0 67 kg with batteries RS 232C SDI 12 384 kilobytes 150 000 individual parameter readings 4 C size Alkaline Batteries or External 12 VDC 25 to 30 days at 20 C with a 15 minute logging interval and a 40 second dissolved oxygen warm up Temperature Conductivity Free Chlorine pH ORP Ammonium Nitrate Chloride Turbidity or Chlorophyll or
44. Staoiliziigi 39 e After the warm up time is complete the readings just before and just after calibration are displayed When you press Enter the screen returns to the Free Chlorine Calibration menu 2 7 TAKING READINGS After you have 1 enabled the sensors 2 set the report to show the parameters that you want to see and 3 calibrated the sensors you are now ready to take readings There are two basic approaches to sampling Discrete and Unattended Using discrete sampling the sonde is connected via a communication cable to a PC or terminal The sampling frequency is likely to be rapid seconds in order to obtain a representative sampling as you move from site to site Readings will probably be logged to several different files Unattended sampling is normally done with sondes that have internal batteries as do the 6 00DW B and the 6920DW The sampling frequency is likely to be longer minutes A sonde is typically deployed for days or weeks at a time and readings will be logged to a single file The communication cable may be disconnected and internal battery power used to operate the sonde Alternatively the sonde may connect via SDI 12 communication to a data collection platform DCP Sondes without batteries need to be connected to an external power source for unattended sampling NOTE The 600DW B and 6920DW are designed around the long term continuous monitoring of drinking water if flow cell applications Thus for most s
45. This Turb Spike Filter is activated deactivated in the AdvancedlSensor menu Its capability is further described in Section 2 9 8 Advanced YSI recommends the use of this feature for all YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 15 Principles of Operation Section 5 unattended studies The user should determine from experience whether its activation is also appropriate for spot sampling studies at particular sites 5 12 CHLOROPHYLL INTRODUCTION Chlorophyll in various forms is bound within the living cells of algae phytoplankton and other plant matter found in environmental water Chlorophyll is a key biochemical component in the molecular apparatus that is responsible for photosynthesis the critical process in which the energy from sunlight is used to produce life sustaining oxygen In general the amount of chlorophyll in a collected water sample is used as a measure of the concentration of suspended phytoplankton the magnitude of which can significantly affect the overall quality of the water The use of the measurement of phytoplankton as an indicator of water quality is described in Section 10200 A of Standard Methods for the Examination of Water and Wastewater The classical method of determining the quantity of chlorophyll at a particular site is to collect a fairly large water sample and analyze it in the laboratory The procedure involves filtration of the sample to concentrate the chlorophyll
46. Turbidity is the measurement of the content of suspended solids cloudiness in water and is typically determined by shining a light beam into the sample solution and then measuring the light that is scattered off of the particles which are present For turbidity systems capable of field deployment the usual light source is a light emitting diode LED which produces radiation in the near infrared region of the spectrum The detector is usually a photodiode of high sensitivity The angle between the emitted and detected light varies usually between 90 and 180 degrees depending on the probe used The International Standards Organization ISO recommends the use of a light source with a wavelength between 830 and 890 nm and an angle of 90 degrees between the emitted and detected radiation ISO 7027 The turbidity system available as an option for use with the YSI sondes consists of a probe which conforms to the above ISO recommendations The output of the sonde turbidity sensor is processed via the sonde software to provide readings in nephelometric turbidity units NTUs The 6136 turbidity probe is available for use with YSI sondes The probe is equipped with a mechanical wiper to periodically clean the sensor either by manual or automatic activation These wiper systems make the probe ideal for long term monitoring While drinking water is very clean relative to surface water it is important to remember that optical measurements drinking water c
47. When the probe is immersed in water a potential is established across the membrane that depends on the relative amounts of ammonium in the sample and the internal YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 10 Principles of Operation Section 5 filling solution This potential is read relative to the reference electrode of the sonde pH probe As for all ISEs there is a linear relationship between the logarithm of the ammonium activity or concentration in dilute solution and the observed voltage The Nernst equation describes this relationship Under ideal conditions the Nernst equation predicts a response of 59 mV for every 10 fold rise in ammonium activity at 25 C In practice however empirical calibration of the electrode is necessary to establish an accurate slope of the response Typical empirical slopes are 53 58 mV per decade for YSI sensors This slope value is determined by calibration with two solutions of known ammonium concentration typically 1 mg L and 100 mg L NH N The slope of the plot of log ammonium vs voltage is also a function of temperature The slope changes by a factor that is the ratio of the absolute temperature of calibration to absolute temperature of measurement The point where this new plot of log ammonium vs voltage intersects the calibration plot is called the isopotential point that is the ammonium concentration at which changes in temperature cause no change in voltage Ou
48. YSI determines to be covered by this warranty To exercise this warranty write or call your local YSI representative or contact YSI Customer Service in Yellow Springs Ohio Send the product and proof of purchase transportation prepaid to the Authorized Service Center selected by YSI Repair or replacement will be made and the product returned transportation prepaid Repaired or replaced products are warranted for the balance of the original warranty period or at least 90 days from date of repair or replacement 8 1 LIMITATION OF WARRANTY This Warranty does not apply to any YSI product damage or failure caused by i failure to install operate or use the product in accordance with YSI s written instructions i1 abuse or misuse of the product iii failure to maintain the product in accordance with YSI s written instructions or standard industry procedure iv any improper repairs to the product v use by you of defective or improper components or parts in servicing or repairing the product or vi modification of the product in any way not expressly authorized by YSI THIS WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE YSI s LIABILITY UNDER THIS WARRANTY IS LIMITED TO REPAIR OR REPLACEMENT OF THE PRODUCT AND THIS SHALL BE YOUR SOLE AND EXCLUSIVE REMEDY FOR ANY DEFECTIVE PRODUCT COVERED BY THIS WARRANTY IN NO EVENT SHALL YSI BE LIAB
49. a direction parallel to the platinum electrode located between the two silver electrodes The motion is similar to that used in striking a match Usually 10 15 strokes of the sanding disk are sufficient to remove black deposits on the silver electrodes However in extreme cases more sanding may be required to regenerate the original silver surface After completing the sanding procedure repeatedly rinse the probe face with clean water and wipe with lens cleaning tissue to remove any grit left by the sanding disk After cleaning thoroughly rinse the entire tip of the probe with distilled or deionized water and install a new membrane IMPORTANT Be sure to 1 Use only the fine sanding disks provided in the 6035 maintenance kit in the resurfacing operation and 2 Sand in a direction parallel to the platinum electrode Not adhering to either of these instructions can seriously damage the electrodes NOTE If this procedure is unsuccessful as indicated by improper probe performance it may be necessary to return the probe to an authorized service center See Section 8 Warranty and Service Information for contact information 6560 CONDUCTIVITY TEMPERATURE PROBES The openings that allow fluid access to the conductivity electrodes must be cleaned regularly The small cleaning brush included in the 6570 Maintenance Kit is ideal for this purpose Dip the brush in clean water and insert it into each hole 15 20 times In the event that deposit
50. above since alpha characters are inappropriate for this entry only numeric entry is possible Highlight the Time selection and press Enter Repeat the process described above for the Date to enter your correct local time using the military format For example 2 00 PM must be entered as 14 00 Finally press the Escape key to return to the System setup menu Now highlight the Instrument ID selection and press Enter The following display will appear YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 14 650 MDS Section 3 System setup Version 1 07 06 21 2001 Date amp time MPower sonde Baud rate to sonde 9600 Shut off time minutes 0 LlComma radix ee Circuit board SN 00006011 N 0 0 000 E 0 0 000 733i 07 12 2001 07 56 50 Omm System setup System setup System setup Version 1 07 06 21 2001 Version 1 07 06 21 2001 Version 1 07 06 21 2001 Date amp time Date amp time Date amp time MPower sonde MPower sonde MPower sonde Baud rate to sonde 9600 Baud rate to sonde 9600 Baud rate to sonde 9600 Shut off time minutes 0 Shut off time minutes 0 Shut off time minutes 0 Comma radix Comma radix Comma radix 1D ID SI 650 1D S a Circuit board SN 00006011 Circuit board SN 00006011 Circuit board SN 00006011 N 0 0 000 E 0 0 000 LE N 0 0 000 E 0 0 000 739 1mmhg N 0 0 000 E 0 0 000 m 07 12 2001 08 05 14 g 07 12 2001 08 06 58 BC I
51. accept the default press Enter A real time display will appear on the screen Carefully observe the stabilization of the readings of the parameter that is being calibrated When the readings have been stable for approximately 30 seconds press Enter to accept the calibration The calibrated value is bolded on the example screen on the following page 5 Press Enter to return to the Calibrate menu and proceed to the next calibration CALIBRATION EXAMPLE The example below for calibration of specific conductance is designed to demonstrate the general calibration protocol for all parameters From the Calibrate menu press 1 Conductivity and the following display will be shown Cond calibration lS Ome Ze COmel 3 Salinity Select option 0 for previous menu Select 1 SpCond the generally recommended method for calibration of a conductivity sensor the following prompt will appear which calls for your numerical input Hacer SpCone ta mS cm L0 s As noted above the number in parentheses is the default value of this parameter and will be used in the calibration if only Enter is pressed without typing in another value Similar prompts will be displayed during the calibration of all parameters but for some sensors such as pH no default values are provided In these cases the user must input a numerical value and then press Enter After the calibration value is input and Enter is pressed a real time display similar
52. after the selected warm up time This method is described in greater detail below 2 Applications where the sonde is attached to a YSI 6500 Process Monitor utilizing the Sample and Hold feature of the sonde software For this mode of operation first activate the Sample and Hold feature from the Setup sonde menu of the 6500 Press the Esc and Enter keys of the 6500 front panel simultaneously to access this menu Then select the desired interval for data to be sent to the 6500 Exit to the main display mode of the 6500 by pressing the Esc key repetitively and then press the Cal key on the 6500 front panel Highlight the free chlorine sensor entry enter the value from the DPD analysis of the effluent and press Enter Then press Enter again to confirm the calibration See Section 4 of the 6500 manual for detailed calibration instructions 3 Applications where the sonde is attached to a YSI 6500 Process Monitor and is outputting data continuously to the 6500 For this mode of operation access the Sonde setup menu of the 6500 as described above and make certain that the Sample and Hold feature is INACTIVE Then exit to the main display mode of the 6500 by pressing the Esc key repetitively and press the Cal key on the 6500 front panel Highlight the free chlorine sensor entry enter the value from the DPD analysis of the effluent and press Enter Observe the free chlorine readings in real time and when stable press the Enter key to confirm the calibrati
53. allows the facile collection of large quantities of chlorophyll data in either spot sampling or continuous monitoring applications It is important to remember however that the results of in vivo analysis will not be as accurate as those from the certified extractive analysis procedure The limitations of the in vivo method are outlined below and should be carefully considered before making chlorophyll determinations with your YSI sonde and sensor Some of the sources of inaccuracy can be minimized by combining the data from the YSI 6025 with data from extractive analysis of a few samples acquired during a sampling or monitoring study However the in vivo studies will never replace the standard procedure Rather the estimates of chlorophyll concentration from the easy to use YSI chlorophyll system are designed to complement the more accurate but more difficult to obtain results from more traditional methods of chlorophyll determination MEASUREMENT OF CHLOROPHYLL N VIVO One key characteristic of chlorophyll is that it fluoresces that is when irradiated with light of a particular wavelength it emits light of a higher wavelength or lower energy The ability of chlorophyll to fluoresce YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 16 Principles of Operation Section 5 is the basis for all commercial fluorometers capable of measuring the analyte in vivo Fluorometers of this type have been in use for some time Thes
54. appear on the screen and will change with time as they stabilize Observe the readings under Specific Conductance or Conductivity and when they show no significant change for approximately 30 seconds press Enter The screen will indicate that the calibration has been accepted and prompt you to press Enter again to return to the Calibrate menu Rinse the sonde in tap or purified water and dry the sonde NOTE The YSI conductivity system is very linear over its entire 0 100 mS cm range Therefore it is usually not necessary to use calibration solutions other than the 10 mS cm reagent recommended above for all environmental applications from low conductivity freshwater to seawater YSI does offer the 3161 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 31 Sondes Section 2 1 mS cm and 3165 100 mS cm conductivity standards for users who want to assure maximum accuracy at the high and low ends of the sensor range Users of the 1 mS cm standard should be particularly careful to avoid contamination of the reagent In fact because of contamination issues YSI does not recommend using standards less than 1 mS cm For example pH 2 POINT Using the correct amount of pH 7 buffer standard see Tables 1 4 in a clean dry or pre rinsed calibration cup carefully immerse the probe end of the sonde into the solution Allow at least 1 minute for temperature equilibration before proceeding From the Calibrate menu select ISE1
55. are uncorrected An approximate formula for this uncorrection where the BP readings MUST be in mm Hg is True BP Corrected BP 2 5 Local Altitude 100 Overall the key point to remember in calibration of your barometer is to make certain that your standard reading is correct If the standard is not accurate you are likely to do more harm than good with your user calibration 3 9 3 CHANGING BAROMETER UNITS The 650 offers the user a choice of six commonly used units of barometric pressure which can be displayed in the Status Bar When received from the factory the 650 will show values in mm Hg If the user wants to change to other units the selection is found in the 650 System setup menu as shown below Highlight the selection and press Enter to show the possible units Then highlight the unit of choice and press Enter to activate it The barometer reading in the Status Bar will automatically change to the newly selected unit System setup Barometer units Power sonde OmmHg aud rate to sonde 9600 OinHg hut off time minutes 0 Comma radix OPsi ID YSI 650 OAtm Circuit board SN 00006011 OKPa Barometer units eae barometer 0 0 000 E 0 0 000 LE 0 0 000 E 0 0 000 Ur amp 07 12 2004 07 44 13 07712 2001 07 44 51 3 9 4 LOGGING BAROMETER READINGS To log barometric pressure readings with the 650 the following conditions simil
56. as pH sensors Be sure to allow plenty of time for the readings to come to their final values during all calibration routines 3 Ion selective electrodes generally drift more than pH sensors To check for this drift place the sonde in one of your standards at the end of each deployment 4 Nitrate standards are good growth media for a variety of organisms This growth can significantly reduce the nitrogen content of your standards an effect that is particularly important for the 1 mg L solution It is best to use new standards for each deployment but if you decide to save your solutions for reuse we recommend refrigerated storage to minimize the growth of these organisms 5 Remember that the nitrate sensor will take longer to stabilize after exposure to pH buffers To accelerate this process soak the sensor in 100 mg L standard for a few minutes after performing a pH calibration In addition be particularly careful that readings are stable during nitrate calibration after exposure to buffers CAUTION The nitrate membrane module is for use only at depths less than 50 feet 15 2 meters Use of the probe at greater depths is likely to permanently damage the sensor 5 09 AMMONIUM AND AMMONIA The sonde ammonium probe employs a silver silver chloride Ag AgCl wire electrode in a custom filling solution Nonactin membrane separates the internal solution from the sample medium and this membrane selectively interacts with ammonium ions
57. at cold temperatures is much more stable than the dilute solution stored at room temperature EFFECT OF TURBIDITY ON RHODAMINE WT READINGS As described above the filters in front of the photodiode in the YSI 6130 rhodamine probe prevent most of the green light which is used to excite the rhodamine molecules from reaching the detector after being backscattered off of non fluorescent particles turbidity in environmental water However the filter system is not perfect and a minor interference on rhodamine WT readings from suspended solids may result Laboratory experiments indicate that a suspension of typical soil measured with a YSI 6026 sensor will have turbidity interference characterized by a factor of about 0 03 ug L per NTU For example the turbidity of the water must be above 100 NTU to produce an apparent rhodamine WT reading equal to 3 ug L In very cloudy water the user may wish to use the independently determined turbidity value and the above compensation factor to correct measured chlorophyll values using for example a spreadsheet EFFECT OF CHLOROPHYLL ON RHODAMINE WT READINGS While the green LED used in the rhodamine WT sensor is not ideal for excitation of the chlorophyll in phytoplankton some fluorescence of environmental chlorophyll will always be induced by the rhodamine sensor Because the filter system for the rhodamine photodiode is not perfect in excluding chlorophyll fluorescence a minor interference on rhodamine WT read
58. better running Windows software Compatible with Windows 3 1 Windows 95 Windows 98 Windows ME Windows NT and Windows 2000 Minimum RAM requirement 4 megabytes YSI Incorporated Drinking Water Monitoring Systems Operations Manual E 3 Specifications Appendix E YSI Incorporated Drinking Water Monitoring Systems Operations Manual E 4 Quick Start Guide to Drinking Water Studies Appendix F APPENDIX F QUICK START GUIDE TO DRINKING WATER MONITORING Introduction This Quick Start guide is designed to allow users who are already familiar with the basic use of YSI 6 series sondes for surface or groundwater applications to get up and running quickly in drinking water applications Users who have not previously used 6 series sondes should carefully read the 6 series sonde manual supplied with the drinking water sondes prior to beginning any studies and only use this Quick Start guide after a thorough understanding of the use of the YSI multiparameter instruments has been gained Description of YSI Drinking Water DW Sondes The 6920DW and 600DW B drinking water sondes have many identical features to other YSI 6 series instruments as detailed below e They interface to computers the YSI 650 display logger the YSI 6500 process monitor and data collection platforms e They utilize the same cables e The calibration of all sensors other than free chlorine is carried out in the same way e Discrete Sampling and Unattended Sampling studies a
59. c 6 98pH EIA 87 Fin 0 002 1ps 0 2ntu 0 00sal 0 2 1 97 1007 12 3rvolr N 0 0 000 E 0 0 000 74 ommiig 06 01 2000 14 50 43 Omm SONDE The two windows at the top of the display give the capability of logging the displayed readings to either the 650 top left or the sonde top right memory and allow the user to activate the wiper on turbidity chlorophyll and rhodamine WT probes if they are present in the sonde Instructions for use of these windows are provided in subsequent sections of this manual Note also that there is a disk with rotating segments in the upper right corner of the display whose movement confirms that the 650 sonde interface is functional To return to the 650 Main menu press the Escape key CAUTION When using the 650 MDS in field applications which are in close proximity to communication towers and heavy industrial equipment or which involve very low humidity conditions the user may experience problems with logger function If possible the user should relocate the sampling site away from these potential sources of interference In most cases symptoms will involve instrument shutdown or display lockup These problems can usually be overcome by either simply pressing the on off key to reactivate the meter display or by resetting the instrument by removal of battery power as described in YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 16 650 MDS Section 3 Section 3 11 of th
60. calibration of all other sensors is complete install a membrane on the free chlorine sensor and activate it according to the detailed instructions found in Sections 2 3 and 2 6 1 of the DW sonde manual Then store the activated probe in tap water NOT deionized or distilled water until it can be installed in the sonde bulkhead After installation of the free chlorine probe in the sonde proceed to the next step Attach the DW Sonde to the 6500 Interface of the DW sonde to the 6500 Process Monitor will require a YSI field cable with a model number 609X where the X defines the cable length This cable must be purchased separately Attach the silver threaded end of the cable to the sonde by engaging the keys in the mating connectors and then turning the nut clockwise until fully engaged Then attach the other end of the cable MS 8 connector to the corresponding connector on the bottom of the 6500 To make the connection place the cable MS 8 connector over that of the 6500 and rotate the field cable connector until engagement occurs Then rotate the field cable connector approximately 1 quarter turn until it is fully engaged as evidenced by a click Observe Sonde Readings in Real Time on the 6500 Display After attaching the sonde to the 6500 you will hear a beep indicating proper interface and then sensor readings will appear on the display of the monitor To configure the display with regard to contrast number of parameter lines etc press t
61. chloride vs voltage intersects the calibration plot is called the isopotential point that is the chloride concentration at which changes in temperature cause no change in voltage Our experience with ISEs indicates that for best accuracy the isopotential point should be determined empirically To do so the user employs a third calibration point where the voltage of the lower concentration standard is determined at a temperature at least 10 C different from the first two calibration points The slope offset and isopotential point drift slowly and the probe should be recalibrated periodically All ion selective electrodes are subject to the interaction of species with the sensor membrane which are similar in nature to the analyte These interfering species thus include other halide ions fluoride bromide and iodide as well as other anions Despite the potential problems with interference when using ISEs it is important to remember that almost all interfering species produce an artificially high chloride reading Thus if the sonde indicates the presence of only small quantities of chloride it is unlikely that the reading is erroneously low because of interference Unusually high chloride readings which could be due to interfering ions should be confirmed by laboratory analysis after collection of water samples Of all the sensors available on the sonde ion selective electrodes have the greatest tendency to exhibit calibration drift over t
62. collected from a 6 Series sonde EcoWatch includes a Windows Help section for convenient reference that describes all of the software s features This section of the manual describes the most commonly used functions of the program and Section 4 EcoWatch for Windows is a detailed manual for EcoWatch software For the purposes of describing and demonstrating EcoWatch plotting reporting and data manipulation capabilities we use the file SAMPLE DAT available on the compact disk that was enclosed with your 6 series sonde This file will be copied to your hard drive during EcoWatch installation and should be available to you for the instructions below When you are ready to move beyond the example SAMPLE DAT file and analyze data collected from the sonde locate and open the appropriate DAT file from your data upload exercise These data are normally found at C ECOWWIN DATA An example filename is 1097CMO01 DAT NOTE In the instructions below that refer to clicking the mouse button we always refer to the left mouse button unless otherwise specified OPENING A DATA FILE If EcoWatch is not running open the program by double clicking on the EcoWatch icon Click on File to view a drop down menu similar to the one shown in the figure below From this menu click on Open then locate the drive and directory where SAMPLE DAT or your file of interest resides Alternatively if you have been using EcoWatch during setup and checkout you may be able t
63. displays will show the progress of the file transfer until completion 650 File Filename Samples Bytes Directory IPROFILE1 dat 179 9047 Upload to PC DEPLOY1 dat 8 668 View file Bytes sent File memory 2827 Delete all files E o N 0 0 000 E 0 0 000 EE g N 0 0 000 E 0 0 000 739 0mmlg N 0 0 000 E 0 0 000 EEE 07 12 2001 07 23 28 E 07 12 2001 07 16 17 07 12 2001 07 32 18 _ E Note that there are three file types with different extensions in the above directory 1 Files with dat extensions which are data files logged to either sonde memory of 650 memory and which are in YSI PC6000 format 2 Files with a txt extension which are data files logged to sonde memory and then transferred to 650 memory in either ASCII or CDF format and 3 Files with a glp extension which are calibration records of either the sonde sensors or the 650 barometer For files with a dat or txt extension transfer to a PC using the Upload to PC command will proceed automatically and retain the file type that is present in 650 memory For files with a glp extension an additional screen will appear on activating the transfer that gives a choice of binary CDF or ASCII for moving the file to the computer You currently MUST use either the CDF or ASCII format for transfer so that the glp file can be viewed in NotePad or other word processing program
64. distributes products in the United Kingdom a sales office in Hong Kong supports YSI s distribution partners in Asia Pacific and YSI Japan supports distribution partners in Japan Through an employee stock ownership plan ESOP every employee is one of the owners In 1994 the ESOP Association named YSI the ESOP Company of the Year YSI is proud of its products and are committed to meeting or exceeding customers expectations 1 2 HOW TO USE THIS MANUAL The manual is organized to let you quickly understand and operate the YSI 6 Series drinking water DW systems However it cannot be stressed too strongly that informed and safe operation is more than just YSI Incorporated Drinking Water Monitoring Systems Operations Manual 1 1 Introduction Section 1 knowing which buttons to push An understanding of the principles of operation calibration techniques and system setup is necessary to obtain accurate and meaningful results Because of the many features configurations and applications of these versatile products some sections of this manual may not apply to the specific system you have purchased If you have any questions about this product or its application please contact YSI s customer service department or authorized dealer for assistance See Section 8 Warranty and Service Information for contact information 1 3 UNPACKING AND INSPECTION Inspect the outside of the shipping box for damage If any damage is detected contact
65. extended to other enzymes including lactate oxidase for applications in biotechnology health care and sports medicine In the early 1990s YSI launched a line of multi parameter water monitoring systems to address the emerging need to measure non point source pollution Today we have thousands of instruments in the field that operate with the push of a button store data in memory and communicate with computers These instruments described in this manual are ideal for profiling and monitoring water conditions in industrial and wastewater effluents lakes rivers wetlands estuaries coastal waters and monitoring wells If the instrument has on board battery power it can be left unattended for weeks at a time with measurement parameters sampled at your setup interval and data securely saved in the unit s internal memory The fast response of YSI s sensors make the systems ideal for vertical profiling and the small size of some our sondes allows them to fit down 2 inch diameter monitoring wells All of YSI s multi parameter systems for surface and groundwater feature the YSI patented Rapid Pulse Dissolved Oxygen Sensor which exhibits low stirring dependence and provides accurate results without an expensive bulky and power intensive stirrer YSI has established a worldwide network of selling partners in 54 countries that includes laboratory supply dealers manufacturers representatives and YSI s sales force A subsidiary YSI UK
66. for identifying where the data was taken The file BLUELAKE can be examined by use of the 650 File selection In the 650 File menu highlight Directory and press Enter as shown below Then press Enter with the cursor on the BLUELAKE file to show the file details 650 Fil Upload to PC View file File memory Delete all files e Filename Samples IBLUELAKE dat 2 0 0 000 E 0 0 000 02725 2000 17 19 17 Bytes 397 File details File BLUELAKE dat Site ID YSI 650 Samples Z Bytes 397 First 07 11 2001 15 22 33 Last 07 11 2001 15 22 41 N 0 0 000 E 0 0 000 T i i H TAT aeti g 737 0mmHg 07 11 2001 15 23 37 itd N 0 0 000 E 0 0 000 736 9mmHg T 07 11 2001 15 24 19 BC I Note that there is NO Site name listed for the file BLUELAKE since data from more than on site was logged to it Now highlight the View file selection and press Enter to display the data in BLUELAKE as shown below BLUELAKE Date Time m d y 0272572000 7547 02 25 2000 21 154225 BLUELAKE Turbid NTU 0 5 0 5 N 0 0 000 E 0 0 000 740 3mmHg N 0 0 000 E 0 0 000 02 25 2000 22 18 57 E iH 740 4mmHg 02 25 2000 22 20 34 Amm ni BLUELAKE SiteNum L 2 0 0 000 E 0 0 000 02725 2000 22 21 21 a 740 4mmig
67. for normal use of the sonde YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 93 Sondes Section 2 3 Time Constant This value is the time constant in seconds for the software data filter Increasing the time constant will result in greater filtering of the data but will also slow down the apparent response of the sensors 4 Threshold This value determines when the software data filter will engage disengage When the difference between two consecutive unfiltered readings is larger than the threshold then the reading is displayed unfiltered When the difference between two consecutive readings drops below the threshold readings will be filtered again For the purposes of the filter consecutive readings are never more than 0 5 seconds apart When sampling faster than 0 5 seconds consecutive readings will be at the faster rate and you may want to adjust the threshold accordingly See section 2 9 1 for details on fast sampling The threshold feature is intended to speed response to large changes in a reading For example when changing from pH 7 buffer to a pH 4 buffer in a calibration it is likely that the filter will disengage for a time showing unfiltered readings until the sensor has nearly equilibrated with the new buffer At that time the filter will re engage and show filtered readings Without disengaging the filter for awhile much more time would be required to come to equilibrium after large changes in reading
68. for the simple Unattended sample mode of operation 1 above are provided below The initial instructions involving the setup of the flow cell sonde system are also valid for calibration in the other modes of operation YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 37 Sondes Section 2 For the Unattended sample mode the free chlorine sensor should be calibrated AFTER a logging study has been underway for 2 3 hours to assure the stabilization of the free chlorine sensor in the flowing tap water The setup of the logging study or Unattended Sampling is described in detail in Section 2 7 UNATTENDED SAMPLING and 2 9 1 Run UNATTENDED SAMPLING To view the logged data to assure stability prior to calibration see Section 2 9 3 File To calibrate the free chlorine sensor carry out the following steps e Make certain that the flow of water through the flow cell is 500 1000 mL per minute minimum 500 mL min and that the flow is set to the rate at which you will carry out your monitoring study e Interface to the sonde using a 650 display logger a PC running EcoWatch for Windows or a 6500 Process Monitor If you are using a PC or the 650 Display Logger select 8 Advanced and then 2 Setup and make certain that Autosleep RS232 is active as shown in the box below Advanced setup emulation up to Menu DIS EO IXwig radix leep RS232 To Slesg SD2 Lita DI12 LiL SDILIZ Select op
69. from the Sonde to the host computer is provided using the YSI 6095B MS 8 to DB 9 female adapter This 6095B then connects to the standard DB 9 male connector on the host computer The Sonde PC interface cable is wired for direct connection to a DTE device The following table defines the interface circuits The signals and their directions are defined with respect to use of the Sonde with the 6095B adapter Wire DB 9 MS 4 MS 8 oe Be GND se B Purple SDI12 __ B_ F Bare Shield B YSI Incorporated Drinking Water Monitoring Systems Operations Manual 7 1 Communications Section 7 7 3 RS 232 INTERFACE The sonde has an auto baud feature that allows the instrument to automatically adjust to the terminal baud rate If the sonde is set to a baud rate of 4800 and a 9600 baud terminal is attached to it after a few carriage returns are entered the sonde will recognize the communication mismatch and attempt to change its own internal baud rate to match the terminals 7 4 SDI 12 INTERFACE SDI 12 is an industry standard serial digital interface bus The bus was designed to allow compatibility between data collection devices and sensors of various manufacturers The description below applies specifically to the Sonde implementation of SDI 12 interface For complete SDI 12 technical specifications please contact Campbell Scientific Inc P O Box 551 Logan Utah 84321 USA 801 753 2342 SDI 12 is a single master mult
70. give 2 to 4 glasses of water and induce vomiting by touching finger to back of throat Seek medical attention immediately YSI Zobell Solution 3682 INGREDIENTS Q Potassium Chloride Q Potassium Ferrocyanide Trihydrate Q Potassium Ferricyanide CAUTION AVOID INHALATION SKIN CONTACT EYE CONTACT OR INGESTION MAY AFFECT MUCOUS MEMBRANES May be harmful by inhalation ingestion or skin absorption Causes eye and skin irritation Material is irritating to mucous membranes and upper respiratory tract The chemical physical and toxicological properties have not been thoroughly investigated Ingestion of large quantities can cause weakness gastrointestinal irritation and circulatory disturbances YSI Incorporated Drinking Water Monitoring Systems Operations Manual A 3 Health and Safety Appendix A FIRST AID INHALATION Remove victim from exposure area to fresh air immediately If breathing has stopped give artificial respiration Keep victim warm and at rest Seek medical attention immediately SKIN CONTACT Remove contaminated clothing immediately Wash affected area with soap or mild detergent and large amounts of water approx 15 20 minutes Seek medical attention immediately EYE CONTACT Wash eyes immediately with large amounts of water approx 15 20 minutes occasionally lifting upper and lower lids Seek medical attention immediately INGESTION If victim is conscious immediately give 2 to 4 glasses
71. if the slope of the plot is experimentally determined to be 59 mv pH unit at 298 K 25 C then the slope of the plot at 313 K 40 C must be 313 298 59 62 mv pH unit At 283 K 10 C the slope is calculated to be 56 mv pH unit 283 298 YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 4 Principles of Operation Section 5 59 Determination of the slope of pH vs mv plots at temperatures different from T is thus relatively simple In order to establish the intercept of the new plot the point where plots of pH vs mv at different temperatures intersect the isopotential point must be known Using standard pH determination protocol the sonde software assigns the isopotential point as the mv reading at pH 7 and then calculates the intercept using this assumption Once the slope and intercept to the plot of pH vs mv are assigned at the new temperature the calculation of pH under the new temperature conditions is straightforward and is automatically carried out by the sonde software MEASUREMENT AND CALIBRATION PRECAUTIONS 1 When filling the calibration cup prior to performing the calibration procedure make certain that the level of calibrant buffers is high enough in the calibration storage cup to cover at least 2 inch of the pH probe and the temperature sensor of the 6560 probe 2 Rinse the sensors with deionized water between changes of calibration buffer solutions 3 During pH calibration allow the s
72. inhibited by light This photoinhibition is confirmed by empirical data that indicate that at constant phytoplankton level the fluorescent signal can change significantly on a diurnal schedule showing less fluorescence during the day and more fluorescence at night Itis clear that this effect would produce errors in the absolute values of chlorophyll unless it were accounted for by the user The chlorophyll section of Standard Methods substantiates these limitations along with application notes that are offered by current fluorometer manufacturers The limitations result in the realization that any in vivo chlorophyll sensor will be much less quantitative than any of the other sensors offered for use with our sondes MEASUREMENT AND CALIBRATION TIPS 1 For best results analyze field samples to be used for calibration of the sensor as soon as possible after collection 2 If unusually high or jumpy readings are observed during calibration it is likely that there are bubbles on the optics The surface should be cleaned by manually activating the wiper before confirming the calibration 3 The output of the YSI fluorescence sensor is susceptible not only to the overall phytoplankton concentration in the environmental medium but also to the size and rate of movement of the suspended particles that pass across the optics on the probe face Thus although the phytoplankton content of an environmental sample may appear to the eye
73. normal mv To view statistical information for the study click the Statistics button on the toolbar On the statistics window click on any min or max value to display the time when it occurred Double click in the upper left of the Statistics window to return to the normal display End the tutorial by saving the Data Display in the format shown To do this 1 From the File menu click Save Data Display 2 Type Default for the file name when prompted for the Data Display Name 3 Click Save The parameters colors format and x axis time interval associated with the current display are now saved and can be accessed any time in the future Nine different data displays may be saved for any data file You can easily switch between various displays of the data This demonstration shows only a small part of the capability of EcoWatch You may wish to also review the procedures involved in the Section 4 1 5 Typical Application 4 1 4 USING THE TOOLBAR The EcoWatch toolbar includes buttons for some of the most common commands in EcoWatch such as File Open To display or hide the toolbar open the View menu and click on the Toolbar command A check mark appears next to the menu item when the toolbar is displayed The toolbar is displayed across the top of the application window below the menu bar BES Click To YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 3 EcoWatch for Windows Section 4 m Open an
74. occur If cross talk is present it is likely to reduce the life of the pH sensor if it is run in the continuous mode 2 The oxidation of the anode of the free chlorine sensor is the factor which normally dictates maintenance on the sensor and the extent of the oxidation is proportional to the time the sensor is polarized Thus if the sensor is only polarized for 20 of the time the time between sensor reconditioning will be extended by approximately a factor of five The only disadvantage of the Sample and Hold feature is that the data output to the 6500 SCADA from all sensors is frozen for the sample interval Thus if a study were begun at 10 00 at a 5 minute interval the sensor readings shown by the 6500 and output to the SCADA which were taken at 10 00 would remain the same even though they might be changing slightly until 10 05 when new sensor readings would be output These readings in turn would be frozen YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 4 Frequently Asked Questions About YSI Drinking Water Systems Appendix H until 10 10 when the next readings would be sent to the 6500 The Sample and Hold feature is explained in more detail in Appendix G Using Your Drinking Water Sonde with a YSI 6500 Process Monitor e Attached to a Data Collection Platform DCP In the absence of a SCADA system the sondes can be attached to DCPs such as the YSI EcoNet system and the YSI 6200 to a
75. of free chlorine in water samples In addition you usually will need to purchase the color forming reagents in either pill or powder form YSI Item YAP 001 for the YSI photometers Hach Item 21055 69 for the Hach colorimeter The cost of the reagents is nominal YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 8 Frequently Asked Questions About YSI Drinking Water Systems Appendix H Can I just make up a free chlorine standard from commercial bleach and use that to calibrate my free chlorine sensor This procedure is not recommended and is likely to result in significant errors in your subsequent readings for three reasons 1 The concentration of hypochlorite on the bleach bottle is for new bleach batches and may not be correct if the bleach has been on the shelf for varying periods of time 2 Dilute solutions of hypochlorite may be unstable and change during the calibration procedure and 3 Because the free chlorine sensor is flow dependent it needs to be calibrated in water flowing at the same rate as will be used in the continuous monitoring studies This flow condition is almost impossible to meet by immersing the sensors in stagnant or agitated solutions of bleach It is important to understand that YSI may not be able to provide customer support for users who do not perform their free chlorine sensor calibrations by the recommended procedure Could I measure total chlorine with my colorimeter kit and then ca
76. of taking readings at temperatures that are significantly different ambient laboratory temperatures MEASUREMENT AND CALIBRATION PRECAUTIONS 1 The temperature response of ion selective electrodes is not as predictable as that of pH sensors Therefore be sure to carry out a 3 point calibration the first time you use the probe This will provide a default setting for the effect of temperature on your particular sensor After this initial calibration you can use the less time consuming 2 point and 1 point routines to update the 3 point calibration However we strongly recommend a new 3 point calibration after each deployment of 30 days or longer 2 Ion selective electrodes may not stabilize as rapidly as pH sensors Be sure to allow plenty of time for the readings to come to their final values during all calibration routines YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 13 Principles of Operation Section 5 3 Ion selective electrodes generally drift more than pH sensors Be sure to check for this drift by placing the sonde in a standard at the end of each deployment 4 Remember that the chloride sensor will take longer to stabilize after exposure to pH buffers To accelerate this process soak the sensor in 1000 mg L standard for a few minutes after performing a pH calibration In addition be particularly careful that readings are stable during chloride calibration after exposure to buffers 5 11 TURBIDITY
77. or agitated solutions of bleach It is important to understand that YSI may not be able to provide customer support for users who do not perform their free chlorine sensor calibrations by the recommended procedure The free chlorine system is calibrated using the same basic methods employed for other sonde sensors The important thing to remember is to calibrate your sensor versus a flow cell effluent in the mode which you will be using to measure free chlorine There are four basic modes of operation as described below with their corresponding calibration instructions 1 Stand alone applications where data is being logged only to the internal memory of the sonde at a user selected interval For this mode of operation make certain that the Autosleep RS232 feature is activated in the Advanced Setup menu and that the Chlorine warm up time is set to 60 seconds in the AdvancedlSensor menu With these software entries in place the user will input the free chlorine value from the DPD analysis of the flow cell effluent and the unit will automatically calibrate after the selected warm up time 2 Applications where the sonde is attached to a YSI 6500 Process Monitor utilizing the Sample and Hold feature of the sonde software For this mode of operation first activate the Sample and Hold feature from the Setup sonde menu of the 6500 Press the Esc and Enter keys of the 6500 front panel simultaneously to access this menu Then select the desired interval fo
78. pH to access the pH calibration choices and then press 2 2 Point Press Enter and input the value of the buffer 7 in this case at the prompt Press Enter and the current values of all enabled sensors will appear on the screen and change with time as they stabilize in the solution Observe the readings under pH and when they show no significant change for approximately 30 seconds press Enter The display will indicate that the calibration is accepted After the pH 7 calibration is complete press Enter again as instructed on the screen to continue Rinse the sonde in water and dry the sonde before proceeding to the next step Using the correct amount see Tables 1 4 of an additional pH buffer standard into a clean dry or pre rinsed calibration cup carefully immerse the probe end of the sonde into the solution Allow at least 1 minute for temperature equilibration before proceeding Press Enter and input the value of the second buffer at the prompt Press Enter and the current values of all enabled sensors will appear on the screen and will change with time as they stabilize in the solution Observe the readings under pH and when they show no significant change for approximately 30 seconds press Enter After the second calibration point is complete press Enter again as instructed on the screen to return to the Calibrate menu Rinse the sonde in water and dry Thoroughly rinse and dry the calibration containers for future use NOTE The maj
79. point option only if you are adjusting a previous calibration If a 2 point or 3 point calibration has been performed previously you can adjust the calibration by carrying out a one point calibration Immerse the sonde in a buffer of known pH value and press Enter You will be prompted to type in the pH value of the solution Press Enter again and the screen will display real time readings that will allow you to determine when the pH and temperature readings have stabilized Pressing Enter will confirm the calibration Then as instructed press Enter again to return to the Calibrate menu This calibration procedure adjusts only the pH offset and leaves the previously determined slope unaltered Select the 2 point option to calibrate the pH probe using only two calibration standards In this procedure the pH sensor is calibrated using a pH 7 buffer and pH 4 buffer A two point calibration procedure as opposed to a 3 point procedure can save time if the pH of the media being monitored is known to be either basic or acidic For example if the pH of a pond is known to vary between 5 5 and 7 a two point calibration with pH 7 and pH 4 buffers is appropriate Three point calibration with an additional pH 10 buffer will not increase the accuracy of this measurement since the pH is not within this higher range To begin the calibration immerse the sonde in one of the buffers and enter the actual pH value Press Enter and the screen will display real time r
80. rate The baud rate should be 9600 If it is not select 9600 from the list and press Enter From the Settings Menu select the Font Color and Background Color options to choose a color scheme for the EcoWatch for Windows menus 2 5 SONDE SOFTWARE SETUP There are two sets of software at work in any YSI environmental monitoring system One is resident in the sonde and the other is associated with the interface device a PC 650 Display Logger or 6500 Process Monitor If you are using a PC for your initial sonde setup as recommended you will be using EcoWatch for Windows software which was installed as described above and you should follow the instructions in the section below to prepare your DW sonde for use If you are using a 650 for sonde interface see Section 5 for setup and interface instructions If you are using a 6500 for sonde interface see the manual which was supplied with this instrument YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 18 Sondes Section 2 For PC based sonde interface run EcoWatch for Windows and click on the sonde icon R from the toolbar Then select the proper Com port and confirm by clicking OK A window similar to that shown below will appear indicating connection to the sonde as shown in the figure below Type Menu after the sign press Enter and the sonde Main menu will be displayed Jaaa Sonde COM2 If your sonde has previously been used the Main menu rath
81. sec 60 B manie Or C2 9 Wipes 1 A Wipe int 1 B SDI12 M wipe C Turb temp co C 0 3 D s tuao spike Filter E Chl temp co C 0 Select option 0 for previous menu NOTE The number of items on this menu depends greatly on the sensors that are available and enabled on your sonde Below we describe every possible item on this menu Your sonde probably may not have every item described below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 90 Sondes Section 2 To edit one of the following menu items choose the number or letter that corresponds to it TDS constant 0 65 This selection allows you to set the constant used to calculate TDS TDS in g L is calculated by multiplying this constant times the specific conductance in mS cm This item will only appear if the conductivity sensor is enabled in the Sensors enabled menu See Section 5 Principles of Operation for more information on the TDS parameter Cl2 temp co 2 5 C This selection allows you to input the free chlorine temperature coefficient Do not change this value unless you consult YSI Customer Service This item will only appear if the free chlorine sensor is enabled in the Sensors menu Cl2 warm up 60 This selection allows you to set the amount of time allowed for C12 warm up in seconds Normally the default value of 60 seconds is adequate for most applications However there may be certain situations
82. sensor has stabilized Pressing Enter will confirm the first calibration Following the instructions on the screen place the sonde in the second NH standard press Enter input the correct concentration value again press Enter and view the stabilization of the values on the screen in real time After the readings have stabilized press Enter to confirm the calibration Then as instructed press any key to return to the Calibrate menu Select the 3 point option to calibrate the NH probe using three calibration solutions two at ambient temperature and one at a temperature significantly different from ambient The 3 point calibration method should be used to assure maximum accuracy when the temperature of the media to be monitored cannot be anticipated The procedure for this calibration is the same as for a 2 point calibration but the software will prompt you to place the sonde in the additional solution to complete the 3 point procedure Be certain that the calibration solution and sensor are thermally equilibrated prior to proceeding with the calibration The recommended order of calibration standards is 1 100 mg L standard at ambient temperature 2 1 mg L standard at ambient temperature and 3 1 mg L standard at a different temperature usually lower than ambient For best results insure a temperature difference of at least 10 C between the two 1 mg L standards NOTE YSI strongly recommends the use of the 3 point protocol to ensure th
83. separate file for each location WEST and EAST which were designated as file names at the site BLUE LAKE NOTE CAREFULLY As described above for non site list files there is a limitation on appending data to existing files the parameter setup during subsequent logging runs MUST be exactly the same as for the first entry For example if you add a sonde parameter to the Report for the second logging run to a particular site you will not be able to append this data to the existing file If you logged Barometer or GPS readings to the initial file you will be required to maintain the logging of these files on subsequent logging runs If your current parameter setup is different from the one used initially the Site Designation for that file will be grayed out in the Site list and will not be available until you adjust your parameter setup If you try to log data to the grayed out file you will be shown a Parameter Mismatch screen similar to that for non site list files which will aid in diagnosing the differences in the parameter setup that is preventing the existing file from being appended with new data LOGGING OF DATA FROM SEVERAL DIFFERENT SITES TO THE SAME FILE USE OF A MULTI SITE LIST The setup and use of Multi Site Designations will be provided in the following example which deals with a different approach to the application in the previous example on Single Site Designations Water quality data needs to be collected for t
84. shown in the second example As noted above establishment of either of these two types of Site Designations that are stored in 650 memory in a Site List will allow you to log field data to the 650 memory without entering file site information from the 650 keypad in the field at each site You will easily be able to access previously entered Site Designation information from this the Site List at each field site and thus simplify your record keeping and logging procedures To utilize the full capability of the 650 logging system you will need to understand how to set up and use these two types of Site Designations particularly if you are performing multiple or replicate logging studies at various field sites The following discussion and examples should help you understand how to set up site lists for various applications LOGGING OF DATA TO 650 MEMORY FROM SINGLE SITES TO SINGLE FILES USE OF SINGLE SITE DESIGNATIONS IN A SITE LIST The setup and use of Single Site Designations will be provided in the following application example Water quality data needs to be collected for two sites at the West and East ends of a lake Blue Lake at various time intervals for 30 days The environmental scientists want all of the data for each site to be ina separate data file that can be reported from EcoWatch for Windows or from a spreadsheet The key to this application is that each physical location will need to be characterized by a different File Name in th
85. single parameter YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 17 Principles of Operation Section 5 CALIBRATION METHODS GENERAL As described in Section 2 of this manual the sonde software offers the option of either zeroing the generic fluorescence parameter FS or of performing 1 point 2 point or 3 point calibration procedures in ug L of chlorophyll For most applications a 2 point calibration at 0 and middle range e g ca 100 ug L is sufficient Slight non linearities of the system can be overcome with a 3 point calibration across the normally encountered environmental chlorophyll range 0 400 ug L If the range of chlorophyll content in the environmental sample is well known standards of any chlorophyll values can be utilized in either 3 point or 2 point routines However one of the standards must be 0 ug L and this standard must be first in the calibration sequence For calibration of the YSI chlorophyll system only one type of standard will assure accurate field readings a suspension of phytoplankton of known chlorophyll content The chlorophyll content of this suspension should be determined by the extractive analysis procedure described in Standard Methods Most users will not have this analyzed plankton suspension available prior to field studies for use in the 2 point calibration protocol resident in the sonde software Thus the best calibration method usually comprises the following step
86. solids and input O NTU at the screen prompt Press Enter and the screen will display real time readings that will allow you to determine when the turbidity readings have stabilized Press Enter after the readings have stabilized to confirm the calibration and zero the sensor Then as instructed press any key to return to the Calibrate menu Select the 2 point option to calibrate the turbidity probe using only two calibration standards In this case one of the standards must be clear water 0 NTU and the other should be in the range of known turbidity for the water to be monitored For example if the water to be evaluated is known to be low in turbidity an appropriate choice of standards might be 0 and 10 NTU However for general purpose measurements an appropriate choice of standards is usually 0 and 100 NTU To begin the calibration immerse the sonde in the 0 NTU standard as instructed and press Enter It is mandatory that the 0 NTU standard be calibrated first The screen will display real time readings that will allow you to determine when the readings have stabilized Pressing Enter will confirm the first calibration YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 72 Sondes Section 2 Following the instructions on the screen place the sonde in the second turbidity standard input the correct turbidity value in NTU press Enter and view the stabilization of the values on the screen in real time After the rea
87. specification is relative to measurements in calibration standards However a user might wish to carry out a 3 point calibration at values of approximately 0 100 and 1000 NTU to provide maximum accuracy over the entire normally encountered environmental turbidity range 0 1000 NTU If the range of turbidity in the environmental sample is well known standards of other turbidity values can be utilized in either 3 point or 2 point routines However in all calibration procedures one of the standards must be 0 NTU and this should be the first calibration point YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 14 Principles of Operation Section 5 NOTE Before calibrating your 6136 turbidity sensor pay particular attention to the following caution e For all calibration procedures you MUST use standards that are based on either formazin or AMCO AEPA styrene divinylbenzene beads as described in Standard Methods for the Examination of Water and Wastewater and have been prepared either by Hach formazin based or AMCO AEPA based standards prepared by YSI or an approved YSI vendor listed on the YSI website www ysi com THE USE OF STANDARDS FROM OTHER VENDORS AND OR THOSE PREPARDED FROM MATERIALS OTHER THAN FORMAZIN OR AMCO AEPA POLYMER BEADS WILL RESULT IN BOTH CALIBRATION ERRORS AND INACCURATE FIELD READINGS YSI and its approved vendors offer easy to use AMCO AEPA turbidity standards which can also be quantitatively dilute
88. that minor variations in pH will have only a minimal effect on accuracy during the monitoring study This philosophy has been adopted rather than compensating for changes in pH using the on board pH sensor in the sonde It was decided not to do pH compensation because chlorine is usually the most important parameter to the drinking water industry and the accuracy of this parameter would be grossly compromised if a pH sensor failed while providing compensation data during long term monitoring studies In other words we feel that the risk of pH probe failure or significant drift is more likely to be a problem to users than the smaller inaccuracies in the uncompensated pH data which might result from small changes in pH Note that the YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 8 Principles of Operation Section 5 quoted accuracy specification for water which has a pH of greater than 8 5 is only valid if the pH changes less than 0 3 pH units from the pH at the time of calibration In addition users should note that it will not be possible to make free chlorine measurements with the YSI free chlorine sensor under any conditions if the pH exceeds ca 9 3 5 8 NITRATE The sonde nitrate probe consists of a silver silver chloride wire electrode in a custom filling solution The internal solution is separated from the sample medium by a polymer membrane which selectively interacts with nitrate ions When the probe is immersed i
89. the outlet hose of the flow cell and immediately analyze it for free chlorine using an independent method e g the DPD method with a YSI 9100 Photometer e Interface to the sonde using a 650 display logger or a PC running EcoWatch for Windows Choose 8 Advanced and then 2 Setup and make certain that Autosleep RS 232 is active as shown in the box below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 67 Sondes Section 2 Advanced setup VT100 emulation Power to Menu Power up to Run Comma radix Auto sleep RS232 Auto sleep SDI12 Mu Fu 1 B SN a 6 dal ox hes SDL ILaL SDI Dea Select option 0 for previous menu Return to the Main menu using the Esc key and select 2 Calibrate and then 4 Free C12 At the prompt input the independently determined free chlorine value and press Enter A display similar to that shown below will appear on either the computer monitor or the 650 display The calibration will occur automatically after the countdown on the screen reaches zero Temp SpCond Sal CLZ CIZ Cimze Depth PARNE ANNOS ENRIBA Co rO pet mg L feet mg L mg L NTU Sieeloyslibakyaskiqueyy Sie After the warm up time is complete the readings just before and just after calibration are displayed When you press Enter the screen returns to the Free Chlorine Calibration menu FREE CHLORINE WITH SONDE ATTACHED TO 6500 P
90. the sonde upright or upside down A separate clamp and stand such as a ring stand is required to support the sonde in the inverted position YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 27 Sondes Section 2 NOTE CAREFULLY When calibrating a turbidity sensor for use with the 6920DW you can use either the standard calibration cup with certain qualifications or an optional extended length calibration cup Please see the section below which describes the special calibration recommendations for this sensor RECOMMENDED VOLUMES OF CALIBRATION REAGENTS The approximate volumes of the reagents are specified below for both the upright and upside down orientations Table 1 6920DW Sonde Turbidity Chlorophyll Rhodamine WT 40 mL N A w Standard Calibration Cup Turbidity Chlorophyll Rhodamine WT 220 mL N A w Extended Calibration Cup Table 2 600DW B Sonde Probe to Calibrate pH ORP 25 mL 50 mL See section below for special instructions dealing with calibration of the turbidity sensor with the two types of calibration cup CALIBRATION OF THE 6136 TURBIDITY SENSOR When used with the 6920DW sonde the 6136 can be calibrated using two types of vessels e The standard calibration cup which was supplied with the sonde and which minimizes the volume of calibration suspension required e Anextended calibration cup which is designed to provide both the greatest accuracy and convenience but which r
91. the wiper of the 6026 or 6136 from a computer or 650 MDS keypad removes these bubbles 3 When calibrating the 6136 sensor be aware of the fact that precautions must be taken to avoid interference of the bottom of the calibration vessel Instructions for two methods of calibrating the 6136 sensor are provided in Section 2 6 1 of this manual The best solution to the interference problem however is to purchase the 655488 Extended Calibration Cup Sleeve which completely eliminates the issue The sonde turbidity system allows the user to either observe these real turbidity events while obtaining somewhat jumpy readings or to apply a mathematical filter to the raw data so that the NTU output may be more reflective of the overall cloudiness of the environmental sample From the Advanced Data Filter menu of the sonde software the user can activate the data filter that is specific to turbidity and fine tune its performance For typical sampling and monitoring applications YSI recommends that the Data Filter settings be selected as follows Enabled On Wait for Filter Off Time Constant 12 Threshold 0 010 For most unattended sampling applications selection of the above filter settings should also be appropriate However an additional capability is also available which enhances the elimination of spurious single point spikes from the logged data and thus allows for a better presentation of the average turbidity during the deployment
92. the your Sonde between periods of usage will not only extend the life of the sensors but will also ensure that the unit will be ready to use as quickly as possible in your next application YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 99 Sondes Section 2 GENERAL RECOMMENDATIONS FOR SHORT TERM STORAGE The recommended short term or interim storage procedure is identical for both the 600DW B and the 6920DW No matter what sensors are installed in the instrument it is important to keep them immersed in water YSI recommends that short term storage of the 6 00DW B and 6920DW be done by placing enough water in the sonde calibration storage cup to completely cover the sensors The calibration cup should be sealed to prevent evaporation GENERAL RECOMMENDATIONS FOR LONG TERM SONDE STORAGE The following are long term storage recommendations for the 600DW B and the 6920 They will be applicable for sondes with typical sensor configurations Remove the pH or pH ORP probe from the sonde and store it according to the instructions found in the following section on individual sensors Cover the empty port with the provided plug Leave the conductivity temperature and the free chlorine probes in the sonde with a membrane and electrolyte on the free chlorine sensor Place enough of deionized distilled or tap water in the calibration cup to cover the sensors insert the sonde into the vessel and seal with the cap O ring to m
93. then highlights Start sampling and lowers the instrument into the water to begin the study The data displayed on the screen is updated every 16 seconds The user then highlights the Start logging selection in the sonde logging window in the upper right of the display and presses Enter to begin logging data to sonde memory The message in the sonde logging window changes to Stop logging indicating that logging has successfully been activated YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 31 650 MDS Section 3 Run Discrete sample Re he oe el 650 og one sample og one sample ryt x i Start logging Beart logging kog ons sampl PPE Start sampling Sample interval 16 06 01 00 Tas 06 01 00 Ao Fy 16 28 135 38 16 28 45 5 A tase 2e 3 ee 0 002 ns 0 0021 Sal eI Sal 000 E 0 0 000 Ammig oy N0 0 000 E 0 0 000 GMM rn N 0 0 000 E 0 0 000 740 4mmHg devo1 2000 17 24 53 aaa 06 01 2000 17 25 31 A gt 06 01 2000 17 29 19 Smmm CINE At the end of the 90 minute profile determination the user either confirms the Stop logging command by pressing Enter or simply presses the Escape key to return to the sonde Discrete sample menu highlights the Close file selection and confirms the file closing by pressing Enter The profile data taken at a 16 second sample interval is now stored in the sonde memory under the file name PROFIL
94. to make its window active YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 4 EcoWatch for Windows Section 4 4 3 10 HELP The Help menu offers the following commands which provide you assistance with this application CONTENTS Offers you a list of the available Help topics USING HELP Use this command for instructions about using Help TECHNICAL SUPPORT YSI Technical support phone number ABOUT Displays the version number of this application YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 42 Principles of Operation Section 5 SECTION 5 PRINCIPLES OF OPERATION 5 1 CONDUCTIVITY The sondes utilize a cell with four pure nickel electrodes for the measurement of solution conductance Two of the electrodes are current driven and two are used to measure the voltage drop The measured voltage drop is then converted into a conductance value in milli Siemens millimhos To convert this value to a conductivity value in milli Siemens per cm mS cm the conductance is multiplied by the cell constant that has units of reciprocal cm cm The cell constant for the sonde conductivity cell is approximately 5 0 cm For most applications the cell constant is automatically determined or confirmed with each deployment of the system when the calibration procedure is followed Solutions with conductivities of 1 00 10 0 50 0 and 100 0 mS cm which have been prepared in accordance with recommen
95. to the following will then appear on the screen Date Time Temp SpCond Sal CIZ C12 chrg pH Battery mm dd yy hh mm ss C mS cm ppt mg L volts To calibrate press lt Enter gt when the readings are stable OS 05 97 09739751 20 83 9 602 8 837 1 04 SoD 7 06 MORZ Note that all parameters that have been enabled will appear not just the one being calibrated at the moment The user should carefully observe the stabilization of the readings of the parameter that is being calibrated YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 30 Sondes Section 2 and when the readings are stable for approximately 30 seconds press Enter to implement the calibration and the following message will appear Calibrated Press lt Enter gt to continue NOTE If an ERROR message appears begin the calibration procedure again Be certain that the value you enter for the calibration standard is correct Also see Section 8 Troubleshooting for more information on error messages CAUTION Be certain to immerse the entire sonde in solution standards for calibration of all parameters Most calibrations require readings not only from the sensor being calibrated but also from the temperature sensor Specific start up calibration procedures for all sensors that commonly require calibration are provided in the following paragraphs of this section Remember that these are basic protocols designed to get the user up and running with y
96. tool supplied in the YSI 6570 Maintenance Kit remove the port plugs Save all the port plugs for possible future use YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 10 Sondes There are a variety of probe options for the sondes The figures below and to the right illustrate the uses of the common tool for port plug removal probes Note that this tool will also be used to install the various If the tool is misplaced or lost you may use 7 64 and 9 64 hex keys as substitutes Section 2 OPTIC PORT PLUG INSTALLATION g ge TOOL gt NOTE You may need pliers to remove the ISE port plugs but do not use pliers to tighten the ISE probes Hand tighten only Now refer to the figures below to find the probe locations in your sonde 600DW B SONDE BULKHEAD 6572 Free Chlorine 3 pin connector 6560 Conductivity Temperature 6 pin connector 6561 pH 4 pin connector 6565 Combo pH ORP 4 pin connector 6561FG pH Flat Glass 4 pin connector 6565FG pH ORP Flat Glass 4 pin connector OOOCOOCCLOD YSI Incorporated DO COND amp pH ORP PORT PLUGS 6566 Fouling Resistant pH ORP 4 pin connector Drinking Water Monitoring Systems Operations Manual ISE PORT PLUG PLIERS SLIP JAWS CONDUCTIVITY __ TEMPERATURE 6560 2 11 Sondes Section 2 6920DW SONDE BULKHEAD 6572 Free chlorine probe 3 pin connector 6560 Conduc
97. water purified or tap e Place the sensor end of the probe in the bleach solution and leave for approximately 60 seconds e After 60 seconds in the bleach solution remove the sensor and rinse with purified water CAUTION Use of more concentrated bleach solutions and or exposure times longer than 60 seconds will cause a significant increase in the sensor break in period and in extreme cases may cause damage to the sensor e Remove the port plug from the DO port in the sonde bulkhead and install the free chlorine probe according to the instructions in Section 2 3 of the manual Be careful not to touch or damage the membrane CAUTION The sensor should either be installed in the sonde bulkhead and immersed in water in the flow cell see below within 5 minutes after the activation process or the probe itself should be placed in a beaker of tap water It is important that the probe does not dry out after activation e Following the instructions in the flow cell kit supplied with your DW sonde install the flow cell on to the sonde Be sure the proper O ring is in place on the sonde above the threads of the probe compartment e Attach a piece of tubing between your drinking water source and the bottom connector of the flow cell and another piece of tubing between the top connector of the flow cell and your drain Open the water valve to allow a flow of 500 1000 mL per minute minimum 500 mL min See picture below for a typical laborato
98. with EcoWatch for Windows but detailed information is provided in Section 4 EcoWatch for Windows or a convenient Windows Help section that is part of the software It is recommended that you thoroughly read Section 4 or use the Help function for a comprehensive understanding of EcoWatch for Windows 2 4 1 INSTALLING ECOWATCH FOR WINDOWS EcoWatch for Windows software must be used with an IBM compatible PC with a 386 or better processor The computer should also have at least 4MB of RAM and Windows Version 3 1 or later Place the EcoWatch for Windows compact disk in your CD ROM drive Select Start then Run and type d setup exe at the prompt Press Enter or click on OK and the display will indicate that EcoWatch is proceeding with the setup routine Simply follow the instructions on the screen as the installation proceeds 2 4 2 RUNNING ECOWATCH FOR WINDOWS To run EcoWatch for Windows simply select the EcoWatch icon on your desktop or from the Windows Program Menu For help with the EcoWatch program see Section 4 EcoWatch or use the Help section of the software 2 4 3 ECOWATCH FOR WINDOWS SETUP To setup the EcoWatch software for use with a sonde select the sonde icon N on the toolbar and then the proper Com port 1 or 2 to which your sonde is connected If the default setting is correct it does not need to be changed Click OK to open a terminal window From the Comm Menu select the Settings option to check the baud
99. words we feel that the risk of pH probe failure or significant drift is more likely to be a problem to users than the smaller inaccuracies in the uncompensated pH data which might result from small changes in pH Note that the quoted accuracy specification for water which has a pH of greater than 8 5 is only valid if the pH changes less than 0 3 pH units from the pH at the time of calibration In addition users should note that it will not be possible to make free chlorine measurements with the YSI free chlorine sensor under any conditions if the pH exceeds ca 9 3 The plot below shows that the chlorine sensor can function well in water of high pH average of 8 7 as long as it is calibrated versus a DPD analysis in the high pH water Note that the final QC point which was taken in water at a pH of 7 5 and shows a positive error relative to the DPD analysis since the sensitivity of the sensor to free chlorine had increased significantly as predicted once the sensor was transferred to the lower pH water YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 7 Frequently Asked Questions About YSI Drinking Water Systems Appendix H TESTING OF PROTOTYPE YS DW SYSTEM RUNNING CONTINUOUSLY ON A 6500 IN WATER WITH AN AVERAGE pH OF 8 7 RECALIBRATION OF SENSOR AFTER 20 DAYS o a o w wW c irs 30 40 TIME DAYS SENSOR CALIBRATION Is there any difference in the calibrat
100. your shipping carrier immediately Remove the equipment from the shipping box Some parts or supplies are loose in the shipping box so check the packing material carefully Check off all of the items on the packing list and inspect all of the assemblies and components for damage If any parts are damaged or missing contact your YSI representative immediately If you purchased the equipment directly from YSI or if you do not know from which YSI representative your equipment was purchased refer to Section 8 Warranty and Service Information for contact information YSI Incorporated Drinking Water Monitoring Systems Operations Manual 1 2 Sondes Section 2 SECTION 2 6920DW AND 600DW B SONDES 2 1 GETTING STARTED The 6920DW and 600DW B B Drinking Water Monitoring Systems are multi parameter water quality measurement and data collection systems Their primary application is the monitoring of drinking water using a flow cell and a free chlorine sensor is provided with each instrument since this parameter is very important in assessing the quality of drinking water However these instruments can also be used in a variety of research assessment and regulatory compliance applications without a flow cell as long as the user realizes that the performance of the free chlorine sensor will be significantly compromised under these conditions The primary difference between the DW instruments and those provided by YSI for surface and ground water app
101. 0 and 9100 and the Hach Model 5870000 are available for carrying out the DPD method to determine the free chlorine in the effluent of the flow cell associated with the 6920DW or 600DW B drinking water studies YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 66 Sondes Section 2 In most cases the free chlorine sensor should be calibrated AFTER a logging study has been underway for 2 3 hours to assure the stabilization of the free chlorine sensor in the flowing tap water The setup of the logging study or Unattended Sampling is described in detail in Section 2 7 UNATTENDED SAMPLING and 2 9 1 Run UNATTENDED SAMPLING To view the logged data to assure stability prior to calibration see Section 2 9 3 File To calibrate the free chlorine sensor carry out the following steps Following the calibration of all other sensors present reinstall the free chlorine probe in the sonde bulkhead after removing the port plug Make certain that no moisture is present in the port before installing the probe and if moisture is present from the previous calibration procedures use compressed air to dry the port e Break in the sensor according to the instructions in Section 2 6 above e Locate the flow cell which was supplied with your 6920DW or 600DW B and attach it to the sonde according to the instructions that were supplied with the flow cell Note that for flow cell studies on drinking water with the 6 00DW B YSI recommends that use
102. 000 5 20 0 854 0 521 233653 O00 Yo 5 8 20 L000 5 19 0 052 0 522 Ess IE last samale ZS hOCRON OHH aS Cleanmoptecsmas ta 23 59s OROOMRS Crs 8 20 L000 65 19 0 952 0 522 Sample logged The following prompt will appear just below the screen header 1 LOG last sample 2 LOG ON OFF 3 Clean optics By entering 1 LOG last sample a single line of data can be logged to sonde memory and the following message will be displayed Sample logged By entering 2 LOG ON OFF a set of data can be logged to memory and the following message will be displayed LOG is ON hit 2 to turn it OFF 3 Clean optics Press 2 again to terminate logging By entering 3 Clean optics if your unit has an optical turbidity chlorophyll or rhodamine WT probe the wiper will clean the optical surface The 3 Clean optics portion of the prompt will only appear if an optical probe was installed and enabled Select Esc or press 0 to exit discrete sampling UNATTENDED SAMPLING Select 2 Unattended Sampling from the Run menu The Unattended sample menu will be displayed Use the following example to understand the unattended sampling option Example You are going to deploy the sonde for 2 weeks collecting a set of readings every 15 minutes You start at 6 00 PM on July 17 1996 and end the sampling at 6 00 PM on July 31 1996 The site is Clear Lake near the spillway and you want to log all of the readings to a single file CLRLAKE3 YSI Incorpor
103. 083 seconds between samples as the maximum sampling frequency Remember that for sample intervals less than 4 seconds free chlorine readings are updated only every 4 seconds Thus at 12 Hz the display will show 48 identical C12 readings before a change occurs Note also that at a faster sampling rate consecutive readings are closer together the threshold for any one sensor is less likely to be exceeded and the data filter is less likely to disengage For these applications you may want to adjust your threshold settings accordingly See Section 2 9 8 for more information on the data filter Select 3 File to enter a filename with a maximum of 8 characters You will log readings to the filename that you enter If you started sampling without entering a filename the default name NONAME will be assigned to your file Whenever you press 1 LOG last sample or 2 LOG ON OFF from the menu NONAME will be opened during sampling If this happens and you want to restart the file with a different name press 5 Close file and rename the file Select 4 Site to assign a site name with a maximum of 31 characters This allows you to enter the name of the site where you are sampling When you select 5 Open File a file is opened and the number 5 changes to Close File When you are finished logging data to the file press 5 Close File and designation changes back to Open File When you start logging the Open File designation changes automatically to Close Fil
104. 1DO Sonde 1 17 5 12 05 98 7 8 25 6 45 CR LF Master 1D1 Sonde 1 325 10 CR LF After finishing the measurement the Sonde sent a service request to indicate completion The bus master then sent the DO command to retrieve the data There were 5 data returned Since 7 readings should be available the master continued with D1 command and received the remaining data The responses from DO and D1 commands are Temperature 17 5 Specific conductance 12 05 DO 98 7 DO mg L 8 25 pH ISE1 6 45 ORP ISE2 325 Depth 10 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 7 4 Warranty and Service Information Section 8 SECTION 8 WARRANTY AND SERVICE INFORMATION The sondes are warranted for two years and the 650 MDS for three years against defects in workmanship and materials when used for their intended purposes and maintained according to instructions All cables are warranted for one year The free chlorine temperature conductivity turbidity chlorophyll rhodamine WT pH pH ORP and chloride probes are warranted for 1 year Ammonium and nitrate probes are warranted for six months Damage due to accidents misuse tampering or failure to perform prescribed maintenance is not covered The warranty period for chemicals and reagents is determined by the expiration date printed on their labels Within the warranty period YSI will repair or replace at its sole discretion free of charge any product that
105. 2 C12 temp co C 2 5 3 C12 warm up sec 60 d Jmarr ror Cale 5 Wipes 1 6 Wipe int 1 7 SDI12 M wipe 1 8 Turb temp co C 0 3 Y Tio Spike Tiltak A Chl temp co C 0 B JCal sjoiwlke filrer Select option 0 for previous menu The display under 3 Sensor may be different from the one shown in the example above depending on the sensors that are installed in your unit For example if you do not have a chlorophyll probe the last two entries which are relevant only to chlorophyll will not appear When this setup is verified press Esc or 0 to return to the Advanced menu For a detailed explanation of the choices in the Advanced menu see Section 2 9 8 Advanced Press Esc or 0 to back up to the Main menu Main 1 Run 5 System 2 Calibrate 6 Report 3 File J SSeasor 4 Status 8 Advanced Select option 0 for previous menu The sonde software is now set up and ready to calibrate and run YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 25 Sondes Section 2 2 6 GETTING READY TO CALIBRATE 2 6 1 INTRODUCTION HEALTH AND SAFETY Reagents that are used to calibrate and check this instrument may be hazardous to your health Take a moment to review health and safety information in Appendix A of this manual Some calibration standard solutions may require special handling PREPARING THE 6572 FREE CHLORINE PROBE FOR CALIBRATION Before calibration of the free chlorine sensor
106. 26 or 6136 is being calibrated This reflects the empirically determined fact that 6026 and 6136 sensors that have been calibrated to the same value in the primary standard formazin will have different responses in suspensions of the AEPA AMCO beads This effect is likely due to the larger optical cell volume of the 6136 Thus for example the label of the YSI 6073 turbidity standard bottle indicates that the value of the standard is 100 NTU when used for calibration of the 6026 sensor but 123 NTU when used to calibrate the 6136 Note that the phenomenon of a sensor specific formazin AEPA AMCO ratio is well known for sensors other than the 6026 and 6136 e When calibrating a 6136 turbidity sensor you MUST use either a modified calibration cup arrangement an extended length calibration cup or laboratory glassware with the probe guard installed for the calibration See section 2 6 1 above for details Failure to carry out the calibration properly can result in inaccurate readings particularly water of very low turbidity e Before proceeding with the calibration be certain that the probe compartment of the sonde has been cleaned and is free of debris Solid particles from this source particularly those carried over from past deployments will contaminate the standards during your calibration protocol and cause either calibration errors and or inaccurate field data e One standard must be 0 NTU and this standard must be calibrated first
107. 3 29 650 MDS Section 3 The user places the sonde in the water and watches the readings on the 650 display until they are stable When stable the Log one sample selection in the Sonde logging window upper right is highlighted as shown above and the Enter key is pressed The header changes from Run to Sample logged to confirm that the data storage to sonde memory was successful and then returns automatically to the Sonde run display The user turns the 650 off and returns to the office to retrieve the data The single data point is stored in the sonde memory under the automatically generated file name NONAME1 The file can be viewed by selecting Sonde menu from the 650 Main menu and pressing Enter 650 Main Menu Sonde run Run Calibrate Fie Logging setup Status System setup System Report Sensor Advanced N 0 0 000 E 0 0 000 740 6mmAg T N 0 0 000 E 0 0 000 739 9mmNg om 06 01 2000 17 06 37 cman 06 01 2000 18 22 13 eee es To view the data on return from the site the user selects the sonde menu File selection presses Enter to confirm the entry and then highlights the View file selection and presses Enter Following these instructions generates a display of the data that is stored in the sonde memory under the default name NONAME1 Use the right left arrow keys to scroll horizontally to view all of the data File Directory Upload Quick Upload iew file Quick view file Delete all files
108. 3 310 c 133 veh 0 00sr Ofar 000 E 0 0 000 Ti rata p N 0 0 000 E 0 L 740 7mmMAg N0 0 06 09 2000 09 09 05 7mm 06 09 2000 09 10 36 Iii YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 38 650 MDS Section 3 Then press Enter When the logging prompt is activated the site list will automatically appear on the display and be available for use in your study as shown below First highlight the WEST file since you are at that location and press Enter to log data to the 650 memory An indication that the logging was successful will appear in the 650 logging window Then move to the next location EAST activate the 650 logging function and repeat the logging process but this time highlighting the EAST Filename entry Pick a site then press Pick a site then press Site list Site list Filename Site name Filename Site name BLUE LAKE WEST BLUE LAKE BLUE LAKE EAST BLUE LAKE N 0 0 000 E 0 0 000 7AL IMMA om N 0 0 000 E 0 0 000 7AL OMMA o 02 25 2000 18 29 13 Qmm 02 25 2000 18 30 25 Gmm NOTE If you want to return to the Edit site list display for changes before logging use the RIGHT ARROW KEY to highlight the Configure selection and press Enter The up down arrows will only scroll within the Site list The data from the two locations has been logged to the selected files that can be either viewed manually using the 650 View file menu or uploaded
109. 57201 16 FI Oz Kingscote Chemicals 9676 N Looney Road Piqua OH 45356 1 800 394 0678 Fax 937 773 7994 2 Accurately transfer 5 0 mL of the Rhodamine WT solution into a 1000 mL volumetric flask Fill the flask to the volumetric mark with deionized or distilled water and mix well to produce a solution that is approximately 100 mg L of Rhodamine WT Transfer this standard to a glass bottle and retain it for future use 3 Accurately transfer 5 0 mL of the solution prepared in the above step to a 1000 mL volumetric flask and then fill the flask to the volumetric mark with deionized or distilled water Mix well to obtain a solution which is 0 5 mg L in water a 200 1dilution of the concentrated solution 4 Store the concentrated standard solution produced in 6 above in a glass bottle in a refrigerator to retard decomposition The dilute standard prepared in the previous step should be used within 24 hours of its preparation When rhodamine standards are required in the future perform another dilution of the concentrated rhodamine solution after warming it to ambient temperature Our experience has indicated that the concentrated solution that has been kept at cold temperatures is much more stable than the dilute solution stored at room temperature It is well known that the intensity of the fluorescence of many dyes shows an inverse relationship with temperature The effect must also be accounted for when calibrating the YSI ch
110. 6 7 PQRS7pqrs7 8 TUV8tuv8 9 WXYZ9wxyz9 0 0 oe Using this guide it can be seen that the character p will appear and remain in the display by pressing the 7 key six times in succession The other characters associated with this key P Q R S and 7 will appear during the repeated pressing of the numeric 7 key However only the p entry will be retained after the key is released after the six keystrokes After release of the numeric key for approximately 1second the cursor will automatically scroll to the right to prepare for the next alphanumeric input If you make a mistake in the entry simply return to the previous character with the left arrow key and reenter the number or letter After the entry is complete press the Enter key to confirm it You will follow an example of this type of entry when you enter an Instrument ID name for your 650 in the example below To familiarize yourself with the basics of the keypad entry system follow the instructions below to set the date and time for your 650 and to enter an Instrument ID Turn the instrument on to display the 650 Main menu 650 Main Menu Sonde run Sonde menu File Logging setup system setup N 0 0 000 E 0 0 000 06 06 2000 17 40 26 Fine 1 E Use the arrow keys to highlight the System setup selection and press the Enter key A display similar to the following will appear Note that the exact format of you
111. 6 21 1993 06 22 1993 06 24 1993 06 25 1993 DateTime M D Y Set graph page font and color p seme sai nna nann 06 27 1993 06 28 1993 __NUM If you are displaying the graph you may change the appearance by changing font font style size and text color You may also change page color trace color and graph background color You may assign a custom 2 line title for the graph and finally you may display 1 trace or 2 per set of axes For display of table formatted results you may change font font style size and text color In addition you may change table color and highlight color The menu structure is easy to follow Try some changes to gain familiarity with these Setup display options YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 54 Sondes CHANGING DISPLAY FORMATS USING GRAPH FUNCTION Section 2 The top line menu labeled Graph as the name suggests can be used to examine critical events within the graphical format You may be able to more clearly understand an event by zooming in out centering an event of interest and setting limits to focus in on a specific area of the graph In addition to modifying along the x axis you may also manually scale the y axis This may allow you to discard a noise spike and obtain better resolution of events unrelated to the noise Functions like Autoscale Redraw and Cancel Limits are all used to undo some of the customization functions
112. 9 2 CALIBRATE All of the sonde sensors except temperature require periodic calibration to assure high performance However the calibration protocols for free chlorine are significantly different depending on whether the sonde is being set up for spot sampling or longer term unattended monitoring studies This difference is user selectable and is required primarily because the optimal performance of the free chlorine sensor cannot be attained unless the control of this sensor varies from short term to long term applications For spot sampling it is best to pulse the sensor continuously during the Run mode to attain the most accurate results and optimize the response time However this continuous pulsing is not ideal for longer term logging studies in which the sonde data is captured to sonde memory or to a data collection platform at much less frequent intervals e g 15 minutes Continuous pulsing not only shortens the time between required probe maintenance but consumes more power With proper selection of the Auto sleep option discussed in detail in Section 2 9 8 Advanced Menu the user can configure the sonde software to either run continuously or go to sleep between samples to minimize free chlorine probe wear and conserve power The effect of this choice on the user interface relative to free chlorine calibration is significant as described below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 65 Sondes
113. 971372001 12 21 05 g 07712 2001 07 32 18 g Note that there are three file types with different extensions in the above directory 1 Files with dat extensions which are data files logged to either sonde memory of 650 memory and which are in YSI PC6000 format 2 Files with a txt extension which are data files logged to sonde memory and then transferred to 650 memory in either ASCII or CDF format and 3 Files with a glp extension which are calibration records of either the sonde sensors or the 650 barometer For files with a dat or txt extension transfer to a PC using the Upload to PC command will proceed automatically and retain the file type that is present in 650 memory For files with a glp extension an additional screen will appear on activating the transfer that gives a choice of binary CDF or ASCII for moving the file to the computer You currently MUST use either the CDF or ASCII format for transfer so that the glp file can be viewed in NotePad or other word processing program The binary transfer option is for future YSI upgrades After transfer the file will be located in the C ECOWWIN DATA subdirectory of your PC hard drive 4 2 4 USING THE GRAPH Once uploaded data can be easily displayed in EcoWatch Open a DAT file The six buttons on right side of the toolbar help you get a closer view of that portion of the graph you desire Zoom Window Use this to selec
114. AR Use this command to display and hide the Status Bar which describes the action to be executed by the selected menu item or statuses of keyboard latch state A check mark appears next to the menu item when the Status Bar is displayed eaj T The right areas of the status bar indicate which of the following keys are latched down CAP The Caps Lock key is latched down NUM The Num Lock key is latched down SCRL The Scroll Lock key is latched down YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 22 EcoWatch for Windows Section 4 A DIGIT YEAR Use this command to toggle between a date with a two or four digit year on the graph and table GRAPH Use this command to display and hide the Graph page when viewing a file The graph page contains plots of data Shortcuts Toolbar IN TABLE Use this command to display and hide the Table page while viewing a data file Shortcuts Toolbar GRID Turns on or off the gridlines on graphs MARKERS Turns on or off data point markers on the graphs For graphs with more than a few data points we recommend that Markers be left off STATISTIC This command will display statistics for the current study It will show the minimum maximum mean and standard deviation for each of the current parameters If you click on any minimum or maximum value then a small box will appear showing the date and time when the minimum or maximum point occurred Statistic 4315
115. Any page length less than 5 will result in no header being transmitted Select 4 Instrument ID from the System setup menu to record the instrument ID number usually the instrument serial number and press Enter A prompt will appear which will allow you to type in the serial number of your sonde This will make sure that any data that is collected is associated with a particular sonde The 5 Circuit Board SN entry shows the serial number of the PCB that is resident in your sonde not the entire system as for Instrument ID Unlike the Instrument ID the user cannot change the Circuit Board SN Select 6 GLP filename to enter a name for the file that is automatically generated and appended as you calibrate any of the sonde sensors The default designation for the GLP file is the Circuit Board SN and this name can be retained if you wish See section 2 9 3 for general information on the GLP file Select 7 SDI 12 address from the System Setup menu to change the value Input a number between 0 and 9 and then press Enter to confirm the selection The SDI 12 default address is zero 0 This feature is fully described in Section 7 Communication and only utilized if the unit is to operate in a SDI 12 communication protocol network Finally select your language of choice for the sonde menus Then press Esc or 0 again to return to the Main menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 83 Sondes Section 2 2 9 6 REPORT
116. Calibration checks involve making a visit to the deployment site performing a DPD colorimetric test of the flow cell effluent with a handheld battery powered colorimeter and recalibrating the sensor if significant drift is evident Itis important to note that because the free chlorine sensor is calibrated in situ i e in flowing water in the flow cell the sonde setup at the site need not be disturbed making the recalibration procedure very quick and easy If drift in the same direction continues to be observed if calibration errors are evident during the calibration process and or if the free chlorine readings become jumpy then you should remove the free chlorine probe from the sonde recondition it install a new membrane and activate the sensor as described in Section 2 6 1 of the Drinking Water Sonde Manual YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 11 Frequently Asked Questions About YSI Drinking Water Systems Appendix H How accurate is the colorimetric DPD check of accuracy Commercial colorimeters for DPD analysis are very accurate when used properly However there can be errors in the determination which result either from user technique or water chemistry For example there can be errors in the DPD determination which are caused by dirty cells during the analysis processes of zeroing the instrument or taking a reading In addition reagents which are out of date and thus have lost their potency could cau
117. D QUESTION ABOUT YSI DRINKING WATER SYSTEMS GENERAL What are YSI Drinking Water DW Sondes designed to do YSI DW sondes are specially designed for the monitoring of long term trends in drinking water distribution systems in flow cell slipstream or side stream applications Typically long term would mean deployments of at least 60 days with no maintenance of the sensors except for the possible need for in situ calibrations without removing the sonde from the site What types of DW sondes are available Two types of sondes shown in the picture below can be purchased for drinking water applications the 6920DW which operates from 8 internal AA batteries and the 600DW B which operates 4 internal AA batteries 600DW B 6920 DW What drinking water parameters can be monitored with DW sondes For the 6920DW typical parameters to be monitored are temperature conductivity or specific conductance pH ORP turbidity and free chlorine The 600DW B measures all of these parameters except for turbidity The 6920DW is also capable of measuring ammonium nitrate and chloride with ion selective YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 1 Frequently Asked Questions About YSI Drinking Water Systems Appendix H electrode ISE sensors but their use is not recommended for long term monitoring in flow cell applications due to the potential for large drift In addition the 6920DW can measure either Rhodamin
118. During the first time constant after the filter first engages the output reflects a simple average of all the readings from the time the filter engaged until the present Once the filter has been engaged for the period of the time constant it becomes a simple filter with a time constant equal to that set in 3 Time Constant Each time the filter disengages and then re engages this process is repeated Filter engagement and disengagement occurs for each sensor independently One parameter may be filtered while another is not because readings from one sensor are changing more than another Example Moving a sonde from the air to a river water sample Assume that the temperature of the sonde is similar to the temperature of the water and that the water is in equilibrium with the air The temperature and oxygen readings taken in the water will be very similar to those taken in the air The conductivity reading in air is near zero and quite likely is a very different reading in the water The filter for the conductivity readings will likely disengage when the sonde is first placed in the river water but stay engaged for the temperature and free chlorine readings The filters for turbidity chlorophyll and rhodamine WT are somewhat different For these sensors the filter is temporarily disengaged during mechanical wiping so that when wiping is finished the reading is the most current The filter then reengages if possible Optical sensor readings are fr
119. E The upload MUST be made from the File menu of the sonde not the File menu of the 650 650 Main Menu _Ma inm File Sonde run Run Directory Calibrate Upload File Logging setup View file System setup Quick view file Delete all files a N 0 0 000 E 0 0 000 740 6mmig 000 E 0 0 000 739 1mmHg __ N 0 0 000 E 0 0 000 739 4mmHg om 06 01 2000 17 06 37 amp 06702 2000 11 45 17 Oma Jeme 06 02 2000 11 46 31 GEE eer Select the Upload or Quick upload last file and press Enter Then follow the instructions including selection of file format YSI recommends the PC6000 format Press Enter and the display will indicate that upload of data from sonde to 650 is in progress as shown below When the upload is complete the display will return to the Sonde File menu File type File Directory Comma amp Delimited Upload ASCII Text Bytes received 1235 View file Quick view file Delete all files 58 000 E 0 0 000 739 200 cm 0 000 E 0 0 000 739 3mmAg 7719 2001 07 39 40 07912 2001 07 20 09 0 000 E 0 0 000 ELE 07 12 2004 07 25 59 imma After the sonde file has been uploaded to the 650 the data is resident in the flash memory of both sonde and 650 Note that if you choose to upload files from the sonde in CDF or ASCII format the files w
120. E1 It can be viewed on the 650 display and or uploaded to the 650 memory or directly to a PC by accessing the sonde File menu File Upload Quick Upload View file Quick view file Delete all files Run Calibrate Advanced N 0 0 000 E 0 0 000 740 At 06 06 2000 09 10 03 r O emm CIN N0 0 000 E 0 0 000 740 1mmg 06 01 2000 17 56 00 mmm 3 5 2 4 SONDES WITHOUT MEMORY If your sonde is a 600R 600XL or 6820 purchased prior to September 1999 it may contain a circuit board that does not have memory With sondes of this type you will not be able to log data to the sonde only to the 650 as detailed in the following section With these no memory sondes attached to your 650 the Run display will show a blank Sonde logging window as shown below Run AE Sonde one sample Start logging 71 862 163 9orp PIA 29 407 56007 24 Taa 8 06pH 000 E 0 0 000 740 8mmHg 5 34 2000 11 44 04 ete Se come YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 32 650 MDS Section 3 3 5 3 LOGGING DATA TO 650 MEMORY 3 5 3 1 INTRODUCTION Even if the sonde in your 650 sonde system has its own memory it may be more convenient for you to log data directly to the 650 memory simply because you eliminate the need to upload the data after logging i e it will already be resident in 650 memory In addition logging directly to 650 memory allows you to log G
121. Fill the calibration cup with tap water and insert the sonde Make certain the water level is high enough to completely cover the free chlorine sensor Seal the vessel to prevent evaporation of the water At the end of the storage time remove the existing membrane and re membrane the probe using new electrolyte 2 Remove the free chlorine sensor from the sonde leaving the electrolyte and membrane in place Store the probe in tap water in a beaker flask or other vessel of the user s choice Be sure not to damage the membrane or the probe tip when placing the probe on the bottom of the vessel If possible cover the vessel with parafilm or plastic wrap to minimize evaporation of the water during long term storage Monitor the water level in the storage vessel periodically and replenish if loss due to evaporation occurs At the end of the storage time remove the existing membrane and re membrane the probe using new electrolyte pH ORP The key to pH ORP probe storage short or long term is to make certain that the reference electrode junction does not dry out Junctions which have been allowed to dry out due to improper storage procedures can usually be rehydrated by soaking the sensor for several hours overnight is recommended in a solution which is 1 molar in potassium chloride see free chlorine section above for preparation of this solution If potassium chloride solution is not available soaking the sensor in tap water or commercial pH buff
122. Hold Basically when Sample and Hold is active the 6500 display and the SCADA output of the 6500 becomes equivalent to the internal memory of the sonde while an Unattended study is running In the Unattended mode the sonde sleeps between periodic samples with the interval between samples defined by the user This method of operation results the extension of both the sonde battery life not important in 6500 applications and the time between required sensor maintenance procedures which is important to 6500 drinking water applications While data can be output continuously to the 6500 and to the SCADA YSI strongly recommends the use of the Sample and Hold feature of the system which outputs data to the 6500 and the SCADA at a user selected interval with the sensors turned off between readings There are two reasons for this strong recommendation 1 Because of the hydrophilic nature of the chlorine sensor membrane cross talk between the chlorine sensor electrodes and the pH sensor can occur If cross talk is present it is likely to reduce the life of the pH sensor if it is run in the continuous mode 2 The oxidation of the anode of the free chlorine sensor is the factor which normally dictates maintenance on the sensor and the extent of the oxidation is proportional to the time the sensor is polarized Thus if the sensor is only polarized for 20 of the time the time between sensor reconditioning will be e
123. INSTALLING BATTERIES The 6920DW and 600DW B can also be powered by internal batteries and a set of batteries is supplied with each of these sondes See the sections below for instructions for battery installation INSTALLING BATTERIES INTO THE YSI 600DW B To install 4 AA size alkaline batteries into the sonde refer to the following directions and the figure below Grasp the cylindrical battery cover and unscrew by hand in a counterclockwise direction Then slide the battery lid up and over the bulkhead connector Insert batteries paying special attention to polarity Labeling on the battery compartment posts describes the orientation It is usually easiest to insert the negative end of battery first and then pop the positive terminal into place Check the O ring and sealing surfaces for any contaminants that could interfere with the O ring seal of the battery chamber Lightly lubricate the o ring on the outside of the battery cover DO NOT lubricate the internal o ring Return the battery lid and tighten by hand DO NOT OVER TIGHTEN SONDE BODY NOT SHOWN YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 15 Sondes INSTALLING BATTERIES INTO THE 6920DW Section 2 To install the 8 AA size alkaline batteries into the sonde refer to BULKHEAD CONNECTOR the following directions and the adjacent figures Position the bail so that it is perpendicular to the sonde and use it as a lever to un
124. LE FOR ANY SPECIAL INDIRECT INCIDENTAL OR CONSEQUENTIAL DAMAGES RESULTING FROM ANY DEFECTIVE PRODUCT COVERED BY THIS WARRANTY YSI Incorporated Drinking Water Monitoring Systems Operations Manual 8 1 Warranty and Service Information Section 8 8 2 AUTHORIZED SERVICE CENTERS YSI has authorized service centers throughout the United States and Internationally For information about the YSI Service Center nearest to you please visit www ysi com envrironmental and click Tech Support Alternatively you can contact YSI Technical Support directly at 800 897 4151 8 3 CLEANING INSTRUCTIONS NOTE Before they can be serviced equipment exposed to biological radioactive or toxic materials must be cleaned and disinfected Biological contamination is presumed for any instrument probe or other device that has been used with body fluids or tissues or with wastewater Radioactive contamination is presumed for any instrument probe or other device that has been used near any radioactive source If an instrument probe or other part is returned or presented for service without a Cleaning Certificate and if in our opinion it represents a potential biological or radioactive hazard our service personnel reserve the right to withhold service until appropriate cleaning decontamination and certification has been completed We will contact the sender for instructions as to the disposition of the equipment Disposition costs will be the responsibilit
125. Log one sample Start logging Window NA r as optics 13 54 056 22 62 c SpE 0 0021ps 0 00sal 7 1007 12 30 v0lr N 0 0 000 E 0 0 000 TALOMMAJ om 06 01 2000 14 50 43 Lz E The user should also note the two windows in the upper portion of the display above one designated 650 and the other Sonde All logging either to sonde or 650 memory is controlled from these windows As indicated data storage to the 650 is controlled from the upper left logging window Storage to the sonde memory is controlled from the upper right logging window The highlighting cursor associated with the logging windows can be moved within a particular window using the up down arrows and toggled from window to window using the left right arrows Note also that if your sonde contains an optical sensor it is possible to activate the probe wiper prior to logging from the Sonde logging window While the following sections will show that the logging functions of the 650 have a high degree of flexibility and capability from a basic point of view logging with the 650 is simple YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 28 650 MDS Section 3 e Decide if you want to log data continuously and if so determine what sample interval between data points is appropriate for you study If you will be logging to 650 memory highlight the Logging setup selection from the 650 Main menu then highlight the Interval selection and s
126. Manual B 1 Required Notice YSI Incorporated Drinking Water Monitoring Systems Operations Manual Appendix B B 2 Accessories and Calibration Standards Appendix C APPENDIX C ACCESSORIES AND CALIBRATION STANDARDS STANDARD EQUIPMENT WITH YSI SONDES 600DW B or 6920DW Sonde With Calibration Cup and Probe Guard EcoWatch for Windows Software Operations Manual 6570 Maintenance Kit 6560 Conductivity Temperature Probe 6574 Membrane Installation Kit EE mE mE TE E E PROBES FOR THE SONDES 6572 Free Chlorine Probe with 6573 Membrane Kit and 6035 Reconditioning Kit 6560 Conductivity Temperature Probe 6561 pH Probe 6565 Combination pH ORP Probe 6566 Combination pH ORP Probe Fouling Resistant 6561FG pH Probe with Flat Glass 6565FG Combination pH ORP Probe with Flat Glass 6136 Turbidity Probe wiped 6025 Chlorophyll Probe wiped 6130 Rhodamine WT Probe wiped 6882 Chloride Probe 6883 Ammonium Probe 6884 Nitrate Probe OOWUUVOOOUVOOUCKOUL OPTIONAL ACCESSORIES FOR THE SONDES 655488 Extended Calibration Cup Sleeve for 6920DW 655423 Spare Probe Installation Tool 6627 Turbidity Wiper Kit for 6136 6024 Chlorophyll Wiper Kit for 6025 6624 Chlorophyll Wiper Kit for 6025 2 56 set screw 6144 Optical Wiper Pad Kit for 6627 6024 and 6624 Wiper Assemblies 6035 Probe Reconditioning Kit for 6572 Free Chlorine and 6562 Dissolved Oxygen Probes 6038 12 VDC Power Supply with 110 VAC input 6651 12 VDC Power Supply w
127. Note that the Toolbar and Status Bar are turned on check mark In addition the 4 Digit Year expression is checked Also note that a check mark is just left of the Graph choice When a check is next to Graph all data are expressed graphically in the opening window To show data in both graphical and data table format highlight the Table menu item then click or press Enter The graphical portion of the window becomes compressed and the data table becomes visible If you then click on View again both the Graph and Table items have check marks to their left indicating that both functions are turned on You may use your mouse to scroll up down and left right to view data YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 49 Sondes Viewing Options fe Comm Realtime Graph Setup 6200 Appl Section 2 Window Help File Edit RE v Toolbar BES E v Status Bar v 4Digit Year SAMPLE DAT g 2 aed 1 Grid EcoWatch SAMPLE DAT g Marker TA Comm Real time Graph Setup 6200 Appl Window Help le Statistic Toolbar 3 Study Info BES E v Status Bar J sty 1 Zoomin v 4Digit Year 5 zoom v Graph 2 Unzoom Table fi E zr 5 Grid 7 a Marker KELI 7717 n H 3 st Statistic i 8 Study Info 2 23 Z qaan 7717 fl Zoom In F zoom out if E Unzoom Is o 7 0 T aran A949 n fe 06 21 1993 06 22 1993 06 2 A 16 Dai Ey ee aaa Sh
128. PS and barometric pressure readings along with sonde sensor data Barometer and GPS data cannot be logged to sonde memory Finally the file site list capability associated with the 650 is more powerful than that of the sonde allowing you to log data from several sites to a single file If these applications are important to you then it is likely that logging directly to 650 memory should be your first choice Naturally if your sonde is a 600R 600XL or 6820 with no memory pre 1999 then you will be REQUIRED to log your sonde data directly to the 650 Before proceeding in this section be sure that you review Section 3 5 1 above which describes the basics of logging with a 650 either to sonde or to 650 memory The following sections will provide details and examples of the flexibility of logging sonde data to 650 memory The distinction between a simple occasional logging with file and site names entered at the logging site and b logging to a more sophisticated file structure where file parameters are entered into a site list prior to going to the field will be described 3 5 3 2 SIMPLE LOGGING TO 650 MEMORY The term simple logging to 650 memory refers to the method of defining file and site names for the study In applications of this type the user inputs new file and site optional names for each study at the time the data is logged IMPORTANT The Use site list selection in the 650 Logging setup menu should be INACTIVE for t
129. ROCESS MONITOR See Appendix G Using Your Drinking Water Sonde with a YSI 6500 Process Monitor for enhanced calibration instructions and a detailed description of the Sample and Hold feature NOTE CAREFULLY The 6572 free chlorine sensor MUST be calibrated in situ i e in flowing drinking water whose free chlorine content has been determined by an independent method In many cases the independent method involves the use of the DPD Colorimetric Method as defined in Section 4500 Cl G of Standard Methods for the Examination of Water and Wastewater Relatively inexpensive colorimeters such as the YSI Models 9000 and 9100 and the Hach Model 5870000 are available for carrying out the DPD method to determine the free chlorine in the effluent of the flow cell associated with the 6920DW or 600DW B drinking water studies In most cases the free chlorine sensor should be calibrated AFTER it has been attached to the 6500 Process Monitor for 2 3 hours to assure the stabilization of the free chlorine sensor in the flowing tap water See YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 68 Sondes Section 2 the manual which was supplied with your 6500 for the setup of the overall system and a description of the displayed information To calibrate the free chlorine sensor using a 6500 carry out the following steps e Following the calibration of all other sensors present reinstall the free chlorine probe in the sonde bulkhead a
130. S Scoo ae 18700 00 6 File clrlake3 7 Site Clear Lake at Spillway S were Valtsa ils 7 Pierce lire 25 9 Qays A Free mem 41 3 days B Stop logging Select option 0 for previous menu The display now shows the next date and time for logging and the stop date and time for the logging study Most importantly note that the bottom command now shows B Stop logging a confirmation that the logging has indeed been initiated The Unattended study will terminate when the duration you specified has expired or the batteries are expended If you want to terminate sooner simply select 2 Unattended sample from the Run menu then B Stop logging Select 1 yes and return to the Unattended setup menu SCOPRONO 1 Yes 2Z NO Select option 0 for previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 44 Sondes Section 2 2 8 USING ECOWATCH TO CAPTURE UPLOAD AND ANALYZE DATA CAPTURE EcoWatch for Windows can be used to capture data in real time to your PC s hard drive or to a floppy disk To utilize this function interface the sonde to your PC via a COM port run EcoWatch for Windows and follow the step by step instructions below 1 Click on the sonde icon NJ choose the proper Com port and confirm 2 From the Main sonde menu press 1 Run and then 1 Discrete Sample 3 Make sure that the sample interval is set to the correct value If it is not chang
131. SAVE IMPORT EXPORT AND PRINT COMMANDS Under File function in the top line menu you can save a particular presentation version of a data file and give the presentation a customized name For example you might want to call the expanded plot in the figure above DIURNAL using the FilelSave Data Display command This presentation will be saved with your data file and can be recalled in further by using the FilelLoad Data Display command You can also export your custom data display as a spreadsheet compatible file CDF or TXT or print it to a compatible printer You may also create a custom report format using the FilelReport command See the figure below for the File menu which shows these commands Use the Window s Help function to learn more about these features YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 56 Sondes Section 2 Saving Exporting Printing and Related Functions gt EcoWatch SAMPLE DAT MEE Edit View Comm Realtime Graph Setup 6200 Appl Window Help l Open Ctri 0 e x as zil JAN Tam ONS SAMPLE DAT Copy to Clipboard Ctrl C Save Data Display Ctrl S anes maze aatia m Load Data Display Ctrl L anea sran anaa an an Export Report anra sran an an anan Print Ctrl P EY al AAT Pint etevirw anna aelan an ana aaan Frint Setup Pe sat ta Hoge SER anma sean an a anan Headey outer a ee _ 1 SAMPLE DAT 062493 06 25 93 ob
132. Samples From 06 08 94 15 52 To 07 23 94 14 22 Min Max Mean Std Temp C 19 85 32 05 25 67 2 459 Sp Cond mS cm 0 01 1 02 0 86 0 057 DO Conc mg L 0 16 15 14 3 07 3 286 pH 6 79 Er 7 27 0 127 Depth ft 093 28 232 0 2360 YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 23 EcoWatch for Windows Section 4 Shortcuts h Toolbar 2 STUDY INFO This command will display a dialog box describing the study It will show the sonde type and serial number that was used to collect the data the parameters available the logging interval and the beginning and ending times of the sample Study Info Instrument Sample Model 6000 UPG1 Total samples 4315 ID lt None gt First sample 06708794 15 52 50 Revision 200 Last sample 07723794 14 22 50 Parameters Logging Site Name fiones2 Rate jis Hins Duration 44 Days 22 Hrs 30 Mins Shortcuts Toolbar iJ ZOOM IN Enlarges graph or data table whichever is currently active by 20 Shortcuts Toolbar ZOOM OUT Reduces graph or data table whichever is currently active by 20 If the graph already extends to both ends of the Study Limits then it is not possible to zoom out any farther and this command will be dimmed Shortcuts Toolbar YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 24 EcoWatch for Windows Section 4 UNZOOM Displays the
133. Select option 0 for previous menu 4 8 Last 09 04 20 G Taare ll s00 OO g LO A Site Clear Lake Select 2 Upload to view file lists in memory and upload the data to PC based software Prior to upload a Time window display appears that will allow you to select portions of the logged data to upload You may select 1 Proceed to upload all logged data from the dates and times displayed YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 46 Sondes Section 2 Time window SP roceee 2 Start date 08 14 96 3 Start time 18 00 00 4 Stop date 08 28 96 S Sicej tame sOOs OC Select option 0 for previous menu Select 1 Proceed Choose the appropriate file transfer protocol in this example PC6000 and a status box will show the progress of the upload Verification of a successful transfer is indicated when all of the requested data have been transferred to the C ECOWIN DATA subdirectory of your PC and automatically assigned a DAT extension File typ 1 PC6000 2 Comma amp Delimited S ASCITETEXE Selec mop Enon OM ROT spre vAOUSm menu E a EcoWatch Sonde COM1 File View Comm Realtime Appl Window Help File Transfer oii xt File 40WPR1 DAT Protocol Kermit Byte count 8184 Block count fl 33 Status Receiving Error count fo Select 3 Quick Upload to transfer the last logged file in its entirety to your computer As noted above the file will then be r
134. Setup Menu 4 You can change the units of the displayed parameters by going into the Parameter submenu of the Setup Menu 5 You can change the order of the parameters by going into the Add Remove Parameters dialog box in the Parameter submenu of the Setup Menu 6 You can set the scaling options for your data by double clicking on the Y axis of the graph and using the Graph Y Axis dialog box to set the scales 7 After setting the display parameters enter the Setup Menu and choose Set Default Template Now every data file that you initially open will use the display parameters that you have chosen If you want to delete your template enter the Setup Menu and choose Clear Default Template CLEAR DEFAULT TEMPLATE This command will eliminate a default template that has been saved With no default template all new EcoWatch files open in whatever form they were saved in 4 3 8 APPL ICATIONS The Appl menu is the link to other Application programs that can be used with EcoWatch For Help using a GIS software consult the menu that came with the GIS system To upload from a Campbell Scientific CR10 Logger first connect the logger to a COM port using a Campbell Scientific SC32A Adapter Set the port for 9600 Baud 8 data bits no parity and Xon Xoff handshaking Then from the EcoWatch Appl menu select CR10 Upload The dialog box below will appear The items Number of Filled Locations and DSP Locations are information from the logger tha
135. Sonde menu selection as detailed above YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 30 650 MDS Section 3 The user attaches the 6920 sonde to a 650 After turning on the 650 the user selects Sonde menu from the 650 Main menu and presses Enter to display the Main sonde menu 650 Main Menu senna ca an Calibrate File File Logging setup Status System setup System Report Sensor Advanced N 0 0 000 E 0 0 000 Tao coal m N 0 0 000 E 0 0 000 740 4mmHg 06 01 2000 17 06 37 Qmm 05 31 2000 14 21 14 ME The user then selects Run from the sonde Main menu and Discrete sample from the Run menu pressing Enter to confirm each selection Run setup Discrete sample Unattended sample Sample interval 0 5 File Site Open a file N 0 0 000 E 0 0 000 740 5mmHg N 0 0 000 E 0 0 000 740 3mmHg 06 01 2000 17 11 44 Qm 06 01 2000 17 12 37 To set up the desired study parameters the user uses the 650 keypad to change the Sample interval from 0 5 seconds to 16 seconds and inputs custom file PROFILE1 and site WEST LAKE designations Discrete sample Discrete sample Start sampling Start sampling Sample interval Sample interval 16 File File PROFILE1 Site Site DEE i Open a file Open a file N 0 0 000 E 0 0 000 740 4mmiig N 0 0 000 E 0 0 000 TAO Git cae 06 01 2000 17 16 22 ME 06 01 2000 17 18 28 Gmm The user
136. TION Do not over grease the o rings The excess grease may collect grit particles that can compromise the seal Excess grease can also cause the waterproofing capabilities of the o ring to diminish potentially causing leaks into the compartment If excess grease is present remove it using lens cloth or lint free cloth SONDE PROBE PORTS Whenever you install remove or replace a probe it is extremely important that the entire sonde and all probes be thoroughly dried prior to the removal of a probe or a probe port plug This will prevent water from entering the port Once you remove a probe or plug examine the connector inside the sonde probe port If any moisture is present use compressed air to completely dry the connector If the connector is corroded return the sonde to your dealer or directly to YSI Customer Service see Section 8 Warranty and Service Information for details When you reinstall a probe or port plug lightly grease the O ring with lubricant supplied in the YSI 6570 Maintenance Kit CABLE CONNECTOR PORT The cable connector port at the top of the sonde should be covered at all times While communicating with the sonde a cable should be installed and tightened in place This will assure that a proper connection is being made and prevent moisture and contaminants from entering When a communications cable is not connected to the cable connector port the pressure cap supplied with the instrument should be securely tightened
137. The following table provides the default value operating range and comments relative to the calibration constants Error messages will appear during calibration if values are outside the indicated operating range unless the designation is not checked Parameter Default Operating range Comments Cond 5 4to6 Traditional cell constant C12 gain 1 0 5 to 2 0 mV offset 0 0 100 to 100 pH offset 0 0 400 to 400 pH gain 5 0583 6 07 to 4 22 NH4 J 51 2 Not checked NH4 S 0 195 0 15 to 0 217 NH4 A 1 092 Not checked NO3 J 99 5 Not checked NO3 S 0 195 0 217 to 0 15 NO3 A 2 543 Not checked CI J 99 5 Not checked CI S 0 195 0 217 to 0 15 CI A 2 543 Not checked Turb Offset 0 10 to 10 Turb Al 500 0 6 to 1 5 Range is ratio of M1 to Al Turb M1 500 Turb A2 1000 0 6 to 1 5 Range is ratio of M2 M1 to A2 A1 Turb M2 1000 Chl Offset 0 30 to 20 Chl Al 500 0 6 to 1 5 Range is ratio of M1 to Al Chl M1 500 Chl A2 1000 0 6 to 1 5 Range is ratio of M2 M1 to A2 A1 Chl M2 1000 Rhod Offset 0 10 to 10 Rhod Al 500 0 6 to 1 5 Range ratio of M1 to Al Rhod M1 500 Rhod A2 1000 0 6 to 1 5 Range is ratio of M2 M1 to A2 A1 Rhod M2 1000 To reset a calibration cell constant access the sonde Calibrate menu Then select the sensor and type UNCAL instead of the value This action will change that sensors calibration constants back to the factory default From the Advanced menu select 2 Setup to display miscellaneou
138. The site list will show these blanks in the Edit site list mode as shown on the left below but when the site list is accessed for logging studies the actual Filename will appear to avoid confusion This is shown at the right below Note that by using this tip two new sites have been easily added to the BLUELAKE Multi site list with no need to enter BLUELAKE Filename for each new site Edit site list Pick a site then press Site list Site list Filename Site name Site Num Filename Site name Site Num BLUELAKE WEST 1 BLUELAKE WEST BLUELAKE EAST BLUELAKE EAST 2 NORTH IBLUELAKE NORTH 3 SOUTH BLUELAKE SOUTH 4 or to move a site Configure to insert a site to delete a site Tip Leave blank to use the same filename as the previous site N 0 0 000 E 0 0 000 Tason N 0 0 000 E 0 0 000 737 1mmhg O E 07 11 2001 15 46 48 07 11 2001 15 47 39 Qmm Remember that when editing your Site list you will have no effect on the actual files which were previously logged to 650 memory nor on the data in the files See Section 3 6 below 3 5 4 650 LOGGING CANS AND CAN TS The use of the 650 to facilitate the storage of data from YSI 6 series sondes has been described in some detail in the sections above Unfortunately the high levels of capability and flexibility of the 650 logging function might also be viewed as complexity which in turn can
139. UCTION The Sonde menu selection in the 650 Main menu provides a terminal like interface simulating the connection of the sonde to a PC as described in detail in Section 2 of the 6 series manual Thus this item provides access to the entire menu structure of your 6 series sonde software so that you can perform custom setup in the same way that would be possible if the sonde were attached to a PC 650 Main Menu Sonde run Sonde menu File Logging setup System setup N 0 0 000 E 0 0 000 740 6mmAg 06 01 2000 17 06 37 CHEE From the 650 Main Menu select Sonde menu and press Enter A display similar depending on sonde type and sonde software version to that shown below will appear Run Calibrate File Status System Report Sensor Advanced N0 0 000 E 0 0 000 740 AMMA 05 31 2000 14 2 L14 Pm Sonde Icon Note that the icon in the lower right of the screen has changed from meter to sonde indicating that the menu shown originates in the 6 series sonde Note also that the 650 display has been designed to be very similar to that presented on a monitor when a 6 series sonde is attached to a PC as shown below Main 1 Run 5 System 2 Calibrate 6 Report 3 File 7 Sensor 4 Status 8 Advanced YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 21 650 MDS Section 3 In fact the only significant difference between the two interfaces is that for the PC mode subme
140. YSI incorporated 6 SERIES DRINKING WATER SYSTEMS 600DW B Sonde 6920DW Sonde 650 MDS Display Logger 6500 Process Monitor Environmental Monitoring Systems SAFETY NOTES TECHNICAL SUPPORT AND WARRANTY INFORMATION Contact information for technical support and warranty information on YSI s Environmental Monitoring Systems products can be found in Section 8 Warranty and Service Information COMPLIANCE When using the YSI 6 Series sondes in a European Community CE country please be aware that electromagnetic compatibility EMC performance issues may occur under certain conditions such as when the sonde is exposed to certain radio frequency fields If you are concerned with these issues consult the Declaration of Conformity that was enclosed with your instrument Specific conditions where temporary sensor problems may occur are listed in this document If you are unable to locate the Declaration of Conformity that was shipped with your instrument contact your local YSI representative or YSI Customer Service in Yellow Springs Ohio for a copy of the document See Section 8 Warranty and Service Information for contact information SPECIFICATIONS For general specifications for all YSI Environmental Monitoring Systems products included in this manual please see Appendix M Specifications GENERAL SAFETY CONSIDERATIONS For Health and Safety issues concerning the use of the calibration solutions w
141. You will see some of these functions in the figures below One very commonly used function is Limit Data Set If you choose this function by clicking on the highlighted item as shown below you then use the mouse to move your cursor to the left limit of an area of interest click once then move the mouse to the right limit of interest and click again The result will be a close up look at the specific area of the graph you have defined Selecting a Subset of Data within a Graph M EcoWatch SAMPLE DAT File Edit View Comm Realtime SERN Setup 6200 Appl Window Help Zoom In AE Zoom om ats Unzoom Zoom Window Center Scroll Limit Data Set KS oome Autoscale Manual Scale OOOCCO en Ono Redraw Sancel inte Ta pH 3OConc mePCOnd MS4 Temp C Lolk la x ay 4 i EE 98 76 f 54 32 ran S hi 1918 ae S 1888 2 aren et B34 E 1N TPI NRAA 1RR nna nann 06 21 1993 06 22 1993 06 24 1993 06 25 1993 06 27 1993 06 28 1993 DateTime M D Y Limit graph data set eliminate first and last part of the study NUM YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 55 Sondes Section 2 Using Limit Data Set to Display a Subset of Data Eile Edit View Comm Realtime Graph Setup 6200 Appl Window Help 8 x sile E BINDS EN EH NPI ees m SAMPLE DAT
142. _ DO calibration e ond Calibrate Arp 0 E 0 0 000 739 4mmHg om 06 02 2000 10 57 08 Amm When the dissolved oxygen reading is stable press the Enter key to confirm the calibration as indicated by the message Calibrated in the header In addition the message in the upper window will change from YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 24 650 MDS Section 3 Calibrate to Continue Make sure that Continue is highlighted and press Enter to return to the DO calibration menu Calibrated DO calibration onde onde_ __ _ DO DO mg L 96 7 0x 8 42007 5 3 0ch pH 8 9orp N 0 0 000 E 0 0 000 739 5mmig N 0 0 000 E 0 0 000 739 2mmHg m me ce p 06 02 2000 10 58 34 05 31 2000 15 57 57 3 4 3 COMMON OPERATIONS USING THE 650 SONDE MENU SELECTION The following section provides brief instructions for carrying out frequently used sonde activities via the Sonde menu selection of the 650 The instructions do not provide the detail of the examples above assuming that the user understands how to navigate the menus with the Enter Escape and Arrow keys and is able to make alpha numeric entries from the keypad 3 4 3 1 Running the sonde in real time This function can be accomplished either automatically from the Sonde run selection of the 650 menu or by using the Sonde menu selection
143. a spectrophotometer to differentiate between the various forms of chlorophyll a b c and pheophytin a In contrast to this fairly controlled situation all in vivo sensors operate under whole cell heterogeneous conditions where the sensor will measure at least to some degree everything which fluoresces in the region of the spectrum above 630 nm when irradiated with 470 nm light Therefore the sensor is really quantifying overall fluorescence under these optical conditions rather than chlorophyll specifically While it is probable that most of the fluorescence is due to suspended plant and algal matter and that much of the fluorescence from this biomass is due to chlorophyll it is impossible to exclude interferences from other fluorescent species using the approach described above Note that in vivo fluorometers usually cannot differentiate between the different forms of chlorophyll LACK OF CALIBRATION REAGENTS The usual reagents which are used for the calibration of fluorometric measurements for chlorophyll after extraction into organic solvents are purchased as purified chlorophyll a from chemical supply vendors such as Sigma These standards are not soluble in aqueous media and even if they were their fluorescence is unlikely to be the same as when the chlorophyll is present in the whole living cell Therefore for even a semiquantitative calibration the user needs a substitute standard such as Acridine Orange see above to pr
144. able to the 650 then insert the barrel connector of the power supply into the barrel of the adapter cable and finally plug the power supply into an appropriate AC power outlet The pack can be recharged with the 650 either on or off However if the instrument is on the progress of the charging operation can be viewed in the Status Bar see Section 3 2 10 below To ensure that you get maximum operational time from the rechargeable battery pack the user should follow the procedures below 1 Place your display logger on charge for approximately 2 hours to obtain an 80 90 regeneration of battery capacity 2 Place your display logger on charge for approximately 6 hours to get a full charge 3 Do not charge the batteries continuously for more than 48 hours 4 For long term storage keep your battery pack between the temperatures of 20 C and 30 C and remove it from the 650 case 5 Do not charge your batteries at temperatures below 0 C or above 40 C 6 Do not use or store the battery pack at high temperature such as in strong direct sunlight in cars during hot weather or directly in front of heaters If the above steps are not followed it may result in a decrease in the operational lifetime of your battery pack In addition pay particular attention to the method of long term storage of the battery pack as is outlined in the following warning CAUTION If the battery pack 650 will not be used for extended periods o
145. adings have stabilized to confirm the calibration and zero the sensor Then as instructed press any key to return to the Calibrate menu Note For the 2 point and 3 point calibrations described below standards of known fluorescence are required Two general types of standards can be used a phytoplankton suspensions of known chlorophyll content and b dye solutions whose fluorescence can be correlated to that of chlorophyll The user is responsible for determining the chlorophyll content of phytoplankton suspensions either by employing the extractive analysis procedure described in Standard Methods for the Examination of Water and Wastewater or by analyzing the suspension in situ using a laboratory fluorometer See Section 5 Principles of Operation of this manual for more information about chlorophyll standards YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 73 Sondes Section 2 Select the 2 point option to calibrate the chlorophyll probe using only two calibration standards In this case one of the standards must be clear water 0 ug L and the other should be in the range of a known chlorophyll content of the water to be monitored For example if the water to be evaluated is known to be low in chlorophyll an appropriate choice of standards might be 0 and 10 pg L However for general purpose measurements an appropriate choice of standards is usually approximately 100 ug L To begin the calibration immerse the s
146. al attention immediately INGESTION Immediately rinse out mouth with large quantities of water If reagent was swallowed give 2 glasses of water and seek medical attention immediately YSI Nitrate Standard Solutions 3885 3886 and 3887 INGREDIENTS Q Potassium Nitrate Q Magnesium Sulfate Q Gentamycin Sulfate Trace CAUTION AVOID INHALATION SKIN CONTACT EYE CONTACT OR INGESTION May be harmful by ingestion or skin absorption May cause eye and skin irritation The chemical physical and toxicological properties have not been thoroughly investigated FIRST AID INHALATION Remove to fresh air If not breathing give artificial respiration If breathing is difficult give oxygen Call a physician SKIN CONTACT Remove contaminated clothing immediately Wash affected area with soap or mild detergent and large amounts of water approx 15 20 minutes EYE CONTACT Wash eyes immediately with large amounts of water approx 15 20 minutes occasionally lifting upper and lower lids Seek medical attention immediately INGESTION Immediately rinse out mouth with large quantities of water If irritation occurs or reagent was swallowed seek medical attention immediately YSI Incorporated Drinking Water Monitoring Systems Operations Manual A 5 Health and Safety Appendix A YSI Turbidity Standard 6073 INGREDIENTS Q Styrene divinylbenzene copolymer spheres The material is not volatile and has no known i
147. al time study is started You will choose a RT file that will store colors scaling information number of parameters and other information useful to the program At the same time the program starts another file with the same name but a DAT extension for the actual measurements that are taken during the study YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 31 EcoWatch for Windows Section 4 4 3 6 GRAPH ZOOM WINDOW Enlarges a section of the graph The pointer will change to a magnifying glass and then you can click and drag on the graph to indicate the section you want to view This command stays active until you execute it again Shortcuts Toolbar CENTER SCROLL Centers graph at the mouse cursor The pointer will change to a bullseye Clicking anywhere on the graph will cause that point to be moved to the center This command stays active until you execute it again Shortcuts T Toolbar A LIMIT DATA SET This command limits the amount of data being processed If you are not presently interested in portions of the graph or table at the beginning or end of the study you may want to use this command to indicate only that portion that you are interested in The program will have fewer data points to handle and will respond to your commands quicker Executing this command when modifying a graph will change the pointer to a vertical arrow Click once on the left end of that part of the graph that you want and t
148. ale Wal Min Max Mean Temp C 16 53 27 07 19 82 SpCond mS cm 0 01 0 82 0 75 DO Conc mg L 5 45 l 11 77 8 42 FEA 655 Samples From 06 21 1993 13 30 45 To 06 28 1993 09 00 45 0 164 a 06 21 15 instrument m Sample 06 211 06 21 1 Model 6000 Total samples ess ad 06 2 Wig ID lt None gt First sample 06721793 13 30 45 4 Show statistic o1 Revision 1 04 Last sample 06728793 09 00 45 Parameters Logging Site Name Rate Duration 15 Mins 6 Days 19 Hrs 30 Mins Section 2 Std 1 779 122 Next with the Statistics and Study windows closed return to the View menu close Table and activate Graph Using the right mouse button click at any point on the graph A dotted vertical line appears along with specific data values in boxes to the left of the displayed graphs as shown in the figure below You can hold down the right mouse button and move the mouse to scan the entire graph that is displayed in the window The values in the boxes change as you move the mouse This feature is very useful for quantifying specific data without the need to open the data table and scroll through what may be thousands of data points Note also that the exact time and date change to let you know specifically when an event of interest occurred YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 52 Sondes Section 2 Viewing the
149. alue to 740 the correct value from your laboratory barometer Note also that a value of the approximate barometer offset which occurred during the calibration 6 3 mm Hg is present in the display The offset value is approximate due to the variation in the tenths of a mm digit of the sensor This value can be used to return the sensor to its factory calibration simply recalibrate the sensor to a new value which is determined by current value offset Calibrate barometer Calibrate barometer Calibrate barometer mmHg KE Ee mmHg 74 09 mmHg EON Baro offset 0 0 Baro offset 0 0 Baro offset 6 3 N 0 0 000 E 0 0 000 733 4mmiig N0 0 000 E 0 0 000 733 4mmilg N 0 0 000 E 0 0 000 740 0mmllg F 06 05 2000 17 56 12 2 06 05 2000 17 54 47 BL Nimh 06 05 2000 17 55 15 i lt n Note that this entry will only appear if your have ordered your 650 with the barometer option NOTE After initial calibration of the barometer a file with a name defined by the Circuit Board ID and a glp extension e g 00003245 glp will automatically be generated and stored in 650 memory Each additional barometer calibration record for will also be stored See Section 6 3 below for the transfer of this file to a computer for viewing and storage YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 20 650 MDS Section 3 3 4 SONDE MENU INTERFACE 3 4 1 INTROD
150. an still be susceptible to fouling not only from long term build up of impurities or those flushed from older distribution pipes but also to shorter term formation of bubbles from outgassing of the water These bubbles can generally be removed in short term sampling application by simply agitating the sonde manually However for studies longer than a few hours where the user is not present at the site the quality of the turbidity data obtained with a turbidity sensor that has no capability of mechanical cleaning is likely to be poor However as noted above both the 6136 probe is equipped with a mechanical wiper that makes them ideal for unattended applications The wiper can be activated in real time during discrete sampling operations or will function automatically during long term unattended sampling studies The number of wiper movements and the frequency of the cleaning cycle for the unattended mode can be set in the sonde software Generally one movement is sufficient for most environmental applications but in media with particularly heavy fouling additional cleaning cycles may be necessary CALIBRATION AND EFFECT OF TEMPERATURE The sonde software offers the option of 1 point 2 point or 3 point calibrations procedures For most applications a 2 point calibration at 0 and approximately 100 NTU is sufficient for the 6136 sensor to meet the quoted accuracy specification of 2 of the reading or 0 3 NTU whichever is greater Note that the
151. and a cylindrical tool with a screwdriver style handle as shown in the picture below Thread the nut on the end of the 6572 probe into the base plate as shown in the picture below Place an o ring from the 6573 membrane kit in the groove at the bottom of the tool as shown in the picture below left Apply a few drops of KCI solution to the tip of the probe as shown in the picture below right The fluid should completely fill the small moat around the electrodes and form a meniscus on the tip of the sensor Meniscus O Ring in Groove YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 6 Quick Start Guide to Drinking Water Studies Appendix F Remove a white membrane sheet from the package in the 6573 membrane kit as shown in the picture below CAUTION The blue sheets are simply protective spacers and CANNOT be used as membranes for the free chlorine sensor White Membrane As shown in the pictures below lay the membrane on the probe tip that contains the electrolyte so that the probe tip is approximately in the middle of the membrane As shown in the picture below place the bottom of the o ring installation tool over membrane probe face and press down securely YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 7 Quick Start Guide to Drinking Water Studies Appendix F As shown in the picture below left roll the o ring off of the end of the installation tool so that it
152. and data tables Zoom In Click this button to magnify by 20 This command can be used on both graphs and data tables io Zoom Out 2 Click this button to reduce magnification by 20 This command can be used on both graphs and data tables YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 10 EcoWatch for Windows Section 4 4 2 5 GRAPH DATA IN REAL TIME Choosing the New command from the Real time menu will bring up a window with graphs that plot data from the sonde as the measurements are being taken If you do not have a default COM port set in the Communications Settings dialog then you will be asked which COM port to use for the real time measurements If you do have a default port selected then the program will use that port automatically The number of parameters displayed during real time is set by the sonde If four parameters are set in the Report setup in the sonde then those same parameters will be displayed in real time If you want to change the parameters displayed then you must close the real time window open a sonde terminal window change the number of parameters in the sonde software menu and then return to real time measurements The Settings command in the Real time menu takes you to a dialog where you can set the x axis time and the sample interval YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 11 EcoWatch for Windows Section 4 4 3 ECOWATCH MENU 4 3 1 FILE Th
153. aphs rather than the background for each individual graph that is set with the next command Color x Join if Ie m See ee a Se eee EEE eee ee Emm E EE Bee Sel ae Trace Color Goes to the Change Trace Color dialog box where you can change the color of the trace and the background for each of the individual graphs For setting the background color for all graphs see the previous command Change Trace Colors YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 38 EcoWatch for Windows Section 4 Note that there are two color buttons one for the trace color and the other for the background color Clicking on either of these buttons will take you to the Color dialog box where you can change the color Use the Set All buttons to quickly set all traces or backgrounds to the same color Page Title This is where you can enter a title for the graph The title may have one or two lines Graph Page Title SAMPLE _DAT E OK _ cme 1 Trace per Graph Choose this to have just one parameter on each graph 2 Traces per Graph Choose this to have two parameters on each graph TABLE If there is no table then the commands on this submenu will be unavailable The Table submenu offers the following commands Font Color Goes to the Font Dialog Box where you can change the font and color of text that appears in the table Page Color Goes to the Color Dialog Box where you can change t
154. applications This item will only appear if a turbidity sensor is enabled in the Sensors menu Chl temp co C 0 0 This entry sets the coefficient for the temperature compensation of chlorophyll readings from the 6025 sensor The default value of zero should only be changed by the user after establishing the temperature compensation factor for the phytoplankton sample in question See Section 5 12 of this manual for more information This item will only appear if a chlorophyll sensor is enabled in the Sensors menu From the Advanced menu select 4 Data filter to display filtering options Type the appropriate number to activate deactivate any of the displayed features Sondes with no optical turbidity chlorophyll or rhodamine WT probes enabled will display the following menu Data filter setup 1 Enabled 2 nait Or FLlter 3 Time constant 4 4 Threshold 0 001 Select option 0 for previous menu If any optical probe turbidity chlorophyll or rhodamine WT is enabled then the menu will appear as follows YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 92 Sondes Section 2 Data filter setup 1 Enabled 2 i Wests LOr Eiter 3 Time constant 4 Threshold Select option 0 for previous menu Choosing 3 Time Constant will display the following Time constant 1 Turbid 12 2 Ch1 12 3 Other 4 Select option 0 for previous menu Recomme
155. ar to those above for logging GPS readings must be met e Barometer readings can ONLY be logged to 650 memory the system does NOT support logging to sonde memory e The barometer readings must be logged to 650 memory from the 650 Run display along with sonde sensor readings This means that you must have a sonde attached to your 650 in order to log barometer readings Logging of barometer readings is not supported without sonde attachment even though these readings can be viewed in the Status Bar with no sonde attached e If your want to log barometer readings to 650 memory you must make certain that the Store Barometer option is active in the Logging setup menu of the 650 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 54 650 MDS Section 3 Once these conditions are met follow the instructions in Section 3 5 3 above for logging of sonde sensor readings to 650 memory The barometer readings will automatically be added to the file at the sample interval selected for the sonde readings Barometer readings stored in 650 memory will remain as part of the sensor data file that can be viewed from the 650 display and or uploaded with the data file for analysis in EcoWatch for Windows The barometric pressure readings are processed as a normal parameter by EcoWatch with the user having the ability to change units from the EcoWatch menus For example data stored in 650 memory in units of mm Hg units can easily be conver
156. as read in EcoWatch but N 39 47 33 W 83 54 13 as displayed by the 650 3 9 USING THE 650 BAROMETER 3 9 1 PRINCIPLES OF OPERATION The optional barometer operates on the strain gauge principle and is located on the internal PCB of the 650 To make certain that the barometer is sensing true atmospheric pressure under conditions of temperature and pressure changes the interior of the case is vented to the atmosphere with patches of material which are permeable to air but impermeable to water One of these patches is located in the rear section of the case and the other is attached to the battery lid The patch on the case rear is not accessible to the user but the one on the battery lid can be damaged by abuse Be certain to identify the location of the patch on the interior of the battery lid and take care not to puncture it with sharp objects or to peel it away from the plastic If you suspect that the venting patch on your battery lid has been damaged make certain that you do not expose the 650 to water either spraying or submersion Then contact YSI Customer Service as soon as possible for advice The 650 barometer reads true barometric pressure and therefore is unlikely to agree with values from your local weather service which are usually corrected to sea level before being distributed Note however that the primary purpose of the barometer is for use in calibrating your sonde dissolved oxygen sensor and the true value a
157. at the output of the sensor being calibrated does not conform to the normal range for this parameter This problem could be due to either a malfunctioning sensor or to a calibration solution that is out of specification If this error message is encountered first insure that your standards for pH ORP ammonium nitrate chloride conductivity and turbidity have not been contaminated and that your free chlorine sensor is in flowing tap water in a YSI flow cell If an Out of Range error is experienced for free chlorine also be certain that you have correctly determined the chlorine content of your flow cell effluent with a DPD colorimetric analysis and that your colorimeter is working properly Perform replicate analyses of the effluent to assure correct chlorine content Also be certain that you have entered the correct value for the calibration solution If the calibration error message continues to occur change the membrane reactivate the sensor and retry the calibration If still unsuccessful contact YSI Customer Service to determine whether the sensor in question needs to be factory serviced or replaced Illegal Entry This message simply indicates that your keyboard input does not conform to the accepted format for this parameter For example you may have entered the letter O instead of zero for a calibration value Return to the desired parameter in the Calibrate menu and repeat the calibration entry being certain to enter only numb
158. ata using YSI EcoWatch for Windows software e Attached to a SCADA system utilizing the YSI 6500 Process Monitor as a link between the sonde and the SCADA e Attached to a data collection platform such as the YSI EcoNet system which provides web based access to real time data DRINKING WATER SONDE DEPLOYMENTS What are the site requirements for using YSI Drinking Water Sondes To carry out side stream flow cell studies you will need the following e A water tap with a valve or regulator to control flow and a fitting to allow the attachment of an inlet hose from the tap to the YSI flow cell e A drain to collect and dispose of the flow cell effluent e Hardware to securely mount the sonde This can be as simple as a hook on the wall to attach to the sonde bail or a horizontal binding strap to attach a floor or table mounted sonde to a wall or a frame e A site at which the water inlet and outlet will not freeze under winter conditions Do I need to have AC power at the deployment site No the DW sondes can both operate from internal battery power for stand alone studies in which data is logged to the sonde memory and then uploaded periodically for analysis of previous events However if you wish to see your data in real time through the use of a SCADA system after processing the data via YSI 6500 Process Monitor between the sonde and the SCADA then AC power will be required at the site In addition if you wish to attach the son
159. atch export it as a WMF file and then import it into another Windows program CDF stands for Comma Delimited sometimes referred to as a Comma and Quote Delimited File This format is commonly used by spreadsheet and database programs In this type of file commas separate YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 16 EcoWatch for Windows Section 4 individual data entries quotation marks surround any text and no formatting or marking is performed on numbers EcoWatch can also open files in CDF formats When the exported file is to be imported into a spreadsheet it is sometimes convenient to reduce the number of data Averaging them can easily do this See Change Parameter Attributes for more information Shortcuts Toolbar Ke REPORT Use this command to send data or statistics to an ASCH text file The information is easy to read in this format When choosing this command the following dialog box will appear ai COWWIN DATA SAMPLE RPT gt You must enter a filename under File use the Browse button if needed If you want to simply have a report Type listing the data then click Data If you want Statistics minimum maximum average and standard deviation then the statistics frequency button applies gt Ifyou want to have Daily statistics keep in mind that every day actually starts at midnight It would be likely then that the first and last days would have very different stat
160. ate and setup the sonde First connect your sonde to one of the serial communications ports on your PC In the Comm menu click Sonde and you will get a terminal window where you can calibrate the sonde and set it up for logging You are now communicating directly with the sonde software See Section 2 6 Calibration for more detailed instructions on calibration of sensors See Section 2 5 Sonde Software Setup for sonde setup 2 Deploy the Sonde For more details see Section 2 Sondes and Section 3 Displays Loggers 3 Retrieve the Sonde and Upload the Data After retrieving the sonde connect it to your PC and upload the data As with calibration and setup you can use the Sonde button in EcoWatch to communicate with the sonde Using the sonde menu upload the data to EcoWatch The data will now be in a DAT file on your PC 4 Graph the Data and Adjust the Graphs to Your Liking Open the newly uploaded DAT file In this example the file is called JONES2 DAT Upon opening the file it looks like the graphic at the end of this tutorial You can then use the commands in the Graph menu to Zoom to the portion of the graph that you are most interested in You can use the Setup menu to add a title or change colors scale the graphs or select the parameters to be shown YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 5 EcoWatch for Windows Section 4 JONES2 DAT 8 A 15 34 15 16 14 58 14 40 06417794 06 2694 07 0594
161. ated Drinking Water Monitoring Systems Operations Manual 2 41 Sondes Section 2 Unattended setup Interval 00 15 00 tart date 07 17 96 tart time 18 00 00 Duration days 365 5 File 6 Site J Bat voltss Ll Se Bar IN neon daS 9 Free mem 41 3 days A 1lst sample in 8 10 minutes B View params to log eStart ogomo Follow the prompts on this screen to prepare your 600XLM 6600 6920 or 600 OMS battery version sonde for unattended deployment as described below To verify and or correct the time and date enter 4 Status or 5 System menu from the Main menu You may enter the correct date and time from either of these submenus Select 1 Interval and enter the desired time between samples e g 15 minutes in the screen above Use the 24 hour clock format to enter interval Select 2 Start Date and 3 Start Time to set the time that data will begin to log to sonde memory If you do not make any change to these entries then the study will automatically begin at the next integral time interval once you have pressed C Start logging Example If the current time is 17 20 00 and your sample interval is 15 minutes logging will automatically begin at 17 30 00 It is better to start the study prior to taking the unit to the field so that you can confirm that readings are being saved to memory If you should desire to start the instrument at the site at 6 00 PM as noted in the above example
162. ately YSI pH 4 00 7 00 and 10 00 Buffer Solutions 3821 3822 3823 pH 4 INGREDIENTS Q Potassium Hydrogen Phthalate Q Formaldehyde Q Water pH 7 INGREDIENTS Q Sodium Phosphate Dibasic Q Potassium Phosphate Monobasic Q Water pH 10 INGREDIENTS Potassium Borate Tetra Potassium Carbonate Potassium Hydroxide Sodium di Ethylenediamine Tetraacetate Water OOOUCD CAUTION AVOID INHALATION SKIN CONTACT EYE CONTACT OR INGESTION MAY AFFECT MUCOUS MEMBRANES Inhalation may cause severe irritation and be harmful Skin contact may cause irritation prolonged or repeated exposure may cause Dermatitis Eye contact may cause irritation or conjunctivitis Ingestion may cause nausea vomiting and diarrhea YSI Incorporated Drinking Water Monitoring Systems Operations Manual A 2 Health and Safety Appendix A FIRST AID INHALATION Remove victim from exposure area to fresh air immediately If breathing has stopped give artificial respiration Keep victim warm and at rest Seek medical attention immediately SKIN CONTACT Remove contaminated clothing immediately Wash affected area with soap or mild detergent and large amounts of water approx 15 20 minutes Seek medical attention immediately EYE CONTACT Wash eyes immediately with large amounts of water approx 15 20 minutes occasionally lifting upper and lower lids Seek medical attention immediately INGESTION If victim is conscious immediately
163. ater Monitoring Systems Operations Manual 2 71 Sondes Section 2 NOTE Before calibrating your 6026 or 6136 turbidity sensor pay particular attention to the following cautions e To properly calibrate YSI turbidity sensors you MUST use standards that have been prepared according to details in Standard Methods for the Treatment of Water and Wastewater Section 2130 B Acceptable standards include a formazin prepared according to Standard Methods b dilutions of 4000 NTU formazin concentrate purchased from Hach c Hach StablCal standards in various NTU denominations and d AMCO AEPA standards prepared specifically for the 6026 and 6136 by either YSI or approved vendors who are listed on the YSI website www ysi com STANDARDS FROM OTHER VENDORS ARE NOT APPROVED FOR THE YSI TURBIDITY SYSTEM AND THEIR USE WILL LIKELY RESULT IN BOTH CALIBRATION ERRORS AND INCORRECT FIELD READINGS e For AMCO AEPA standards the value entered by the user during the calibration protocol is DIFFERENT depending on which sensor 6026 or 6136 is being calibrated This reflects the empirically determined fact that 6026 and 6136 sensors that have been calibrated to the same value in the primary standard formazin will have different responses in suspensions of the AEPA AMCO beads This effect is likely due to the larger optical cell volume of the 6136 Thus for example the label of the YSI 6073 turbidity standard bottle indicates that the value of the standard
164. ation Section 5 is not perfect and a minor interference on chlorophyll readings from suspended solids may result Laboratory experiments indicate that a suspension of typical soil measured with a YSI 6026 sensor will have a turbidity interference characterized by a factor of about 0 03 ug L per NTU For example the turbidity of the water must be above 100 NTU to produce an apparent chlorophyll reading equal to 3 ug L In very cloudy water the user may wish to use the independently determined turbidity value and the above compensation factor to correct measured chlorophyll values using for example a spreadsheet LIMITATIONS OF N VIVO CHLOROPHYLL MEASUREMENTS As noted above the measurement of chlorophyll from in vivo fluorescence measurements will always be less reliable than determinations made on molecular chlorophyll that has been extracted from the cells using the procedures described in Standard Methods This section describes some of the known problems with in vivo chlorophyll measurement INTERFERENCES FROM OTHER FLUORESCENT SPECIES The analytical methods described in Standard Methods for chlorophyll involve disruption of the living organisms present in suspension followed by extraction of molecular chlorophyll into a homogeneous solution in an organic solvent Acidification of the extract helps to minimize the interferences caused by a number of other non chlorophyll species In addition readings can be taken at various wavelengths on
165. atory glassware to perform many calibrations If you do not use a calibration cup that is designed for the sonde you are cautioned to do the following v Perform all calibrations with the Probe Guard installed This protects the probes from possible physical damage v Usea ring stand and clamp to secure the sonde body to prevent the sonde from falling over Much laboratory glassware has convex bottoms YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 26 Sondes Section 2 v Insure that all sensors are immersed in calibration solutions Many of the calibrations factor in readings from other probes e g temperature probe The top vent hole of the conductivity sensor must also be immersed during calibrations CALIBRATION TIPS The key to successful calibration is to insure that the sensors are completely submersed when calibration values are entered Use recommended volumes when performing calibrations For maximum accuracy use a small amount of previously used calibration solution to pre rinse the sonde You may wish to save old calibration standards for this purpose Fill a bucket with ambient temperature water to rinse the sonde between calibration solutions or perform the calibration near a sink where the probes can be rinsed from the tap Have several clean absorbent paper towels or cotton cloths available to dry the sonde between rinses and calibration solutions Shake the excess rinse water off of the
166. ature of the site and the brand of batteries used can affect battery life It is recommended to recover the sonde earlier than the predicted battery life and to use new batteries for each deployment Once you press C Start logging the following screen will appear Sipenceslogguanc INS WACK SiUlactS g 1 Yes 2 No Select option 0 for previous menu Select 1 Yes and the screen will change YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 64 Sondes Section 2 Logging 1 Interval 00 15 00 2 Next at 07 17 96 SINE xieechemelsSs1OLOESO10 4 Stop at 07 31 96 S Sicoo ar Its sOOs We 6 File clrlake3 7 Site Clear Lake at Spillway S pete woliese 9 0 DSB ait lire 21 2 ceys A Free mem 18 9 days BS COO loggtae Select option 0 for previous menu The display now shows the next date and time for logging and the stop date and time for the logging study Most importantly note that the bottom command now shows B Stop logging a confirmation that the logging has indeed been initiated The Unattended study will terminate when the duration you specified has expired or the batteries are expended If you want to terminate sooner simply select 2 Unattended sample from the Run menu then B Stop logging Select 1 Yes and return to the Unattended setup menu Sits Pm LO CS cpiemicyy 1 Yes 2 No Select option 0 for previous menu 2
167. ayed Border You can also choose whether or not to print a border PRINT PREVIEW This command allows the user to preview how the document will appear when it is printed This command only works for data that is displayed in a table format not when the data is in graph format YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 18 EcoWatch for Windows Section 4 EcoWatch SAMPLE DAT laj x f Next Page Prey Page Two Page Zoom In Zoom Out Close SAMPLE DAT BEBESEESTERE ESTER RRR RE EES RES EE REE EE ERE mz mm 245 45 Tue Sep 1 10 12 12 1988 Page 107 6 Page 1 NUM PRINT SETUP Use this command to select a printer and a printer connection This command presents the Print Setup dialog box The following options allow you to select the destination printer and its connection Print Setup X 3 currently HP LaserJet 4V 4M on 4YSISENG_HP4 Specific printer HP Lasenet 4 4M on AYSISENG_HP4Y Orientation Paper Network Portrait Size letters 1 2x11in E A C Landscape Source AutoSelect Tray E Printer Select the printer you want to use Choose the Default Printer or choose the Specific Printer option and select one of the current installed printers shown in YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 19 EcoWatch for Windows Section 4 the box You install printers and configure ports using the Windows C
168. ber 609X where the value of X determines their length These cables have a connector on one end which attaches to the sonde and a military style MS 8 connector on the other end which will directly interface to a 650 Display Logger a 6500 Process Monitor and 6200 and EcoNet data collection platforms If you wish to use your field cable for laboratory calibration while interfacing the sonde to a PC you will require a YSI 6095B adapter which has a mating MS 8 connector at one end and standard serial connector DB 9 at the other What will I need to supply power to my drinking water sondes For stand alone deployments and real time applications using EcoWatch for Windows the sondes can be powered using internal batteries where the 6920DW and 600DW B will have a battery life of about 30 days at a 15 minute sample interval If AC power is present at the site of the stand alone deployment then it is probably prudent to use the YSI 6038 US and Canada or the YSI 6651 all countries power supplies to provide power To use these power supplies you must have a field cable with a 6095B adapter attached to the sonde the power input from the supplies goes through an MS 4 connector on the 6095B The power supply will also connect to a 6067B calibration cable For applications involving the YSI 6500 or any data collection platforms the sonde will automatically be powered from the 6500 attached to AC power or DCP attached to either AC or DC
169. ble Make sure that the 6500 is attached to line power Make sure that readings of all appropriate parameters are displayed on the screen Connect the 4 20 mA current loop or modbus outputs of the 6500 to your SCADA system and assure proper data capture by the SCADA system 5 Determine whether you would like the readings output to your SCADA system to be continuous NOT RECOMMENDED because higher frequency of free chlorine probe maintenance and potential compromise of pH ORP sensor life or frozen between longer sample intervals RECOMMENDED because of lower frequency of free chlorine probe maintenance and longer pH ORP probe life If you choose continuous output to the SCADA no further action is required If you choose to use the recommended longer sample intervals then enter the secondary menu of the 6500 by pressing the Esc and Enter keys simultaneously Select Setup sonde from the menu and a activate the Data Freeze and Release function by pressing Enter to show a check mark in the box and b choose the sample interval between readings pressing Enter after selecting the interval 8 Data should now be acquired by your SCADA system for processing according to user software POD LO Maintenance of the Chlorine Sensor During a Continuous Monitoring Study Inspect the flow cell inlet and drain fittings and hose attachment points as often as possible and make certain no leaks are present If leaks are observed turn off the water at t
170. bration and then press Enter to return to the Calibrate menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 35 Sondes Section 2 Thoroughly rinse and dry the calibration cups for future use FREE CHLORINE 1 POINT The 6572 free chlorine sensor MUST be calibrated in situ i e in flowing drinking water whose free chlorine content has been determined by an independent method In many cases the independent method involves the use of the DPD Colorimetric Method as defined in Section 4500 Cl G of Standard Methods for the Examination of Water and Wastewater Relatively inexpensive colorimeters such as the YSI Models 9000 and 9100 and the Hach Model 5870000 are available for carrying out the DPD method to determine the free chlorine in the effluent of the flow cell associated with the 6920DW or 600DW B drinking water studies After activation of the sensor according to the instruction in Section 2 6 1 above and AFTER the calibration of all other sensors present reinstall the free chlorine probe in the sonde bulkhead after removing the port plug Make certain that no moisture is present in the port before installing the probe and if moisture is present from the previous calibration procedures use compressed air to dry the port After installing the free chlorine sensor in the sonde bulkhead locate the flow cell which you purchased with your drinking water sonde and install the sonde in the flow cell according to the instru
171. cal features of the 650 display and keypad are shown in the figures below 650 Front View Display Backlight Key On Off Key Arrow Keys Enter Key Escape Key Cellular Phone Style Keypad MS 8 Connector eee Strain Relief Lanyard Note that the YSI 650 keypad consists of 20 keys as shown in the diagram above There are four function keys up down right and left arrow keys and an alpha numeric keypad The top left key that has a green circle and line is the ON OFF key The top right key activates the display backlight The Escape key is labeled CEs and is the Enter key YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 6 650 MDS 650 Back View Section 3 Accessory Connections Barometer Vent Patch Battery Lid Battery Lid Screws Note that the back of the case contains the battery lid that is attached to the main case with four captive screws and has three fittings for attachment of the ultraclamp and tripod accessories In addition the battery lid has a hole that is covered with water impermeable patch for venting of the optional barometer CAUTION The barometer venting patch is resident on the inside of the battery lid Removal of or damage to this patch will result in water leakage into the battery compartment The short cord with loop lanyard which is attached to the bottom of the case is attached to the strain relief of the sonde cable Simply open the D ring pass the lanyard loo
172. can be carried out it needs to be activated according to the following instructions e Remove the 6572 free chlorine probe from the sonde bulkhead if it has been installed previously Make certain that a membrane has been installed correctly as documented in Section 2 3 above e Prepare a diluted solution of commercial chlorine bleach consisting of 1 part bleach to 200 parts purified water distilled or deionized For example mix 1 mL of chlorine bleach with 200 mL of purified water e Place the free chlorine probe in the diluted bleach and leave for approximately 60 seconds CAUTION Do not leave the probe in bleach for longer than minute or the break in time for the probe will be excessive e Rinse the sensor tip and membrane with purified water and set aside in a beaker of tap NOT deionized or distilled water DO NOT REINSTALL THE PROBE IN THE SONDE BULKHEAD AT THIS TIME Now follow the instructions below for calibration of the other sensors CONTAINERS NEEDED TO CALIBRATE A SONDE The calibration cup that comes with your sonde serves as a calibration chamber for all calibrations except free chlorine and minimizes the volume of calibration reagents required However if you are using the 6026 or 6136 turbidity the 6025 chlorophyll or the 6130 rhodamine WT probes you should visually verify proper movement of the wiper mechanism before beginning the calibration procedures Instead of the calibration cup you may use labor
173. cation for 60 90 days we cannot guarantee that the sensor will not be susceptible to some drift depending on the content of your drinking water Therefore you should go to your deployment site as often as possible perform a DPD colorimetric test of the flow cell effluent and recalibrate the sensor from the 6500 display if significant drift is evident If drift in the same direction continues to be observed and or if the free chlorine readings become jumpy then you should remove the free chlorine probe from the sonde recondition it install a new membrane and activate the sensor as described in Section 2 6 1 of the Drinking Water Sonde Manual It is important to remember that the accuracy specification provided for the free chlorine sensor 15 of the reading or 0 05 mg L whichever is greater does not include long term drift even though our empirical studies in several water samples show that the specification can be met for up to 60 day deployments The extent of the drift of your free chlorine sensor will depend on several factors including the species in your particular drinking water and whether the membrane was properly installed YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 7 Using Your DW Sonde with a 6500 Process Monitor Appendix G YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 8 Frequently Asked Questions About YSI Drinking Water Systems Appendix H APPENDIX H FREQUENTLY ASKE
174. ce simply allow the system to run for 2 3 hours while displaying the readings on the 6500 screen During the 2 3 hour break in period the Free Chlorine and Chlorine Charge readings should drop significantly and show reasonable stability for periods of 5 minutes YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 36 Sondes Section 2 NOTE At the end of the break in period the Cl2 Charge value should have a value between zero 0 and 35 If the Cl2 charge value is greater than 35 a new membrane should be installed and the activation and break in process should be repeated The free chlorine system should be calibrated using the same basic methods employed for other sonde sensors The important thing to remember is to calibrate your sensor versus a flow cell effluent in the mode which you will be using to measure free chlorine There are four basic modes of operation as described below with their corresponding calibration instructions 1 Stand alone applications where data is being logged only to the internal memory of the sonde at a user selected interval For this mode of operation make certain that the Autosleep RS232 feature is activated in the Advanced Setup menu and that the Chlorine warm up time is set to 60 seconds in the AdvancedlSensor menu With these software entries in place the user will input the free chlorine value from the DPD analysis of the flow cell effluent and the unit will automatically calibrate
175. ce the sensor back in the storage boot that was provided and set aside in room air The chloride ISE sensor utilizes a solid state membrane that provides specificity For long term storage the module should be removed from the sonde wiped clean with moist lens cleaning tissue and placed in its storage boot to prevent abrasion TURBIDITY CHLORPHYLL AND RHODAMINE No special precautions are necessary for either the short or long term storage of the chlorophyll rhodamine WT and turbidity probes However for long term storage the user may wish to remove the probe from YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 101 Sondes Section 2 the sonde replace it with a port plug and store the probe in dry in air to minimize any cosmetic degradation of the probe body and to maximize the life of the wiper YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 102 650 MDS Section 3 SECTION 3 650 MDS DISPLAY LOGGER 3 1 INTRODUCTION The YSI 650 Multiparameter Display System 650 MDS is a powerful hand held microcomputer based instrument that allows the user to display sonde readings configure sondes store and recall data upload data from sondes and transfer data to computers for analysis and plotting Key features of the YSI 650 MDS Completely waterproof case that is submersible to 1 m Meets IP 67 specification Rugged design with high impact resistance Large non volatile memor
176. ceded by its sign either or since the sign is also used to delimit multiple values If the number of values returned by the DO command is less than the number specified in the previous response to M commands the rest of the data can be retrieved by using D1 to D9 commands The D commands are non destructive Thus if the same D command is issued multiple times before the next M command it will return the same data If the response to the DO command is a CR LF then either no M command was received before the first D command or the M command was canceled Example Here is an example SDI 12 transaction Here SDI 12 master will issue an Identify command followed by a Measure command The sonde is configured with a report output of Temperature Specific conductance DO DO mg L pH ISE1 ORP ISE2 and Depth a DO warm up time of 60 seconds and an SDI 12 address of 1 Master 1I Sonde 110YSITWQSGEM600_107 CR LF The bus master asked for identification and the Sonde returned data showing the following SDI 12 level 1 0 Manufacturer YSITWQSG YSI Incorporated Drinking Water Monitoring Systems Operations Manual 7 3 Communications Section 7 Model EMS600_ Version 1 07 Master 1M Sonde 10617 CR LF The bus master sent a measurement command The Sonde will take a maximum of 61 seconds to finish the measurement Upon completion it will have 7 sensor data available Sonde 1 CR LF Master
177. colorimeter The analysis is very simple and takes only about 2 minutes to perform Once the true chlorine value has been determined from the DPD colorimetric analysis this value is input into the sonde software and the calibration is confirmed The YSI 9000 and 9100 Photometers and the version of the Hach Pocket Colorimeter II which is specific for free and total chlorine are examples of colorimeters which can be purchased for the analysis of free chlorine in water samples In addition you usually will need to purchase the color forming reagents in either pill or powder form YSI Item YAP 001 for the YSI photometers Hach Item 21055 69 for the Hach colorimeter The cost of the reagents is nominal NOTE CAREFULLY YSI does not recommend the calibration of the free chlorine using standards prepared from commercial bleach This procedure is likely to result in significant errors in your subsequent readings for three reasons 1 The concentration of hypochlorite on the bleach bottle is for new bleach batches and may not be correct if the bleach has been on the shelf for varying periods of time 2 Dilute solutions of hypochlorite may be unstable and change during the calibration procedure and 3 Because the free chlorine sensor is flow dependent it needs to be calibrated in water flowing at the same rate as will be used in the continuous monitoring studies This flow condition is almost impossible to meet by immersing the sensors in stagnant
178. confuse some users about how to employ the 650 in their particular application This section is designed to help with any confusion that exists by listing what can be done with the 650 logging system and what can t be done 3 5 4 1 SUMMARY OF 650 LOGGING CAPABILITIES WITH A 650 YSI SONDE SYSTEM THE USER CAN e Log sonde sensor data to either sonde memory if your sonde is so equipped or 650 memory e Log data as either a single point or as a continuous data stream e Log data in both single point form and continuous stream form to the same file in 650 or sonde memory YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 44 650 MDS Section 3 e Log continuous data stream data at long or short sample intervals to sonde memory as long as the study is started from the Run menu of the sonde e Log continuous data stream data at long or short sample intervals up to 15 minutes to 650 memory using the Sample interval selection in the Logging setup menu of the 650 e Log data from the 650 internal barometer to the memory of the 650 e Log data from a user supplied GPS unit to the memory of the 650 as long as the GPS unit is set up in NMEA format and has the proper cable e Log data with minimal keypad entry from the 650 display by using default file naming e Assign custom file and site names using the 650 keypad at the logging site e Set up custom site lists in the office or laboratory that are in
179. cted data TSS is calculated by EcoWatch which uses the Turbidity data and a set of correlation points that you enter When you add TSS a TSS calibration window will popup and prompt you for a set of correlation points For more information see Calibrate TSS Add Remove Parameters DateTime HeEMove gt Units Select the units for any parameter It will take you to the Change Parameter Units dialog box You may choose the units for each of the selected parameters Many parameters have only one possible choice of units DO concentration for example can only be expressed in mg L pH has no units at all YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 34 EcoWatch for Windows Section 4 Change Parameter Units Parameters Attributes This command takes you to the Change Parameter Attributes dialog box where you have access to two powerful features You can choose to display an average of your data or graph the data with some parameter other than time for the x axis The most common use for this latter feature is to graph temperature and DO versus depth Other combinations are possible You may choose to average the data before it is graphed An interval of 0 will cause there to be no averaging at all The larger the averaging interval the more points will be used in each average For example if you acquired data every 15 minutes and you set the average interval to 60 minutes each set of four p
180. ction supplied with the flow cell and as provided below e Attach inlet and outlet hoses to the barbed fittings supplied with the flow cell and then insert the fittings into the proper ports of the flow cell Make certain that the hoses are attached very snugly to the barb fittings to prevent any possibility of catastrophic leakage If necessary standard hose clamps can be used to secure the hoses to the barbed fittings e Connect the inlet line of the flow cell to a drinking water tap and run the outlet line to a drain Make certain that the inlet line is securely attached to the tap and that the outline line will not pop out of the drain under flow conditions NOTE CAREFULLY Make certain that the inlet line is attached to the bottom fitting of the flow cell and the drain line is attached to the top fitting e Turn on the water with a flow rate of 500 1000 mL minute 500 mL min minimum e Break in the sensor by running it continuously in flowing tap water by one of the following methods e If using a PC with EcoWatch for sonde interface start a Discrete Sample study at a 4 second interval as described below and continue the study for 2 3 hours while displaying the readings on the PC monitor e If using a 650 Display Logger for sonde interface choose the Sonde Run selection from the Main menu and continue the study for 2 3 hours while displaying the readings on the 650 screen e If using a 6500 Process Monitor for sonde interfa
181. d output data as soon as power is applied to the sonde If Power up to menu is also enabled the sonde will first enter the menu mode and then the run mode where it will start sampling If Power up to menu is not enabled the sonde will go to command line mode and then start the run function With Power up to Run disabled the sonde will wait for your command at power up in either command line or menu mode as set by Power up to Menu If you are using your sonde for Unattended sampling do not activate this mode Activation of this item is NOT recommended except for special applications 4 Comma radix When this item is enabled the sonde will replace decimal points with commas when printing numbers NOTE Regardless of this setting SDI 12 D commands will still respond using a decimal point 5 Auto sleep RS232 Activation of this feature enables a power savings system when communicating with the sonde in RS 232 mode When enabled power is only applied to the sensors during sampling or calibration The most important aspect of this feature is its effect on the free chlorine protocol as described in Section 2 9 2 For this reason this feature should be activated for long term monitoring studies in the RS 232 communication mode and deactivated for sampling studies where the user is present and the sonde runs continuously Even with Autosleep inactive the sonde will sleep after one minute with no communications 6
182. d then as instructed press Enter to return to the Calibrate menu Thoroughly rinse and dry the calibration cups for future use For additional information related to calibrating the chlorophyll sensor see Sections 5 12 RHODAMINE WT 2 POINT Select Rhodamine from the Calibrate Menu and then 2 2 Point NOTE One standard must be 0 ug L in rhodamine WT and this standard must be calibrated first To begin the calibration place the correct amount see Tables 1 4 of 0 standard clear deionized or distilled water into the calibration cup provided with your sonde and immerse the sonde in the water Input the value 0 ug L at the prompt and press Enter The screen will display real time readings that will allow you to determine when the readings have stabilized Activate the wiper 1 2 times by pressing 3 Clean Optics as shown on the screen to remove any bubbles After stabilization is complete press Enter to confirm the first calibration and then as instructed press Enter to continue Dry the sonde carefully and then place the sonde in the second rhodamine WT standard 100 ug L is recommended using the same container as for the 0 ug L standard Input the correct rhodamine WT concentration in ug L press Enter and view the stabilization of the values on the screen in real time As above activate the wiper with the 3 key or manually rotate the sonde to remove bubbles After the readings have stabilized press Enter to confirm the cali
183. d with turbidity free water to provide calibrant suspensions of lower values Hach also offers relatively inexpensive formazin suspensions at various NTU values up to 1000 NTU under the Stablcal designation which will provide accurate calibration of either the 6026 or 6136 sensors as long as the user is willing to exercise the proper safety precautions as outlined in the MSDS associated with formazin The primary advantage of the Hach formazin standards is their cost their primary disadvantage is that the suspended matter settles out fairly rapidly Although the AMCO AEPA standards are somewhat more expensive they do not settle out making them significantly easier to use While the effect of temperature on the turbidity sensor is small this factor is automatically taken into account by the sonde software providing temperature compensated readings Temperature coefficients of 0 3 degree C and 0 6 degree C are automatically activated for the 6026 and 6136 respectively when these sensors are activated in the Sensor menu MEASUREMENT AND CALIBRATION PRECAUTIONS 1 For best results use only freshly prepared or purchased turbidity standards Degradation of standards can occur on standing particularly formazin prepared from dilution of concentrated suspensions such as Hach 4000 NTU standard 2 If unusually high or jumpy readings are observed during the calibration protocol it is likely that there are bubbles on the optics Manually activating
184. dation 56 1981 of the Organization International De Metrologie Legale OIML are available from YSI The instrument output is in mS cm or uS cm for both conductivity and specific conductance The multiplication of cell constant times conductance is carried out automatically by the software CALIBRATION AND EFFECT OF TEMPERATURE The conductivity of solutions of ionic species is highly dependent on temperature varying as much as 3 for each change of one degree Celsius temperature coefficient 3 C In addition the temperature coefficient itself varies with the nature of the ionic species present Because the exact composition of a natural media is usually not known it is best to report a conductivity at a particular temperature e g 20 2 mS cm at 14 C However in many cases it is also useful to compensate for the temperature dependence in order to determine at a glance if gross changes are occurring in the ionic content of the medium over time For this reason the sonde software also allows the user to output conductivity data in either raw or temperature compensated form If Conductivity is selected values of conductivity that are NOT compensated for temperature are output to the report If Specific Conductance is selected the sonde uses the temperature and raw conductivity values associated with each determination to generate a specific conductance value compensated to 25 C The calculation is carried out as in equation 1 below usin
185. de can be strapped with bungee cords or other retainers For other locations it may be best to hang the sonde by its bail from a hook on a wall or frame See the picture below a typical sonde installation YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 3 Using Your DW Sonde with a 6500 Process Monitor Appendix G Set Up the Wiring for 4 20 mA Current or Modbus Output to Your SCADA System As described in Section 2 5 3 of the 6500 manual the 6500 has the ability to output up to eight current output signals each corresponding to a water quality parameter These connections for these outputs are made on TB 3 which can be found at the bottom of the 6500 once the cover has been removed Supply Power to your 6500 After removing the front cover you will need to have a qualified electrician supply 110 230 volt AC power to your 6500 through TB 1 according to the instructions found in Section 2 5 2 of the 6500 manual Note that it is best to have a switch which is external from the 6500 in the power circuit so that power can be shut off to the 6500 when removing the front panel This switch is NOT supplied with the 6500 and should be purchased by your electrician CAUTION The sensitivity and stability of the monitor will be impaired if the input wiring is not grounded Do NOT apply power to the 6500 until all electrical connections are verified and secure Configure the Current Loop Outputs As described in Section 3 3 4
186. de to a DCP such as the YSI 6200 or YSI EcoNet system then the use of AC power greatly facilitates the setup Finally even for stand alone deployments the use of the YSI 6038 or 6651 power supplies saves the internal batteries and therefore is recommended if there is AC power at the site I would like to install a drinking water monitoring device directly into a pipe and avoid the need for a drain line Can I do this with the YSI Drinking Water Sondes At the present time there is no mechanism to insert standard YSI Drinking Water Sondes into a pressurized water distribution system Depending on market requirements this type of application might be supported in the future but for now the answer is No I would like to install a drinking water sonde in my water storage tank by simply suspending it from a support into the tank Can I do this with the YSI Drinking Water Sondes The sondes and sensors were not designed for this application but might still provide valuable information under these conditions as long as a limitation with regard to the free chlorine sensor is recognized by the user This limitation is that the free chlorine sensor is NOT flow independent see below for more information The flow dependence is not an issue in side stream flow cell applications where the flow is YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 3 Frequently Asked Questions About YSI Drinking Water Systems Appendix H
187. des to the 650 is demonstrated in greater detail in Section 3 7 below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 25 650 MDS Section 3 3 4 3 4 Calibrating sonde sensors Use the 650 Sonde menu selection to access the sonde Calibrate menu Once the menu has been activated use the arrow keys to highlight a sensor for calibration and follow the instructions on the screen Use the keypad to enter numeric values associated with the calibration standards and press Enter to confirm your input View the data from each calibration standard in real time and then highlight the Calibrate selection in the upper frame When the output is stable press Enter to confirm the calibration point Then highlight Continue and press Enter to either move to the next calibration point or to finalize the calibration See the example in Section 3 4 2 above for a typical calibration procedure NOTE To return a sensor calibration setup to its factory default setting access any calibration routine for that particular sensor which asks for numeric input However instead of entering numbers hold the Enter key down and press the Escape key Highlight yes and press Enter This protocol is the equivalent of entering the command uncal from a computer keyboard 3 4 3 5 Changing the sonde Sensor setup Use the 650 Sonde menu selection to access the sonde Sensor menu Once the menu has been activated use the arrow keys to highlight a sensor f
188. dings have stabilized press Enter to confirm the calibration Then as instructed press any key to return to the Calibrate menu Select the 3 point option for maximum accuracy over the entire range of 0 to 1000 NTU As for the 2 point procedure one of the standards must be 0 NTU Because of the linearity characteristics of the sensors we recommend that the other two standards have turbidity values of 100 and 1000 NTU However the user can select any values that are deemed appropriate The procedure for this calibration is the same as for a 2 point calibration but the software will prompt you to place the sonde in the additional solution to complete the 3 point procedure For all turbidity calibration procedures be certain that the standard and sensor are thermally equilibrated prior to proceeding with the calibration For further information related to setting up calibrating and running turbidity measurements refer to Section 5 11 OPTIC CHLOROPHYLL When selecting 10 Optic Chlorophyll there will be a choice of zeroing the full scale range of the fluorescence sensor Fluor Zero or calibrating with actual chlorophyll standards ug L 1 point 2 point or 3 point If you have selected Fluor FS as a parameter in Report Setup the sonde will report only relative values of fluorescence in the sample being measured These values could then be converted into actual chlorophyll concentrations in ug L by using a post calibration procedure af
189. e YSI 6 series sonde YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 3 650 MDS Section 3 Figure 2 650 interfaced to a 6 series sonde with user supplied GPS r 1 You will need LJ a 650 e 650 e 6115 GPS cable e User supplied GPS unit with DE 9 cable e YSI 6 series sonde with integral or field cable 7 Te User supplied GPS unit with DE 9 cable 6115 GPS cable Integral or field cable a YSI 6 series sonde ll Figure 3 650 interfaced to PC for data transfer or software upgrade You will need 650 e 650 e YSI655174 655174 PC Interface PC interface Cable cable e PC with active serial port PC Serial port ee S DE 9 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 4 650 MDS Section 3 Figure 4 Charging of 650 rechargeable battery pack You will need 650 with battery pack installed 6116 Charger adapter cable 6114 Wall charger or equivalent 6114 wall charger shown or 6123 power supply The setup of these configurations is described in detail in subsequent sections of this manual They are presented here so that your will be able to ascertain if you have all of the parts necessary for your applications YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 5 650 MDS Section 3 3 2 4 650 FEATURES The key physi
190. e Now select 1 Start sampling to start discrete sampling After the initial sampling time interval has passed sequential lines of data will appear on the screen and you can log single or sequential data points and wipe the surface of your optical probe as described above UNATTENDED SAMPLING This option is used for long term deployment of the battery powered sonde when the user is not present at the site Prior to this selection the sonde is usually attached to a computer in a laboratory and set up to automatically log data to sonde memory at a fairly long time interval 15 60 minutes The unit is then taken to the field site and left for an extended time period 30 60 days When the study is complete or the batteries are expended the unit is brought back to the laboratory and the data file is uploaded to a computer Quality assurance checks are performed prior to redeployment Select 2 Unattended Sampling from the Run menu The Unattended sample menu will be displayed Use the following example to understand the unattended sampling option YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 62 Sondes Section 2 Unattended setup 1 Interval 00 15 00 2 Start date 07 17 96 3 Start time 18 00 00 4 Duration days 14 5 File clrlake3 6 Site Clear Lake at Spillway Josette volts Jall 8 Bat life 21 2 days 9 Free mem 18 9 days A 1lst sample in 8 10 minutes B View params to log C Starect logging
191. e 07 22 96 3 Time 09 04 28 Ambac vVolress Q90 5 Bat lite 21 2 days 6 Free bytes 129792 7 Logging Inactive Select option 0 for previous menu e Select 1 Version to identify the specific version of sonde software loaded in the sonde This number is especially useful if you are calling YSI Customer Service It may also be useful to you if you are comparing 2 or more sondes purchased at different times e Select 2 Date and 3 Time to display current date and time in 24 hour format This is not a live display but may be updated by pressing the 2 or 3 key again This may be useful for viewing or setting real time You may correct date or time from this submenu by entering the corrected date or time as described in System setup However you cannot alter date format from this screen e In options 4 5 and 6 you can view battery voltage battery life and available free memory in your sonde to help you evaluate whether the current setup is appropriate to complete an active logging or to begin a study in which you have defined your logging parameters If you press key 4 5 or 6 before you exit this screen it may change since this triggers the Status screen to update information e 7 Logging provides one of two messages active or inactive indicating whether your sonde is in the unattended logging mode This logging status indicator is not relevant to logging in the discrete mode since there is no way to enter t
192. e 6116 Charger Adapter Cable in order to comply with the Residential Commercial and Light Industrial Class B Limits for radio frequency emissions specified in EN55011 CISPR1 1 for Industrial Scientific and Medical laboratory equipment These ferrite assemblies are supplied as part of cable kits To install the beads follow these steps e Make a small loop approximately 5 cm in diameter in the cable near the 650 MS 8 connector e Lay the open ferrite bead assembly under the loop with the cable cross over position within the cylinder of the ferrite bead See the drawing below for assistance e Snap the two pieces of the bead together making certain that the tabs lock securely When the installation is complete the 655174 and 6116 cables should resemble the following schematic drawings YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 57 650 MDS Section 3 3 13 650 SAFETY CONSIDERATIONS NIMPORT ANT SAFETY INSTRUCTIONS A SAVE THESE INSTRUCTIONS A in essence the most important safety rule for use of the 650 is to utilize the instrument ONLY for purposes documented in this manual This is particularly true of the 6117 rechargeable battery pack that contains nickel metal hydride NiMH batteries The 650 user should be certain to read all of the safety precautions outlined below before using the instrument A 6113 Rechargeable Battery Pack Safety Information AN Restrictions on Usage 1 Never dis
193. e File menu offers the following list of commands Some commands are available only when a file is open OPEN Use this to open sonde data file DAT new dat Eye office dat E ecowwin sample dat S data File Name Type or select the filename you want to open This box lists files with the extensions you select in the List Files of Type box List of Files of Type Select the type of file that you want to open dat Sonde binary data file txt prn ASCII text file cdf csv sdf Comma delimited file rt Real time file crl CR10 file Drives Select the drive where the PC6000 data file resides Directories Select the directory where the PC6000 data file resides Network Choose this button to connect to a network location assigning it a new drive letter This button is hidden if your computer is not connected to a network The screen above has the network button hidden YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 12 EcoWatch for Windows Section 4 CLOSE Use this command to close all windows containing the active document EcoWatch automatically saves any changes before the file is closed You can also close a document by using the Close icon on the document s window as shown below IMPORT With this command you can import common ASCII files into EcoWatch The file will be converted into PC6000 format and again with a DAT extension File Import qe E ecowwin amp
194. e Site Designation To establish a site list in the 650 memory for this application highlight the Logging setup selection in the 650 Main menu and press Enter The following screen will appear Make certain that the selection Use Site list is active to display the full capability of the Logging setup as shown below To set up a list with Single Site Designations the selection Store Site number should be INACTIVE as shown below before proceeding 650 Main Menu Logging setup Logging setup Sonde run Use site list Use site list Sonde menu Store Barometer Store Barometer File Store Lat and Long Store Lat and Long Logging setup Store site number System setup Edit Site List Test 0 000 E 0 0 000 74L6mmig N 0 0 000 E 0 0 000 ee A N 0 0 000 E 0 0 000 thet R NIM 02 25 2000 16 28 25 SC Nii 02 25 2000 20 44 38 SC EAN NO 02 25 2000 16 27 11 AO Ni YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 37 650 MDS Section 3 Note also that if you have purchased a 650 without the barometer option the selection Store barometer will not be present Decide whether or not you want to store GPS and barometer information with your data file and activate deactivate the Store Lat and Long and Store Barometer selections appropriately Leaving these selections active will occupy memory in
195. e WT or chlorophyll INSTEAD OF turbidity but these analytes are not expected to be important for most drinking water applications Potential users should note carefully that the DW sondes will NOT MEASURE DISSOLVED OXYGEN as explained in the next section What are the differences between YSI DW instruments and YSI 6 series sondes which have been sold for surface and ground water applications over the last 13 years Other than the sonde overlay which indicates the sonde is a DW 600DW B or 6920DW version the appearance and mechanical design of the two drinking water instruments is identical to their surface and ground water equivalents 600XLM and 6920 However the most critical unique feature of the DW sondes is the fact that they contain a different internal PC board which supports the free chlorine sensor but not a dissolved oxygen sensor Because of this new hardware which reflects the different polarizing potentials necessary for oxygen and chlorine DW sondes are not capable of measuring oxygen even though a YSI 6562 oxygen probe would be physically compatible with installation in the DW sondes Can I measure dissolved oxygen with a DW sonde if I have a YSI 6562 Rapid Pulse DO Probe No Even though the probe will fit in the sonde bulkhead the polarizing potential from the free chlorine PC board will not reduce oxygen How can I tell the difference between dissolved oxygen and free chlorine sensors Along with a different model numbe
196. e ammonia are in equilibrium in any solution according to the following equation NH NH H The value of the equilibrium constant associated with this reaction K NH H NH4 and its variation with temperature and salinity is well known This information allows the free ammonia concentration NH to be automatically calculated by the sonde software and displayed if this parameter is activated Despite the potential problems with interference when using ISEs it is important to remember that almost all interfering species produce an artificially high ammonium reading Thus if the sonde indicates the presence of only small quantities of ammonium it is unlikely that the reading is erroneously low because of interference Unusually high ammonium readings which could be due to interfering ions should be confirmed by laboratory analysis after collection of water samples Of all the sensors available on the sonde ion selective electrodes have the greatest tendency to exhibit calibration drift over time This drift should not be a major problem for sampling studies where the instrument can be frequently calibrated However if an ammonium sensor is used in a longer term deployment study with the sonde the user should be aware that drift is almost certain to occur The extent of the drift will vary depending on the age of the probe the flow rate at the site and the quality of the water For all monitoring studies using ion selective electr
197. e bail Rotate the strain relief connector nut to close the connector s opening YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 16 Sondes Section 2 The other end of the field cable is a military style 8 pin connector MS 8 Through use of a YSI 6095B MS 8 to DB 9 adapter the sonde may be connected to a computer for setup calibration real time measurement and uploading files This MS 8 connector also plugs directly into the 650 MDS display logger or the 6500 Process Monitor These instruments contain microprocessors with software which provides the ability to set up and calibrate your sonde sensors in a similar way to that of a terminal interface to a PC As an alternative to the field cable for interface to a PC you may use a YSI 6067B calibration cable for laboratory interaction with the sonde In this case simply plug the proper end of the cable into the sonde connector and attach the DB 9 connector of the cable to the Com port of your computer Note that the 6067B will not interface to a 650 Display Logger of 6500 Process Monitor For drinking water studies involving only internal logging of data or real time display of data on a PC using EcoWatch for Windows software the 6067B may be the cable of choice YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 17 Sondes Section 2 2 4 ECOWATCH FOR WINDOWS GETTING STARTED This section will describe how to get started
198. e best possible performance from all ISE sensors ammonium nitrate and chloride NITRATE When selecting 7 ISE4 NO3 you will be given the choice of 1 point 2 point or 3 point calibrations for your nitrate NO sensor The procedure is identical to that for the ammonium sensor except that the calibrant values are in mg L of NO N instead of NH N NOTE YSI strongly recommends the use of the 3 point protocol to ensure the best possible performance from all ISE sensors ammonium nitrate and chloride CHLORIDE When selecting 8 ISE5 CL you will be given the choice of 1 point 2 point or 3 point calibrations for your chloride CT sensor The procedure is identical to that for the ammonium sensor except that the calibrant values are in mg L of Cl instead of NH N IMPORTANT We recommend that the user employ standards for chloride that are 10 times greater than for ammonium and nitrate Thus the low calibration value should be 10 mg L and the high calibration value should be 1000 mg L Cl The difference is due to the fact that the effect of contamination of standards from inadvertent leakage of chloride ion from either the free chlorine probe or the reference junction of the pH probe will be less significant at higher concentrations NOTE YSI strongly recommends the use of the 3 point protocol to ensure the best possible performance from all ISE sensors ammonium nitrate and chloride OPTIC TURBIDITY YSI Incorporated Drinking W
199. e by more than 0 3 units if the mean pH is between 8 5 and 9 3 The sensor will not function properly at pH values above 9 3 Resolution 0 01 mg L Salinity Sensor Type Calculated from conductivity and temperature Range eee 0 to 70 ppt ACCULACY eee 1 0 of reading or 0 1 ppt whichever is greater Resolution 0 01 ppt pH Sensor Type Glass combination electrode Range 0 to 14 units ACCULACY eee 0 2 units Resolution 0 01 units Depth 200 meters ORP Sensor type Platinum button Range eee 999 to 999 mV Report outputs of specific conductance conductivity corrected to 25 C resistivity and total dissolved solids are also provided These values are automatically calculated from conductivity according to algorithms found in Standard Methods for the Examination of Water and Wastewater Ed 1989 YSI Incorporated Drinking Water Monitoring Systems Operations Manual E 2 Specifications Appendix E ACCULACY eee eee 20 mV Resolution 0 1 mV Turbidity Sensor type Optical 90 scatter with mechanical cleaning Range 0 to 1000 NTU ACCULACY eee 2 reading or 0 3 NTU whichever is greater Relative to calibration standards Resolution 0 1 NTU Chlorophyll Sensor type Optical fluorescence with mechanical cleaning Range 0 to 400 ug L Chl
200. e extension of both the sonde battery life not important in 6500 applications and the time between required sensor maintenance procedures which is important to 6500 drinking water applications After activation of the feature another entry will appear automatically which will allow you to input your sample interval which defines how often data is transmitted to the 6500 display This new sample interval will automatically become the sample interval for the Run IDiscrete sample mode of operation and you will not be able to change the interval until Sample and Hold is deactivated In addition the interval in the Run Unattended sample mode will also change to the Sample and Hold interval In this case however you will be able to change the Unattended Sample interval but with the caveat that the Sample and Hold interval will also change i e the Unattended sample interval and the Sample and Hold interval MUST be synchronized and the software assures that this will be the case REMEMBER DO NOT ACTIVATE THIS FEATURE UNLESS A YOUR SONDE IS ATTACHED TO A 6500 AND B YOU HAVE READ THE DETAILED DESCRIPTION OF THE FEATURE IN APPENDIX G USING YOUR DRINKING WATER SONDE WITH A 6500 PROCESS MONITOR Select 3 Sensor to display and change user configurable constants as shown in the following display Type the appropriate number to change to these parameters Advanced sensor kb Sac Omsit mite Oreo 26 Clee empeCOmo C 2o 7 C12 warm up
201. e handshaking and RTS CTS as hardware handshaking If you are using a YSI sonde select Xon Xoff Modems usually require RTS CTS Modem Setup This is where you enter the settings for your modem Note that you can have several modems each on separate COM ports and each with its own settings If a modem is selected for a particular COM port then every time that port is opened EcoWatch will attempt to initialize a modem on that port If the attempt fails then EcoWatch will open a terminal window and you can communicate to that port with the computer keyboard This can be very helpful in troubleshooting a connection to your modem or in determining exactly which settings work with your modem Drinking Water Monitoring Systems Operation Manual 4 26 EcoWatch for Windows Section 4 Communication Settings Modem To setup a particular modem on your first try select that modem from the Modem list The only settings that you can edit are for the Custom modem If your modem does not work select Hayes Compatible modem Those settings are quite common and might work for your modem If neither approach works then you will have to define your own settings You will need the instruction manual for your modem It should list all of the proper settings Choose Custom from the Modem list and enter the settings for your modem The Auto Answer setting is included in the dialog for completeness EcoWatch currently does not use Auto Answer
202. e in fact designated deleted as will be described in Section 3 6 5 below For example if a file named TEST is uploaded initially with a memory allocation of 50 kB and then is uploaded at a later time and overwritten with a memory allocation of 100 kB the total memory occupied is 150 KB even though only one file with the designation TEST and a file size of 100 kB is shown in the file directory For this reason when dealing with large files the user may wish to transfer files to a PC immediately after upload and then erase the entire flash in order to assure that maximum memory is present for subsequent uploads The storing of data directly from sondes to the 650 memory the uploading of data stored in 6 series sondes to the 650 and the management of these data files are described in detail in Sections 3 5 3 6 and 3 7 of this manual 3 2 3 650 CONFIGURATIONS There are a number of ways that you can configure the YSI 650 Below is a list of possible configurations and corresponding diagrams 650 interfaced to a 6 Series sonde 650 interfaced to a 6 Series Sonde and a user supplied GPS unit 650 interfaced to a PC for data transfer or software upgrade using the PC interface cable 650 with rechargeable battery pack being charged Figure 1 650 interfaced to a 6 series sonde You will need e 650 e 6 series sonde with integral Integral or field cable cable or YSI S with sonde connector field cabl
203. e instruments induce chlorophyll to fluoresce by shining a beam of light of the proper wavelength into the sample and then measuring the higher wavelength light which is emitted as a result of the fluorescence process Most chlorophyll systems use a light emitting diode LED as the source of the irradiating light that has a peak wavelength of approximately 470 nm LEDs with this specification produce radiation in the visible region of the spectrum with the light appearing blue to the eye On irradiation with this blue light chlorophyll resident in whole cells emits light in the 650 700 nm region of the spectrum To quantify the fluorescence the system detector is usually a photodiode of high sensitivity that is screened by an optical filter that restricts the detected light The filter prevents the 470 nm exciting light from being detected when it is backscattered off of particles in the water Without the filter turbid cloudy water would appear to contain fluorescent phytoplankton even though none were present The following diagram can be used to better understand the principles of the YSI system Light Source 470 nm Photodetector Optical Filter Optical Fiber Most commercial fluorometers fit into two categories In the first category are benchtop instruments that generally have superior optical flexibility and capability but are relatively expensive and are often difficult to use in the field In the second category are sonde type fluor
204. e it to the correct value 4 Close the terminal window by clicking on the X in the upper right hand corner Do not close EcoWatch for Windows 5 Open the Real Time menu click on New and select the location where you want to data transferred Name the file making sure that the name has extension RT The default location for the file is in the Data subdirectory of the ECOWWIN directory 6 Click OK After EcoWatch sets up the sonde for the study data transfer will begin at the sample rate you selected The data will be automatically plotted with autoscaling and saved as a DAT file at your chosen selection 7 To terminate the study open the Real Time menu choose Close and click OK UPLOAD DATA EcoWatch for Windows software is reporting and plotting software for use with the YSI 6 Series sondes Instructions for installing this software were included in Section 2 1 Getting Started This program can also be used to upload and view data logged to sonde memory during either discrete or unattended sampling If the sonde was deployed unattended without a cable clear debris and water from the bulkhead connector cap Then remove the cap and connect the calibration cable or field cable and adapter from the sonde to your computer You may now retrieve data files using the following procedure Remember these are files in the sonde directory not files in the EcoWatch directory Run EcoWatch software on your PC and select the Sonde ico
205. e list management It is also important to remember that as described in Section 3 2 2 above the memory of the 650 is flash and that while this type of memory has many advantages its use does impose two limitations on file management 1 The files are listed in the order that they are logged to memory and this order cannot be changed 2 It is not possible to delete individual files to free up memory The only way to regenerate the 650 memory is to delete ALL files present i e format the flash To proceed with the details of 650 File management turn the instrument on highlight the File entry in the 650 Main menu and press Enter to display the File commands as shown below 650 Main Menu 650 File Sonde run Sonde menu Upload to PC View file Logging setup File memory System setup Delete all files N0 0 000 E 0 0 000 Ei 06 06 2000 17 35 09 mmm N39 47 328 W 83 54 13T E 06 04 2000 12 35 56 i lt YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 46 650 MDS Section 3 3 6 2 DIRECTORY Use the arrow keys to highlight the Directory selection in the 650 File menu and press Enter to display the list of files resident in the 650 memory Filename Samples Bytes PROFILE1 dat 179 9047 DEPLOY1 dat 8 668 N0 0 000 E 0 0 000 39 ona 07 12 200107 16 17 Qmm Note that the size of the file is shown in two different wa
206. e sensors in real time on the 650 display as well as to configure the sonde for your particular application In addition once sonde interface is established you will be able to easily log data from the sonde sensors to either the memory of the sonde or the memory of the 650 for later analysis The connection between the sonde and the 650 is made via the mating of MS 8 connectors on the standard YSI field cable and the bottom of the 650 case To make the connection hold the 650 in one hand place the 650 and cable connectors together and rotate the field cable connector until engagement occurs Then rotate the field cable connector approximately 1 quarter turn until it is fully engaged as evidenced by a YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 15 650 MDS Section 3 click After connecting the sonde to the 650 press the on button on the upper left of the 650 keypad to activate the 650 Main menu as shown below 650 Main Menu Sonde run Sonde menu File Logging setup System setup N 0 0 000 E 0 0 000 739 19 06 06 2000 07 51 55 GME Using the arrow keys highlight the Sonde run entry in the Main 650 Menu and press the Enter key Readings from the 6 series sonde sensors will appear on the 650 Main Display in real time as shown in the following diagram 5 8 s onde one sample Log one sample Start logging Start logging Clean optics 06 01 00mpy bot 13 54 05 56 300ch 22 62
207. e that the presence of bubbles under the membrane is also normal and should not affect probe function Note the presence of a bubble after installation This is acceptable for a free chlorine membrane After installing the membrane either proceed immediately to the sensor activation protocol described above in the Quick Start Guide or store the probe in a beaker of tap water NOT deioinized or distilled water as shown in the picture below to prevent drying out Be sure to place the probe GENTLY into the beaker to avoid damaging the membrane integrity YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 9 Sondes Section 2 NOTE CAREFULLY Users who are accustomed to installing a Teflon membrane on a YSI dissolved oxygen sensor should note that the methods recommended for the Teflon installation are not likely to work well for the free chlorine membrane because this membrane cannot be stretched Therefore dissolved oxygen membrane installation techniques which are outline in the manuals for various YSI instruments including standard 6 series sondes utilizing the 6562 Rapid Pulse DO sensor are NOT RECOMMENDED for the free chlorine membrane installation 2 3 2 STEP 2 INSTALLING THE PROBES Remove the calibration cup from your sonde by hand as shown below to expose the bulkhead BULKHEAD WITH A PROBE PORT PLUGS REMOVING THE PORT PLUGS Using the long extended end of the probe installation
208. e that the sensor consists of three electrodes a cathode anode and reference electrode while steady state amperometric free chlorine probes usually have only two electrodes a cathode and a combined anode reference electrode In addition the geometry of the sensor is novel consisting of a thin linear platinum cathode placed between two silver rectangles which serve as anode and reference electrodes These sensor changes are necessary to implement the new Rapid Pulse method for free chlorine measurement as described in the following section FREE CHLORINE SENSOR METHOD OF OPERATION Standard amperometric free chlorine sensors are continuously polarized at a voltage sufficiently negative to cause free chlorine hypochlorous acid hypochlorite ion to be reduced at the platinum cathode and silver metal to be oxidized to silver chloride at the anode The voltage must also be sufficiently positive to prevent the reduction of oxygen during the measurement sequence The free chlorine diffuses through a hydrophilic polyvinylidene membrane and is reduced at the cathode The current associated with this process is proportional to the free chlorine concentration outside the membrane As this electrochemical reaction proceeds free chlorine is consumed or depleted in the medium resulting in a decrease in measured current and apparent free chlorine content if the external solution is not stirred rapidly This flow dependence is minimized but not eliminat
209. eadings that will allow you to determine when the pH sensor has stabilized Pressing Enter will confirm the calibration Following the instructions on the screen place the sonde in the second pH buffer input the pH value press Enter and view the stabilization of the values on the screen in real time After the readings have stabilized press Enter to confirm the calibration Then as instructed press Enter again to return to the Calibrate menu Select the 3 point option to calibrate the pH probe using three calibration solutions In this procedure the PH sensor is calibrated with a pH 7 buffer and two additional buffers The 3 point calibration method assures maximum accuracy when the pH of the media to be monitored cannot be anticipated The procedure for this calibration is the same as for a 2 point calibration but the software will prompt you to select a third pH buffer to complete the 3 point procedure ORP Select 5 ISE2 ORP to calibrate the ORP sensor Immerse the sonde in a solution with a known oxidation reduction potential value we recommend Zobell solution and press Enter You will be prompted to enter the ORP value of the solution Press Enter and monitor the stabilization of the ORP and temperature readings After no changes occur for approximately 30 seconds press Enter to confirm the calibration Then as instructed press Enter again to return to the Calibrate menu The following calibrations are for the 6920DW sonde only If y
210. eadsheet by comparing the fluorescence values obtained in field studies with those obtained by laboratory analysis for chlorophyll on grab samples collected during the field study The use of chemical dye standards for calibration of the sensor may not result in accurate correlation between fluorescence and actual chlorophyll readings and is designed primarily to evaluate the sensor for drift See Section 5 Principles of Operation for more information on the proper calibration of your chlorophyll sensor OPTIC RHODAMINE WT When selecting Rhodamine there will be a choice of 1 point 2 point or 3 point calibrations for your rhodamine WT sensor The 1 point option is normally used to zero the rhodamine probe in 0 ug L standard Place the sonde in clear water with no suspended solids and input 0 ug L at the screen prompt Press Enter and the screen will display real time readings that will allow you to determine when the rhodamine readings have stabilized Press Enter after the readings have stabilized to confirm the calibration and zero the sensor Then as instructed press any key to return to the Calibrate menu Select the 2 point option to calibrate the rhodamine probe using only two calibration standards In this case one of the standards must be clear water 0 ug L and the other should be in the range of the predicted rhodamine concentration projected for the study For general purpose measurements an appropriate choice of standards is
211. echargeable battery pack circuitry and or the electronics in the main case If leakage into the battery compartment is observed when using alkaline C cells remove batteries dispose of batteries properly and dry the battery compartment completely ideally using compressed air If corrosion is present on the battery terminals contact YSI Customer Service for instructions If leakage into the battery compartment is observed when using the 6117 rechargeable battery pack remove the battery assembly and set aside to dry Return the battery pack to YSI Product Service for YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 60 650 MDS Section 3 evaluation of possible damage Finally dry the battery compartment completely ideally using compressed air If corrosion is present on the battery terminals contact YSI Customer Service for instructions Z caution If water has contacted the rechargeable battery pack do not attempt to reuse it until it has been evaluated by YSI Product Service Failure to follow this precaution can result in serious injury to the user If it is suspected that leakage into the main cavity of the case has occurred remove the batteries immediately and return the instrument to YSI Product Service for damage assessment CAUTION Under no circumstances should the user attempt to open the main case 3 14 650 MDS SPECIFICATIONS Resistance to Water Leakage IP 67 for both the standard alkaline bat
212. ected in the Report setup Example f specific conductance is selected in the Report setup it does not appear under Parameters to log because it is calculated from Conductivity and Temperature In all but a few cases the proper configuration of Parameters to log will be automatically set up as long as the sensor is enabled There are several items that must be activated in the Report setup so they will be available from the file after upload These special parameters are C12 Chg pH mV NH4 mV NO3 mV Cl mV and Fluorescence FS If you want to log any of these parameters to your data file be certain that they are active in the Report setup before you begin the unattended study After making the above entries the sonde software will automatically estimate the expected battery life and the time it will take for the sonde memory to be filled This information is displayed on the screen for your consideration as items 9 and A If the battery life or the free memory capacity will be exceeded sooner than the duration you may want to make some changes to the entries For example you can free up memory in the sonde by uploading all existing files from the sonde memory to your PC and then deleting them from the sonde see 3 File from Main Menu You may want to change the batteries for longer battery life You can lengthen the sampling interval to extend both battery life and memory capacity The predicted battery life is an estimate only The temper
213. ed by rapidly and reproducibly polarizing on and depolarizing off the probe electrodes during a measurement sequence The Rapid Pulse system thus measures the charge or coulombs current summed over a specific time period associated with the reduction of free chlorine during a carefully controlled time interval The coulombs due to charging of the cathode capacitance but not to reduction of free chlorine are subtracted during integration after the cathode has been turned off The net charge like the steady state current in a standard system is proportional to the free chlorine concentration in the medium Note that as described above the flow dependence of the sensor is not completely overcome by this method as it is in Rapid Pulse dissolved oxygen sensors because of the different diffusion characteristics of free chlorine through the hydrophilic polyvinylidene membrane versus oxygen through a Teflon membrane YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 6 Principles of Operation Section 5 CALIBRATION AND EFFECT OF TEMPERATURE To calibrate the free chlorine sensor you must make an independent measurement of the free chlorine in the flow cell effluent at the time of calibration This is usually done by collecting an effluent sample adding a chemical to it DPD which will form a red color which is proportional to the free chlorine in the sample and then determining the intensity of the color using a commercial
214. ed it This saved display is associated with the data file Up to 9 data displays can be saved per data file When you save a display you will be asked to give it a name in the following dialog box Save Data Display default There must be an open data file for this command to be available See also Load Data Display Shortcuts Keys CTRL S LOAD DATA DISPLAY This command is only available when a data file is open If you have previously used the Save Data Display command for the open data file then you can load the saved display and have it look exactly the same as when you saved it Saved displays are associated with the data file You can have as many as nine saved displays for each data file When loading a display you will be asked to choose from among the names of saved displays YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 15 EcoWatch for Windows Section 4 Load Data Display defaut 1 default PEN Oo we why EXPORT Use this command to send the current data to a file Typically some other program will read the file You will see the following dialog box File Export SAMPLE edf Bet E ecowwin he You may export the file in either of two forms a WMF file or a CDF file WMF stands for Windows MetaFile and is a format that describes any image in a way that is independent of the program that generated the image For example you can generate a graph in EcoW
215. election that allows you to select some of these parameter changes is Setup Click on Setup then Parameters From here there are four submenus that allow you to Add Remove parameters change Units change sample interval and or x axis Attributes and change the Names of the parameters you have assigned as shown in the figure below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 53 Sondes Changing the Appearance of a Graph or Table M EcoWatch SAMPLE DAT olx Eile Edit View Comm Realtime Graph E 6200 Appl Window Help 8 Add Remove AE EN Units ca E Eile Edit View Comm Realtime Graph 6200 Appl Parameters gt Table gt Attributes SAMF CE DAT Names g pi 150 M EcoWatch SAMPLE DAT Of x lan 5 i Window Help 0 0 D Section 2 x 30 Conc mePCond MS A Temp C pinion ROMO Some MNOOO o AEN HA na E r an 3 Table gt Page Color 4 W SAMPTE DAT Trace Color A g 37 Page Title i an 3 208 jig 1Trace per Graph 754 a e 2 Traces per Graph 32 wg ue i an 3 O58 2 iie E gi 3 pE 2 Hi 1626 Eat 148 0 a PAN a S 76 02 Oo 58 16 o 40 B 3 tals Aa 5 2 a Fh ig axan 4 15 06 21 1993 06 35 710 S nann Set parameter display units 5 is 14 VARA nna nann Depth ft SEMI omom o NWON OHI Or a a J A449 NERA 1ER 0
216. ene fluoride membrane is used with the free chlorine sensor Is the extent of the flow dependence reduction from the Rapid Pulse system the same for dissolved oxygen and chlorine No Under continuous pulsing conditions the Rapid Pulse DO system exhibits a flow dependence of about 3 while the Free Chlorine system shows a flow dependence of up to 25 The greater flow dependence of the chlorine system under the same pulse conditions 40 mS on 3960 mS off is likely due to the different diffusion properties exhibited by HOCI with a hydrophilic membrane versus oxygen gas through a hydrophobic membrane In any case the flow dependence of the free chlorine sensor is of great enough magnitude that a flow of about 500 mL per minute is required to overcome it under continuous pulsing conditions and hence the requirement for a flow cell for most studies involving Drinking Water sondes with Free Chlorine sensors What do the terms Total Chlorine and Combined Chlorine refer to There are two categories of chlorine in most treated drinking water free chlorine HOCI OCI and combined chlorine which is made up of species formed in the reaction of free chlorine with ammonia which is present in the water Combined Chlorine is thus made up of a general class of compounds called chloramines with formulae such as NH2Cl NHCl and NCI In water which is treated just with chlorine there will be a small amount of combined c
217. ensors time to stabilize with regard to temperature approximately 60 seconds before proceeding with the calibration protocol The pH readings after calibration are only as good as the calibration itself 4 Clean and store the probe according to the instructions found in Section 2 10 Care Maintenance and Storage of this manual 5 6 TEMPERATURE The sondes utilize a thermistor of sintered metallic oxide that changes predictably in resistance with temperature variation The algorithm for conversion of resistance to temperature is built into the sonde software and accurate temperature readings in degrees Celsius Kelvin or Fahrenheit are provided automatically No calibration or maintenance of the temperature sensor is required 5 7 FREE CHLORINE CHLORINE CHEMISTRY When chlorine gas Cl is added to water a reaction called disproportionation occurs to form hypochlorous acid HOCI and hydrochloric acid HCl The hypochlorous acid is a strong oxidant and the active species in most drinking water disinfection processes rather than gaseous chlorine Cl One molecule of HOCI has the same oxidizing capacity as a molecule of Cl Thus the formula for free chlorine is really HOCI rather than Cl A portion of the free chlorine will also be in the form of hypochlorite ion OCI with the amount depending on the pH of the sample However convention dictates that free chorine be reported in units of mg Cl per liter even though the ac
218. equires the use of higher volumes of calibration suspension If you choose to calibrate with the standard calibration cup you should engage only ONE THREAD when screwing the calibration cup onto the sonde in order to keep the turbidity probe face as far as possible from the calibration cup bottom to avoid interference Even with these techniques there will still be a small interference from the bottom of the calibration cup that will cause your field turbidity readings to appear up to 1 NTU lower than the actual reading In many cases this small error is negligible in surface water studies but can be important for drinking water studies where turbidity is generally very low For example a true turbidity of 0 5 NTU could appear as a value of 0 5 NTU for drinking water and this is a significant error The easiest way to avoid this error due to interference from the bottom of the calibration cup is to purchase an optional extended length calibration cup for your 6920DW sonde YSI Item Number 655488 Use of these calibration cups completely eliminates bottom interference even when the calibration cup is completely threaded onto the sonde The only drawback to the use of the extended length cup is that its use requires significantly higher volumes of calibration suspension This factor is generally of no concern if you are YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 28 Sondes Section 2 reusing the standard but can be
219. er than the sign may appear when communication is established In this case simply proceed as described below You will not be required to type Menu If you are unable to establish interaction with the sonde make sure that the cable is properly connected If you are using external power make certain that the YSI 6038 or 6651 power supply or other 12 vdc source is properly working Recheck the setup of the Com port and other software parameters Also refer to Section 6 Troubleshooting The sonde software is menu driven You select functions by typing their corresponding numbers You do not need to press Enter after choosing a selection Type the 0 or Esc key to return to the previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 19 Sondes Section 2 Sonde Main Menu Main 5 System 6 Report 7 Sensor 8 Advanced ILS RiGliat 2 Calibrate 3 File 4 Status Select option 0 for previous menu Sonde Menu Flow Chart SONDE MENU FLOW CHART Sonde 2 f 1 Conductivity 2 DO 3 DO mg L 4 Others 1 Discrete sample 2 Unattended sample Calibrate Directory Date and Time Battery Voltage Available Memory Logging Status 1 Date amp Time 2 Comm Setup Upload Quick Upload Quick View File 3 Page Lengt
220. erference from other fluorescent species such the chlorophyll in phytoplankton Without the filter turbid cloudy water or water with high levels of phytoplankton would appear to contain rhodamine WT even though none were present The following diagram can be used to better understand the principles of the YSI rhodamine WT system Light Source 540 nm Photodetector Optical Filter Optical Fiber Field optical measurements are particularly susceptible to fouling not only from long term build up of biological and chemical debris but also to shorter term formation of bubbles from outgassing of the environmental water These bubbles can generally be removed in short term sampling application by simply agitating the sonde manually However for studies longer than a few hours where the user is not YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 23 Principles of Operation Section 5 present at the site the quality of the data obtained with a rhodamine WT sensor that has no capability of mechanical cleaning may be compromised Like the 6026 6136 turbidity and 6025 chlorophyll probes described above the 6130 rhodamine WT probe is equipped with a mechanical wiper that makes it ideal for unattended applications The wiper can be activated in real time during discrete sampling operations or will function automatically during long term unattended sampling studies The number of wiper movements and the frequency of the clean
221. ers YSI Incorporated Drinking Water Monitoring Systems Operations Manual 6 1 Troubleshooting Section 6 The following troubleshooting tables can help you if you encounter problems with software communication protocol or sensor malfunctions other than calibration errors 6 2 SONDE COMMUNICATION PROBLEMS SYMPTOM POSSIBLE CAUSE ACTION Cannot communicate Sonde not powered Check 12 vdc source with sonde Cable connection is loose Check both ends of cable secure connectors Damaged connectors Check pins at both ends insure they are straight dry and clean Com port not selected Change to other com port other 2 4 3 peripheral on the same port Internal mouse Try other PC 650 display logger or dumb terminal Scrambled data Unmatched baud rate between Match the baud rate host and sonde Host is too slow Use faster computer Interface cable failure Check cable for damage If 7 necessary return for service Internal failure YSI Incorporated Drinking Water Monitoring Systems Operations Manual 6 2 Troubleshooting Section 6 6 3 SENSOR PERFORMANCE PROBLEMS SYMPTOMS POSSIBLE CAUSE ACTION Free Chlorine reading Probe not properly calibrated Follow chlorine cal procedures may be punctured cleaning 6035 maint kit Water in probe connector Dry connector reinstall probe Chlorine Charge too high gt 30 Follow cleaning procedure Use 1 Anode tarnished 6035 maintenance kit DO probe has been damaged Replace 6572 probe _ I
222. ers may restore probe function However in some cases the sensor may have been irreparably damaged by the dehydration and will require replacement Itis also important to remember not to store the pH sensor in distilled or deionized water as the glass sensor may be damaged by exposure to this medium The recommended long term storage method for the pH sensor in the 600DW B and the 6920DW are as follows Remove the probe from the sonde and seal the vacant port with the provided plug Place the probe in the storage vessel plastic boot or bottle which was in place on delivery The vessel should contain a solution which is 2 molar in potassium chloride Make certain that the vessel is sealed to prevent evaporation of the storage solution AMMONIUM NITRATE AND CHLORIDE The active element in the ammonium and nitrate ion selective electrode ISE sensors is a polyvinyl chloride PVC membrane that is impregnated with the reagent that provides specificity for either ammonium or nitrate The useful life of this sensor can be reduced if the membrane is stored immersed in water Thus storage in dry air is recommended for long term storage While dry air is slightly preferable for general storage the short term storage of these sensors in the sonde with the entire sensor array in moist air will have no significant detrimental effect on the life of the membrane Remove the sensor module from the 6920DW sonde and cover the vacant port with the provided plug Pla
223. es a STRONG possibility of death or serious injury FAILURE TO CAREFULLY OBSERVE THE FOLLOWING PROCEDURES AND PRECAUTIONS CAN RESULT IN LEAKAGE OF BATTERY FLUID HEAT GENERATION BURSTING AND SERIOUS PERSONAL INJURY 1 Never dispose of the battery pack in a fire or heat it 2 Never allow the positive and negative terminals of the battery pack to become shorted or connected with electrically conductive materials When the battery pack has been removed from the 650 store it in a heavy plastic bag to prevent accidental shorting of the terminals 3 Never disassemble the battery pack and do not tamper with any of the electronic components or the batteries within the battery pack The battery pack is equipped with a variety of safety features Accidental deactivation of any of these safety features can cause a serious hazard to the user 4 The NiMH batteries in the battery pack contain a strong alkaline solution electrolyte The alkaline solution is extremely corrosive and will cause damage to skin or other tissues If any fluid from the battery pack comes in contact with a user s eyes immediately flush with clean water and consult a physician immediately The alkaline solution can damage eyes and lead to permanent loss of eyesight Z Warning Notifications Misuse creates a possibility of death or serious injury 1 Do not allow the battery pack to contact freshwater seawater or other oxidizing reagents that might cause rust and res
224. ese specific items have been misplaced or lost they can be replaced by contacting YSI Customer Service Alternatively the user may have similar and equally acceptable storage equipment on hand even though it was not part of the original YSI package Common sense should be the guide on substitution of storage vessels REMEMBER DO NOT ATTEMPT TO GAIN ACCESS TO THE INTERNAL CIRCUITRY OF THE SONDE 2 10 1 SONDE CARE AND MAINTENANCE The YSI 6570 Maintenance Kit is available for use with your sonde The kit includes several items that will be helpful or necessary to perform the proper routine maintenance on your sonde The 6570 Maintenance Kit includes two types of O rings for probes and cable connector probe installation replacement tools two cleaning brushes for the conductivity sensor O ring lubricant and a syringe for cleaning the depth sensor port The 6570 Maintenance Kit can be ordered from any authorized YSI dealer or directly from YSI See Appendix C for details When caring for your sonde remember that the sonde is sealed at the factory and there is never a need to gain access to the interior circuitry of the sonde In fact if you attempt to disassemble the sonde you would void the manufacturer s warranty O RING CARE AND MAINTENANCE Your 6 series sondes utilize user accessible o rings as seals to prevent environmental water from entering the battery compartment and the sensor ports Please read the following instruct
225. eshooting problems have been categorized into four general areas e Calibration Error Messages e Sonde Communication e Sensor Performance If you need assistance that this Troubleshooting section can not provide please contact YSI or your authorized dealer See Appendix C Accessories and Calibration Standards for specific contact information 6 1 CALIBRATION ERRORS There are only three Calibration Error messages that are possible and are listed below instead of in the troubleshooting table Only two of the error messages are related to sensor performance High Free Chlorine Charge This message indicates a malfunction in the free chlorine sensor that is generally due to the roughness of the electrodes on the surface of the probe face The charge associated with the chlorine sensor must be in the range O to 75 or the error message will appear when calibration is attempted If this error message is encountered remove the free chlorine probe from the sonde and resurface it according to the instructions in Section 2 3 1 of this manual Then install a new membrane and activate the sensor as described in the same section After resurfacing allow the sensor to pulse in the Run mode for at least 1 hour during which time the DO charge may be expected to drop in value if the sensor is still functional If resurfacing does not result in a lowering of the charge contact YSI Customer Service for additional help Out of Range This message indicates th
226. esident in the C ECOWIN DATA subdirectory Select 4 View File to examine the data in any file currently stored in the sondes flash disk memory You will first view the same screen as viewed in the Directory menu From this menu choose the file of interest then using the Time window menu choose the dates and or times of interest If you choose dates or times that are not within the designated start and stop times no data will be displayed You also may choose the entire file You can use the Space Bar to stop and restart the scrolling at any time Use the Esc key to stop the view YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 47 Sondes Section 2 Select 5 Quick view file to view the last page of data from the last data file in flash disk memory This feature is particularly useful to quickly review any recently acquired data so that system performance can be assessed Select 6 Delete all files to TIRREVERSIBLY remove all files INCLUDING the glp file that contains calibration information from the sonde flash disk memory It is critical not to use this option until all relevant data from sonde memory is transferred to your computer via one of the upload options There is a verification screen that appears so that pressing the number 6 key does not immediately delete all files REPORTING AND PLOTTING DATA WITH ECOWATCH There are many features in EcoWatch related to viewing plotting manipulating and reporting data
227. et the interval as desired If you will be logging to sonde memory select the 650 Sonde menu and then Run Discrete sample from the sonde menu Set the sample interval and then activate the data display by selecting Start sampling e Select the memory sonde or 650 in which you want to store your data by toggling between the logging windows e Highlight the logging method desired Log one sample for a single logged point or Start logging to store a continuous data stream e Press Enter to activate the logging selection e To end the study if a continuous data stream was selected press Enter with the highlight cursor on the Stop logging command or press the Escape key Sections 3 5 2 and 3 5 3 below provide details and real life examples of logging data to sonde memory and to 650 memory respectively using the 650 as the interface 3 5 2 LOGGING DATA TO SONDE MEMORY 3 5 2 1 INTRODUCTION All YSI 6 series sondes sold since September 1999 have memory present on their internal PCBs In addition all 600XLM 6920 and 6600 sondes have internal memory regardless of the date of purchase Interface of these sondes to a 650 allows the user to easily store data either a single point or a continuous stream to the sonde memory If a continuous stream of data is desired the interval between the stored points is controlled by the Sample interval in the sonde s Discrete sample function The file name under which this data is st
228. ete individual files from flash memory Highlight the selection and press Enter Use the arrow keys to confirm that you really want to delete all files and press Enter CAUTION When you use this command all data currently stored in the 650 memory will be irretrievably lost so make certain that you have transferred all files of interest to your PC before carrying out the procedure Note however that use of the Delete all files command will have no effect on any Site Designations which have been entered from the Edit site list selection YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 50 650 MDS Section 3 3 7 UPLOADING DATA FROM SONDES 3 7 1 INTRODUCTION A primary function of the 650 is to serve as an intermediate location for transfer of data stored in deployed 6 series sondes to a PC without bringing the sondes back to the base facility In this application the user connects the 650 to the sonde at the deployment site via a standard YSI field cable and using the proper keypad commands transfers the data stored in the sonde to the memory of the 650 The sonde is then redeployed without disturbing the study and the data transferred to a PC on return to the base facility 3 7 2 UPLOAD PROCEDURE After attachment of the sonde to the 650 with a YSI field cable turn on the 650 highlight the Sonde menu selection and press Enter to display the Main sonde menu Highlight the File selection and press Enter NOT
229. ew parameter setup is on the left Itis evident that the mismatch occurs in the third line where salinity from the new setup is mismatched with DO from the old setup The screen thus shows that salinity has been added to the parameter list between the two logging studies and must be removed if the original file is to be appended with further data filename 1TEF Parameter mismatch Temp C Temp C SpCond uS cm SpCond uS cm Sal ppt DOsat DOsat pH N 0 0 000 E 0 0 000 08 20 2001 17 42 48 Qmm mm YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 35 CIN 650 MDS Section 3 3 5 3 3 LOGGING TO 650 MEMORY WITH A SITE LIST In the example above you learned how to log data to 650 memory that had file and site designations input to the logger at the time that the data was logged in the field It is also possible and in most cases more convenient to place file and site designations into the 650 memory in the office or laboratory before moving to field for logging studies This is particularly true if you are aware of the sites at which you will be determining water quality data and or which you will be visiting on a regular basis The following section describes how to set up site lists which contain entries designated Site Designations that will be instantly available to the user in the field to facilitate the logging of data in the field with pre established namin
230. existing data file DAT EcoWatch displays the Open dialog box in which you can locate and open the desired file a Save the working Data Display of the active data file EcoWatch displays the Save Data Display dialog box in which you can overwrite existing Data Display or save to a new one Ry Export data as a graph in Window Meta File WMF format or as data in Comma Delimited CDF format Copy the whole graph page or data from the selection on the table to the clipboard Print the active graph page or table page depending on which one is currently active Open a new terminal window to communicate with the sonde Access context sensitive help Shift F1 Toggle table window during file processing Toggle graph window during file processing Display study statistics Display study info Limit the data to be processed in a study Enlarge a selective portion of graph Center the graph under the cursor Enlarge graph or table 20 Reduce graph or table 20 Return graph or table to its normal state unzoom SMRBBEREHMHMABLEB Redraw the graph YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 4 EcoWatch for Windows Section 4 4 1 5 TYPICAL APPLICATION Suppose you want to measure Dissolved Oxygen pH Temperature and Turbidity in a nearby stream and decide to start with a 30 day deployment using the YSI 6920 sonde The task can be organized into several steps 1 Calibr
231. f more convenient If good pH and or ORP response is not restored by the above procedure perform the following additional procedure 1 Soak the probe for 10 15 minutes in clean water containing a few drops of commercial dishwashing liquid 2 GENTLY clean the glass bulb and platinum button by rubbing with a cotton swab soaked in the cleaning solution 3 Rinse the probe in clean water wipe with a cotton swab saturated with clean water and then rerinse with clean water If good pH and or ORP response is still not restored by the above procedure perform the following additional procedure 1 Soak the probe for 30 60 minutes in one molar 1 M hydrochloric acid HCl This reagent can be purchased from most distributors Be sure to follow the safety instructions included with the acid 2 Rinse the probe in clean water wipe with a cotton swab saturated with clean water and then rerinse with clean water To be certain that all traces of the acid are removed from the probe crevices soak the probe in clean water for about an hour with occasional stirring If biological contamination of the reference junction is suspected or if good response is not restored by the above procedures perform the following additional cleaning step 1 Soak the probe for approximately 1 hour in a 1 to 1 dilution of commercially available chlorine bleach 2 Rinse the probe with clean water and then soak for at least 1 hour in clean water with occasional sti
232. f the three ports labeled 3 4 and 5 on the sonde bulkhead Be sure to remember which sensor was installed in which port so that you will later be able to set up the sonde software correctly INSERT ISE PROBE SCREW IN AND TIGHTEN WITH FINGERS IMPORTANT Make sure that the probe nut or probe body PROBE BODY TO SEAT of the ISE probes are seated directly on the Sonde Bulkhead ON BULKHEAD This will ensure that connector seals will not allow leakage ISE PROBE DO PROBE PROBE NUT TO SEAT ON BULKHEAD YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 13 Sondes Section 2 INSTALLING THE PROBE GUARD Included with each sonde is a probe guard although customers will seldom use this item for drinking water studies The probe guard protects the probes during some calibration procedures and should be used if the sonde were ever used in field studies that did not involve the flow cell Once the probes are installed install this guard by aligning it with the threads on the bulkhead and turn the guard clockwise until secure CAUTION Be careful not to damage the free chlorine membrane during installation of the probe guard The figure below shows the YSI 6920DW probe guard the guard for the 6 00DW B is similar TURN CLOCKWISE BY HAND TO SECURE PROBE GUARD BURK HEAT UA ae yea PROBES INSTALLED gt fee 2 3 3 STEP 3 POWER The YSI 6920DW and 600DW B sondes have internal batter
233. f time the user should remove the battery pack from the instrument Failure to do this may result in overdischarge of the pack which can have a detrimental effect of its lifetime Note that YSI provides recharge options for many countries in the selection or the 6116 6126 and 6127 kits However it is possible that the power cord options in these kits will not be correct for some users In these cases users should purchase the 6126 or 6127 kit and substitute their local PC type power cord for the power cord shipped with the kit This power cord is usually readily available at any local electronics store An optional automotive cigarette lighter charger YSI 616 is also available for recharging the 650 battery pack Note that the user will require the 6116 adapter cable to use the cigarette lighter adapter Instructions and diagrams for configuring your cigarette lighter charger and changing fuses are shown below and are found on the back of the 616 package The user should save these instructions when unpacking the accessory and keep them for later reference YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 9 650 MDS Section 3 American and Japanese Vehicles European Vehicles Ct gt Adapter Adapter Ring Slot Spring Clip Adapter Cap 7 e EG Power Cord Adapter Body Fuse Rr 5 5mm 2 1mm O e Positive Tip To use the device with an American or Japanese vehicle slide the adapter ring off of t
234. ften not labeled To identify a COM port look for unused 9 or 25 pin D shaped connectors with pin contacts Some sondes have integral cables and others require a separate cable sold especially for use with the sonde Depending on the exact connector on your PC you may also need a 9 to 25 pin adapter There is an PC interface cable for the 650 display loggers that has a 9 pin D shaped connector This connector must be attached to your computer Once physically connected you are ready to communicate using EcoWatch Use the Sonde command in the Comm menu or the sonde button on the toolbar This will give you a terminal window From this window you interact with the sonde software using its menu system or upload a file from a 650 display logger See Section 2 Sondes for details on how to use the sonde software 4 2 2 UPLOAD A FILE FROM A SONDE Data that is processed in EcoWatch typically originates in a sonde with batteries and is uploaded to a PC To upload data from a YSI sonde connect the sonde to your PC and open the EcoWatch software Use the Sonde button on the toolbar to communicate with the sonde software Using the sonde software go to the Main menu by typing menu on the blank terminal screen Then choose 3 File Menu You will most likely be uploading the most recently recorded data If so simply press 3 Quick Upload Otherwise press 2 to choose a file to upload The sonde will ask you to choose a format for the file Be sure
235. fter removing the port plug Make certain that no moisture is present in the port before installing the probe and if moisture is present from the previous calibration procedures use compressed air to dry the port e Break in the sensor according to the instructions in Section 2 6 above e Locate the flow cell which was supplied with your 6920DW or 600DW B and attach it to the sonde according to the instructions that were supplied with the flow cell Note that for flow cell studies on drinking water with the 6 00DW B YSI recommends that users purchase a 655488 Extended Calibration Cup Sleeve and substitute the extended length sleeve from the calibration cup for the shorter sleeve in the flow cell kit The extra length will eliminate any bottom interference on the turbidity readings and will be compatible with calibration of the turbidity sensor using the extended length calibration cup e Attach inlet and outlet hoses to the barbed fittings supplied with the flow cell and then insert the fittings into the proper ports of the flow cell Make certain that the hoses are attached very snugly to the barb fittings to prevent any possibility of catastrophic leakage If necessary standard hose clamps can be used to secure the hoses to the barbed fittings e Connect the inlet line of the flow cell to a drinking water tap and run the outlet line to a drain Make certain that the inlet line is securely attached to the tap and that the outline line will not pop
236. ftware provides powerful tools for editing your site list Actions such as inserting adding new entries deleting existing entries and moving entries within the list can be carried out easily from the keypad Highlight the Edit site list entry in the 650 Logging setup display and press Enter to show the following screen site list Filename Site or to move a site to insert a site a to delete a site Tip Leave blank to use the same filename as the previous site N 0 0 000 E 0 0 000 rae resi 07 11 2001 15 33 22 Pm E Note that the keystrokes for editing the site list are shown in the bottom of the Main Display Thus to insert add a file above the present cursor position simply highlight the proper entry and press the Right arrow key while holding down the Enter key as shown in the following example Note that two sites were inserted in the initial site list using this method Edit site list dit site list Site list Site list Filename Site name Site Num Filename Site name WEST 1 BLUELAKE WEST 0 EAST BLUE LAKE EAST 2 BLUE LAKE B AKE EAST y to move a site or to move a site insert a site to insert a site delete a site to delete a site Tip Leave blank to use the same Tip Leave blank to use the same filename as the previous site filename as the previous site 0 0 000 E 0 0 000 0 0 000 E 0 0 000 736 8mmHg p lt
237. function in EcoWatch for Windows e Comma amp Quote Delimited format is commonly used to generate files that can be imported into spreadsheet software in your PC where you can perform custom data analysis A comma is still the delimiter but the radix is corrected to a period In most cases you should set the Page Length to 0 before using this type of upload format See the Windows Help section in EcoWatch for information on setting the page length e ASCII Text is another alternative to transferring data directly to your computer into spreadsheet or other PC based software Prior to upload a Time window display appears to allow you the option to select portions of the logged data to upload You may select 1 Proceed to upload all data logged from the dates and times shown Time window te 07 17 96 tLime 12 00 00 top date 07 31 96 tLime 12 00 00 option 0 for previous menu Select 1 Proceed Choose the appropriate file transfer protocol A status box will appear in the lower right quadrant of the screen Verification of a successful transfer is indicated when all of the requested data are transferred File typ 1 PC6000 2 Comma amp Delimited S ASCTI TEKE Select option 0 for previous menu Press 0 or Esc to return to the File menu When you select the 3 Quick Upload option the same operation as 2 Upload is performed except that only the most recent flash disk fi
238. g a temperature coefficient of 1 91 C TC 0 0191 Specific Conductance 25 C Conductivity 1 TC T 25 As noted above unless the solution being measured consists of pure KCI in water this temperature compensated value will be somewhat inaccurate but the equation with a value of TC 0 0191 will provide a close approximation for seawater and for solutions of many common salts such as NaCl and NH Cl MEASUREMENT AND CALIBRATION PRECAUTIONS 1 When filling the calibration vessel prior to performing the calibration procedure make certain that the level of calibrant standard is high enough in the calibration cup or beaker to cover the entire conductivity cell 2 After placing the sonde in the calibration solution agitate the sonde to remove any bubbles in the conductivity cell 3 During calibration allow the sensors time to stabilize with regard to temperature approximately 60 seconds before proceeding with the calibration protocol The readings after calibration are only as good as the calibration itself YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 1 Principles of Operation Section 5 4 Perform sensor calibration at a temperature as close to 25 C as possible This will minimize any temperature compensation error 5 2 SALINITY Salinity is determined automatically from the sonde conductivity and temperature readings according to algorithms found in Standard Methods for the Examinatio
239. g of files and sites There are two kinds of Site Designations available for use in Site lists e Site Designations associated with applications where data from a single site is always logged to a single file This type is referred to as a Single Site Designation and is characterized by two parameters a file name and a site name Files logged to 650 memory under a Single Site Designations will be characterized primarily by the file name but will also have the Site name attached so that it is viewable in either the 650 File directory or in EcoWatch for Windows after upload to a PC e Site Designations associated with applications where data from multiple sites are logged to a single file This type is referred to as a Multi site Designation and is characterized by three parameters a file name a site name and a site number Files logged to 650 memory under Multi site Designations are characterized by a file name but not a site name since multiple sites are involved However each data point has a Site Number attached to it so that the user can easily determine the sampling site when viewing the data from the 650 File menu or processing the data in EcoWatch for Windows after upload to a PC When reading the following section on the use of the 650 Site list remember that a Site List is a compilation of individual entries called Site Designations Single Site Designations are used when the data from a particular location is always lo
240. gged to the same single file A Single Site Designation is characterized by a unique file name Multi Site Designations are used when data from several locations are logged to a single file For Multi site Designations there will a single File Name with multiple Site Names and Site Numbers The following displays show examples of Single and Multi Site Designations Edit site list Site list Filename Site name BRIDGE1L Site List to move a site to insert a site ee to delete a site Single Site Designations Tip Leave blank to use the same with Different File Names filename as the previous site N 0 0 000 E 0 0 000 736 8mmHg 07 11 200114 46 46 Pm YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 36 650 MDS Section 3 Edit site list Site list Filename Site name i Site List MIAMI BRIDGE1 eA or to move a si to insert a site to delete a site Tip Leave blank to use the same oe f filename as the previous site Multi Site Designations with the Same File Name N 0 0 000 E 0 0 000 736 9mmHg 07 11 2001 14 54 07 ONE Note that Site lists containing Single Site Designations are usually input with the designation Store Site Number INACTIVE in the 650 Logging setup menu Thus no site numbers appear in the first Site list example Conversely Site lists containing Multi Site Designations MUST be input with the Store Site Number selection ACTIVE as
241. graph all the way to both ends of the Study Limit if a graph is selected Displays the data table in default size if a data table is selected Shortcuts Toolbar 4 3 4 COMM UNICATION The Comm Communications menu commands let you control your communications settings with sondes modems and other devices Several communication menu options are only available when a terminal window is opened SETTINGS The Communications Settings dialog box is where you can configure the communications ports The settings are organized into the following three tabs Communication Settings Port Setup This is where you can set port parameters file transfer protocol and handshaking for each of the ports that you will use YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 25 EcoWatch for Windows Section 4 YSI Incorporated Port Parameter Setup These include the most common settings for each communication port These settings are Baud Rate number of Data bits and Parity These settings must be identical to the settings on the device that is connected to the port You may choose independent settings for each communication port Protocol You may choose Kermit Xmodem or Xmodem 1K protocol for file transfer through the communications port 6820 6920 600R 600XL 600XLM and 6600 sondes use only Kermit protocol Handshaking You may choose Xon Xoff or RTS CTS or Both or None Xon Xoff is often referred to as softwar
242. h 1 Date Delete All Files 4 Instrument ID 2 Time 1 2 3 4 View File 5 6 7 Test Memory 5 SDI 12 Address 3 Temp C 4 Temp F y MORE y Advanced 1 Temp 1 Cal Constants 2 Setup YSI Incorporated 3 Sensor 4 Data Filter 2 Cond 3 DO 4 _ ISE1 pH y MORE y Drinking Water Monitoring Systems Operations Manual Sondes Section 2 SYSTEM SETUP At the Main menu select System The System Setup menu will be displayed System Setup Menu 1 Date amp time 2 Comm setup 3 Page length 25 4 Instrument ID YSI Sonde 5Ctrcoviec boarre SN 00003001 6 GLP filename 00003001 7 SDI 12 address 0 7 Hing laisia 9 J ranaig A Deutsch Select option 0 for previous menu Select 1 Date amp time An asterisk will appear next to each selection to confirm the entry Press 4 and 5 to activate the date and time functions Pay particular attention to the date format that you have chosen when entering date You must use the 24 hour clock format for entering time Option 4 4 digit year may be used so that the date will appear with either a two or four digit year display If you do not enter the correct year format 8 30 98 for 2 digit 8 30 1998 for 4 digit your entry will be rejected
243. he example below which demonstrates simple logging A user with a 600XL 650 system wants to store a continuous stream of data electronically for a single site at a sample interval of 10 seconds between data points Note that this is a similar example to that in 3 5 2 2 above except that the logging is to 650 rather than sonde memory and a data stream rather than a single point will be logged The first step in this application is to make certain that the sample interval is set correctly for the logging study The factory default sample interval of 1 second will therefore need to be changed to 10 seconds To set the sample interval highlight the Logging setup entry in the 650 Main menu and press Enter 650 Main Menu Logging setup Sonde run Interval jewielewiens Sonde menu OUse site list File MStore Barometer Logging setup OStore Lat and Long System setup N 0 0 000 E 0 0 000 739 3mmHg N 0 0 000 E 0 0 000 739 5mmhg O MEELI am E 07 12 2001 08 52 47 07 12 2001 08 58 06 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 33 650 MDS Section 3 Press Enter at the highlighted Interval selection and use the arrow keys to scroll to the right and change the interval from 1 second to 10 seconds Confirm the selection by pressing Enter and then press Esc to return to the 650 Main menu Logging setup Interval 00 00 19 Use site list Store Barometer Oistore Lat and L
244. he reading or 2 mg L whichever is larger refers to sampling applications where only minimal time has elapsed between calibration and field use CALIBRATION AND EFFECT OF TEMPERATURE The nitrate sensor should be calibrated using solutions of known nitrate nitrogen content according to the procedures detailed in Sections 2 6 1 and 2 9 2 If a two point calibration protocol is used the temperature of the standards should be as close as possible to that of the environmental medium to be monitored The recommended calibration procedure is one involving three solutions Two of the solutions should be at ambient temperature while the third should be at least 10 degrees Celsius different from ambient temperature This protocol minimizes the effects of taking readings at temperatures that are significantly different from ambient laboratory temperatures MEASUREMENT AND CALIBRATION PRECAUTIONS 1 The temperature response of ion selective electrodes is not as predictable as that of pH sensors Therefore be sure to carry out a 3 point calibration the first time you use the probe This will provide a default setting for the effect of temperature on your particular sensor After this initial calibration you can use the less time consuming 2 point and 1 point routines to update the 3 point calibration However we strongly recommend a new 3 point calibration after each deployment of 30 days or longer 2 Ion selective electrodes may not stabilize as rapidly
245. he Ese and Enter keys simultaneously to display the menu associated with the 6500 software as shown below Modbus setup Choose the Display selection and press Enter Then follow the instructions in Section 3 3 2 of the 6500 manual to configure the 6500 display When finished press Esc until the sensor readings are again displayed on the screen Calibrate Your Free Chlorine Sensor After the probe has been installed immediately attach the flow cell to the sonde attach appropriate hoses to the inlet and outlet of the flow cell and start a flow of water at arate of 500 1000 mL minute minimum 500 mL min Observe the free chlorine readings on the 6500 display and when stable collect an effluent sample from the flow cell and perform a DPD colorimetric analysis using a test kit to determine the actual free chlorine concentration Then immediately use the Calibration function of the 6500 to calibrate the sensor to the DPD value as described in Section 4 2 of the 6500 manual Note that the stabilization of the free chlorine sensor after activation may require 1 2 hours in flowing tap water after connection of the sonde to the 6500 YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 5 Using Your DW Sonde with a 6500 Process Monitor Appendix G Activate the Sample and Hold Function and Select Your Sample Interval The new DW sonde software which is supplied in your instrument includes a new feature designated Sample and
246. he Status screen without stopping discrete logging Press 0 or Esc to exit the Status screen and return to Main menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 81 Sondes Section 2 2 9 5 SYSTEM Select 5 System from the Sonde Main menu to set the date and time customize the sonde communication protocol adjust how information appears on the screen and enter an instrument identification number and a GLP file designation 1 Date amp time 2 Comm setup 3 Page length 25 4 Instrument ID YSI Sonde 5 Circuit looaiec SINS 00003001 6 GLP filename 00003001 7 SDI 12 address 0 8 English 9 Fran ais A Deutsch Select option 0 for previous menu Select Date amp time Date amp time setup 1G auy seve 4 4 digit year Zee My 5 Date 08 11 98 3 4 y m al 6 Time 11 12 30 Select option 0 for previous menu Press 4 and 5 to activate the date and time functions Pay particular attention to the date format that you have chosen when entering date Use the 24 hour clock format for entering time Option 4 4 digit year may be chosen to have the date appear with a two or four digit year Press 0 or Esc to return the System Setup menu Select 2 Comm setup From the System Setup menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 82 Sondes Section 2 Comm setup Auto baud S 2400 300 baud 6 4800 600 ba
247. he color of the table background color That is the part of the table where the readings appear Highlight Color Goes to the Color Dialog Box where you can change the color of the table highlight color That is the part of the table where the reading units appear SET DEFAULT TEMPLATE This option allows you to select display parameters for your data when you initially open a file in EcoWatch Display parameters include background and trace colors on your graph which parameters are displayed parameter ordering parameter units and scaling of those parameters either manual or automatic The first time you use EcoWatch with a data file graphing will proceed according to the default settings present in EcoWatch For example graph backgrounds will all be black traces will be plotted each with a different color all parameters will be auto scaled and if your sonde measures conductivity and dissolved oxygen EcoWatch will display specific conductance in mS cm and dissolved oxygen in mg L You can change the default settings by using Set Default Template YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 39 EcoWatch for Windows Section 4 1 Open a data file and observe the presentation of the data in graphic and tabular form 2 You can change the background and trace colors by going into the Graph and or Table submenus of the Setup Menu 3 You can add or remove parameters by going into the Parameter submenu of the
248. he inlet valve and make the necessary repairs to the fittings and or tubing Check the accuracy of the free chlorine sensor after approximately 2 days of deployment in flowing tap water and recalibrate the sensor to remove any drift due to long term break in The accuracy check should be done by carrying out a colorimetric DPD analysis of a sample of the flow cell effluent and comparing it with the latest logged reading or the reading displayed in a real time or 6500 study Note that the sonde should not be taken off line to calibrate the sensor Calibration of any parameters during a study will not interrupt the continuity of the Unattended logging file Check the accuracy of the free chlorine sensor every two weeks if possible and recalibrate if necessary YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 4 Quick Start Guide to Drinking Water Studies Appendix F ATTACHMENT 1 FREE CHLORINE MEMBRANE INSTALLATION INSTRUCTIONS FREE CHLORINE SENSOR ELECTROLYTE PREPARATION Open the 6573 membrane kit which was shipped with your 6572 chlorine probe and prepare the electrolyte solution Dissolve the KCl in the dropper bottle by filling it to the neck with deionized or distilled water and shaking until the solids are fully dissolved After the KCI is dissolved wait a few minutes until the solution is free of bubbles p a ADD DI OR DISTILLE w FREE CHLORINE SENSOR MEMBRANE INSTALLATION Remove the protect
249. he plug To use the device with a European vehicle leave the adapter ring on the plug and position it so the slots on the ring line up with the plug s spring clips To begin charging your battery pack first plug the barrel connector of the cigarette lighter charger into the mating end of the 6116 adapter cable Then attach the MS 8 end of the 6116 adapter cable to the 650 Finally plug the other end of the cigarette lighter charger into the vehicle s lighter socket The 616 cigarette lighter charger contains a 2 ampere fast blow type fuse If the power cord stops working properly unscrew the adapter s cap remove the tip and then pull out and check the fuse See diagram above to remove the fuse If the fuse is blown or you are unsure replace it with a new 2 amp fast blow fuse that is available at electronics stores such as Radio Shack Reassemble the adapter and securely screw the cap back onto the adapter body After you have installed batteries or the rechargeable battery pack into your 650 you are ready to proceed to the next sections 3 2 6 TURNING THE INSTRUMENT ON Turn the instrument on by pressing and releasing the on off button on the top left of the instrument keypad The following screen should be displayed 650 Main Menu Sonde run Sonde menu File Main Display Logging setup System setup Status Bar N 0 0 000 E 0 0 000 06 01 2000 17 06 37 YSI Incorporated Drinking Water Monitoring Systems Opera
250. he reference electrode T temperature of measurement in degrees Kelvin R n and F are invariant constants Thus in simplified y mx b form it is mv output slope x pH intercept In order to quantify this simple relationship the instrument must be calibrated properly using commercially available buffers of known pH values In this procedure the millivolt values for two standard buffer solutions are experimentally established and used by the sonde software to calculate the slope and intercept of the plot of millivolts vs pH Once this calibration procedure has been carried out the millivolt output of the probe in any media can readily be converted by the sonde software into a pH value as long as the calibration and the reading are carried out at the same temperature This last qualifier is almost never met in actual environmental measurements since temperatures can vary several degrees during a deployment simply from a diurnal cycle Thus a mechanism must be in place to compensate for temperature or in other words to accurately convert the slope and intercept of the plot of pH vs millivolts established at T temperature of calibration into a slope and intercept at Tm temperature of measurement Fortunately the Nernst equation provides a basis for this conversion According to the Nernst equation as shown above the slope of the plot of pH vs millivolts is directly proportional to the absolute temperature in degrees Kelvin Thus
251. he transition to the final data points Then use the arrow keys to view the data of interest 3 4 3 8 Configuring and setting the sonde clock Utilize the 650 Sonde menu selection to access the System menu of the sonde Highlight the Date amp Time selection and press Enter Use the arrow keys to highlight the preferred date format and press Enter to confirm your selection Activate deactivate the 4 digit year selection as desired using the Enter key to toggle between choices Finally set the date and time by highlighting the entries and inputting new values from the keypad 3 4 3 9 Setting the sonde Autosleep configuration As explained in Section 2 of the 6 series manual the setup of the Autosleep RS 232 function of the sonde should be governed by the following rules e Unattended sample studies Remote deployments Autosleep Active e Discrete sample studies with user present Autosleep Inactive The rules are particularly important with regard to the method of dissolved oxygen calibration automatic at the Unattended sample interval if Autosleep is Active manually controlled by the user if Autosleep is inactive See Section 2 of the 6 series manual for additional information on the Autosleep function YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 26 650 MDS Section 3 To set the Autosleep function utilize the 650 Sonde menu selection to access the AdvancedlSetup menu of the sonde Use the up down arro
252. he units of turbidity are automatically presented as turbid NTU if a 6026 sensor has been selected and turbid NTU if a 6136 sensor has been selected The different designations are designed to differentiate the data from the two sensors types in later analysis For parameters with multiple unit options such as temperature conductivity specific conductance resistivity and TDS a submenu will appear as shown below allowing selection of desired units for this parameter Select units 1 NONE Z Wem 3 Temp F 4 Temp K Select option 0 for previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 84 Sondes Section 2 After configuring your display with the desired parameters press Esc or 0 to return to the Main menu Even if all of the sensors are enabled the measurements for those sensors will not appear on your display unless the parameter is selected in Report setup In order for a specific parameter to show up on a report 1 The sensor must first be enabled turned on 2 That parameter must be activated in the Report setup In the above example if the appropriate sensors have been activated in the Sensor setup section the following parameters will be displayed to the computer screen or captured to a computer or data collection platform when the sonde is sampling Temperature in C Specific Conductance in uS cm Free chlorine in mg L pH ORP in millivolts T
253. hen click again at the right end This command stays active until you execute it again To limit the data in a table move the pointer to the far left of the table into the row numbers area and highlight from the desired cutoff point to the beginning or end of the data set whichever is desired Then select the Limit Data Set option from the graph menu or use the toolbar shortcut To undo the limits choose Cancel Limits below Alternately you may remove the limits on a graph by executing this command backwards That is click anywhere on the right side of the graph first and then click anywhere on the left side The limits will be moved to the ends of the file Shortcuts Toolbar AUTOSCALE Sets the scale of each parameter so that the minimum and maximum points fit comfortably on the graph YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 32 EcoWatch for Windows Section 4 MANUAL SCALE Takes you to the Graph Y Axis dialog box where you can set the scale for each parameter Graph Y axis dialog box To manually scale a graph double click on its Y axis labels A dialog will come up where you can set the scale Note that you can manually set the scale for some parameters and autoscale others When the autoscale box is checked the high and low limits will be dimmed See also the Autoscale command in the Graph menu Graph Y Axis REDRAW If part of a graph is not displayed it could be because y
254. hen moving between menus within the sonde software structure use the 0 or Esc to back up to the previous menu To exit menus and return to the sonde command line the sign press 0 or Esc until the question Exit menu Y N appears Type Y and the command prompt will be shown To return to the Main sonde menu type menu and press Enter To return to the Main menu of the sonde type menu after the and press Enter IMPORTANT MESSAGE WHAT IF THERE IS NO RESPONSE TO A KEYSTROKE To save power the sondes will power down automatically if no interaction from the keyboard occurs for approximately 60 seconds when an Autosleep function RS232 or SDI12 is activated in the Advanced Setup menu When the software is in this sleep mode the first subsequent keystroke simply wakes it up and has no visible effect on the display The next keystroke after the unit is awakened will be input to the software in the intended manner Thus if you press a key after the sonde has been inactive for some time and nothing seems to happen press the key again To gain experience with the sonde menus select the sonde icon in EcoWatch for Windows and press Enter See the figure below for the Sonde Menu Flow Chart In the following subsections you will learn about the functions of the various menu items and when to use them The discussion of the menu and submenu functions is organized in numerical order beginning with
255. hen you will have to confirm that this is the file you wish to have your data written to before starting to capture e Default Sonde Port This refers to the COM port you will most commonly use to connect to your sonde If you select a port here EcoWatch will automatically use this port as the default COM port when you use the Sonde command The Apply button in the bottom of this dialog box is not used in EcoWatch SONDE This command opens a terminal window for communicating with a sonde From the terminal window you can communicate to a sonde using the sonde menus Unless you have chosen a default sonde port in the YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 28 EcoWatch for Windows Section 4 Communications Settings dialog box the following dialog box will appear asking you which COM port to use Select COM Port Shortcuts Toolbar RI TERMINAL Opens a new terminal window for communicating with any compatible RS 232 devices FONT COLOR Adjust font color size and style for any text that appears in the terminal window BACKGROUND COLOR Adjust the background color of the terminal window CAPTURE Turns COM port capture On or Off This is typically used while communicating with a sonde that is taking measurements Capture will send all communications received on the COM port to a file After selecting the command a dialog box will appear for selecting the name of the file to use If Use defaul
256. hile the module is removed from the sonde be sure to dry the sonde port and probe connector with compressed air and apply a very thin coat of lubricant to the O ring before re installation NOTE The ion selective membranes are fragile Be certain to 1 Use only moist high quality lens cleaning tissue for the cleaning procedure not paper towels or other coarse materials and 2 Stroke the probe face very gently with the tissue during the procedure If you do not adhere to these instructions you can seriously damage the sensors OPTICAL PROBES 6026 AND 6136 TURBIDITY 6025 CHLOROPHYLL 6130 RHODAMINE WT The 6026 6136 6025 and 6130 probes require only minimal maintenance After each deployment the optical surface on the tip of the turbidity probe should be inspected for fouling and cleaned if necessary by gently wiping the probe face with moist lens cleaning paper In addition for the 6025 6026 6136 and 6130 probes we recommended replacing the wiper periodically The frequency of this replacement depends on the quality of water under examination A replacement wiper is supplied with the probes along with the small hex driver required for its removal and reinstallation Follow the instructions supplied with the probe to ensure proper installation of the new wiper assembly Additional wipers are available from YSI 2 10 3 SONDE STORAGE WIPING OPTICAL PROBE NON WIPING TURBIDITY PROBE Proper storage of
257. his procedure the 6500 Environmental Process Monitor must be installed in its permanent location with AC line power properly installed as described by local electrical codes See Sections 3 and 4 of the 6500 manual for detailed instructions e Interface of the 6 Series Sonde with a laboratory computer or 650 display logger If a computer is selected for setup you must employ a YSI 6095B DB 9 to MS 8 adapter and you will have to power the sonde either through internal batteries or a YSI 6038 or 6651 power supply After using this method to calibrate the sonde proceed to section 3 3 6500 Monitor Setup in this manual YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 4 Using Your DW Sonde with a 6500 Process Monitor Appendix G Because it is usually more convenient to calibrate the pH ORP conductivity and turbidity sensors near a sink in a laboratory environment YSI recommends that the second method be used if at all possible However if the 6500 is your only interface device the setup and calibration routines can be carried out using the 6500 software as described in Sections 3 2 and 4 2 of the 6500 Process Monitor manual If you choose to use the computer or 650 interface for the calibration protocol and then later interface the calibrated sonde to the 6500 follow the instructions in Sections 2 5 and 2 6 of the manual supplied with your 6920DW or 600DW B Drinking Water Sonde Activate Your Free Chlorine Sensor After
258. hlorine from the natural ammonia in the water and a large amount of free chlorine in water which is treated with both free chlorine and ammonia there will be a small YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 6 Frequently Asked Questions About YSI Drinking Water Systems Appendix H amount of free chlorine and a large amount of combined chlorine Total Chlorine is defined as the sum of the free and combined chlorine concentrations How are combined and total chlorine measured Combined chlorine is usually not measured directly Instead the free chlorine is measured by a color forming chemical test under one set of conditions and the total chlorine is measured colorimetrically under a slightly different set of conditions Since Total Chlorine Free Chlorine Combined Chlorine the Combined Chorine is calculated as the difference between the Total and Free Chlorine values Can the YSI Free Chlorine Sensor measure Total Chlorine No It is very important to be aware of the fact that the YSI 6572 free chlorine sensor and its electronics measure only free chlorine the sensor is unresponsive to combined chlorine chloramines This makes the sensor of questionable utility for measuring chlorine in distribution systems which use ammonia as part of the treatment process and thus have predominantly combined chlorine in their drinking water Can the YSI Free Chlorine Sensor function in water with high pH Yes
259. hlorine values It is important to be aware of the fact that the YSI 6572 free chlorine sensor and its electronics measure only free chlorine the sensor is unresponsive to combined chlorine chloramines This makes the sensor of questionable utility for measuring chlorine in distribution systems which use ammonia as part of the treatment process and thus have predominantly combined chlorine in their drinking water FREE CHLORINE SENSOR GENERAL The sondes employ an amperometric sensor to measure free chlorine which is similar in design and theory to the patented YSI Rapid Pulse system for the measurement of dissolved oxygen It is important to note that while the Rapid Pulse dissolved oxygen sensor is effectively flow independent the analogous free chlorine sensor possesses significant flow dependence 20 30 in stagnant water This characteristic means that you must use the free chlorine sensor in flowing water utilizing YSI flow cells in order to realize the stated accuracy specification The Rapid Pulse free chlorine system utilizes a sensor that is similar to other membrane covered steady state amperometric free chlorine sensors The system still measures the current associated with the reduction of free chlorine which diffuses through a hydrophilic membrane and this current is proportional to the free chlorine content in the flowing drinking water being evaluated The user will note from examination of the 6572 free chlorine prob
260. hod Run screen from sonde Discrete sample should be used to activate logging to sonde memory with the sample interval between logged points in a continuous data stream set from the Discrete sample menu of the sonde Likewise the former method direct activation of the 650 Run display from the Sonde run command should usually be used to activate logging to 650 memory with the sample interval set in the Logging setup menu of the 650 NOTE Logging to sonde memory may not be possible for some older version 600R 600XL and 6820 sondes that were purchased prior to September 1999 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 27 650 MDS Section 3 650 Main Menu ain Sonde run F Calibrate File File 650 Main Menu Sonde menu File Logging setup Status System setup System Report Sensor Advanced N39 47 328 W83 S4 131 7 40 dang E N39 47 328 W83 54 131 746 Sang 06 04 2000 12 30 41 wm 06 04 2000 1231 18 pa Ben Logging setup System setup N39 47 328 W83 S4 131 7 46 ang 06 04 2000 12 29 40 4 Discrete sample Run setu Discrete seme Sample interval 0 5 Unattended sample File NONAME1 Site W Close file N39 47 328 W83 S4 131 7 40 dung N39 47 328 W83 S4 131 7 40 dang 06 04 2000 12 32 26 m ee 06 04 2000 12 31 41 omen oe Sample Interval Set in 650 Logging setup menu Sample Interval Set in Sonde Discrete sample menu ae Sonde Logging le
261. hould NOT be changed except under unusual conditions and only then after contacting YSI Technical Support for advice FLOW DEPENDENCE As noted above the Rapid Pulse free chlorine sensor exhibits significant flow dependence 20 30 in stagnant water This dependence is overcome by a water flow rate through the flow cell of approximately 500 mL minute and therefore lower flow rates are not recommended Note also that this characteristic means that you must use the free chlorine sensor in flowing water utilizing YSI flow cells in order to realize the stated accuracy specification EFFECT OF PH The YSI free chlorine sensor appears to be less sensitive to OCT than it is to HOCI and as the pH rises there is no question that the amount of HOCI relative to OCI is reduced significantly This means that the sensitivity of the sensor to the mixture of HOCI and OCT is reduced at high pH but the sensor has been shown empirically to still have enough overall sensitivity to be functional at pH values up to ca 9 3 and data to support this claim is available on request from YSI Note however that at pH values above 8 8 there is a possibility that calibration errors might occur If you see these errors contact YSI Technical Support for advice on whether to override them The YSI philosophy relative to the use of the free chlorine sensor at high pH is to calibrate the sensor under these conditions of reduced sensitivity in the high pH water and then assume
262. hts the OK window and presses Enter to log the point The header of the 650 logging windows changes to Stop logging to confirm that the data storage to 650 memory is active and a countdown timer appears at the top of the display to show the exact moment a point is logged to 650 memory When the study is complete the user highlights the Stop logging selection and presses Enter to terminate logging NOTE For ultimate simplicity it was not necessary to enter either a file or a site name in the above application If the OK window had been highlighted immediately and Enter pressed a point will be logged to a file in the 650 memory under the designation NONAME1 It is also possible to input a custom file name but not enter a site name and then log the point The stream of data is stored in the 650 memory under the file name WEST that was input by the user The file can be viewed by selecting File from the 650 Main menu and pressing Enter Then highlight the View file selection and then the selected file WEST pressing Enter after each entry The data in the file will be displayed as shown below Use the arrow keys to scroll horizontally in order to view all of the data 650 Main Menu 650 File Sonde run Directory Sonde menu Upload to PC Logging setup File memory System setup Delete all files 07 12 2001 09 07 12 2001 09 0 0 000 E 0 0 000 742 6mmilg g 06707 2000 16 30 35 Qmm mm g 06 07 2000 16 3115 o
263. i drop bus and command protocol As many as 10 sensors can be connected to the bus at a time Each sensor is pre assigned a unique address from 0 to 9 Each Sonde is factory set to address 0 The address can be changed in the System menu see Section 2 9 5 System menu for details Running the sonde in SDI 12 mode requires it to be connected to a SDI 12 master device An example of such a device is the YSI 6200 or units from Campbell Scientific or Handar Instruments These instruments provide the commands necessary to communicate with the sonde in SDI 12 mode In addition the sonde also supports the following commands which are entered from the command line at the prompt SDI12 This command activates SDI 12 mode This is the only mode in which the Sonde will respond to any SDI 12 command To exit to command line press any key from the terminal connected to the RS 232 port The Sonde implements the basic SDI 12 command set Below are the descriptions of each command and their responses The following notations are used a Sonde SDI 12 address ASCII 0 to 9 CR Carriage return ASCII 13 LF Line feed ASCII 10 Master Any SDI 12 compatible data collection device aM Initiate a measurement atttn CR LF YSI Incorporated Drinking Water Monitoring Systems Operations Manual 7 2 Communications Section 7 ttt Maximum time in seconds the Sonde will take to complete the measurement n Number of data that will be ava
264. ies or can run on external power In addition if you have purchased a YSI 650 MDS display logger or 6500 Process Monitor attaching your sonde to these instruments will allow your sonde to be powered from the batteries of the 650 or the AC power of the 6500 POWER FOR LAB CALIBRATION Using a YSI 6038 110 VAC or 6651 100 240V AC Power Supply to power the sondes in the lab is often convenient and extends battery life In addition AC power will likely be available for many drinking water studies and the 6651 6038 may be the most efficient method of providing power for long term monitoring studies After attaching the four pin connector from the power supply to the instrument cable see below simply plug the power supply into the appropriate AC outlet See Section 2 2 Connecting Your Sonde for specific information on cables adapters and power supplies required for connecting your sonde to various devices YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 14 Sondes Section 2 The system configuration best suited for Sonde to Lab Computer initial setup is shown in the figure at the right DB 9 6038 110 VAC MS 8 Power Supply Gif 2 BW Eas 6651 230VAC __ 9B mee Field Cable You will need o Sonde 0 Field Cable o Computer with Com Port 0 6095B MS 8 DB 9 Adapter o Power Supply Not required if you use sonde battery power
265. ilable when the measurement is completed This number is the same as the number of output parameters set in the Report menu as described in Section 2 9 6 Report For ten or more parameters the sonde returns lt gt 2 A B etc After finishing the measurement the Sonde will usually send a service request a CR LF to the bus master The bus master can then retrieve the measurement result by DO to D9 commands see below If the Sonde does not send a service request within the specified maximum time the measurement is canceled The bus master can then restart with another M command al Send identification allccccecccmmmmmmvvvxxx xXxx CR LF 1 2 character SDI 12 level number c 8 character manufacturer identification This field always contains YSIIWQSG YSI Inc Water Quality Systems Group m 6 character model number This field always contains EM600_ or EM 6920 Environmental Monitoring System Sonde depending on the sonde v 3 character version number This field holds the sonde s software version number 100 for version 1 00 Master aDO to aD9 Retrieve measurement verifying data Sonde a lt values gt CR LF lt values gt 33 characters or less This field holds one or more values resulting from a measurement or verifying sequence A value contains between to 7 digits with an optional radix mark period or comma Each value must be pre
266. iles with additional data A Parameter Mismatch screen is displayed There is a parameter mismatch between the current 650 setup and that initially used Use 650 File view and the Parameter Mismatch screen to determine the sonde parameter barometer and GPS format of file already present in memory and readjust the setup to match that initially used GPS data is not shown in Status Bar Make sure that a the cables are attached properly b that the GPS unit is configured for NMEA 0183 format c that the GPS unit is locked in and that the GPS unit display is showing proper readings The 650 display flashes and the instrument speaker makes a continuous clicking sound The battery voltage is low Change to new C cells or recharge the 6117 battery pack The sonde 650 resets when optical wipers are activated in the sonde The battery voltage is low Change to new C cells or recharge the 6117 battery pack If these guidelines and tips fail to correct your problem or if any other symptoms occur contact YSI Customer Service for Advice See Section 8 of the 6 series manual for contact information YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 56 650 MDS Section 3 3 12 FERRITE BEAD INSTALLATION WARNING If you are using your 650 in a European Community CE country or in Australia or New Zealand you must attach a ferrite bead to the 655174 PC Interface Cable and th
267. ill be characterized by a txt extension in the 650 Directory and will NOT be viewable on the 650 display To view the files you must first transfer them from the 650 to your PC and then open them in a spreadsheet 3 8 USING GPS WITH THE 650 3 8 1 SETTING UP THE GPS 650 INTERFACE The 650 allows the user to display GPS readings of latitude and longitude from a commercially available user supplied unit in the Status Bar of the 650 display The interface of the GPS unit to the 650 is YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 51 650 MDS Section 3 accomplished via the 6115 GPS cable that can be purchased as an optional accessory Using the 6115 cable GPS readings can also be logged to the 650 memory along with sonde sensor readings taken at a particular geographical location which can then be relocated for subsequent studies The use of the GPS interface is easy but the user must configure the hardware and software of the GPS unit as follows before proceeding e Consult the user manual of the GPS unit and configure the instrument so that readings in the NMEA 0183 protocol are generated e Purchase from your GPS manufacturer a cable that connects at one end to the GPS unit and has at its other end a male DE 9 connector for interface with the YSI 6115 GPS cable Once these requirements are met proceed according to the following instructions consulting Figure 2 in Section 3 2 3 above for assistance C
268. im kll Comevercivicy geara 09791A 00 00 00 00 0 E2 0 0 0 0 0 0 0 0 0 Oe amp Oo Gy Q o 0 00 03424 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 77 Sondes Section 2 Constants and is described in Section 2 9 8 All other values in the glp file are equivalent to those shown in the Advanced Cal Constants menu CAUTION Calibration records for all sensors will automatically be stored in the glp file until the Delete All Files command is used from the File menu However if the Delete command is issued all files including the glp calibration record file will be lost Therefore it is extremely important to remember to upload the glp file to a PC or a 650 Display Logger prior to deleting files from the sonde See Section 2 9 3 for instructions on the upload and viewing of the glp file 2 9 3 FILE Selections from the File menu allow the user to access data that has been stored in the sonde flash disk memory Select 3 File from the Main menu Fil 1 Directory 4 View file 2 Upload S OuUsLelk view TLl S Oulek Voloacd G Delece alil Tl Select option 0 for previous menu Select 1 Directory to view all files currently stored in sonde flash disk memory The screen below shows 5 files of varying sizes To examine the details of each file press the associated number e g 4 for CLRLAKE2 dat and an additional screen will be displayed as shown belo
269. ime This drift should not be a major problem for sampling studies where the instrument can be frequently calibrated However if a chloride sensor is used in a longer term deployment study with the sonde the user should be aware that drift is almost certain to occur The extent of the drift will vary depending on the age of the probe the flow rate at the site and the quality of the water For all monitoring studies using ion selective electrodes the user should acquire a few grab samples during the course of the deployment for analysis in the laboratory by chemical means or with another chloride sensor which has been recently calibrated Remember that the typical accuracy specification for the sensor 15 of the reading or 5 mg L whichever is larger refers to sampling applications where only minimal time has elapsed between calibration and field use CALIBRATION AND EFFECT OF TEMPERATURE The chloride sensor should be calibrated using solutions of known chloride content according to the procedures detailed in Sections 2 6 1 and 2 9 2 If a two point calibration protocol is used the temperature of the standards should be as close as possible to that of the environmental medium to be monitored The recommended calibration procedure is one involving three solutions Two of the solutions should be at ambient temperature while the third should be at least 10 degrees Celsius different from ambient temperature This protocol minimizes the effects
270. in place YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 96 Sondes Section 2 If moisture has entered the connector dry the connector completely using compressed air a clean cloth or paper towel Apply a very thin coat of lubricant from the 6570 Maintenance Kit to the O ring inside the connector cap before each installation 2 10 2 PROBE CARE AND MAINTENANCE Once the probes have been properly installed remember that periodic cleaning and free chlorine membrane changes are required 6572 FREE CHLORINE PROBES For best results we recommend that the KCI solution and the membrane at the tip of the 6572 probe be changed prior to each sonde deployment and or more frequently if the sensor appears to be drifting as determined by quality assurance tests with a DPD colorimeter See Section 2 3 for instructions on changing the free chlorine sensor membrane After removing the used membrane from the tip of the 6572 probe examine the electrodes at the tip of the probe If either or both of the silver electrodes are black in color the probe should be resurfaced using the fine sanding disks which are provided in the 6035 reconditioning kit To resurface the probe using the fine sanding disk follow the instructions below First dry the probe tip completely with lens cleaning tissue Next hold te f4 the probe in a vertical position place one of the sanding disks under we SU your thumb and stroke the probe face in
271. in the YSI 650 4 Do not expose charger to rain moisture or snow 5 Use of an attachment not recommended or sold by the battery charger manufacturer may result in a risk of fire electric shock or injury to persons 6 To reduce risk of damage to cigarette lighter and cord pull by cigarette lighter rather than cord when disconnecting charger 7 Make sure that the cord is located so that it will not be stepped on tripped over or otherwise subjected to damage or stress 8 Do not operate charger with damaged cord or cigarette lighter connector replace it immediately 9 Do not operate charger if it has received a sharp blow been dropped or otherwise damaged in any way contact YSI Customer Service 10 Do not disassemble charger other than to change the fuse as instructed Replace the part or send it to YSI Product Service if repair is required Incorrect reassembly may result in a risk of electric shock or fire 11 To reduce risk of electric shock unplug charger before attempting any maintenance or cleaning Turning off controls will not reduce this risk 650 Water Leakage Safety Information The 650 has been tested and shown to comply with IP67 criterion i e submersion in 1 meter of water for 30 minutes with no leakage into either the battery compartment or the main case However if the instrument is submersed for periods of time in excess of 30 minutes leakage may occur with subsequent damage to the batteries the r
272. in the basement of the Antioch College science building in 1948 YSI has grown into a commercial enterprise designing and manufacturing precision measurement sensors and control instruments for users around the world Although our range of products is broad we focus on four major markets water testing and monitoring health care bioprocessing and OEM temperature measurement In the 1950s Hardy Trolander and David Case made the first practical electronic thermometer using a thermistor This equipment was developed to supply Dr Leland Clark with a highly sensitive and precise temperature sensor for the original heart lung machine The collaboration with Dr Clark has been critical to the success of the company In the 1960s YSI refined a Clark invention the membrane covered polarographic electrode and commercialized oxygen sensors and meters which revolutionized the way dissolved oxygen was measured in wastewater treatment plants and environmental water Today geologists biologists environmental enforcement personnel officials of water utilities and fish farmers recognize us as the leader in dissolved oxygen measurement In the 1970s YSI again worked with Clark to commercialize one of his many inventions the enzyme membrane This development resulted in the first practical use of a biosensor in the form of a membrane based on immobilized glucose oxidase to measure blood sugar accurately and rapidly In the next few years this technology was
273. in which greater free chlorine accuracy can be attained by increasing this time Consult YSI Customer Service if you feel that your C12 warm up time is incorrect This item will only appear if the free chlorine sensor is enabled in the Sensors menu Wait for C12 When this feature is enabled the sonde is forced to wait for the C12 warm up time to Wipes 1 Wipe Int 1 expire before displaying any readings Note that in SDI12 mode or while calibrating the C12 sensor the warm up time is used regardless of the activation of this item Disabling this item allows you to see data without having to wait during the C12 warm up time Under normal operating conditions this item should be turned off If you are using the sonde with a data logger in RS232 mode and will be turning the sonde on and off for each sample then you may want to enable this item so that only stable C12 data are recorded This item will only appear if the Cl2 sensor is enabled in the Sensors menu If a turbidity chlorophyll or rhodamine WT sensor is enabled this selection will determine the number of cleaning cycles which will occur when the wiper is activated manually or automatically Since the wiper functions bidirectionally a selection of 1 results in two passes of the wiper over the optical face In most applications a single cleaning cycle is adequate to keep the optical surface free of bubbles and fouling However in particularly harsh environments add
274. inciples of Operation Section 5 EFFECT OF CELL STRUCTURE PARTICLE SIZE AND ORGANISM TYPE ON IN VIVO READINGS Even if the only fluorescent species present for in vivo measurements were chlorophyll and reliable calibration standards were available its absolute quantification would probably still be difficult because samples are not homogeneous Differing species of algae with differing shape and size will likely fluoresce differently even if the type and concentration of chlorophyll are identical and this significantly limits the accuracy of in vivo measurements EFFECT OF TEMPERATURE ON PHYTOPLANKTON FLUORESCENCE As noted above YSI experiments indicate that phytoplankton fluorescence increases as temperature decreases Thus readings taken on a phytoplankton suspension at cold temperature would erroneously indicate the presence of more phytoplankton than when the suspension is read at room temperature Unless this effect is taken into account most field readings will be somewhat in error since the field temperature will differ from the temperature of calibration The use of the Chl Tempco factor found in the AdvancedlSensor menu will help to reduce this error but must be used with caution since each species of phytoplankton is likely to have a slightly different temperature dependence EFFECT OF LIGHT ON PHYTOPLANKTON FLUORESCENCE It is well documented in the literature that the fluorescence of chlorophyll resident in phytoplankton can be
275. ing GPS and or barometer data after deactivating the storage of these parameters in Logging setup YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 45 650 MDS Section 3 e Delete individual files from 650 or sonde memory The memory is flash and therefore all files must be deleted in order to regenerate the storage capacity e Enter more than 8 characters for a File name or more than 13 characters for a Site name 3 6 MANAGING 650 FILES 3 6 1 INTRODUCTION This section deals with the management of data that have been placed in 650 memory either through direct logging from your sonde or from the upload of data stored in sonde memory A file by definition contains data and is distinct from the Site Designations in a Site list that are used to configure actual data files For example deleting an entry from the site list after points have been logged under this designation will have no effect on the actual logged data i e the file itself will still be present in 650 memory Conversely deleting data files from the 650 memory will not delete the Site Designations from the Site list The management of data stored in the 650 is controlled from the 650 File command the management of the list of file site designations is controlled from the Edit site list command in the 650 Logging setup menu as described in Section 3 5 3 4 above Understanding this distinction will help the user avoid confusion in file and sit
276. ing cycle for the unattended mode can be set in the sonde software Generally one movement is sufficient for most environmental application but in media with particularly heavy fouling additional cleaning cycles may be necessary CALIBRATION AND EFFECT OF TEMPERATURE The sonde software offers the option of 1 point 2 point or 3 point calibrations procedures For most applications a 2 point calibration at 0 and 100 ug L is sufficient However for maximum accuracy over the entire 0 200 ug L range of the sensor a 3 point calibration procedure can slightly enhance the accuracy of the sensor Note that YSI does not offer rhodamine WT standards but does suggest a vendor for user production of standards and later in this section provides instructions for preparing a solution which is 100 ug L in Rhodamine WT While the effect of temperature on the rhodamine sensor and electronics is small the fluorescence of rhodamine WT changes significantly with temperature The combination of the two factors is automatically taken into account by the sonde software providing temperature compensated readings RHODAMINE WT STANDARD SOLUTION PREPARATION AND USE CAUTION Before using concentrated rhodamine WT solution to prepare standards be certain to read the safety instructions provided by the supplier with this chemical Remember that only trained personnel should handle chemicals PREPARATION Use the following procedure to prepare a 100 ug L soluti
277. ings from phytoplankton may result Laboratory experiments indicate that a suspension of phytoplankton measured with a YSI 6025 sensor will have chlorophyll interference characterized by a factor of about 0 10 ug L Rhodamine WT per ug L of chlorophyll For example the chlorophyll content of the water must be above 30 ug L chlorophyll to produce an apparent rhodamine WT reading equal to 3 ug L In water with a high algal content the user may wish to use the independently determined chlorophyll value and the above compensation factor to correct measured rhodamine values using for example a spreadsheet YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 25 Principles of Operation Section 5 YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 26 Troubleshooting Section 6 SECTION 6 TROUBLESHOOTING This section contains troubleshooting tables that will be helpful to identify the causes of the most common difficulties that may occur while operating the YSI 6 Series Sondes The Symptom column describes the type of difficulty that you might experience The Possible cause column describes the conditions that might cause the stated symptom The Action column provides simple steps that can be followed to correct for the possible cause and cure the symptom being experienced The column entitled Ref is the number of the reference section and subsection in the manual where you may find additional information Troubl
278. inimize evaporation 2 10 4 PROBE STORAGE LONG TERM STORAGE OF PROBES The following sections provide additional details on the storage of individual sensors associated with instruments in the drinking water DW product line from YSI TEMPERATURE No special precautions are required Sensors can be stored dry or wet as long as solutions in contact with the thermistor probe are not corrosive for example chlorine bleach CONDUCTIVITY No special precautions are required Sensors can be stored dry or wet as long as solutions in contact with thermistor probe and conductivity electrodes are not corrosive for example chlorine bleach However it is recommended that the sensor be cleaned with the provided brush prior to long term storage FREE CHLORINE Free chlorine sensors should always short term or long term be stored with a membrane and electrolyte in place and the probe tip immersed in tap water NOT deionized or distilled water The probe can either be left in the sonde or be removed and stored in a vessel containing water Thus for the 600DW B and the 6920DW two long term storage methods are equally acceptable YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 100 Sondes Section 2 1 Remove all probes other than free chlorine conductivity and temperature from the sonde and seal the vacant ports with the provided port plugs Leave the electrolyte and membrane in place on the free chlorine sensor
279. instructions below depending on your sonde interface device e Collect an effluent sample from the drain line of the flow cell e Immediately determine the free chlorine content of the sample in mg L using a DPD based test kit such as the YSI 9100 or the Hach Pocket Colorimeter II YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 3 Quick Start Guide to Drinking Water Studies Appendix F e Immediately calibrate the free chlorine sensor in the sonde to the value just determined via DPD analysis Interface to the sonde for calibration can be via PC YSI 650 Display Logger or YSI 6500 Process Monitor Start a Continuous Monitoring Study e For stand alone applications make sure that you have new batteries in your sonde and use a PC or 650 interface to set up an Unattended Sampling Study from the RunlUnattended menu at your desired sample interval and start the study Under these conditions data will be logged to the internal memory of the sonde for later upload using a computer or a 650 display logger The Sample and Hold feature found in the Advanced Setup menu of the sonde should be INACTIVE for this type of application e For applications involving the YSI 6500 Process Monitor applications follow the procedure below Consult Appendix G Using Your DW Sonde with the 6500 Process Monitor or the manual supplied with the 6500 for more details Make sure that the sonde is attached to the 6500 via a suitable YSI field ca
280. ion of Drinking Water sonde sensors from standard YSI sondes for surface or ground water Only for the free chlorine sensor Sensors other than free chlorine typically conductivity pH ORP and turbidity are calibrated in the same way in drinking water sondes as for standard YSI 6 series surface and ground water sondes using the same calibration vessels As described in the next section however the calibration of the free chlorine sensor is somewhat different How is the Free Chlorine Sensor Calibrated To calibrate the free chlorine sensor you must make an independent measurement of the free chlorine in the flow cell effluent at the time of calibration This is usually done by collecting a effluent sample adding a chemical to it DPD which will form a red color which is proportional to the free chlorine in the sample and then determining the intensity of the color using a commercial colorimeter The analysis is very simple and takes only about 2 minutes to perform Once the true chlorine value has been determined from the DPD colorimetric analysis this value is input into the sonde software and the calibration is confirmed Where can I obtain the chemicals and colorimeters which are necessary to calibrate the YSI free chlorine sensor The YSI 9000 and 9100 Photometers and the version of the Hach Pocket Colorimeter II which is specific for free and total chlorine are examples of colorimeters which can be purchased for the analysis
281. ions carefully prior to deploying your YSI Sonde Following the recommended procedure will assure that no problems will occur with regard to water influx into your sonde If the o rings and sealing surfaces on the sondes are not maintained properly it is possible that water can enter the battery compartment and or sensor ports of your sonde If water enters these areas it can severely damage the battery terminals or probe ports causing loss of battery power during a deployment false readings and corrosion to the probes Therefore when the battery compartment lid is removed from 600XLM 6920 6600 and 600 OMS battery version sondes the o rings that provide the seal should be carefully inspected for contamination e g hair grit etc and cleaned if necessary using the instructions provided below The same inspection should be made of the o rings associated with the probes port plugs and field cable connectors when they are removed If no dirt or damage to the o rings is evident then they should be lightly greased without removal from their groove However if there is any indication at all of damage the o ring should be replaced with an identical item from the YSI 6570 Maintenance Kit supplied with your sonde At the time of o ring replacement the entire o ring assembly should be cleaned as described below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 95 Sondes Section 2 To remove the o rings Use a small fla
282. is 100 NTU when used for calibration of the 6026 sensor but 123 NTU when used to calibrate the 6136 Note that the phenomenon of a sensor specific formazin AEPA AMCO ratio is well known for sensors other than the 6026 and 6136 e The details below are relevant to the calibration of both turbidity sensors offered by YSI 6026 and 6136 However to calibrate a 6136 sensor you should have Version 2 16 or later installed in your sonde e Ifyou are calibrating a 6136 turbidity sensor you MUST use either a black bottomed calibration cup arrangement or laboratory glassware with the probe guard installed for the calibration See section 2 6 1 above for details Failure to carry out the calibration properly can result in inaccurate readings particularly water of very low turbidity e Before proceeding with the calibration be certain that the probe compartment of the sonde has been cleaned and is free of debris Solid particles from this source particularly those carried over from past deployments will contaminate the standards during your calibration protocol and cause either calibration errors and or inaccurate field data When selecting Optic T or OpticC 6026 Turbidity or 6136 Turbidity there will be a choice of 1 point 2 point or 3 point calibrations for your turbidity sensor The 1 point option is normally used to zero the turbidity probe in 0 NTU standard Place the sonde in clear water deionized or distilled with no suspended
283. is manual If symptoms persist after these actions consult YSI Customer Service for advice 3 2 10 UNDERSTANDING THE STATUS BAR The diagram below shows the various components of the Status Bar of your 650 Each item identified in the drawing is explained in detail below 650 Main Menu Sonde run Main Display Sonde menu File Status Bar Logging setup System setup Barometer Reading GPS Reading Battery Capacity Status N 0 0 000 E 0 0 000 06 01 2000 17 06 37 Date and Time Menu Indicator 2 10 1 Date and Time This is the date and time for the clock in the 650 set by the user from the System setup menu as described above The date and time entries are updated in real time in the Status Bar 2 10 2 GPS Reading This value will be present only if a user supplied GPS unit with NMEA 0183 format is connected to the 650 by the optional YSI 6115 cable The setup of a GPS interface is described in more detail in Section 3 8 below Once properly connected to a GPS instrument the values displayed in the Status Bar are updated in real time as the system is moved from location to location 2 10 3 Barometer Reading This value is the current local barometer reading in units selected by the user in the System setup menu The value is can be used simply as a meteorological parameter or can be used in calibration of sonde dissolved oxygen sensors The barometer reading is NOT corrected to sea level and is updated in real time 2 10 4 Batter
284. istics because they would only be partial days Daily Weekly and Monthly statistics behave similarly gt When you click OK EcoWatch will send the report to the specified file and open Windows Notepad where you can view and or print the report Note Notepad can only open report files that are 64K or less in size You can use the Windows Wordpad to open reports that are larger than 64K Unless you change it the report file will have the same location as your data file DAT and has the same name with a RPT file extension YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 17 EcoWatch for Windows Section 4 PRINT Use this command to print a document If a graph is selected this command presents a Print Option dialog box with the options below When a table is selected a standard print window is Printing Option presented Shortcut Toolbar Keys CTRL P Printer If you have a color printer you can choose to print in Color Otherwise you should choose Mono black and white Size If you choose Max size then the program will size the graph so that it fits on one page If you choose Exact size then program will print the graph as close as possible to the size that is displayed Maintain Aspect Ratio If you choose to maintain the aspect ratio then the program will size the graph until either the height or the width is maximized and then leave the graph in the same height width ratio that is displ
285. ith Universal input 6081 Carrying Case 6570 Maintenance Kit 6573 Free Chlorine Membrane Kit OOUUVOULKCUOUOOUU FLOW CELLS FOR THE SONDES YSI Incorporated Drinking Water Monitoring Systems Operations Manual C 1 Accessories and Calibration Standards Appendix C Q 5083 Flow Cell for 6 00DW B Q 6160 Flow Cell for 6920DW CABLES FOR THE SONDES Q 6093 Field Cable 100 ft 30 m Q 6092 Field Cable 50 ft 15 m Q 6091 Field Cable 25 ft 7 5 m Q 6090 Field Cable 8 ft 2 4 m Q 6067B Low Cost Calibration Cable Dry use only 10 ft 3m Q 6077B CE Calibration Cable 10 ft 3m Q SP6093 L Special field cables available in 25 ft 7 6 m increments Maximum 1000 ft 305m Q 6096 Field Cable to Flying Lead wire adapter 15 ft 5m Q 6095B Field Cable to Female DB 9 PC Serial with Power Connector Q 6100 External Power Connector attaches to 6095B Field Cable 6ft Q 6103 MS 8 Dust Cover caps connector when not in use CONDUCTIVITY REAGENTS Q 3161 Calibrator Solution 1 000 uS cm quart Q 3163 Calibrator Solution 10 000 uS cm quart Q 3165 Calibrator Solution 100 000 uS cm quart Q 3167 Calibrator Solution 1 000 uS cm box of 8 pints Q 3168 Calibrator Solution 10 000 uS cm box of 8 pints Q 3169 Calibrator Solution 50 000 uS cm box of 8 pints pH REAGENTS Q 3821 pH 4 Buffer box of 6 pints Q 3822 pH 7 Buffer box of 6 pints Q 3823 pH 10 Buffer box of 6 pints Q 3824 Assorted pH Buffer Kit 2 b
286. ith the sondes please see Appendix A Health and Safety NOTICE Information contained in this manual is subject to change without notice Effort has been made to make the information contained in this manual complete accurate and current YSI shall not be held responsible for errors or omissions in this operations manual WARNING When caring for your sonde remember that the sonde is sealed at the factory and there is never a need to gain access to the interior circuitry of the sonde In fact if you attempt to disassemble the sonde you would void the manufacturer s warranty TABLE OF CONTENTS SECTION 1 INTRODUCTION 1 1 ABOUT YSI 1 1 1 2 HOW TO USE THIS MANUAL 1 1 1 3 UNPACKING AND INSPECTION 1 2 SECTION 2 6920DW AND 600DW B SONDES 2 1 GETTING STARTED 2 1 2 2 CONNECTING YOUR SONDE 2 2 2 3 PREPARING THE SONDE FOR USE 2 5 2 4 ECOWATCH FOR WINDOWS GETTING STARTED 2 18 2 5 SONDE SOFTWARE SETUP 2 18 2 6 GETTING READY TO CALIBRATE 2 26 2 7 TAKING READINGS 2 39 2 8 USING ECOWATCH TO UPLOAD AND ANALYZE DATA 2 45 2 9 SONDE MENU 2 59 2 10 CARE MAINTENANCE AND STORAGE 2 95 SECTION 3 650 MDS DATA LOGGER 3 1 INTRODUCTION 3 1 3 2 GETTING STARTED 3 1 3 3 SETTING UP THE 650 3 18 3 4 SONDE MENU INTERFACE 3 21 3 5 LOGGING DATA WITH THE 650 3 27 3 6 MANAGING 650 FILES 3 46 3 7 UPLOADING DATA FROM SONDES 3 51 3 8 USING GPS WITH 650 3 51 3 9 USING THE 650 BAROMETER 3 53 3 10 UPGRADING 650 SOFTWARE 3 55 3 11 TROUBLESHOOTING 3 56 3 12
287. itional cleaning cycles may be needed and can be selected here This item will only appear if a turbidity chlorophyll or rhodamine WT sensor is enabled in the Sensors menu In applications where a turbidity chlorophyll or rhodamine WT probe is installed in the sonde and the instrument is collecting data in the SDI 12 communication mode the wiper mechanism of the probe should be activated automatically in a periodic manner to clean the optical surface for fouling and bubbles The value entered at this selection is the number of minutes between each automatic cleaning cycle Thus if Wipe Int is set to 5 and the instrument is in the Run mode the wiper will activate every 5 minutes with no manual input This item will only appear if a turbidity chlorophyll or rhodamine WT sensor is enabled in the Sensors menu The value of Wipe Int is sometimes overridden when the instrument is set up in the Unattended sampling mode Under these conditions the wiper will be automatically activated at the interval assigned in the Unattended setup rather than that assigned in Wipe Int Thus in an Unattended study setup at a 15 minute sampling interval the wiper will be activated only once every 15 minutes rather than at the indicated Wipe Int of 1 minute YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 91 Sondes Section 2 CAUTION If Wipe Int is set to zero then no wiping will occur either in Discrete or Unattended Sampling
288. ive Teflon membrane and O ring from the sensor end of the YSI 6572 Free Chlorine probe CAUTION The Teflon membrane MUST be removed for proper sensor function Remove the protective cap is installed on the connector end of the probe Locate the 6035 Reconditioning Kit which was supplied with your 6572 Free Chlorine Probe Use one of circular sanding disks the 6035 Reconditioning Kit to sand the face of the 6572 Probe according to the following instructions e Hold the probe in a vertical position place a sanding disk under your thumb and stroke the probe face in a direction parallel to the platinum electrode located between the two silver electrodes The motion is similar to that used in striking a match Usually 10 15 strokes of the sanding disk are sufficient to remove black deposits on the silver electrodes However in extreme cases more sanding may be required to regenerate the original silver surface e Rinse the probe tip well with purified water to remove any dust from sanding CAUTION You must sand your free chlorine sensor as described above prior to installing a membrane to insure the surface tension for probe surface membrane interface YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 5 Quick Start Guide to Drinking Water Studies Appendix F Locate the YSI 6574 O ring Installation Kit which was shipped with your sonde Note that the kit contains two items a circular plate with a threaded hole
289. ive artificial respiration and get medical attention as needed May cause irritation with repeated exposure Wear water resistant gloves as needed Wash exposed areas with soap and water for 15 minutes Remove contaminated clothing and wash before re using Eyes Can cause irritation and potential eye damage with repeated exposure Wear splash proof water resistant goggles Have convenient eyewash stations Flush with water for 15 minutes Ingestion Can cause irritation of mouth throat and an upset stomach Wear a mouth cover or face shield when there is splashing Do not swallow Rinse mouth If swallowed do not induce vomiting Get prompt medical attention No chronic effects reported IN ALL CASES GET MEDICAL ATTENTION IF EFFECTS PERSIST Most likely routes of entry skin eyes ingestion YSI Incorporated Drinking Water Monitoring Systems Operations Manual A 1 Health and Safety Appendix A FIRST AID INHALATION Remove victim from exposure area Keep victim warm and at rest In severe cases seek medical attention SKIN CONTACT Remove contaminated clothing immediately Wash affected area thoroughly with large amounts of water In severe cases seek medical attention EYE CONTACT Wash eyes immediately with large amounts of water approx 10 minutes Seek medical attention immediately INGESTION Wash out mouth thoroughly with large quantities of water Do not induce vomiting Seek medical attention immedi
290. l Time EcoWatch mode of EcoWatch Access the sonde menu after connection of the sonde to a PC or 650 Display logger and make certain that the Autosleep RS232 feature is activated in the AdvancedlSetup menu and that the Chlorine warm up time is set to 60 seconds in the AdvancedlSensor menu With these software entries in place the user will input the free chlorine value from the DPD analysis of the flow cell effluent and the unit will automatically calibrate after the selected warm up time After calibration select the Run Discrete Sample entry from the sonde menu and set the Discrete Sample interval to the value corresponding to the frequency at which you wish data to be logged to the hard drive of your PC Then click on the Real Time entry in the top EcoWatch toolbar Do NOT click on the sonde icon in the lower toolbar The Real Time study will start automatically with data displayed graphically on the PC monitor and logged to the hard drive of the PC under the file name which you have selected See Section 4 3 5 of this manual for detailed instruction in using the EcoWatch Real Time mode The free chlorine readings are affected by temperature approximately 2 5 per degree Celsius due to the effect of temperature on the diffusion of free chlorine through the membrane Note however that the sonde software automatically carries out this compensation using the Chlorine tempco factor found in the AdvancedlSensor menu The default value of this factor s
291. le is not open a shortened menu bar is visible and many of the tools in the toolbar appear dimmed Opening a data file will better demonstrate the capabilities of EcoWatch software To open the sample data file 1 Click the File menu button in the toolbar 2 Select the SAMPLE DAT file 3 Click OK to open the file Note that the data in this file appears as a graph of temperature specific conductance dissolved oxygen pH ORP and depth all versus time The graphs are scaled automatically so that all data fits comfortably on the computer screen The Table and Graph IN buttons on the toolbar are on off switches that are used to display or hide the graph and table pages respectively When displaying a graph and a table at the same time you can control the relative size of the two pages by placing the cursor over the small bar that separates them and then dragging it to the desired location From the Setup menu click Graph Click 2 Traces per Graph and notice that the parameters are now graphed in pairs Click 1 Trace per Graph to return the display to the original setting Move the cursor to any position in the graph then click and hold the right mouse button Note that the exact measurements for this point in time are displayed to the left of the graph While holding down the right mouse button move to another area on the graph Notice how the measurements change as you move When you release the mouse button the display returns to
292. le is uploaded and it is uploaded in its entirety You still must choose the transfer format from the three options provided Select 4 View File to examine the data in any file currently stored in sonde flash disk memory You will first view the same screen as viewed in the Directory menu From this menu choose the file of interest then using the Time window menu choose the dates and or times of interest If you choose dates or times that are not within the designated start and stop times no data will be displayed YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 79 Sondes Section 2 You may choose the entire file Use the Space Bar to alternately stop and to resume scrolling Use the Ese key to cancel the view Select the 5 Quick View File option to view the last page of data from the last data file in sonde memory This feature is particularly useful in quickly reviewing recently acquired data at field sites so that system performance can be assessed Select 6 Delete all files to IRREVERSIBLY remove all files from the sonde memory INCLUDING the glp file that may contain valuable calibration data It is critical not to use this option until all relevant data from sonde memory has been transferred to your computer via one of the upload options There is a verification screen that appears so that pressing the 6 key does not immediately delete all files at this point The management of the glp calibration record fi
293. le menu allows the user to get a complete picture of how the memory of the instrument is presently allocated To view details of the allocation highlight File memory and press Enter to display the following screen 650 File _ File bytes used Directory Upload to PC In files 512 View file In deleted files 0 Free 1565952 Delete all files Total 1572864 N 0 0 000 E 0 0 000 74 L8mmig N 0 0 000 E 0 0 000 742 4mmhg 06 06 2000 17 59 02 06 07 2000 16 40 37 Em mm The key number in the File bytes used display is the Free memory listing which can be used to determine when you need to format the 650 memory Delete all files as described in the next section The value under Total memory will reflect whether you purchased a 650 with high or low memory The top three items in the display summarize the allocation of the used memory space In the example above 6400 bytes are used in defining the memory directory 512 bytes are taken up with accessible files and 0 bytes are taken up in deleted files As described in Section 3 2 2 above deleted files arise when the same file is uploaded from a sonde several times with the file overwritten There is a lot of information on the File memory display but the number of greatest importance is the Free memory value 3 6 6 DELETE ALL FILES Use this selection to remove all files from the 650 memory Remember that you cannot del
294. le that is automatically stored in sonde memory and is described in Section 2 9 2 above is similar to that for data files However there are some differences in the upload procedure of which the user should be aware When uploading a glp file there will be a choice of three upload protocols as shown below File typ 1 Binary A Comme YY UY Delimitec Sa AS Cli esas Select option 0 for previous menu The binary upload choice should ONLY be used when uploading the glp file to a 650 Display Logger if the binary protocol is used in a direct upload to PC a glp file will indeed be transferred but it will not be possible to open it using the current YSI software or any other text editor Thus during a direct transfer of the glp file to your PC either the CDF or ASCII formats should be used The result will be the conversion of the file with a glp extension in the sonde to one with a txt extension which is now stored in the ECOWWIN DATA subdirectory of your PC For example the file 00003001 gIp in the sonde will become 00003001 txt on transfer to PC and the file will be in a format which can easily be viewed and edited using Notepad or other word processing software YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 80 Sondes Section 2 2 9 4 STATUS Select 4 Status from the Sonde Main menu to obtain general information about the sonde and its setup Status l yersiomnms i 00 2 Dat
295. lean optics if your unit has an optical turbidity chlorophyll or rhodamine WT probe the wiper will clean the optical surface The 3 Clean optics portion of the prompt will only appear if an optical probe was installed and enabled Select Esc or press 0 and return to the Discrete Sampling menu From the Discrete Sampling menu select 2 Sample Interval to type a number that represents the number of seconds between samples The maximum sample interval is 32767 seconds 9 hours The factory default sample interval is 4 seconds and works best for most discrete sampling applications The shortest possible sample interval for obtaining new free chlorine readings is 4 seconds If a smaller interval is selected then the C12 readings remain constant for the number of samples necessary to fill 4 seconds NOTE If your have used your sonde with a 650 MDS data logger the Sample Interval automatically be changed to 0 5 seconds YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 61 Sondes Section 2 Sampling Faster Than 0 5 Seconds For special applications your sonde is capable of faster sampling The only limitation is a reduction of the number of sensors selected To determine the maximum sampling frequency for your sensor setup divide 36 by the number of enabled sensors in addition to the free chlorine sensor Example If you enable any three sensors plus DO divide 36 by 3 to obtain 12 samples second 12 Hz or 0
296. length of the study The data can be uploaded periodically for after the fact viewing using either a PC or a YSI 650 Display Logger e Attached to a PC for Real Time Graphic Data Display In this mode after calibration the sonde is attached to a PC which is powered externally and has had the YSI software EcoWatch for Windows installed Using EcoWatch a real time study is begun with data logged automatically to the hard drive of the PC at the desired interval as well as displayed graphically on the monitor of the computer in real time e Attached to a YSI Process Monitor for Use with SCADA Systems In this mode the sonde is placed in the flow cell and then attached to the 6500 which is AC powered at the site The data from the sonde sensors are automatically displayed on the screen of the 6500 for real time viewing in non graphical form The sensor signals can also be converted by the 6500 hardware software into either 4 20 mA or Modbus protocols for interface to a SCADA system While data can be output continuously to the 6500 and to the SCADA YSI strongly recommends the use of the Sample and Hold feature of the system which outputs data to the 6500 and the SCADA at a user selected interval with the sensors turned off between readings There are two reasons for this strong recommendation 1 Because of the hydrophilic nature of the chlorine sensor membrane cross talk between the chlorine sensor electrodes and the pH sensor can
297. librate the YSI Free Chlorine sensor to that value Subject to additional field trials as described above you might be able to do this if you know that there is a high percentage of combined chlorine in your water and you are willing to accept qualitative versus quantitative results in terms of accuracy Remember however that even if the sensor does respond in some way to combined chlorine you would not really be measuring total or combined chlorine only a qualitative value for the oxidation capability of the water In addition it is likely that you would see calibration errors when using the total chlorine value Overall it should be remembered that the YSI sensor is designed to measure free chlorine and until additional research is performed any attempts to correlate the sensor output with other parameters is risky What accuracy does free chlorine sensor provide Immediately after calibration at any value the sensor should show an accuracy of 15 of the reading or 0 05 mg L whichever is greater over the specified range of the sensor 0 3 mg L Subsequent inaccuracy will be determined by the drift of the sensor the extent of which can vary with the water being monitored It is important to remember that the accuracy specification provided for the free chlorine sensor does not include long term drift even though our empirical studies in several water monitoring sites show that the specification can be met in extended deploymen
298. lications is that the oxygen sensor for the standard sondes has been replaced by a free chlorine sensor in the 6920DW and 600DW B The free chlorine sensor also requires a different circuit board which is resident in the instrument and this means that DW sondes are not capable of dissolved oxygen measurement and vice versa standard sondes are not capable of free chlorine measurement even though the probes themselves will fit in either of the instruments Section 2 concentrates on how to set up operate the DW sondes For the purpose of terminology in this manual it should be realized that a sonde is a torpedo shaped water quality monitoring device that is placed in the water to gather water quality data Sondes may have multiple probes Each probe may have one or more sensors that read water quality data The following list contains parameters that your sonde may measure See Appendix E Specifications for the specific parameters of each sonde Free Chlorine Conductivity Specific Conductance Salinity Total Dissolved Solids Resistivity Temperature pH ORP Turbidity Nitrate N Ammonia N Ammonium N Chloride Chlorophyll Rhodamine WT This section is designed to quickly familiarize you with the hardware and software components of the DW sondes and their accessories You will then proceed to probe installations cable connections software installation and finally basic communication with your Sonde Diagrams menu flow char
299. ll effects on skin eyes or on ingestion Therefore no special precautions are required when using the standards General precautions should be adopted as required with all materials to minimize unnecessary contact Note however that the chemical physical and toxicological properties have not been thoroughly investigated FIRST AID SKIN CONTACT Remove contaminated clothing Wash affected area with soap or mild detergent and water EYE CONTACT Wash eyes immediately with large amounts of water approx 15 20 minutes occasionally lifting upper and lower lids If irritation occurs seek medical attention immediately INGESTION Rinse out mouth with large quantities of water If irritation occurs or reagent was swallowed seek medical attention as a precaution YSI Replacement Desiccant 065802 INGREDIENTS L Calcium Sulfate and Calcium Chloride CAUTION AVOID INHALATION SKIN CONTACT EYE CONTACT OR INGESTION MAY AFFECT MUCOUS MEMBRANES FIRST AID SKIN CONTACT Flush with water EYE CONTACT Flush with water If irritation continues obtain medical attention INGESTION If patient is conscious induce vomiting Obtain medical attention YSI Incorporated Drinking Water Monitoring Systems Operations Manual A 6 Required Notice Appendix B APPENDIX B REQUIRED NOTICE The Federal Communications Commission defines this product as a computing device and requires the following notice This equipment ge
300. llow access to the data via modem communication For the 6200 the YSI software package EcoWatch DCP is used and data can be transferred directly to your computer via a land line or cellular modem or for short distances via spread spectrum radio For the EcoNet system data is transferred via modem to third party server where it can be accessed by the user via a simple Internet link What type of cable will I need for setting up and deploying the drinking water sondes Depending on your applications two types of YSI cables can be used with your DW sondes e 6067B If your applications involve the stand alone scenario described above where the instrument is powered on internal batteries and then recovered for data upload then the relatively inexpensive 6067B is probably the ideal interface cable to your DW sonde The cable can be used in the laboratory to set up the instrument for deployments to upload data in the laboratory or in the field to a PC when no provision for a water tight connection is required Note however that you cannot interface between the 650 Display Logger and a sonde with this cable so if you will be using the 650 for periodic uploads you will require a YSI field cable as described below e Standard YSI Field Cables If your applications involve the further interface of the DW sonde to a device other than a PC you will need a YSI field cable in the appropriate length for your conditions These cables have a YSI Model Num
301. llow the instructions below e Activate any calibration screen 1 point 2 point or 3 point where a numerical entry is requested In the example below a 2 point turbidity calibration was selected e Instead of entering a numeric value type the word uncal and press Enter e An uncal entry at any calibration prompt will reset both slope and offset for this parameter to the factory default settings Turor ey Caliloracion Select option 0 for previous neal 8 macei lge Tuore INNO eibtoreeuL NOTE When using the 650 MDS as the sonde interface device the uncal operation is performed by holding the Escape key down and then pressing the Enter key See Section 3 of this manual for more details YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 75 Sondes Section 2 CALIBRATION RECORD THE GLP FILE When any sensor is calibrated most 6 series sondes will automatically create a file in sonde memory that provides details of the calibration coefficients before and after the calibration The file will have a glp extension and will have the Circuit Board Serial as the default filename The file can be viewed by following the path FilelDirectorylFile Details View from the Main sonde menu Fil 1 Directory 4 View file 2 Upload S OunaLels view TLl S Ouielk lt Upload 6 Deletce alil TL lect option 0 for previous menu lename Samples RIDGE1 dat IRO BRIDGE2 dat 27 UPLAKE
302. lly or allow the batteries to be expended It is wise to set the duration to a value longer than the anticipated deployment If you cannot retrieve the sonde at the expected time due to factors beyond your control such as weather or illness data will continue to be acquired as long as battery power is present e Select 5 File and enter a name of no more than 8 characters that will be used by your external computer to identify the study Be sure to use ONLY alpha numeric characters e Select 6 Site and enter a site name of no more than 31 characters This filename will appear in your sonde file directory but will not be used to identify the file after transfer to your computer e Check 7 Battery to make certain that the voltage is suitable for the length of the study that you are about to begin No change can be made to this item via the software YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 63 Sondes Section 2 e Select B View Parameters to log to confirm that your sensor and report setups are configured correctly as described in Sections 2 9 6 and 2 9 7 An example screen is shown below Params to log emp 6 Orp mV 2 Cond mS cm 7 NH4 N mg L SCZ mek 8 NO3 N mg L AE LAENE Q moel NTU S jolal A Battery volts Select option 0 for previous menu In some cases the View params to log screen only identifies the raw parameters that are used in the calculation of the items that you have sel
303. lorophyll sensor with rhodamine WT Enter the calibration value from the table below corresponding to the temperature of the standard WARNING The Chl Tempco factor in the Advanced Sensor menu MUST BE SET TO ZERO when calibrating with Rhodamine WT Table Approximate algal chlorophyll equivalent of 0 5 mg L Rhodamine WT as a function of temperature Enter Enter 20 ug ig YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 19 Principles of Operation Section 5 REMEMBER The use of rhodamine WT for calibration is only an approximation To assure accurate readings from the 6025 sensor the user must relate the field fluorescence readings to data from extractive analysis samples as described above YSI does not provide an accuracy specification for chlorophyll due to these limitations EFFECT OF TEMPERATURE ON READINGS While the effect of temperature on the chlorophyll sensor itself is very small YSI experiments have indicated that the fluorescence of phytoplankton suspensions can show significant temperature dependence For example the apparent chlorophyll content of our laboratory test samples of algae increased from 185 to 226 ug L when the temperature was dropped from 21 C to 1 C even though no change in phytoplankton content took place In the absence of compensation this effect would obviously result in errors in field chlorophyll readings if the site temperature were significantly different from
304. memory to be filled This information is displayed on the screen for your consideration as items 8 9 and A If the battery life or the free memory capacity will be exceeded sooner than the duration you may want to make some changes to the entries For example you can free up memory in the sonde by uploading all existing data from the sonde memory to your PC and then deleting them out of the sonde see 3 File from Main Menu You may want to change the batteries for longer battery life You can lengthen the sampling interval to extend both battery life and memory capacity Review the screen below which now displays the entries made above and reflects your logging conditions Unattended setup 1 Interval 00 15 00 2 Start date 07 17 96 3 Start time 18 00 00 4 Duration days 365 5 File clrlake3 6 Site Clear Lake at Spillway Tose WOleESss ILLES Si Bale laste 25 le ecays 9 Free mem 41 3 days A lst sample in 4 10 minutes B View params to log C Sree LOEn Once you press C Start logging a screen will appear to request confirmation j ere eee ren eer Start logging Are you sure L Vves 2 No Select option 0 for previous menu Select 1 Yes and the screen will change YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 43 Sondes Section 2 ieper ke a Logging 1 Interval 00 15 00 2 Next at 07 17 96 5 Next ar 16300300 4 Stop at 07 31 96
305. meter and event evaluation For example in the second graph shown in the figure below you see that DO concentration and pH seem to track rather closely and change in a diurnal rhythm In actuality when DO levels drop in a natural body of water CO often builds up forming carbonic acid which leads to lower pH readings DO rises again during the day due to photosynthesis CO then falls and pH increases again The final plot after making these changes in shown in the figure below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 57 Sondes Section 2 Customizing a Graph from SAMPLE DAT EcoWatch SAMPLE DAT ed ec SEIN IN ES a LN IAI Les 2 Finally we selected FilelSave Data Display and gave the custom plot the name 4PARAM to that the presentation can be immediately recalled in the future As you become more familiar with EcoWatch for Windows the plotting analysis and reporting functions can be accomplished easily and quickly Practice with all of the functions and again do not forget to use Window s Help for more detail or see Section 4 EcoWatch for Windows YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 58 Sondes Section 2 2 9 SONDE MENU The functions of the sondes are accessible through the sonde menu The sonde menu structure makes it simple and convenient to select functions This section provides a description of the menus and their capabilities W
306. ms Operations Manual F 1 Quick Start Guide to Drinking Water Studies Appendix F Setting up DW Sondes For Drinking Water Studies e After unpacking the instrument and the flow cell install all sensors EXCEPT free chlorine as described in Section 2 3 of the 6 series drinking water manual Leave the port plug installed in the DO port of the sonde The chlorine probe will be installed in this port at a later time e Access the AdvancedlSetup menu of the sonde and make certain that the Sample and Hold feature is INACTIVE e Calibrate all sensors EXCEPT free chlorine according to standard procedures described in Section 2 5 of the 6 series drinking water sonde manual Use the calibration vessel supplied with the sonde to hold the calibration reagents CAUTION Make certain that the free chlorine sensor is not present in the sonde bulkhead when calibrating other sensors e Install the membrane for the free chlorine probe as described in Attachment 1 of this document and in Section 2 3 of the DW sonde manual Proceed IMMEDIATELY to the next step to avoid the drying out of the free chlorine membrane and electrodes or store the probe in a beaker of tap water not distilled or deionized until proceeding to the next step e Now you MUST activate the sensor according to the following instructions e Prepare a solution of free chlorine by diluting commercial bleach by a factor of 200 For example add 1 mL of commercial bleach to 200 mL of
307. n 3 2 5 2 BATTERY INSTALLATION RECHARGEABLE BATTERY PACK The YSI 6113 rechargeable battery pack is self contained and is easily installed according to the instructions and diagrams below e Using a Phillips or slotted screwdriver loosen the 4 captive screws on the battery lid and then remove the battery Gan lid completely e Put the battery lid in a safe place so that it will be available for future use of C cells e Make certain that the gasket is properly Se installed on the rechargeable battery before installation 4 Screws S YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 8 650 MDS Section 3 e Insert the rechargeable battery pack assembly into the battery compartment of the 650 e Tighten the 4 captive screws securely and evenly using a Phillips or slotted screwdriver Do not overtighten 3 2 5 3 BATTERY CHARGING RECHARGEABLE BATTERY PACK The 6117 rechargeable battery pack is charged via the MS 8 connector on the bottom of the instrument and thus the pack must be installed in the 650 for charging To perform the charging operation the user will need to locate the proper power supply 6114 for US Canada Japan or 6123 with proper power cord for all other countries and the 6116 charger adapter cable which were supplied with your rechargeable battery pack 6113 for US Canada 6126 for Europe 6127 for China Australia As shown in Figure 4 above first attach the charger adapter c
308. n place a sanding disk under your thumb and stroke the probe face in a direction parallel to the platinum electrode located between the two silver electrodes The motion is similar to that used in striking a match Usually 10 15 strokes of the sanding disk are sufficient to remove black deposits on the silver electrodes However in extreme cases more sanding may be required to regenerate the original silver surface e Rinse the probe tip well with purified water to remove dust from sanding CAUTION You must sand your free chlorine sensor as described above prior to installing a membrane to insure the surface tension for probe surface membrane interface Locate the YSI 6574 O ring Installation Kit which was shipped with your sonde Note that the kit contains two items a circular plate with a threaded hole and a cylindrical tool with a screwdriver style handle as shown in the picture below Thread the nut on the end of the 6572 probe into the base plate as shown in the picture below Place an o ring from the 6573 membrane kit in the groove at the bottom of the tool as shown in the picture below left YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 6 Sondes Section 2 Apply a few drops of KCl solution to the tip of the probe as shown in the picture above right The fluid should completely fill the small moat around the electrodes and form a meniscus on the tip of the sensor eniscus O Ring in G
309. n NJ from the menu bar A terminal interface window like that shown below will appear If a prompt appears instead of the Main sonde menu type menu at the prompt to generate the display as shown Then press 3 File to view data handling options YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 45 Sondes Section 2 eu EcoWatch Sonde COM1 Ele View Comm Realtime Appl Window Help Fal f Sonde COM1 mor MAI ann i Run 5 Systen 1 Directory 4 View file 2 Calibrate 6 Report 2 Upload S Ouchy vwew eile 3 File Sensor 4 Status 8 Advanced 3 Quick Upload 6 Delete all files Select option for previous menu Select option 0 for previous menu 1 Select 1 Directory to view all files currently stored in the sondes flash disk memory the screen below shows 6 files All data files dat extension could be uploaded to EcoWatch for viewing or plotting but you do not need to upload all files in the directory The file with the glp extension contains the calibration record of the sonde It is fully described in Sections 2 9 2 and 2 9 3 below Details of any of the studies can be obtained by pressing the number key associated with the file in the Directory Filename Samples 1 BRIDGE1 1 View file 2 BRIDGE2 2 File CLRLAKE2 dat 3 UPLAKE 3 Samples 167 4 CLRLAKE2 4 Bytes 4421 5 DWNLAK 5 First 08 23 2001 6 00003001 glp 6 First 08 33 40 J Lasc 2308 23 2001
310. n in the figure below Both provide overview information related to the study data The Statistics function lists minimum maximum mean and standard deviation information for each parameter activated The Study function provides useful information about the design of the study including sample interval date time number of samples sensor identification and parameters reported The Statistics and Study windows may be activated over either graph or table presentations To view either of these windows click on View highlight the desired function and click again The window opens on top of the table or graph similar to what is shown in the figure below Only one of these windows may open at one time To continue you must close the Statistics or Study window to return to the graph or table and activate the top line menu again As before practice viewing the functions mentioned above to gain more familiarity with these features YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 51 Sondes Statistics and Study Information M EcoWatch w File Edit SAMPLE DAT v Toolbar Bes E v Status Bar v 4Digit Year m Comm Realtime Graph Setup 6200 Appl Window Help Holki la xi Graph 2 v Table 25 00 0 007 8 04 744 OG 2 Grid 25 07 0 007 8 05 753 2 25 07 0 007 8 05 7 54 HEREA 11993 16 30 45 l Study Info ENF onol Statistic fom
311. n is complete press Enter to continue Place the proper amount of chilled 1 mg L standard 10 mg L for the chloride into a clean dry or pre rinsed calibration cup Carefully immerse the probe end of the sonde into the solution Allow at least 5 minutes for temperature equilibration before proceeding Press Enter and input the concentration value of the standard as requested Press Enter and the current values of all enabled sensors will appear on the screen and will change with time as they stabilize in the solution Observe the readings under NH4 NO3 or Cl and when they show no significant change for approximately 30 seconds press Enter After the third value calibration is complete press Enter to return to the Calibrate menu Thoroughly rinse and dry the calibration cups for future use CALIBRATION TIP HOW TO AVOID DRIFT DURING CALIBRATION OF THE NH4 NO3 AND Cl PROBES AFTER pH CALIBRATION Exposure to the high ionic content of pH buffers can cause a significant but temporary drift in these ISE probes ammonium nitrate and chloride probes Therefore when calibrating the pH probe YSI recommends that you use one of the following methods to minimize errors in the subsequent readings gt Calibrate pH first immersing all of the probes in the pH buffers After calibrating pH place the probes in 100 mg L nitrate or ammonium standard or 1000 mg L chloride standard and monitor the reading Usually the reading starts low and may
312. n of Water and Wastewater ed 1989 The use of the Practical Salinity Scale results in values that are unitless since the measurements are carried out in reference to the conductivity of standard seawater at 15 C However the unitless salinity values are very close to those determined by the previously used method where the mass of dissolved salts in a given mass of water parts per thousand was reported Hence the designation ppt is reported by the instrument to provide a more conventional output 5 3 TOTAL DISSOLVED SOLIDS TDS The electrical conductivity of environmental water is due to the presence of dissolved ionic species Thus the magnitude of the conductivity or specific conductance value can be used as a rough estimate of amount in g L of these ionic compounds which are present The 6 series software provides a conversion from specific conductance to total dissolved solids TDS by the use of a simple multiplier However this multiplier is highly dependent on the nature of the ionic species present To be assured of even moderate accuracy for the conversion the user must determine this multiplier for the water at the site of interest Use the following protocol to determine the conversion factor 1 Determine the specific conductance of a water sample from the site Filter a portion of water from the site 3 Completely evaporate the water from a carefully measured volume of the filtered sample to yield a dry solid
313. n water a potential is established across the membrane that depends on the relative amounts of nitrate in the sample and the internal filling solution This potential is read relative to the Ag AgCl reference electrode of the sonde pH probe As for all ISEs the linear relationship between the logarithm of the nitrate activity or concentration in dilute solution and the observed voltage as predicted by the Nernst equation is the basis for the determination Under ideal conditions the Nernst equation predicts a response of 59 mV for every 10 fold rise in nitrate activity at 25 C However in practice empirical calibration of the electrode is necessary to establish the slope of the response Typical slopes are 53 58 mV per decade for YSI sensors This slope value is determined by calibration with two solutions of known nitrate concentration typically 1 mg L and 100 mg L NO N The slope of the plot of log nitrate vs voltage is also a function of temperature changing from its value at calibration by a factor of the ratio of the absolute temperatures at calibration to that at measurement The point where this new plot of log nitrate vs voltage intersects the calibration plot is called the isopotential point that is the nitrate concentration at which changes in temperature cause no change in voltage Our experience with ISEs indicates that for best accuracy the isopotential point should be determined empirically To do so the user employs a thi
314. nded settings for time constants are turbidity 12 rhodamine WT 12 chlorophyll 12 and other 4 Note that the time constant can be set independently for turbidity chlorophyll and rhodamine WT and that time constant choices are only available for activated sensors Rhodamine WT would appear in the display below if it had been activated as a sensor All other sensors use the same time constant as shown below Choosing 4 Threshold will display the following Threshold 1 Turbid 0 01 2 Ch1 1 3 Other 0 001 Select option 0 for previous menu Setting thresholds is done in the same manner Recommended threshold settings are 0 01 for turbidity 1 0 for chlorophyll 1 0 for rhodamine WT and 0 001 for other The following descriptions provide additional information about the Data Filter feature 1 Enabled Activating this item will result in data filtering according to the values set in 2 3 and 4 2 Wait for filter If this feature is activated readings will be available for output only after the unit has warmed up for a time period equal to the Time Constant plus an extra 4 seconds This feature is useful for example if you are operating in SDI12 mode and want to average the data over a particular period of time In such a case you would not want the filter to be engaging and disengaging so the value of the Threshold should be set to a large value like 1 This feature should not be activated
315. ne module is for use only at depths less than 50 feet 15 2 meters Use of the probe at greater depths is likely to permanently damage the sensor 5 10 CHLORIDE The sonde chloride probe employs a solid state membrane attached to a conductive wire When the probe is immersed in water a potential is established across the membrane that depends on the amount of chloride in the medium This potential is read relative to the reference electrode of the sonde pH probe As for all ISEs there is a linear relationship between the logarithm of the chloride activity or concentration in dilute solution and the observed voltage The Nernst equation describes this relationship Under ideal conditions the Nernst equation predicts a response of 59 mV for every 10 fold rise in chloride activity at 25 C However in practice empirical calibration of the electrode is necessary to establish the slope of the response Typical slopes are 45 55 mV per decade for YSI sensors This slope value is determined by calibration with two solutions of known chloride concentration typically 10 mg L and 1000 mg L CI YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 12 Principles of Operation Section 5 The slope of the plot of log chloride vs voltage is also a function of temperature changing from its value at calibration by a factor of the ratio of the absolute temperatures at calibration to that at measurement The point where this new plot of log
316. near interpolation of the Turbidity NTU data and the correlation chart GRAPH The Setup menu Graph submenu has the following commands Font Color Goes to the Font Dialog Box where you can change the font and color of text that appears in the graph YSI Incorporated T Arial Black T 3 OP Arial Narrow OP Avant Garde Demi Extn AvantGarde a HB Black E Font Type or select a font name EcoWatch lists the fonts available with the current printer driver and additional fonts installed in your system Font Style Select a font style To use the default type style for a given font select Regular Size Type or select a font size The sizes available depend on the printer and the selected font If the size you type is not available on the current printer EcoWatch chooses the closest available size Effects Choosing Strikeout will draw a line through all text in the table Choosing underline will underline the text Color Drinking Water Monitoring Systems Operation Manual 4 37 EcoWatch for Windows Section 4 Type or select one of the 16 predefined colors To display color you must have a color monitor to print color you must have a color plotter or a color printer e Sample Shows the effects of the formatting you specify before you apply it to the document Page Color Goes to the Color Dialog Box where you can change the color of the graph page This is the background for all of the gr
317. nerates and uses radio frequency energy and if not installed and used properly may cause interference to radio and television reception It has been type tested and found to comply with the limits for a Class A or Class B computing device in accordance with the specification in Subpart J of Part 15 of FCC Rules which are designed to provide reasonable protection against such interference in a residential installation However there is no guarantee that interference will not occur in a particular installation If this equipment does cause interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures Q Reorient the receiving antenna Relocate the computer with respect to the receiver m Q Move the computer away from the receiver m Plug the computer into a different outlet so that the computer and receiver are on different branch circuits If necessary the user should consult the dealer or an experienced radio television technician for additional suggestions The user may find the following booklet prepared by the Federal Communications Commission helpful How to Identify and Resolve Radio TV Interference Problems This booklet is available from the U S Government Printing Office Washington D C 20402 Stock No 0004 000 00345 4 YSI Incorporated Drinking Water Monitoring Systems Operations
318. ng should be within the range of 221 241 at normal ambient temperature If the reading is outside of this range the probe can be calibrated to the correct value 231 mV at 25 C using the calibration procedure outlined in Section 2 6 1 Calibration ORP readings for the same solution can vary up to 100 mv depending on the temperature However no standard compensation algorithms exist for this parameter Be sure to take this factor into account when reporting ORP values and checking sensor calibration For Zobell solution consult the following chart TEMPERATURE ZOBELL SOLUTION VALUE CELSIUS MV MEASUREMENT AND CALIBRATION PRECAUTIONS 1 Instructions for preparation of ORP calibrator solutions including Zobell reagent can be found in Section 2580 A of Standard Methods for the Examination of Water and Wastewater Alternatively the Zobell solution is available from YSI YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 3 Principles of Operation Section 5 2 Reagants to confirm ORP sensitivity are available Contact YSI Customer Service for ordering information 3 ORP readings usually stabilize much more rapidly in standards e g Zobell solution than in most environmental water Be certain to consider this factor when determining ORP in field studies 4 Clean and store the pH ORP sensor by following the instructions in Section 2 10 Care Maintenance and Storage of this manual 5 5 pH The sonde
319. nsfer data files resident in the 650 memory either logged directly or uploaded from sonde memory to a PC that is running YSI EcoWatch for Windows software Once transferred the data can be custom configured plotted and reported in tabular form using this software package The data can also be exported from EcoWatch in spreadsheet compatible form if the user prefers this method of data analysis and management In order to carry out the upload of data files to your PC you must first connect the 650 to a serial port of your computer via the 655174 PC Interface cable as shown in the following diagram gt i Ml 282 650 Computer with EcoWatch for Windows Installed 655174 PC Interface Cable DE 9 PC Serial Port A After the connection is made run EcoWatch for Windows click on the sonde icon in the upper toolbar and set the Comm port number to match your interface After this setup procedure the following screen will be present on your PC monitor S EcoWatch Sonde COM2 File View Comm Realtime Appl Window He SEISMIC Oe Sonde COM2 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 48 650 MDS Section 3 To transfer data from the 650 to your PC highlight the Upload to PC selection in the 650 File menu and press Enter to view a list of the files Highlight the file that you wish to transfer and press Enter The 650 and PC
320. nt and the free chlorine reading could be in error YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 12 YSI incorporated 1700 1725 Brannum Lane Yellow Springs Ohio 45387 USA 800 765 4974 937 767 7241 FAX 937 767 9320 Website http www ysi com E mail info ysi com Item 660019 Drawing A660019 Revision B June 2006
321. nt in your 650 It cannot be changed by the user 3 3 9 Barometer Units Highlighting this selection and pressing Enter will activate a display which will allow you to select the units of barometric pressure which will appear in real time in the display Status Bar Highlight the desired units and press Enter to confirm the selection This entry will only appear if you have ordered your 650 with the barometer option 3 3 10 Calibrate Barometer You may need to scroll down with the arrow keys to view this selection which allows you to calibrate the optional barometer to your local barometric pressure While the barometer has been factory calibrated and should provide accurate readings on receipt some sensor drift may occur over time requiring occasional calibration by the user Proceed as follows Determine your local barometric pressure This value is usually obtained from an independent laboratory barometer You can also obtain a barometric pressure value from your local weather service This latter value has usually been corrected to sea level and therefore must be uncorrected before it can be used in calibration of the 650 barometer See Section 3 9 of this manual for details Select Calibrate barometer and press Enter Input the known barometric pressure from the 650 keypad in the selected units mm Hg in the following example and press Enter Note that in the example the barometer output has changed from 733 4 the previous incorrect v
322. nternal failure pH ORP chloride Probe requires cleaning Follow probe cleaning procedure a 10 2 ammonium or nitrate Probe requires calibration Follow cal procedures 2 6 1 readings are unstable or 3 74 inaccurate Error pH probe reference junction has Soak probe in tap water or buffer 2 10 2 messages appear during dried out from improper storage until readings become stable calibration Water in La N connector a ee connector reinstall probe Probe has been Probe has been damaged Replace probe probe e a contaminated with other solution ORP fails Zobell check Take into account temperature dependence of Zobell solution readings Internal failure Return sonde for service Es t YSI Incorporated Drinking Water Monitoring Systems Operations Manual 6 3 Troubleshooting Section 6 Depth unstable or Depth sensor has not been zeroed Follow depth zero procedure inaccurate Depth sensor access hole is Follow depth cleaning procedure 2 10 2 obstructed Depth sensor has been damaged Return sonde for service Internal failure Return sonde for service Conductivity unstable Conductivity improperly Follow cal procedure 2 6 1 or inaccurate Error calibrated messages appear during calibration Conductivity probe damaged Replace probe Calibration solution out of spec or Use new calibration solution contaminated Internal failure Return sonde for service 8 2 6 1 Calibration solution or sample Immerse sen
323. nto a clean dry or pre rinsed transport cup Carefully immerse the probe end of the sonde into the solution Allow at least 1 minute for temperature equilibration before proceeding Select Ammonium Nitrate or Chloride to access the appropriate calibration choices Then select 3 3 Point Press Enter and input the concentration value of the standard as requested Press Enter and the current values of all enabled sensors will appear on the screen and will change with time as they stabilize in the solution Observe the readings under NH4 NO3 or Cl When they show no significant change for approximately 30 seconds press Enter After the first calibration point is complete proceed as instructed on the screen to continue Rinse the sonde in water and dry the sonde prior to the next step Place the proper amount of 1 mg L standard for Ammonium or Nitrate 10 mg l for Chloride into a clean dry or pre rinsed transport cup Carefully immerse the probe end of the sonde into the solution Allow at least 1 minute for temperature equilibration before proceeding Press Enter and input the concentration value of the standard as requested Press Enter and the current values of all enabled sensors will appear on the screen and will change with time as they stabilize in the solution Observe the readings under NH4 NO37 or Cl and when they have show no significant change for approximately 30 seconds press Enter After the second value calibratio
324. nus are accessed by entering the number associated with the specific item while for the 650 mode the user must use the arrow keys to highlight the item and press the Enter key to activate it Thus the description of the 6 series sonde menu structure and function which is found in your sonde manual is completely valid as a reference for setting up your sonde for all types of studies The menu structure of the sonde is presented in diagram form below followed by two examples in Section 3 4 2 of how to use the 650 Sonde Menu interface In addition brief instructions for frequently performed sonde operation are provided as a reference in Section 3 4 3 below SONDE MENU FLOW CHART Sonde 1 Run 1 Discrete sample 1 Conductivity 2 DO 2 Unattended sample 3 DO mg L Calibrate 4 Others 1 Directory Date and Time 2 Upload Battery Voltage 3 Quick Upload 4 View File 5 Quick View File 6 Delete All Files Available Memory 1 Date amp Time Logging Status 2 Comm Setup 3 Page Length 1 Date 7 Test Memory 4 Instrument ID 2 Time 5 SDI 12 Address 3 Temp C 4 Temp F Vv MORE y 1 Temp 2 Cond 1 Cal Constants 3 DO 2 Setup 4 ISE1 pH 3 Sensor Y MORE y 4 Data Fil
325. o click on the file of your choice in the most recently opened files Once the SAMPLE DAT file is open you should see a plot as shown in the figure below which graphically represents seven days of sonde data for six different water quality parameters plotted as a function of date and time Each set of data is autoscaled to allow you to see the minimum and maximum values for each parameter during the one week study YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 48 Sondes Section 2 Opening a File Comm Beatie 200 Appl Help z i ri es Lee 410870100 DAT Ea Some daily variations may be noticed in parameters such as dissolved oxygen pH and temperature in this particular study This is fairly typical in many natural bodies of water Note also that conductivity is low at both ends of the graph You may notice similar perturbations in some of the other readings as well In this example the sonde was not in the water for a short time at the beginning and end of the study Not only can you see exactly when the sonde went in and out of the water but the bottom graph shows the depth at which the sonde was deployed Notice also that you now see a new set of menu items in the top line Some of these functions are specifically related to viewing and manipulating data Next we will examine some of the viewing options VIEWING DATA To look at some of the viewing options click on View see figure below
326. o to shorter term formation of bubbles from outgassing of the environmental water These bubbles can sometimes be removed in short term sampling applications by simply agitating the sonde manually For studies longer than a few hours where the user is not present at the site the quality of the chlorophyll data obtained with a fluorescence sensor that has no capability of mechanical cleaning is likely to be compromised The YSI 6025 probe is equipped with a mechanical wiper that makes it ideal for unattended applications The wiper can be activated in real time during discrete sampling operations or will function automatically just before each sample is taken during long term unattended monitoring studies The number of wiper movements and the frequency of the cleaning cycle for the unattended mode can be set in the sonde software Generally one wiper movement is sufficient for most environmental applications but in media with particularly heavy fouling additional cleaning cycles may be necessary EFFECT OF TURBIDITY ON CHLOROPHYLL READINGS As described above the filters in front of the photodiode in the YSI 6025 chlorophyll probe prevent most of the 470 nm light which is used to excite the chlorophyll molecules from reaching the detector after being backscattered off of non fluorescent particles turbidity in environmental water However the filter system YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 20 Principles of Oper
327. odes the user should acquire a few grab samples during the course of the deployment for analysis in the laboratory by chemical means or with YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 11 Principles of Operation Section 5 another ammonium sensor which has been recently calibrated Remember that the typical accuracy specification for the sensor 10 of the reading or 2 mg L whichever is larger refers to sampling applications where only minimal time has elapsed between calibration and field use CALIBRATION AND EFFECT OF TEMPERATURE The ammonium sensor should be calibrated using solutions of known total ammonium nitrogen content according to the procedures detailed in Sections 2 6 1 and 2 9 2 If a two point calibration protocol is used the temperature of the standards should be as close as possible to that of the environmental medium to be monitored The recommended calibration procedure is one involving three solutions Two of the solutions should be at ambient temperature while the third should be at least 10 degrees Celsius different from ambient temperature This protocol minimizes the effects of taking readings at temperatures that are significantly different ambient laboratory temperatures MEASUREMENT AND CALIBRATION PRECAUTIONS 1 The temperature response of ion selective electrodes is not as predictable as that of pH sensors Therefore be sure to carry out a 3 point calibration the first time yo
328. oe J N 0 0 000 E 0 0 000 739 8mmHg j 0 000 E 0 0 000 742 4mmHg 07 12 2001 09 30 40 a E Note that using these same basic guidelines data could have been logged at another site on the same day with the user inputting a different site designation file name and site name in the field Data could also have been logged single points or as a continuous data stream at each site simply by the choice of Log single point or Start logging respectively in the 650 Logging window Data can also be appended at later times to existing site designations However there is a limitation on this process the parameter setup during subsequent logging runs MUST be exactly the same as for the first entry For example if you add a sonde parameter to the Report for the second logging run to a particular site you will not be able to append this data to the existing file If you logged Barometer or GPS readings to the initial file you will be required to maintain the logging of these files on subsequent logging runs If your current parameter setup is different from the one used initially a Parameter Mismatch screen similar to that shown below will appear when you try to log data to the old site designation The screen should help in pinpointing the change in your parameter setup that is causing the inability to append the file In the example below the old parameter setup is shown on the right of the screen and the n
329. of transfer data between different Window programs Copying data to the clipboard replaces the contents previously stored there Shortcuts Toolbar Keys CTRL C PASTE This command does not function in this version of EcoWatch REMOVE PARAMETERS When entire column s of data is selected including the heading s this command will remove the parameter s from both the data table and graph INSERT PARAMETER YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 21 EcoWatch for Windows Section 4 Adds an additional parameter to the data table and graph All available parameters that can be added are shown on a list FIND Locates text within the selected parameter Only one parameter may be searched at a time A system beep indicates that there are no more occurrences of the desired text 06 21 199 FIND AGAIN Locates the text that was most recently searched for within the selected parameter Only one parameter may be searched at a time 4 3 3 VIEW The View menu offers the following commands TOOLBAR Use this command to display and hide the Toolbar which includes buttons for some of the most common commands in EcoWatch such as File Open A check mark appears next to the menu item when the Toolbar is displayed Shortcut To hide or display the Toolbar choose Toolbar from the View menu See Section 4 2 6 Using the Toolbar for a list of the toolbar icons and their functions STATUS B
330. of water and induce vomiting by touching finger to back of throat Seek medical attention immediately YSI Ammonium Standard Solutions 3841 3842 and 3843 INGREDIENTS Q Ammonium Chloride Q Lithium Acetate Dihydrate Q Sodium Azide trace Q Hydrochloric acid CAUTION AVOID INHALATION SKIN CONTACT EYE CONTACT OR INGESTION MAY AFFECT MUCOUS MEMBRANES May be harmful by ingestion or skin absorption May cause eye and skin irritation The chemical physical and toxicological properties have not been thoroughly investigated Ingestion of large quantities of lithium salts can affect the central nervous system producing symptoms ranging from dizziness to collapse It may also cause kidney damage nausea and anorexia Note that the ingestion of harmful quantities form the solutions is considered unlikely given the low concentration of lithium and the volumes likely to be handled YSI Incorporated Drinking Water Monitoring Systems Operations Manual A 4 Health and Safety Appendix A FIRST AID INHALATION Remove to fresh air If not breathing give artificial respiration If breathing is difficult give oxygen Call a physician SKIN CONTACT Remove contaminated clothing immediately Wash affected area with soap or mild detergent and large amounts of water approx 15 20 minutes EYE CONTACT Wash eyes immediately with large amounts of water approx 15 20 minutes occasionally lifting upper and lower lids Seek medic
331. oints will be averaged and then plotted as a single point This feature will not only smooth a graph but will also reduce the amount of data exported that is sometimes convenient when exporting to a spreadsheet The x axis parameter is normally Time but you can choose any parameter you like By default data files are sorted by increasing time If you have chosen another parameter for the x axis then you may want to have the data sorted before graphing it Change Parameter Attributes Average Interval o Hins X Axis Parameter DateTime Change name This command takes you to the Define Parameter Name dialog box where you may change the default names of the parameters This dialog is intended to make changes like degrees Celsius to degrees C If you change degrees Celsius to degrees Fahrenheit then the data displayed will be in degrees Celsius even though the graph says degrees Fahrenheit To change the units for that parameter use the Change Parameter Units dialog box YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 35 EcoWatch for Windows Section 4 Define Parameter Name Poe E m a ook Calibrate TSS TSS is an abbreviation for Total Suspended Solids TSS is a unit derived from a Turbidity NTU measurement and correlated TSS NTU measurements The Calibrate TSS feature is only used if the TSS parameter has been added to the current data file using Add Remove Parame
332. ometers that have a fixed optical configuration but are less expensive can be more easily used in the field and are usually compatible with data collection platforms The use of a pump is recommended for some sonde fluorometers and this can result in the need for large capacity batteries for field use The unique YSI chlorophyll system available as an option for use with YSI sondes consists of a probe which is similar in concept to the sonde type fluorometers but is much smaller making it compatible with the probe ports of the YSI 6920DW sonde The output of the sensor is automatically processed via the sonde software to provide readings in either generic fluorescence units percent full scale FS or ug L of chlorophyll No pump is required for the YSI system allowing the sensor to operate off of either the sonde internal batteries or the batteries in the YSI 650 MDS display logger Like the YSI 6026 and 6136 turbidity probes the YSI 6025 chlorophyll probe is equipped with a mechanical wiper to periodically clean the optical face either by manual or automatic activation With these features the YSI chlorophyll sensor provides the same level of performance as the sonde fluorometers but is much easier to use and can be deployed in environmental water for several weeks without the need for service In addition the probe will be a component in sondes that can acquire up to ten other parameters simultaneously with chlorophyll rather just providing the
333. omma radix Shut off time minutes 0 ID YSI 650 Licomma radix Circuit board SN 00006011 ID fF i t Barometer units Circuit board SN 00006011 Calibrate barometer N 0 0 000 E 0 0 000 738 9mm g N 0 0 000 E 0 0 000 738 7mm g E _ 07 12 2001 15 52 17 07 12 2001 15 53 30 YSI suggests that the user become familiar with the features provided in the list below prior to using the 650 in field applications Each item is described in some detail below 3 3 1 Software version The software version of your 650 is shown in the first line of the System setup menu As enhancements are introduced to the 650 you will be able to upgrade your 650 from the YSI web page This item will be used to track those upgrades and will be useful to YSI Customer Service personnel if you have questions about the function of the instrument 3 3 2 Date and time As described above in Section 3 2 8 activate this selection to set the date and time from the 650 keypad 3 3 3 Power sonde If this choice is active your 6 series sonde will be powered directly from the 650 batteries The choice MUST be active if you are using a sonde with no internal batteries 600R 600XL or 6820 If using a sonde with internal batteries 600XLM 6920 600 OMS battery version or 6600 you can extend the life of your 650 batteries by deactivating this selection Note that the selection MUST BE OFF in order to determine the voltage of the internal batteries of
334. on See Section 4 of the 6500 manual for detailed calibration instructions Note that this mode of operation is NOT RECOMMENDED by YSI due to sensor maintenance issues which are explained in detail in Appendix G of this manual 4 Applications where the sonde is attached to a PC and data is being displayed to the computer monitor using the Real Time mode of Ecowatch for Windows For this mode of operation your must calibrate the free chlorine sensor before activating the Real Time EcoWatch mode or after activating the Real time feature of EcoWatch Access the sonde menu after connection of the sonde to a PC or 650 Display logger and make certain that the Autosleep RS232 feature is activated in the AdvancedlSetup menu and that the Chlorine warm up time is set to 60 seconds in the Advanced Sensor menu With these software entries in place the user will input the free chlorine value from the DPD analysis of the flow cell effluent and the unit will automatically calibrate after the selected warm up time Following calibration attach the sonde to the PC and click on the Real Time entry in the top toolbar Do NOT click on the sonde icon in the lower toolbar The Real Time study will start automatically with data displayed graphically on the PC monitor and logged to the hard drive of the PC under the file name which you have selected See Section 4 3 5 of this manual for detailed instruction in using the EcoWatch Real Time mode Details of the calibration
335. on in mg L Free chlorine sensor charge pH in standard units millivolts associated with the pH reading Oxidation reduction potential value in millivolts Ammonium Nitrogen in milligrams liter Ammonium Nitrogen in millivolt reading Ammonia Nitrogen in milligrams liter Nitrate Nitrogen in milligrams liter Nitrate Nitrogen in millivolt reading Chloride in milligrams liter Chloride in millivolt reading Turbidity in nephelometric turbidity units from 6026 sensor Turbidity in nephelometric turbidity units from 6136 sensor Chlorophyll in micrograms liter Fluorescence in percent Full Scale Rhodamine WT in micrograms liter Drinking Water Monitoring Systems Operations Manual 2 85 Sondes Section 2 2 9 7 SENSOR The Sensor menu allows you to Enable or Disable turn on or off any available sensor and in some cases to select the port in which your sensor is installed From the Sonde Main menu select 7 Sensor and the following display will appear Sensors enabl 1 2 3 4 5 6 Temperature ISE4 NONE d Time ISE3 NONE ISI Conductivity ISE5 NONE Pree C2 Optic ESD oh Battery ELSIE Oia SELEPE OnO On PEEV hous menu l Note that the exact appearance of this menu will vary depending upon the sensors available on your sonde When a particular sensor is active an asterisk will appear in the parentheses associated with the selection In this e
336. on that can be used to calibrate your rhodamine WT sensor for field use 1 Werecommend that rhodamine WT concentrate be purchased from Keystone Aniline Corporation 2501 W Fulton Street Chicago IL 60612 Telephone 312 666 2015 under the name KEY ACID RHODAMINE WT LIQUID Part 70301027 As purchased the solution is approximately 20 rhodamine WT by weight i e 200 g L 2 Accurately weigh 0 500 g of the 20 rhodamine concentrate quantitatively transfer the viscous liquid to a 1000 mL volumetric flask and fill the flask to the top graduation This solution contains 100 mg of rhodamine WT per 1000 mL of water 3 Accurately transfer 1 0 mL of the solution prepared in the above step to a 1000 mL volumetric and then fill the flask to the top graduation with purified water Mix well to obtain a solution that is 100 ug L 0 10 mg L in water a 1000 1 dilution of the concentrated solution YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 24 Principles of Operation Section 5 4 Store the concentrated standard solution in a darkened glass bottle in a refrigerator to retard decomposition The dilute standard prepared in the previous step should be used within 5 days of its preparation When rhodamine WT standards are required in the future perform another dilution of the concentrated dye solution after warming it to ambient temperature Our experience has indicated that the concentrated solution that has been kept
337. onde in the 0 ug L standard as instructed and press Enter It is mandatory that the Oug L standard be calibrated first The screen will display real time readings that will allow you to determine when the readings have stabilized Pressing Enter will confirm the first calibration Following the instructions on the screen place the sonde in the second chlorophyll standard input the correct value in ug L press Enter and view the stabilization of the values on the screen in real time After the readings have stabilized press Enter to confirm the calibration Then as instructed press any key to return to the Calibrate menu Select the 3 point option for maximum accuracy over the entire range of 0 to 400 ug L As with the 2 point procedure one of the standards must be 0 ug L The user can select any values for the second and third standards that are deemed appropriate The procedure for this calibration is the same as for a 2 point calibration but the software will prompt you to place the sonde in the additional solution to complete the 3 point procedure For all chlorophyll calibration procedures be certain that the standard and sensor are thermally equilibrated prior to proceeding with the calibration CAUTION To be assured of the accuracy for field measurements made with your chlorophyll sensor you must either initially calibrate the sensor using a phytoplankton suspension of known chlorophyll content or post calibrate you sensor in a spr
338. ong N 0 0 000 E 0 0 000 07 12 2001 09 00 17 es i Logging setup Use site list Store Barometer Store Lat and Long M Interval lewieleee ke N 0 0 000 E 0 0 000 07 12 2001 08 59 41 A Once the sample interval is set correctly in the 650 Logging setup menu the user simply highlights the Sonde run selection in the 650 Main menu and presses Enter to begin data display 650 Main Menu Sonde menu File Logging setup System setup N 0 0 000 E 0 0 000 06 02 2000 08 00 15 kz 739 gmmlg Run Sonde Log one sample Start logging Clean optics 58 og one sample N 0 0 000 E 0 0 000 07 12 2001 09 10 21 a The user places the sonde in the water and then highlights the Start logging selection in the 650 logging window upper left and presses Enter The user is then prompted to enter a Filename and Site description for the study as shown below Enter info Filename OO Site description then chose OK Configure Enter info Filename then chose OK Enter info OK Filename rSite description then chose OK pest rSite description N 0 0 000 E 0 0 000 742 9mmhg 06 07 2000 15 32 54 Am ni Gon
339. onnect the 6115 GPS cable to the 650 via the MS 8 connector Connect the other MS 8 connector of the 6115 GPS cable to the MS 8 connector or your sonde cable Attach the male DE 9 connector of the 6115 GPS cable to the mating female connector of your GPS unit Turn on the 650 and make certain that appropriate GPS readings are displayed in the upper left corner of the Status Bar as shown in the following display 6 5 4 _ _ Start logging o cC l ET 93 1007 0 N39 47 334 W 83 54 128 739 4mmhg 06 02 2000 09 49 17 _ 3 8 2 LOGGING GPS READINGS To log latitude and longitude readings from a user supplied GPS unit the following conditions must be met e GPS readings can ONLY be logged to 650 memory the system does NOT support logging to sonde memory e The GPS readings must be logged to 650 memory from the 650 Run display along with sonde sensor readings This means that you must have a sonde attached to your 650 via the 6115 cable in order to log GPS readings Logging of GPS readings is not supported without sonde attachment even though these readings can be viewed in the Status Bar with no sonde attached e If your want to log the GPS readings to 650 memory along with sonde sensor readings at a particular location you must make certain that the Store Lat and Long option is active in the Logging setup menu of the 650 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 52 650
340. ontrol Panel Orientation Choose Portrait or Landscape Paper Size Select the size of paper that the document is to be printed on Paper Source Some printers offer multiple trays for different paper sources Specify the tray here Options Displays a dialog box where you can make additional choices about printing specific to the type of printer you have selected Network Displays a dialog box that allows you to choose a printer if you are on a network PAGE SETUP Layout options for printable data tables may be specified Page margins table setup page orientation and page order are adjustable Page Setup ED v M v E ae i HEADER FOOTER Page headers and footers can be customized with respect to font and placement Both the header and footer have separate tabs as shown below Once the desired profile is created it can be saved for use every time the particular data file is opened YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 20 EcoWatch for Windows Section 4 Header Footer tetaiones comerea __Rottatonea P SAMPLE DAT 4 3 2 EDIT The edit menu appears whenever a data file is opened in EcoWatch It allows you to locate format and manage data COPY Copies the selection to the clipboard If a graph or table is active then choosing this command will send its contents to the Windows clipboard so that it can be pasted into other programs This is a normal method
341. option will also allow the user to upload small files to the 650 that have been logged to the internal memory of sondes during Discrete or Unattended sampling studies YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 2 650 MDS Section 3 The high memory option 1 5 mB of the 650 is designed for users who log large files directly to the 650 or who wish to upload large or many files to the 650 from the internal memory of sondes which have been used to log data in Discrete or Unattended sampling applications For example with the high memory option it would be possible to easily upload the data from 7 sondes each of which have data files in excess of 200 kB or approximately 75 days at a 15 minute Unattended sampling interval No matter which memory option has been selected it is important to understand that the memory resident in the 650 is Flash the same type of memory present in YSI 6 series sondes Flash memory requires no battery backup and therefore stored data cannot be lost due to instrument malfunction a significant advantage However it is not possible to erase individual files from flash memory to free up memory the user must erase or format the entire memory chip From a practical point of view this means that while named files which are already present in the 650 memory can be overwritten during multiple uploads the previously written files still occupy space in the memory These files ar
342. or Windows Section 4 4 3 5 REAL TIME The Real time menu offers the following commands that allow you to control how your data will be presented Real Time Settings SETTINGS This command is only active when there is a real time window open This command takes you to the Real time Settings dialog where you can set the length of the x axis In the Real Time Settings box you will set the number of samples graphed across the axis The interval between samples is set in the sonde using the sonde menus After the graph is full each new data point will cause the trace to scroll left so that you see only the most recent set of measurements If you have a YSI 6026 or 6136 turbidity 6025 chlorophyll or 6130 rhodamine WT probe with a wiper then you may want to clean the optics periodically Set that interval in this dialog Autoscaling will keep the trace comfortably on the graph as the measurement changes To Manually Scale a graph double click on its Y axis labels The Graph Y Axis box will come up where you can set the scale Note that you can manually set the scale for some parameters and autoscale others When the autoscale box is checked the high and low limits will be unavailable See also the Autoscale command in the Graph menu NEW Choose this to start a new real time study OPEN Choose this to open a previous real time study CLOSE Choose this to close a real time study Two files are formed every time a re
343. or activation deactivation and press Enter to confirm your choice 3 4 3 6 Changing the sonde Report setup Use the 650 Sonde menu selection to access the sonde Report menu Once the menu has been activated use the arrow keys to highlight a sensor for activation deactivation and press Enter to confirm your choice See the example in Section 3 4 2 above 3 4 3 7 Viewing data stored in the sonde Utilize the 650 Sonde menu selection to access the File menu of the sonde Highlight the View file selection and press Enter Select the file that you want to view Choose Proceed and press Enter to view the entire file or select the portion of the data that you want to view and then select Proceed and press Enter to confirm your selection After data has appeared on the screen use the arrow keys to select the particular sensor data that you wish to view IMPORTANT The sonde Quick view file which is designed to show the last page of data of the last logged file when the sonde is interfaced to a PC is slightly different for the sonde 650 interface Making this selection will indeed show data from the last logged file but all data not just the last page will be displayed It is still possible however to quickly view the last few logged data points which may be important in checking a sonde s current performance in the field To rapidly move to the end of the file in either View file or Quick view file press and HOLD the down arrow to accelerate t
344. ored and the site name associated with the file are also input in the Discrete sample function of the sonde using the 650 keypad as the input method When logging to sonde memory be sure to follow the instructions above with regard to entering the 650 Run display either directly from the 650 Sonde run menu or indirectly from the 650 Sonde menu selection to control your sample interval The following examples show the setup and implementation of logging to sonde memory using the 650 as the interface device 3 5 2 2 EXAMPLE 1 SIMPLE SINGLE POINT LOGGING TO SONDE MEMORY A user with a 600XL 650 system wants to store data electronically from a single site rather than writing down the information manually in the field To log this data point to the sonde memory the user highlights the Sonde run selection in the 650 Main menu and presses Enter to begin data display 650 Main Menu Run Sample logged S0 EET nde on Log one sample ampl Log one sample Log one sample Start logging gil Start logging Start logging Sonde menu File 06 02 00moy 6 00 06 02 00moy a4 200 Logging setup UL 07 13 370 System setup 22 57 ona PAm 0 002 ns Osa 0 000 E 0 0 000 739 8mmig 0 0 000 E 0 0 000 5 2 7 Omm 06702 2000 08 00 15 06702 2000 07 58 19 A aes NOOD Fe wao G EA Semm YSI Incorporated Drinking Water Monitoring Systems Operations Manual
345. ority of environmental water of all types has a pH between 7 and 10 Therefore unless you anticipate a pH of less than 7 for your application YSI recommends a two point calibration using pH 7 and pH 10 buffers The next calibration instructions are only for the 6920DW sonde If you do not have this sonde you may skip to 2 7 Taking Readings AMMONIUM NH CHLORIDE CT and NITRATE NO 3 POINT es eee OE aa Ea WARNING AMMONIUM AND NITRATE SENSORS CAN ONLY BE USED AT DEPTHS OF LESS THAN 50 FEET 15 METERS USE OF THE SENSORS AT GREATER DEPTHS IS LIKELY TO PERMANENTLY DAMAGE THE SENSOR MEMBRANE The calibration procedures for ammonium nitrate or chloride are similar to pH except for the reagents in the calibration solutions Suggested values for calibrants are 1 and 100 mg L of either ammonium nitrogen NH N or nitrate nitrogen NO3 N Suggested values for calibrants are 10 and 1000 mg L of Chloride CI NOTE The following procedure requires one portion of the high concentration calibrant and two portions of the low concentration calibrant The high concentration solution and one of the low concentration YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 32 Sondes Section 2 solutions should be at ambient temperature The other low concentration solution should be chilled to less than 10 C prior to beginning the procedure Place the proper amount of 100 mg L standard 1000mg I for chloride i
346. ort from the header and then Downloads After registration select the EcoWatch for Windows upgrade entry and follow the instructions provided After the upgrade is complete your software version viewed from the EcoWatch toolbar entry HelplAbout EcoWatch should be 3 13 00 or higher If you encounter difficulties in the upgrade procedures contact YSI Customer Service for advice After reading the above sections and participating in the simple examples provided you should be familiar with the basics of battery installation keypad and display function and keypad data entry Please proceed to Section 3 3 where the setup of your 650 is described in detail 3 3 SETTING UP THE 650 The 650 has a number of features which are user selectable or which can be configured to meet the user s preferences Most of these choices and selections are found in the System setup selection in the Main 650 Menu To explore the various setup possibilities of the 650 turn the instrument on select System setup and press Enter The following display will appear The second display can be observed by scrolling to the bottom of the System setup entries with the down arrow YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 18 650 MDS Section 3 System setup System setup Version 1 07 06 21 2001 MPower sonde Date amp time Baud rate to sonde 9600 MPower sonde Shut off time minutes 0 Baud rate to sonde 9600 LiC
347. ottles of pH 4 pH 7 and pH 10 buffers ORP REAGENTS Q 3682 Zobell Solution 125 ml AMMONIUM REAGENTS Q 3841 1 mg L ammonium nitrogen standard solution Q 3842 10 mg L ammonium nitrogen standard solution LY 3843 100 mg L ammonium nitrogen standard solution NITRATE REAGENTS Q 3885 1 mg L nitrate nitrogen standard solution Q 3886 10 mg L nitrate nitrogen standard solution Q 3887 100 mg L nitrate nitrogen standard solution YSI Incorporated Drinking Water Monitoring Systems Operations Manual C 2 Accessories and Calibration Standards Appendix C TURBIDITY REAGENTS OOOO 6080 0 NTU standard suspension 1 gal 6072 10 NTU standard suspension 1 gal 6073 100 NTU standard suspension 500 mL 6073G 100 NTU standard suspension 1 gal 6074 1000 NTU standard suspension 1 gal DISPLAYS LOGGERS AND ACCESSORIES OOOO UCOCOO O O O00000 650 01 Low memory with no barometer 650 02 High memory with no barometer 650 03 Low memory with barometer 650 04 High memory with barometer 6112 PC Interface Cable PC to 650 MDS 6113 Rechargeable Battery Pack Kit with 6116 charger adapter cable 6114 110 volt wall charger and 6117 battery pack included 6126 Rechargeable Battery Pack Kit with 6116 charger adapter cable 6123 universal charger European power cable British power cable and 6117 battery pack included 6127 Rechargeable Battery Pack Kit with 6116 charger adapter cable 6123 universal charger China Aust
348. ou do not have this sonde skip to Section 2 9 6 Report AMMONIUM When selecting 6 ISE3 NH4 you will be given the choice of 1 point 2 point or 3 point calibrations for your ammonium NH sensor Select the 1 point option only if you are adjusting a previous calibration If a 2 point or 3 point calibration has been performed previously you can adjust the calibration by doing a one point calibration Immerse the sonde in any solution of known ammonium concentration and press Enter You will be prompted to type in the NH value in mg L of NH N of the solution you are using Press Enter again and the screen will display real time readings that will allow you to determine when the NH4 readings have stabilized Pressing Enter will confirm the calibration Select the 2 point option to calibrate the NH probe using only two calibration standards that are both at approximately the temperature of your environmental sample In this procedure the NH sensor is usually YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 70 Sondes Section 2 calibrated using solutions that contain 1 and 100 mg L of NH N Be certain that the calibration solution and sensor are thermally equilibrated prior to entering NH values To begin the calibration immerse the sonde in the 1 mg L standard press Enter input the NH N value and again press Enter The screen will display real time readings that will allow you to determine when the
349. our 6 series sonde A more detailed discussion of sensor calibration can be found in Section 2 9 2 CONDUCTIVITY This procedure calibrates conductivity specific conductance salinity and total dissolved solids Place the correct amount see Tables 1 4 of 10 mS cm conductivity standard YSI 3163 is recommended into a clean dry or pre rinsed calibration cup Before proceeding insure that the sensor is as dry as possible Ideally rinse the conductivity sensor with a small amount of standard that can be discarded Be certain that you avoid cross contamination of standard solutions with other solutions Make certain that there are no salt deposits around the pH ORP probe particularly if you are employing standards of low conductivity Carefully immerse the probe end of the sonde into the solution Gently rotate and or move the sonde up and down to remove any bubbles from the conductivity cell The probe must be completely immersed past its vent hole Using the recommended volumes from the table in the previous subsection should insure that the vent hole is covered Allow at least one minute for temperature equilibration before proceeding From the Calibrate menu select Conductivity to access the Conductivity calibration procedure and then 1 SpCond to access the specific conductance calibration procedure Enter the calibration value of the standard you are using mS cm at 25 C and press Enter The current values of all enabled sensors will
350. our window is sized too small to display it or because you have just returned to EcoWatch from some other application Maximizing the window and choosing this command should display your graph correctly Shortcuts Toolbar CANCEL LIMITS Choose this command to cancel the limits set by the Limit Data Set command 4 3 7 SETUP PARAMETER Lets you select which parameters you want to analyze and how they will appear YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 33 EcoWatch for Windows Section 4 Add Remove There are two lists Selected Parameters and Available Parameters If for example you wish to graph another parameter you must highlight it on the Available Parameter list and then click the Add button to move it over to the Selected Parameters list This is also where you decide the order in which the parameters will appear in both the table and the graphs If you choose to have two traces per graph then the first graph will have the first and second parameters on this list the second graph will have the third and fourth parameters and so forth The parameters will appear in the Selected Parameters list in the order that they were added To rearrange the order highlight the parameter you wish to move and then use the up and down buttons to move it to the desired spot in the order The TSS parameter only available if your sonde has a Turbidity sensor is a parameter that is not part of your original colle
351. ovide a method for estimating the sensitivity of the sensor Field readings based on this type of calibration will provide only an estimate of chlorophyll in environmental water where the measurement is taken on whole cell suspensions in vivo The calibration standard that provides the best measure of accuracy for in vivo chlorophyll sensors is a portion of a phytoplankton suspension that has been analyzed for chlorophyll by the extractive procedure We recommend the use of this procedure and further recommend that the phytoplankton suspension be taken from the site being monitored so that the species producing the fluorescence in the standard are as close as possible to the field organisms To truly assess data reliability in a long term monitoring study grab samples should be taken periodically e g weekly and analyzed in the laboratory as the study progresses These data can then be used to postcalibrate the readings logged to the instrument during the study perhaps using a spreadsheet for the simple mathematical treatment In any case getting quantitative chlorophyll data from any in vivo fluorometric sensor is much more difficult than with most other environmental sensors For this reason it is difficult to provide an accuracy specification for chlorophyll measurement made with in vivo fluorometers and therefore no accuracy specification is quoted for the YSI 6025 YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 21 Pr
352. ow or hide table page 06 21 1993 13 30 45 06 21 1993 13 45 45 06 21 1993 14 00 45 ETE 25 07 25 07 0 007 0 007 It may be somewhat awkward to scan the data table in this manner therefore you have the option to turn off the graphical representation and allow the table to fill the window See the figure below Notice now that when you click on View the Graph item is no longer checked Viewing the Data in Table Format EcoWatch SAMPLE DAT w Eile Edit v Toolbar ee ac E Status Bar Comm Realtime 4Digit Year Graph Sie HEA eee ei Setup 6200 Appl Window Help Graph 06 Y Table 06 2 ene 06 2 Marker _ 06K Statistic O6 2 Study Info 06 2 06 2 0672 O6s iret be Got ut Urecom 04 06 21 1993 15 45 45 06 21 1993 16 00 45 06 21 1993 16 15 45 06 21 1993 16 30 45 06 21 1993 16 45 45 06 21 1993 17 00 45 06 21 1993 17 15 45 06 21 1993 17 30 45 06 21 1993 17 45 45 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 50 Sondes Section 2 Viewing features such as Grid Marker Zoom In Zoom Out and Unzoom are all available when you activate the Graph function Give each a try as you practice and learn more about the many features of EcoWatch The Statistics and Study functions of EcoWatch are show
353. ozen to the output during wiping so that bad values are not output A value of 0 001 for the threshold roughly corresponds to the following changes in sensor readings Temp 0 1 C Conductivity in the 100 mS cm range 0 1 ms cm Conductivity in the 10 mS cm range 0 01 ms cm Conductivity in the 1 mS cm range 0 001 ms cm Conductivity in the 100 uS cm range 0 1 us em Free Chlorine 0 01 mg L pH ORP Ammonium Nitrate and Chloride 0 6 mV A value of 0 01 for the threshold roughly corresponds to a IONTU change in turbidity A value of 1 0 for the chlorophyll and rhodamine WT sensors threshold effectively means that the filter will be engaged under all conditions YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 94 Sondes Section 2 2 10 CARE MAINTENANCE AND STORAGE This section describes the proper procedure for storage of the sensors that will maximize their lifetime and minimize the time required to get the sonde ready for a new application This section will describe interim or short term storage between applications where the sonde is being used at a regular interval daily weekly biweekly etc and long term storage e g over the winter where the sonde will not be used on a regular basis for several months In the descriptions and instructions below it is assumed that the user has retained the vessels bottles boots etc in which the individual sensors were stored on initial delivery If th
354. p through the opening and then close the D ring 3 2 5 BATTERIES AND CHARGING The YSI 650 can be powered either with 4 alkaline C cells or a rechargeable NiMH battery pack With the C cell configuration the user will be able to power a typical YSI 6 series sonde active dissolved oxygen and one optical sensor for approximately 45 hours of continuous operation The rechargeable battery pack will allow for about 15 hours of continuous use under these conditions If the sonde is being powered by its own internal batteries the 650 batteries will last much longer YSI Sondes with internal battery capability are the 6920 6600 600XLM and 600 OMS YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 7 650 MDS Section 3 3 2 5 1 BATTERY INSTALLATION C CELLS Four C cells install easily into the back of the 650 Follow the instructions and diagrams below to install the batteries properly 3 J E gt e Using a Phillips or slotted screwdriver loosen the 4 captive screws on the battery lid and then remove the battery lid completely e Insert the cells between the battery clips being sure to follow the polarity and as indicated on the bottom of the battery compartment e Make certain that the gasket is properly installed on the battery lid before reinstallation e Reinstall battery lid and tighten the 4 captive screws securely and evenly using a Phillips or slotted screwdriver Do not overtighte
355. pose of the battery pack in a fire 2 Do not attempt to disassemble the 6117 battery pack 3 Do not tamper with any of the electronic components or the batteries within the battery pack Tampering with either the electronic circuitry or the batteries will result in the voiding of the warranty and the compromising of the system performance but more importantly can cause safety hazards which result from overcharging such as overheating venting of gas and loss of corrosive electrolyte 4 Do not charge the battery pack outside the 0 40 C temperature range 5 Do not use or store the battery at high temperature such as in strong direct sunlight in cars during hot weather or directly in front of heaters 6 Do not expose the battery pack to water or allow the terminals to become damp 7 Avoid striking or dropping the battery pack If the pack appears to have sustained damage from these actions or malfunctions after an impact or drop the user should not attempt to repair the unit Instead contact YSI Customer Service 8 If the battery pack is removed from the 650 do not store it in pockets or packaging where metallic objects such as keys can short between the positive and negative terminals JN Pecanins for Users with Small Children Keep the battery pack out of reach of babies and small children YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 58 650 MDS Section 3 A Danger Notifications Misuse creat
356. power However if you are logging back up data to the sonde memory while also collecting it via the DCP or a SCADA system you probably will want to have batteries in the sonde so that data will continue to be collected and stored in internal memory if the power to the 6500 or DCP is interrupted YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 5 Frequently Asked Questions About YSI Drinking Water Systems Appendix H FREE CHLORINE MEASUREMENT What is the chemical formula of free chlorine When chlorine gas Cl is added to water a reaction called disproportionation occurs to form hypochlorous acid HOCI and hydrochloric acid HCl The hypochlorous acid is a strong oxidant and the active species in most drinking water disinfection processes rather than gaseous chlorine Clp One molecule of HOCI has the same oxidizing capacity as a molecule of Cl Thus the formula for free chlorine is really HOCI rather than Cl A portion of the free chlorine will also be in the form of hypochlorite ion OCI with the amount depending on the pH of the sample However convention dictates that free chorine be reported in units of mg Cl per liter even though the active compounds in solution are HOCI and OCI Thus YSI free chlorine readings are expressed in units of C12 mg L rather than HOCI OCI mg L to be consistent with standard reporting convention How does the YSI sensor measure free chlorine
357. preadsheet and carry out the calculation there using the formula TDS in g L Sp Cond in mS cm x User Derived Constant YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 2 Principles of Operation Section 5 5 4 OXIDATION REDUCTION POTENTIAL ORP The sondes determine the Oxidation Reduction Potential ORP of the media by measuring the difference in potential between an electrode which is relatively chemically inert and a reference electrode To measure ORP with a sonde a combination pH ORP probe must be in place in the sonde bulkhead and ORP must be accessed via the ISE2 channel of the sonde The ORP sensor consists of a platinum button found on the tip of the probe The potential associated with this metal is read versus the Ag AgCl reference electrode of the combination sensor that utilizes gelled electrolyte ORP values are presented in millivolts and are not compensated for temperature CALIBRATION AND EFFECT OF TEMPERATURE Calibration may not be required for the ORP sensor of the sonde when it is new However older probes that have been deployed extensively may show some deviation from the theoretical ORP value This deviation is usually due to a change in the concentration of the KCl in the reference electrode gel To determine whether the sensor is functioning correctly place the ORP probe in 3682 Zobell solution and monitor the millivolt reading If the probe is functioning within specifications the ORP readi
358. r data to be sent to the 6500 Exit to the main display mode of the 6500 by pressing the Ese key repetitively and then press the Cal key on the 6500 front panel Highlight the free chlorine sensor entry enter the value from the DPD analysis of the effluent and press Enter Then press Enter again to confirm the calibration 3 Applications where the sonde is attached to a YSI 6500 Process Monitor and is outputting data continuously to the 6500 For this mode of operation access the Setup sonde menu of the 6500 as described above and make certain that the Sample and Hold feature is INACTIVE Then exit to the main display mode of the 6500 by pressing the Esc key repetitively and press the Cal key on the 6500 front panel Highlight the free chlorine sensor entry enter the value from the DPD analysis of the effluent and press Enter Observe the free chlorine readings in real time and when stable press the Enter key to confirm the calibration Note that this method of YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 7 Principles of Operation Section 5 operation is NOT RECOMMENDED by YSI due to potential sensor maintenance issues as described in detail in Appendix G of this manual 4 Applications where the sonde is attached to a PC and data is being displayed to the computer monitor using the Real Time mode of Ecowatch for Windows For this mode of operation your must calibrate the free chlorine sensor before activating the Rea
359. r displays will depend on the software version System setup Date amp time MPower sonde Baud rate to sonde 9600 Shut off time minutes 0 lComma radix ID Barometer units N 0 0 000 E 0 0 000 742 2mmig 02 29 2000 15 21 05 _ria YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 13 650 MDS Section 3 Use the arrow keys to highlight the Date and Time selection and press the Enter key The following display will appear Date amp time setup Om a y Od m y Oy m d M4 digit year Date 05 31 2000 Time 11 54 24 N 0 0 000 E 0 0 000 740 8mmHg 05 31 2000 11 54 24 Omm Highlight the selection for your desired date format and press Enter to confirm it Highlight the 4 digit year selection and press Enter to toggle between 2 digit no check mark present and 4 digit check mark present options Highlight the Date selection and press Enter A cursor will appear over the first number in the date as shown in the following display Date amp time setup m d y Od m y Oy m d M4 digit year Date 5 31 2000 Time 11 55 24 N 0 0 000 E 0 0 000 740 7mmig 05 31 2000 11 55 30 QE Enter the proper number from the keypad for the first date digit Note that when you release the key the cursor moves automatically to the next number Repeat this process until the date is correct Then press Enter to confirm the Date entry Note also that as described
360. r experience with ISEs indicates that for best accuracy the isopotential point should be determined empirically To do so use a third calibration point where the voltage of the lower concentration standard is determined at a temperature at least 10 C different from the first two calibration points The slope offset and isopotential point drift slowly and the probe should be recalibrated periodically All ion selective electrodes are subject to interference from ions which are similar in nature to the analyte For example sodium and potassium ions bind to the ammonium membrane and produce positive readings even when no ammonium is present Fortunately fresh water does not usually contain enough interfering ions to produce large errors For example a common conductivity for freshwater is about 1 2 mS cm Sal 0 6 Even if the ionic content were due to sodium chloride the ammonium reading would be erroneously high about 0 4 mg L However brackish or seawater has enough sodium and potassium to cause interference so great as to make the sensor unsuitable for these media The sensor used in the sonde detects only ammonium ions NH the predominant form of total ammonium nitrogen in most environmental samples However using the concurrently determined values of pH temperature and conductivity the sonde software can also provide the user with the concentration of free ammonia NH3 in the sample under investigation Ammonium ions and fre
361. r stamped on the probe body the oxygen sensor is built with a gray body while the free chlorine sensor has a white body What are the key competitive features of the YSI Drinking Water Sondes e Use hardware software and sensors with the exception of free chlorine which have been proven in 13 years of surface and ground water usage e New free chlorine sensor which is easy to calibrate and which has been proven in extensive flow cell field testing prior to release e Relatively small size allows use at virtually any site with a water tap and a drain e Fasy setup of sonde configuration and calibration of sensors using standard reagents and techniques e Data is compatible with YSI s widely used EcoWatch for Windows software for use in custom data reports and plots e Relatively inexpensive compared to wall mounted systems utilizing separate sensors e Can be deployed at remote locations where no AC power is present e Good battery life 30 days at a 15 minute sample interval for both 6920DW with turbidity active and for the 600DW B under stand alone conditions e Can be used in four distinct modes all of which have potential use in the drinking water industry YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 2 Frequently Asked Questions About YSI Drinking Water Systems Appendix H e Stand alone with internal logging and battery or external power e Attached to a PC with real time graphic display of d
362. r will move automatically to the next Filename entry position Now enter EAST for the file name and BLUE LAKE for the site name pressing Enter after each entry to confirm Your site list should appear like that in the following display Edit site list _Edit site list Site list Site list Filename Site name Filename Site name WEST WEST BLUE LAKE EAST BLUE LAKE or to move a site or to move a site to insert a site to insert a site to delete a site to delete a site Tip Sitename will added to the Tip Leave blank to use the same header of new files filename as the previous site N 0 0 000 E 0 0 000 74L3mmhg O N 0 0 000 E 0 0 000 736 7mmng O 02 25 2000 18 19 47 07 11 2001 15 00 42 m You have now established a site list that will be available in the field for logging of data to two files on BLUE LAKE EAST and WEST To use this list you need to first make certain that the entry Use site list is active in the 650 logging setup Then travel to the first location identified by the Filename WEST activate the 650 Run display and then select either a continuous data stream Start logging or a single data entry Log single point from the 650 logging window Run 650 Main Menu a Sonde Log one sample og one sample Sonde run Start logging Start logging lean optics eee 06709 00rov 5 gdur 3 5 6 9 Logging setup 08 1 System setup 1
363. ralia power cord and 6117 battery pack included 4654 Tripod 614 Ultra Clamp 5085 Hands Free Harness 5065 Form fitting Case 5081 Hard sided Case 6117 Extra Rechargeable Battery Pack 6115 GPS Cable for interface with user supplied GPS unit 616 Cigarette Lighter Charger LOGGER TELEMETRY m 6200 Data Acquisition System 6200 DAS and Accessories Contact Endeco YSI 1 800 363 3269 for options and ordering information SOFTWARE A E 6075 EcoWatch for Windows for use with 6 series applications also available at no cost from the ysi com website 062781 PC6000 Software Available at no cost DOS Based Software upgrades for sondes and 650 See ysi com website YSI Incorporated Drinking Water Monitoring Systems Operations Manual C 3 EMC Performance Appendix D APPENDIX D EMC PERFORMANCE When using the YSI drinking water sondes in a European Community CE country please be aware that electromagnetic compatibility EMC performance issues may occur under certain conditions such as when the sonde is exposed to certain radio frequency fields If you are concerned with these issues consult the Declaration of Conformity that was enclosed with your instrument Specific conditions where temporary sensor problems may occur are listed in this document If you are unable to locate the Declaration of Conformity that was shipped with your instrument contact your local YSI representative or YSI Customer Service in Yellow
364. ration properly can result in inaccurate readings particularly in water of very low turbidity Thoroughly rinse and dry the calibration cups for future use CHLOROPHYLL 1 POINT Select Optic C Chlorophyll from the Calibrate Menu Chl pg L and then 1 1 point NOTE This procedure will zero your fluorescence sensor and use the default sensitivity for calculation of chlorophyll concentration in ug L allowing quick and easy fluorescence measurements that are only semi quantitative with regard to chlorophyll However the readings will reflect changes in chlorophyll from site to site or over time at a single site To increase the accuracy of your chlorophyll measurements follow the 2 point or 3 point calibration protocols outlined in Section 2 9 Sonde Menu Before making any field readings carefully read Section 5 12 about chlorophyll that describes practical aspects of fluorescence measurements To begin the calibration place the correct amount of clear deionized or distilled water from Tables 1 2 and 3 into the YSI clear calibration cup provided Immerse the sonde in the water Input the value 0 ug L at the prompt and press Enter The screen will display real time readings that will allow you to determine when the readings have stabilized Activate the wiper 1 2 times by pressing 3 Clean Optics as shown on the screen to remove any bubbles from the sensor After stabilization is complete press Enter to confirm the calibration an
365. rd calibration point where the voltage of the lower concentration standard is determined at a temperature at least 10 C different from the first two calibration points The slope offset and isopotential point drift slowly and you should recalibrate the probe periodically All ion selective electrodes are subject to the interaction of species with the sensor membrane which are similar in nature to the analyte For example chloride ion binds in this way to the nitrate membrane and produces positive nitrate readings even when no nitrate is present in the medium Fortunately most fresh water does not usually contain significant quantities of ions that produce a large interference on the nitrate reading such as azide perchlorate and nitrite It usually does contain some chloride and carbonate ions but the interference from these ions is relatively small For example if the all of the ionic content of water with a conductivity of 1 2 mS cm Sal 0 6 were due to the presence of sodium chloride the nitrate reading would be erroneously high by about 1 6 mg L If the conductivity in this sample were all due to sodium bicarbonate the sensor output would indicate the presence of only 0 2 mg L of non existent nitrate from the interference Even though the interference from chloride is relatively small and thus tolerable at low salinity the large quantity of this species in salt or brackish water creates interference so great as to make the sensor unsui
366. re set up in the same way However there are some key differences from the standard YSI 6 series sondes e The sonde contains a new circuit board which will allow the measurement of free chlorine instead of dissolved oxygen At the present time dissolved oxygen cannot be measured with DW sondes e The new free chlorine probe is very similar in appearance to the Rapid Pulse dissolved oxygen probe and is designed to fit in the DO port of the sonde The free chlorine sensor will probably be ordered as an accessory with each DW sonde e The DW systems are designed for use in flow cell applications and the appropriate flow cell should have been ordered with your DW sonde The sonde can be used in drinking water tanks without the flow cell but the flow dependence of the free chlorine sensor may result in a significant compromise in accuracy under these conditions e The free chlorine probe must be calibrated in situ versus a known chlorine value usually determined from a DPD analysis e The membrane of the free chlorine sensor is a different material polyvinylidene fluoride from that used with YSI dissolved oxygen sensors Teflon or polyethylene and must be installed using special tools e The electrolyte used with the free chlorine sensor is different from that used with YSI dissolved oxygen sensors Dissolved oxygen electrolyte should not be used with the free chlorine sensor YSI Incorporated Drinking Water Monitoring Syste
367. resides in the o ring groove of the probe Be sure to hold onto the O ring prior to removing the installation tool so that it does not pop out of the groove Then as shown below right remove the installation tool and make certain that the o ring is centered in the groove on probe end As shown in the picture below use a razor blade or knife to trim away the excess membrane material The pictures below show a properly installed free chlorine membrane Note that because the membrane will not stretch there may be some points where the membrane is slightly bunched up in the o ring groove This effect is normal and will not affect sensor function Also note that the presence of bubbles under the membrane is also normal and should not affect probe function YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 8 Quick Start Guide to Drinking Water Studies Appendix F Note the presence of a bubble after installation This is acceptable for a free chlorine membrane After installing the membrane either proceed immediately to the sensor activation protocol described above in the Quick Start Guide or store the probe in a beaker of tap water NOT deioinized or distilled water as shown in the picture below to prevent drying out Be sure to place the probe GENTLY into the beaker to avoid damaging the membrane integrity YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 9 Quick Start Guide to D
368. rinking Water Studies Appendix F NOTE CAREFULLY Users who are accustomed to installing a Teflon membrane on a YSI dissolved oxygen sensor should note that the methods recommended for the Teflon installation are not likely to work well for the free chlorine membrane because this membrane cannot be stretched Therefore dissolved oxygen membrane installation techniques which are outline in the manuals for various YSI instruments including standard 6 series sondes utilizing the 6562 Rapid Pulse DO sensor are NOT RECOMMENDED for the free chlorine membrane installation YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 10 Using Your DW Sonde with a 6500 Process Monitor Appendix G APPENDIX G USING YOUR DRINKING WATER SONDE WITH A YSI 6500 PROCESS MONITOR Introduction If you want to output data from your drinking water sonde to a SCADA system in either 4 20 mA or RS 485 Modbus format then you will be required to interface the sonde to a YSI 6500 Process Monitor which must be purchased separately The 6500 is shown in the picture below and generally you will set up the 6500 Sonde SCADA combination as shown in the diagram located below the picture 4 20 mA out 2 Sonde cable Relay output w MS 8 AC power in Sonde J Flow Cell Stream Alarms YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 1 Using Your DW Sonde with a 6500 Process Monitor Appendix G Detailed instructions for
369. roove Remove a white membrane sheet from the package in t below CAUTION The blue sheets are simply protective spacers and CANNOT be used as membranes for the free chlorine sensor White Membrane As shown in the pictures below lay the membrane on the probe tip that contains the electrolyte so that the probe tip is approximately in the middle of the membrane YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 7 Sondes Section 2 As shown in the picture below place the bottom of the o ring installation tool over membrane probe face and press down securely As shown in the picture below left roll the o ring off of the end of the installation tool so that it resides in the o ring groove of the probe Be sure to hold onto the O ring prior to removing the installation tool so that it does not pop out of the groove Then as shown below right remove the installation tool and make certain that the o ring is centered in the groove on probe end As shown in the picture below use a razor blade or knife to trim away the excess membrane material YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 8 Sondes Section 2 The pictures below show a properly installed free chlorine membrane Note that because the membrane will not stretch there may be some points where the membrane is slightly bunched up in the o ring groove This effect is normal and will not affect sensor function Also not
370. rring to remove residual bleach from the junction If possible soak the probe for period of time longer than 1 hour in order to be certain that all traces of chlorine bleach are removed Then rerinse the probe with clean water and retest YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 98 Sondes Section 2 Dry the sonde port and probe connector with compressed air and apply a very thin coat of O ring lubricant to all O rings before re installation 6882 CHLORIDE 6883 NITRATE AND 6884 AMMONIUM SENSORS You should clean these probes whenever deposits or contaminants appear on the ion selective membranes located on the tips of these sensor modules If possible the module should be cleaned while installed in the sonde PLIERS SLIP JAW bulkhead Use clean water and a moist piece of lens cleaning tissue to gently wipe the sensor membranes until no more contaminants are removed However under some conditions it may be necessary to remove the module from the sonde bulkhead for cleaning and or storage To remove the module follow the diagram at the side Remove the module with finger pressure only if possible However it is acceptable to use small pliers if necessary to loosen the WA module for final removal by hand Be very careful not to 7 squeeze the module any more than is necessary for a firm AMMONIUM OR a grip Use slipjaw pliers to minimize the chance of NITRATE PROBE applying too much pressure on the module W
371. rs are the default settings Only the last entry C12 gain has been affected by the calibration of the free chlorine sensor If the conductivity sensor is now calibrated the new conductivity gain value is now automatically appended to the record as shown below m d y hh mm ss 09 23 2001 178 08 23 2001 17 oem 2o20 Onl s 08 23 2001 17 08 23 2001 17 08 23 2001 178 0872 A0 0I 08723 2001 173 067267200E 08 23 2001 178 03 23 2001 T78 0872 A0 0I 0e 2372 0 Oe als OS A237 2 0 Olas 08 23 2001 17 OB 2A3 200iL a7 0 872 7 210 Ona IiTe 08 23 2001 173 OS A287 72 0 OMNI Note that the default value of the conductivity Value is 1 00 in the glp format shown above This relative number is equivalent to a real cell constant of 5 00 which is provided in the Advanced Cal ir Gn Gy Gx Cn Cn Cre Cn Gal Gy Gal Gar Ca Gn Gar Car Crk Sn Gy Qe Googe oo Oooo Ooo SQ o Cog Q Qooe o eo Co E oz Cre 1S SIS OS SO LS QO SS CO QAO a 1S 0p SoQ Qa ooo oS Oo amp Qo S amp S amp Co Oss Type Value Conductivity Celslin Ib 6 e CLZ Gaim ALC pH 7 K mV pH gain joel Cesare pH 7 K ORP offset PDST COmsited TURORO RCSESE mV nt Turb Al TUTOMMII Turb A Turb M Chl Offse lak ZN Chl M Chl A Clail iM Fluor Offset 0000 00000 05833 00 00 s69 200 O OF 00 OF OF OF OF 00 Gy OI ea oa SS or an eS Oo S CLZ Ga
372. rs purchase a 655488 Extended Calibration Cup Sleeve and substitute the extended length sleeve from the calibration cup for the shorter sleeve in the flow cell kit The extra length will eliminate any bottom interference on the turbidity readings and will be compatible with calibration of the turbidity sensor using the extended length calibration cup e Attach inlet and outlet hoses to the barbed fittings supplied with the flow cell and then insert the fittings into the proper ports of the flow cell Make certain that the hoses are attached very snugly to the barb fittings to prevent any possibility of catastrophic leakage If necessary standard hose clamps can be used to secure the hoses to the barbed fittings e Connect the inlet line of the flow cell to a drinking water tap and run the outlet line to a drain Make certain that the inlet line is securely attached to the tap and that the outline line will not pop out of the drain under flow conditions e Turn on the water to the cell so that the flow is 500 1000 mL per minute minimum 500 mL min and allow water to flow through the cell for at least 1 hour before proceeding e Set up your Unattended Sampling study as described above and allow readings to be logged to internal memory for 2 3 hours Using the File View command as described in Section 2 9 3 inspect the free chlorine readings and after they are stable proceed with the calibration as described below e Collect a sample of water from
373. ry Pack Kit with 6116 charger adapter cable 6114 110 volt wall charger and 6117 battery pack included e 6126 Rechargeable Battery Pack Kit with 6116 charger adapter cable 6123 universal charger European power cable British power cable and 6117 battery pack included e 6127 Rechargeable Battery Pack Kit with 6116 charger adapter cable 6123 universal charger China Australia power cord and 6117 battery pack included 4654 Tripod 614 Ultra Clamp 5085 Hands Free Harness 5065 Form fitting Case 5081 Hard sided Case 6117 Extra Rechargeable Battery Pack 6115 GPS Cable for interface with user supplied GPS unit 616 Cigarette Lighter Charger If you have ordered any of these accessories with your 650 make certain during the unpacking process that you have received them 3 2 2 UNDERSTANDING THE 650 MEMORY The 650 is available with two memory options low and high The less expensive low memory option 650 01 and 650 03 is designed for users who typically use their 6 series sondes in sampling applications and store limited data to their logger The available memory of the low memory option ca 10 kB will allow the user to log approximately 150 field readings to a single file in the 650 although the exact logging capability is dependent on the number of parameters active in the 6 series sonde Note also that if multiple files are utilized the number of logged field readings will be reduced In addition the low memory
374. ry setup YSI Incorporated Drinking Water Monitoring Systems Operations Manual F 2 Quick Start Guide to Drinking Water Studies Appendix F CAUTION Make certain that both inlet and outlet holes are held securely in place at the flow cell fittings and at the inlet tap and drain Failure to take these precautions can result in flooding and subsequent damage to your facility DW Sonde Flowcell Flowcell Inlet Flowcell Outle Drain Water Tap e Break in the free chlorine sensor by following the instructions below e Interface to the sonde with a PC YSI 650 Display Logger or 6500 Process Monitor as described in the manual e For PC interface select Run Discrete Sample from the main menu and begin a study at a 4 second sample interval with data displayed on the PC monitor e For 650 interface select Sonde Run from the main menu and readings will automatically appear on the 650 display Be sure that the Shut off time in the 650 System Setup menu is set to a value of zero so that the 650 maintains interface for the break in period e Fora 6500 interface plug in the 6500 and readings will automatically appear of the 6500 display e Observe the displayed readings for at least 2 hours and make sure that they are relatively stable for a period of 1 hour If possible it is prudent to simply leave the sensor running continuously overnight to assure stability prior to calibration e Calibrate the sensor according to the
375. s 1 Prior to use in the field place the sensor in clean water and perform a point calibration at 0 ug L Immerse the sonde in a dye standard see below and record the reading Note that you are not calibrating to the dye reading only checking its value relative to the default sensitivity of the sensor 3 While making your field readings sampling or unattended studies collect a few grab samples and record the date time and location where they were acquired 4 On return to the laboratory perform extractive analyses for chlorophyll on the grab samples and record the results for later use 5 After the study is complete place your YSI chlorophyll data in the column of a spreadsheet and place your laboratory data in an adjacent column for comparison Calculate ratios of field to laboratory results for each grab sample point and then average the results to produce a ratio for adjustment or postcalibration of your field results into accurate chlorophyll readings relative to extractive analysis 6 Use the calculating power of the spreadsheet to multiply all of your field readings by the correction ratio to obtain the best possible accuracy for your 6025 data OA variation of this method is to perform a 2 point calibration prior to deployment using a clear water and a dye standard setting apparent chlorophyll equivalent of the dye standard to the value shown in the tables below However it must be emphasized that this techniq
376. s See section 2 9 1 for more details Select 3 File to enter a filename with a maximum of 8 characters This is the file to which you will log readings If you started sampling without entering a filename the default name NONAME will be assigned to your file Whenever you press 1 LOG last sample or 2 LOG ON OFF from the menu NONAME 1 will be opened during sampling If this happens and you want to restart the file with a different name press 5 Close file and rename the file Select 4 Site to assign a site name with a maximum of 31 characters This allows you to enter the name of the site where you are sampling When you select 5 Open File a file is opened and the number 5 changes to Close File When you are finished logging data to the file press 5 Close File and number 5 changes back to Open File Now select 1 Start sampling to start discrete sampling After the initial sampling time interval has passed e g 4 seconds in the example above sequential lines of data similar to that shown below will appear on the screen YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 40 Sondes Section 2 Temp Sal DO pH Depth pH NH4 N NO3 N Turbid ppt SAT feet mg L mg L NTU Ao el OG wl asitemsemiposlie 2S WOCRON OES Glecnm Ope uC a 23 54 OPAO CreS 8 20 1 001 5 20 0 853 0 522 mee DOG is ON mit A CO curn ie Owe 3 Clean cities n AS 63S ORLOOMEES Cs 820 LOOL S320 0 056 0 520 A353 OR OOM Cre 8 20 1
377. s employ a field replaceable pH electrode for the determination of hydrogen ion concentration The probe is a combination electrode consisting of a proton selective glass reservoir filled with buffer at approximately pH 7 and a Ag AgCl reference electrode that utilizes electrolyte that is gelled A silver wire coated with AgCI is immersed in the buffer reservoir Protons H ions on both sides of the glass media and buffer reservoir selectively interact with the glass setting up a potential gradient across the glass membrane Since the hydrogen ion concentration in the internal buffer solution is invariant this potential difference determined relative to the Ag AgCl reference electrode is proportional to the pH of the media The pH system of the 600R utilizes individual glass sensing and reference electrodes but the operating principle is the same Our testing of the 6561 pH 6565 and 6566 pH ORP sensors and 600R pH system indicates that they should provide long life good response time and accurate readings in most environmental waters including freshwater of low ionic strength Thus no special sensor is required nor offered for water of low conductivity CALIBRATION AND EFFECT OF TEMPERATURE The software of the sondes calculates pH from the established linear relationship between pH and the millivolt output as defined by a variation of the Nernst equation E E 2 3RT pH where E millivolts output nF E a constant associated with t
378. s have formed on the electrodes it may be necessary to use a mild detergent with the brush After cleaning check the response and accuracy of the conductivity cell with a calibration standard YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 97 Sondes Section 2 NOTE If this procedure is unsuccessful or if probe performance is impaired it may be necessary to return the probe to an authorized dealer service center See Section 8 Warranty and Service Information for contact information The temperature portion of the probe requires no maintenance 6561 6561FG pH AND 6565 6565FG 6566 COMBINATION pH ORP PROBES Cleaning is required whenever deposits or contaminants appear on the glass and or platinum surfaces of these probes or when the response of the probe becomes slow Remove the probe from the sonde Initially simply use clean water and a soft clean cloth lens cleaning tissue or cotton swab to remove all foreign material from the glass bulb 6561 and 6565 and platinum button 6561 Then use a moistened cotton swab to carefully remove any material that may be blocking the reference electrode junction of the sensor CAUTION When using a cotton swab with the 6561 or 6565 be careful NOT to wedge the swab tip between the guard and the glass sensor If necessary remove cotton from the swab tip so that the cotton can reach all parts of the sensor tip without stress You can also use a pipe cleaner for this operation i
379. s options Type the appropriate number to activate deactivate any of the displayed features YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 88 Sondes Section 2 Advanced setup VT100 emulation Power up to Menu Power up to Run Comma radix 5 Auto sleep RS232 Auto sleep SDI12 Maler Sale PULL SDI12 Sample and Hold Select option 0 for previous menu 0 1 VT100 emulation Activate this option for VT100 terminal emulation This feature allows the sonde to send escape sequences to clear the screen which in turn results in an improved display Usually this feature should be activated but if your terminal or terminal emulator shows odd characters at the beginning of each menu title then turn this item off With the feature off the sonde will send several carriage returns and line feeds to clear the display The number of lt cr gt s and lt lf gt s is determined by the page length setting 2 Power up to Menu When this item is enabled the sonde will go directly to menu mode when power is applied to the sonde If the command line mode is not useful for your applications then enabling this item will negate the need to type Menu and Enter at the prompt to access the Main sonde menu Activation of this item is NOT recommended except for special applications 3 Power up to Run When this item is enabled the sonde will start sampling an
380. s shipped with a protective cap on the sensor tip which must be removed before proceeding Handle the probe with care It is very important not to drop the probe and or gouge the probe tip See Section 2 10 2 Probe Care and Maintenance for information on how often the membrane should be replaced Unpack the YSI 6572 Free Chlorine Probe Kit and follow the instructions below FREE CHLORINE SENSOR ELECTROLYTE PREPARATION Open the 6573 membrane kit which was shipped with your instrument and prepare the electrolyte solution Dissolve the KCl in the dropper bottle by filling it to the neck with deionized or distilled water and shaking until the solids are fully dissolved After the KCI is dissolved wait a few minutes until the solution is free of bubbles Z lt ADD DI OR DISTILLED FREE CHLORINE SENSOR MEMBRANE INSTALLATION Remove the protective Teflon membrane and O ring from the sensor end of the YSI 6572 Free Chlorine probe CAUTION The Teflon membrane MUST be removed for proper sensor function Remove the protective cap is installed on the connector end of the probe YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 5 Sondes Section 2 Locate the 6035 Reconditioning Kit which was supplied with your 6572 Free Chlorine Probe Use one of circular sanding disks the 6035 Reconditioning Kit to sand the face of the 6572 Probe according to the following instructions e Hold the probe in a vertical positio
381. s shown in the 650 Status Bar is the required parameter for this procedure 3 9 2 CALIBRATING THE BAROMETER The 650 barometer is factory calibrated to provide accurate readings in the 500 800 mm Hg range which will be useful for dissolved oxygen calibration at most locations This factory calibration should provide readings that are useful for dissolved oxygen calibration for many months with no user attention However if the user wishes to either increase the accuracy of the sensor in the local barometric pressure range or to compensate for YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 53 650 MDS Section 3 the small drift associated with any sensor the 650 provides a single point calibration routine which is accessed in the 650 System setup menu and is described in Section 3 3 5 above The critical factor in carrying out the single point calibration is the accuracy of the standard barometer that is used to determine the true barometric pressure Common sources of this standard reading are high quality laboratory barometers either mercury based or electronic and data from your local weather service Laboratory barometer readings are usually true uncorrected values of air pressure and can be used as is for a standard as long as the system is known to be accurate Weather service readings are usually not true i e they are corrected to sea level and therefore cannot be used until they
382. s will be available for calibration Calibrat i onG duictaivastay 6 ISE3 NH4 Aa tise em C2 7S ANOS 3 Pressure Abs S 1SinS Cl 4 ISE1 pH Q mao anelniateay SHS MORE A Chlorophyll Select option 0 for previous menu CONDUCTIVITY Select 1 Conductivity to calibrate the conductivity probe and a second menu will offer you the options of calibrating in specific conductance conductivity or salinity Calibrating any one option automatically calibrates the other two After selecting the option of choice specific conductance is normally recommended you will be asked to enter the value of the standard used during calibration Be certain that the units are correct After pressing Enter you will be able to follow the stabilization of the readings and confirm the calibration when the readings are stable by pressing Enter as instructed on the screen Then as instructed press Enter again to return to the Calibrate menu FREE CHLORINE WITH FOR UNATTENDED STUDIES WITH INTERNAL LOGGING OF DATA NOTE CAREFULLY The 6572 free chlorine sensor MUST be calibrated in situ i e in flowing drinking water whose free chlorine content has been determined by an independent method In many cases the independent method involves the use of the DPD Colorimetric Method as defined in Section 4500 Cl G of Standard Methods for the Examination of Water and Wastewater Relatively inexpensive colorimeters such as the YSI Models 900
383. screen Edit site list Site list Filename Site name Site Num 0 or to move a site B to insert a site to delete a site Tip Leave blank to use the same filename as the previous site N 0 0 000 E 0 0 000 LE 07 11 2001 15 14 36 Gmm To generate a list of Multi Site Designations for storing readings from various sites to the same file establish two entries in the site list with the same file name BLUELAKE The entries will be differentiated by different Site names WEST and EAST and more importantly by different Site Numbers 1 for WEST and 2 for EAST so that your site list appears as shown in display below Edit site list Site list Filename Site name Site Num BLUELAKE WEST BLUELAKE EAST or to move a site to insert a site to delete a site Tip Leave blank to use the same filename as the previous site N 0 0 000 E 0 0 000 07 11 2001 15 17 50 You have now established a site list that will be available in the field for logging of data from two sites WEST and EAST to a single file BLUELAKE To use this list you need to first make certain that the entry Use site list is active in the 650 logging setup Then travel to the WEST site activate the 650 Run display and then select either a continuous data stream Start logging or a single data entry Log single point from the 650 logging window and press Enter When the logging prompt is activated the site lis
384. screw the battery cap by hand Then slide the battery lid up and over the bulkhead connector Insert batteries paying special attention to polarity Labeling on the top of the sonde body describes the orientation ae eae GRASP BAIL WITH HAND TURN COUNTERCLOCKWISE TO LOOSEN Check the O rings and sealing surfaces for any contaminants that could interfere with the seal of the battery chamber Lightly lubricate the o rings on the bottom of the threads and on the connector stem as shown in the figure at the right BATTERY CAP Return the battery lid and tighten by hand DO NOT OVER CONNECTOR Wat _ 2 3 4 STEP 4 CONNECTING A FIELD CABLE As shown in the picture at left the 6920DW and 600DW B have a sonde mounted cable connector for attachment of cables Two types of cables are available a field cable in various lengths up to 200 feet and a short 6067B laboratory calibration FIELD CABLE cable CONNECTOR To attach a field cable to the sonde connector REMOVE Ii remove the waterproof cap from the sonde WATERPROOF CAP y connector and set it aside for later reassembly x during deployment or storage Then connect your field cable to the sonde connector A built in key will ensure proper pin alignment Rotate the cable gently until the key engages and then tighten the connectors together by rotating clockwise Attach the strain relief connector to the sond
385. se errors To avoid problems of this nature always make sure that the colorimeter cell has been wiped clean with lens cleaning paper both prior to taking the zero reading and after addition of reagent prior to taking an actual reading Also make certain that the reagent pills or packets are within their shelf life limitation Since the analysis is so easy to perform you should always perform repetitive analyses of the flow cell effluent until subsequent readings agree within the specification of the colorimeter typically 0 05 mg L The DPD analytical procedure for free chlorine is also susceptible to interferences from any oxidizing species other than free chlorine in the water which might oxidize the DPD reagent If these non chlorine oxidizing species are present then they will produce color in addition to that from the free chlorine and this will result in a DPD chlorine value which is erroneously high Fortunately the rate of color formation is usually relatively slow compared to that from free chlorine which is effectively instantaneous Therefore you can usually determine if extraneous oxidizing species are present in the water sample by reading the color immediately after reagent addition and then again after about 2 minutes If the value does not change significantly then the color is likely to be due to free chlorine only if the reading after 2 minutes is significantly different then it is likely that other color forming oxidants are prese
386. significant if the standard must be discarded after use according to your protocol For drinking water studies with the 6920DW and 600DW B sondes where the turbidity is usually very low YSI highly recommends the second method described above i e the one utilizing the extended length calibration cups If you wish to purchase these lengthened calibration cups the parts to order are shown below and listed in the Appendix C Accessories and Calibration Standards Extended Calibration Cup Sleeve for the 6920DW YSI Item 655488 2 6 2 CALIBRATION PROCEDURES CAUTION Before beginning the calibration of any sensors make certain that the 6572 free chlorine probe is REMOVED from the sonde bulkhead and stored in purified water Then be sure to install a port plug in the vacated free chlorine port Exposure of the free chlorine sensor to some of the reagents used to calibrate the other sensors can temporarily compromise the performance of the sensor The following calibration procedures are for the most commonly used sensors For detailed information on all calibration procedures refer to Section 2 9 2 Calibrate To ensure more accurate results you can rinse the calibration cup with water and then rinse with a small amount of the calibration solution for the sensor that you are going to calibrate Discard the rinse solution and add fresh calibrator solution Use tables 1 4 to find the correct amount of calibrator solution 1 Carefully immerse
387. simultaneously to activate the Main menu of the 6500 and highlight the Setup sonde selection and press Enter Then highlight the Sample and Hold entry and press Enter to activate the feature as evidenced by a checkmark in the box After activating the Sample and Hold feature you will also be required to enter a time interval between samples during which time the 6500 display and 4 20 mA and Modbus outputs will be frozen Use the right left arrow keys on the 6500 to move to the proper digits and then the up down arrow keys to input the proper value Then press the Enter key to confirm your interval selection Our empirical experience is that most parameter change events in drinking water systems are observed with a 15 minute sample interval the default value but to be sure you may want to select a 5 minute sample interval in the 6500 System Status menu Sample intervals of less than 5 minutes are not recommended when using your DW sonde with a 6500 in long term monitoring studies YSI Incorporated Drinking Water Monitoring Systems Operations Manual G 6 Using Your DW Sonde with a 6500 Process Monitor Appendix G Under most conditions it is best to calibrate all sensors except free chlorine with the Sample and Hold feature INACTIVE and then activate the feature just prior to logging to the start of a study which is sending data to a SCADA system and the internal memory of the sonde at the predefined Sample and Hold interval However it is accep
388. sonde especially when the probe guard is installed Dry off the outside of the sonde and probe guard Making sure that the sonde is dry reduces carry over contamination of calibrator solutions and increases the accuracy of the calibration If you are using laboratory glassware for calibration you do not need to remove the probe guard to rinse and dry the probes between calibration solutions The inaccuracy resulting from simply rinsing the probe compartment and drying the outside of the sonde is minimal Make certain that port plugs are installed in all ports where probes are not installed It is extremely important to keep these electrical connectors dry USING THE CALIBRATION CUP Follow these instructions to use the calibration cup for calibration procedures with the 6920DW and 600DW B sondes v Ensure that a gasket is installed in the gasket groove of the calibration cup bottom cap and that the bottom cap is securely tightened Note Do not over tighten as this could cause damage to the threaded portions of the bottom cap and tube v Remove the probe guard if it is installed v Inspect the installed gasket on the sonde for obvious defects and if necessary replace it with the extra gasket supplied Screw cup assembly into place on the threaded end of sonde and securely tighten Note Do not over tighten as this could cause damage to the threaded portions of the bottom cap and tube Sonde calibration can be accomplished with
389. sondes important information for Unattended studies 3 3 4 Baud rate to sonde This entry allows the user to adjust the baud rate for communication with the sonde It does not affect communication for upload of files to a PC Highlight the entry and press Enter Then select the baud rate of choice and press Enter to confirm it CAUTION The baud rate for the 650 MUST match that in the sonde usually set at 9600 or communication with the sonde will not be possible Unless you know that your sonde is set to a baud rate different than 9600 YSI strongly recommends that you leave the baud rate for the 650 set to the default value of 9600 3 3 5 Shutoff Time This value represents the number of minutes until the 650 automatically shuts down to save batteries Values can be integers from 1 to 15 or enter 0 to disable the shutoff completely 3 3 6 Comma radix The user can toggle between a period default and comma for the radix mark by selecting this item and pressing the Enter key If you change your radix mark in the 650 make sure that you also change it to the same symbol in the sonde Advanced Setup menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 19 650 MDS Section 3 3 3 7 ID Activate this item and Enter choice of instrument identification limit 11 characters for your 650 as described in Section 3 1 8 above 3 3 8 Circuit board SN This item identifies the serial number of the circuit board reside
390. sor fully does not cover entire sensor Conductivity probe requires Follow cleaning procedure 2 10 2 cleaning Installed probe has no 2 9 5 reading 2 10 1 8 C 5 Internal failure Return sonde for service 8 Temperature unstable 2 10 2 or inaccurate Turbidity probe unstable or inaccurate Error messages appear Replace probe 8 daring calibration synchronized Make sure setscrew is tight Internal failure Return probe for service 8 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 6 4 Communications Section 7 SECTION 7 COMMUNICATION This section describes the communication protocols that the Sondes use to communicate with the host system Section 7 1 gives a brief overview of the communication ability of the Sondes The remaining sections describe available hardware and software features 7 1 OVERVIEW The sondes communicate via a serial port that can be configured as either a SDI 12 or a 3 wire RS 232 interface The normal mode of operation for the sonde is RS 232 with the following configurations Baud rate 300 600 1200 2400 4800 9600 Data Bit 8 Parity None Handshake None For further detail into the sondes RS 232 and SDI 12 implementations see Sections 7 3 and 7 4 respectively With these configurations the Sonde is capable of interfacing to a variety of devices from a dumb terminal to numerous data collection platforms 7 2 HARDWARE INTERFACE Connection
391. stantly available in the field to simply file site management e Set up Site Designations that are characterized by a File Name and a Site Name for simple logging of data from a single site to a single file e Set up Site Designations that are characterized by a File Name a Site Name and a Site number which correlates with the Site name These lists allow the logging of data from more than one site to the same file e Easily view data on the 650 display that has been stored to either sonde or 650 memory e Easily upload data that has been stored in either sonde or 650 memory to a PC for analysis using EcoWatch for Windows software from YSI 3 5 4 2 SUMMARY OF 650 LOGGING LIMITATIONS WITH A 650 YSI SONDE SYSTEM THE USER CANNOT e Log GPS and or barometer data to sonde memory e Log GPS and or barometer to 650 memory without a sonde attached and the 650 in Run mode See Sections 3 8 2 and 3 9 4 below e Log data to existing files in 650 memory if the data format does not EXACTLY match that of the data already in the file Typical examples of this type of file mismatch include e Attempting to append existing data files after changing the parameter list e Attempting to append existing data containing a Site Number to a file that contains data without Site numbers e Attempting to append existing data containing NO site number to a file that contains data with Site numbers e Attempting to append existing files contain
392. t will automatically appear on the display and be available for use in your study as shown below First highlight the entry with the WEST Site name since your are at that location and press Enter to log data to the 650 memory An indication that the logging was successful will appear in the 650 logging window Then move to the next location EAST activate the 650 logging function and repeat the logging process but this time highlighting the EAST Site name entry Pick a site then press 4 Pick a site then press 4 Site list Site list Filename Site name Site Num Filename Site name Site Num BLUELAKE WEST BLUELAKE WEST 1 BLUELAKE EAST 2 IBLUELAKE EAST 2 N 0 0 000 E 0 0 000 9 coum N 0 0 000 E 0 0 000 02 25 2000 21 41 12 02 25 2000 21 38 13 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 41 650 MDS Section 3 NOTE If you want to return to the Edit site list display for changes before logging use the RIGHT ARROW KEY to highlight the Configure selection and press Enter The up down arrows will only scroll within the Site list The data for two different sites has now been logged to the single file BLUELAKE that can be either viewed manually using the 650 View file menu or uploaded to EcoWatch for Windows from the 650 FilelUpload to PC menu The Site Number 1 for the WEST site and 2 for the EAST site will be stored with each data point and will be thus be available
393. t a certain portion of the graph to be displayed Click the button and then click and drag on the graph to select the portion you want to view The pointer will change to a magnifying glass The button will stay active until you click on it again Center Scroll Use this to scroll through the study Click the button and the pointer will change to a bullseye Click anywhere on the graph and that spot will move to the center Limit Data Set Use this button to reduce the data being processed and speed up operations Click the button and move the pointer to the graph A vertical arrow will appear with an N on the left and an Y on the right Bracket the desired portion of the graph by moving the cursor to the left limit clicking moving to the right limit and clicking again To limit the data in a table move the pointer to the far left of the table into the row numbers area and highlight from the desired cutoff point to the beginning or end of the data set whichever is desired Then select the Limit Data Set option from the Graph menu or use the toolbar shortcut To remove the limits from the Graph menu choose Cancel Limits You may also remove the limits using this button by clicking first on the right and then the left YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 9 EcoWatch for Windows Section 4 Unzoom Use this button to view the study from the beginning limit to the end limit This command can be used on both graphs
394. t bladed screwdriver or similar blunt tipped tool to remove the o ring from its groove Check the o ring and the groove for any excess grease or contamination If contamination is evident clean the o ring and nearby plastic parts with lens cleaning tissue or equivalent lint free cloth Alcohol can be used to clean the plastic parts but use only water and mild detergent on the o ring itself Also inspect the o rings for nicks and imperfections CAUTION gt Using alcohol on o rings may cause a loss of elasticity and may promote cracking gt Do notusea sharp object to remove the o rings Damage to the o ring or the groove itself may result Before re installing the o rings make sure that you are using a clean workspace clean hands and are avoiding contact with anything that may leave fibers on the o ring or grooves Even a very small bit of contamination hair grit etc may cause a leak To re install the o rings gt Place a small amount of Teflon stopcock grease between your thumb and index finger More grease is NOT BETTER gt Draw the o ring through the grease while pressing the fingers together Use this action to place a VERY LIGHT covering of grease to all sides of the o ring Place the o ring into its groove making sure that it does not twist or roll gt Use the previously grease coated finger to once again lightly go over the mating surface of the o ring DO NOT use excess grease on the o ring or the o ring groove CAU
395. t capture file was checked in Communications Settings EcoWatch will not display this dialog YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 29 EcoWatch for Windows Section 4 File Capture Eyes E ecowwin amp y data A common example is using a sonde in Run Mode The sonde is simply taking readings and sending them to the COM port If you want to keep a record of these readings then a simple way to do so is to turn Capture on When you are finished run the Capture command again to turn it off FILE UPLOAD Use this command to upload files from any device that uses Xmodem file transfer protocol First initiate the upload from the device then choose this command This command is enabled only when the Xmodem or Xmodem 1K protocol has been selected in Port Setup DIAL MODEM If you have specified a default phone number in the Modem tab of the communications Settings dialog box then this command will call that number If you have not specified a default number then you will be asked for a number HANG UP MODEM Hangs up phone and halts communication with the modem SEND ASCII FILE Sends a file in to the device connected to the terminal using plain ASCII protocol No handshaking or error correction is involved SEND XMODEM FILE Sends a file to the device connected to the terminal using XModem protocol YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 30 EcoWatch f
396. t sampling option to start discrete sampling After the initial sampling time interval has passed 4 seconds in the screen above sequential lines of data will appear on the screen Date Time Temp SpCond Sail CilZ Depth pH Turbid Battery mm dd yy hh mm ss Cam EN pet mg L feet NTU volts mes L LOG last samole 2m VOCON OREP ECC Opee SKA 05 05 97 1004340 21 57 0 009 0 00 0 95 293 7 55 O35 10 2 05 05 97 LOsO4s44 21 57 0 009 0 00 0 96 0 300 7 55 ORS 10 3 ames WOE ae ON Mire Zico tiem at Owl 5 Clean Cotress si 057 05 97 LOs 4s43 21 58 0 009 0 00 O 95 0 302 7 55 O 3 10 3 057 05 97 10sO04s52 21 58 0 009 0 00 0 95 0 302 7 55 Ons 10 3 O5 05 97 10304556 21 58 0 009 0 00 O 95 0 303 7 55 ORS 10 2 057 05 97 10 05 00 21 58 0 009 0 00 O 96 0 303 7 55 03 10 3 sss L LOG last semole 2 LOG ON OHs 3 Cleam ceries O5 O05 97 10 05 04 21 58 0 009 0 00 O 96 0 304 7 55 O 3 10 3 Sample logged 05 05 97 IOsO5308 21 58 0 009 0 00 O 95 0 305 7 55 ORES 10 3 The following prompt will appear just below the screen header 1 LOG last sample 2 LOG ON OFF 3 Clean optics e By entering 1 LOG last sample A single line of data can be logged to sonde memory and the following message will be displayed Sample logged e By entering 2 LOG ON OFF a set of data can be logged to memory and the following message will be displayed LOG is ON hit 2 to turn it OFF 3 Clean optics Press 2 again to terminate logging e By entering 3 C
397. t units C K Select option 0 for previous menu After configuring your display with the desired parameters press Esc or 0 to return to the Main menu CHECKING ADVANCED SETTINGS Select Advanced from the Main menu The following menu will be displayed Advanced i Caleiconsitanites 2 Setup 3 Sensor 4 Data filter Select option 0 for previous menu Select Setup from the Advanced menu Advanced setup 1 VT100 emulation 2 Power up to Menu 3 Power up to Run 4 Comma radix Da Ga Auco SCC Om SA 6 Auto sleep SDI12 Toe Vile esi ie 8 Full SDI12 Select Rope longs 0 tor previous menuje Make sure that other than Auto sleep RS232 all entries are activated or deactivated as shown above For sondes which will be used in sampling studies where the user is present and observes readings in real time Auto sleep RS232 should usually be off For sondes that will be used in unattended monitoring YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 24 Sondes Section 2 studies Auto sleep RS232 should usually be on This is described in detail in Section 2 9 Sonde Menu When this setup is verified press Esc or 0 to return to the Advanced menu Select 3 Sensor from the Advanced menu and make certain that the entries are identical to those shown below Advanced sensor RD Smconsitemte ORIG 5
398. t you cannot change FS Area First Upload Location and Number of Arrays to Upload are fields that you must enter Refer to your CR10 manual for instructions Select a destination file under Upload File use the Browse button as needed and click Upload YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 40 EcoWatch for Windows Section 4 FS Area fel e Number of Filled jo DSP Locations fi Locations Location Upload File CRIOTEST CRi First Upload fi eri halts fi o Uploa 4 3 9 WINDOW The Window menu offers the following commands that enable you to arrange multiple views of multiple documents in the application window CASCADE Use this command to arrange multiple opened windows in an overlapped fashion TILE HORIZONTAL Use this command to vertically arrange multiple opened windows in non overlapped horizontal tiles TILE VERTICAL Use this command to arrange multiple opened windows side by side ARRANGE ICONS Use this command to arrange the icons for minimized windows at the bottom of the main EcoWatch window If there is an open document window at the bottom of the main window then some or all of the icons may not be visible because they will be underneath this document window WINDOW 1 2 EcoWatch displays a list of currently open document windows at the bottom of the Window menu A check mark appears in front of the document name of the active window Choose a document from this list
399. table for these media Despite the potential problems with interference when using ISEs it is important to remember that almost all interfering species produce an artificially high nitrate reading Thus if the sonde indicates the presence of only small quantities of nitrate it is unlikely that the reading is erroneously low because of interference Unusually high nitrate readings which could be due to interfering ions should be confirmed by laboratory analysis after collection of water samples Ion selective electrodes have the greatest tendency to exhibit calibration drift over time of all the sensors available on the sonde This drift should not be a major problem for sampling studies where the instrument can be frequently calibrated However if a nitrate sensor is used in a longer term deployment study with YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 9 Principles of Operation Section 5 the sonde the user should be aware that drift is almost certain to occur The extent of the drift will vary depending on the age of the probe the flow rate at the site and the quality of the water For all monitoring studies using ion selective electrodes the user should acquire a few grab samples during the course of the deployment for analysis in the laboratory by chemical means or with another nitrate sensor which has been recently calibrated Remember that the typical accuracy specification for the sensor 10 of t
400. table to calibrate any parameters with an ACTIVE Sample and Hold feature as long as a certain precaution is followed This precaution involves making certain that the sonde has been in the flow cell and connected to a 6500 for at least one Sample and Hold interval prior to implementing a calibration from the 6500 keypad Thus if the Sample and Hold interval is 15 minutes and the sonde was attached to the 6500 at 15 00 you should wait until the 15 15 reading appears on the 6500 display prior to calibrating any sensor with the Sample and Hold feature active As noted above in any case you should wait for 1 2 hours i e several Sample and Hold intervals before calibrating the free chlorine sensor whether or not the Sample and Hold feature is active NOTE CAREFULLY FAILURE TO WAIT AT LEAST ONE SAMPLE AND HOLD INTERVAL PRIOR TO CALIBRATING WITH THE SAMPLE AND HOLD FEATURE ACTIVE IS LIKELY TO RESULT IN ERRONEOUS CALIBRATIONS AS NOTED ABOVE IT IS BEST TO CALIBRATE ALL SENSORS EXCEPT FREE CHLORINE WITH THE SAMPLE AND HOLD FEATURE INACTIVE AND THEN CALIBRATE FREE CHLORINE AT A LATER TIME Carry Out Spot Checks of Accuracy and Recalibrate as Necessary You should confirm the accuracy of your free chlorine readings relative to a DPD colorimetric analysis within one week of your deployment and as often as possible thereafter Although YSI s extensive empirical testing program has indicated that the sensor is capable of remaining within the accuracy specifi
401. take as long as 30 minutes to reach a stable value When it does proceed with the calibration gt When calibrating pH remove ISE modules from the sonde bulkhead and plug the ports After pH calibration is complete replace the ISE sensors and proceed with their calibration with no stabilization delay YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 33 Sondes Section 2 TURBIDITY 2 POINT Select Optic T or Optic C Turbidity 6136 from the Calibrate Menu and then 2 2 Point NOTE Before calibrating your 6136 turbidity sensor pay particular attention to the following cautions e To properly calibrate YSI turbidity sensors you MUST use standards that have been prepared according to details in Standard Methods for the Treatment of Water and Wastewater Section 2130 B Acceptable standards include a formazin prepared according to Standard Methods b dilutions of 4000 NTU formazin concentrate purchased from Hach c Hach StablCal standards in various NTU denominations and d AMCO AEPA standards prepared specifically for the 6026 and 6136 by either YSI or approved vendors who are listed on the YSI website www ysi com STANDARDS FROM OTHER VENDORS ARE NOT APPROVED FOR THE YSI TURBIDITY SYSTEM AND THEIR USE WILL LIKELY RESULT IN BOTH CALIBRATION ERRORS AND INCORRECT FIELD READINGS e For AMCO AEPA standards the value entered by the user during the calibration protocol is DIFFERENT depending on which sensor 60
402. ted to readings in mBar after upload 3 10 UPGRADING 650 SOFTWARE The 650 software can easily be upgraded from the YSI World Wide Web page www ysi com However before accessing the Web page the instrument should be prepared for upgrade by attaching the MS 8 end of the YSI 655174 PC Interface cable to the 650 and the DE 9 end of the 655174 to a serial port of a PC which has Internet access as shown below 650 Computer with Internet 655174 PC Interface Access Cable DE 9 Serial A Pot _ _ gt Once the setup is complete access the YSI Web Page and locate the section on software upgrades Select the 650 upgrade entry and follow the instructions provided on the Web Page If you encounter difficulties in the upgrade procedure contact YSI Customer Service for advice YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 55 650 MDS 3 11 TROUBLESHOOTING Section 3 The following sections describes problems which you might encounter when using the 650 MDS and provides suggestions which might allow the user to overcome the symptom without additional assistance PROBLEM POSSIBLE SOLUTION No display is visible after pressing the on off key If C cells are used make certain that they are installed properly with regard to polarity and that good batteries are used If a rechargeable battery pack is used place the pack in the instrument and charge for 30 minutes
403. ted with the proper wavelength of light and thus the YSI 6130 rhodamine WT sensor works on the same principles as described above for the 6025 chlorophyll sensor As for chlorophyll rhodamine WT fluoresces that is when irradiated with light of a particular wavelength it emits light of a higher wavelength or lower energy The ability of rhodamine WT to fluoresce is the basis for all commercial fluorometers capable of measuring the analyte in situ Fluorometers of this type have been in use for some time These instruments induce rhodamine WT to fluoresce by shining a beam of light of the proper wavelength into the sample and then measuring the higher wavelength light which is emitted as a result of the fluorescence process Most rhodamine systems use a light emitting diode LED as the source of the irradiating light that has a peak wavelength of approximately 540 nm LEDs with this specification produce radiation in the visible region of the spectrum with the light appearing green to the eye On irradiation with this green light rhodamine WT in the water emits visible light with a higher wavelength than that of the exciting beam i e the rhodamine fluoresces To quantify this fluorescence the system detector is usually a photodiode of high sensitivity that is screened by an optical filter that restricts the detected light The filter minimizes a the exciting light being detected when it is backscattered off of particles in the water and b the int
404. ter Advanced NOTE When using the 650 all sonde functions are accessed through the Sonde menu prompt These include Activating Deactivating sensors Setting up the desired Report output Calibrating the sensors Changing the sample interval for Discrete Sample studies Performing file management functions on the memory in the sonde Checking the Status or System setup of the sonde Setting up sondes for Unattended sample deployments Setting up sondes for Discrete sample logging studies to sonde memory Uploading files from the sonde memory to the 650 Earlier YSI display loggers such as the 610 D and 610 DM had many of these functions as distinct items in the display menu structure a significant difference from the 650 YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 22 650 MDS Section 3 3 4 2 SONDE MENU EXAMPLES To become familiar with the 650 Sonde menu function YSI recommends that the user connect a sonde to their 650 and proceed through the following two examples of common sonde interface operations Example 1 Setting up the Report Output Activation of the Salinity Parameter Highlight the Sonde menu selection in the 650 Main menu and press Enter Then use the arrow keys highlight the Report selection and press Enter again 650 Main Menu Sonde run Run Calibrate File File Logging setup Status System setup System Sensor Advanced N
405. ter the chlorophyll content of grab samples taken during a sampling or monitoring study has been analyzed in a laboratory This determination can involve conducting the extractive analysis procedure described for chlorophyll in Methods for the Examination of Water and Wastewater or by carrying out an in situ measurement of chlorophyll using a commercial benchtop fluorometer The Fluor zero option is used to zero the fluorescence probe in a medium that is chlorophyll free Place the sonde in clear water and input 0 at the screen prompt Press Enter and the screen will display real time readings that will allow you to determine when the fluorescence readings have stabilized Press Enter after the readings have stabilized to confirm the calibration and zero the sensor Then press any key to return to the Calibrate menu If you select Chl ug L in the initial calibration routine there will be a choice of 1 point 2 point or 3 point options The 1 point selection is normally used to zero the fluorescence probe in a medium that is chlorophyll free If you use this method you will either choose to utilize the default sensitivity for chlorophyll in the sonde software or to update a previous multipoint calibration Usually you will place the sonde in clear water and input 0 pg L at the screen prompt After pressing Enter the screen will display real time readings allowing you to determine when the chlorophyll readings have stabilized Press Enter after the re
406. ters This command opens the TSS Calibration window and allows calibration adjustment Calibrate TSS How do I add TSS to my data file You must have a data set that includes Turbidity data points It is also common to use a 0 to 0 correlation as a base point in these measurements This can be used as the first correlation point You need to establish a correlation between your Turbidity reading and a TSS value This is done by taking a sample and noting its Turbidity in NTU s Then run a lab analysis to obtain a total suspended solids reading You have now determined one correlation point Once you have at least two correlation points you have established a linear correlation between the two measurements EcoWatch allows you to enter up to five correlation YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 36 EcoWatch for Windows Section 4 points The more correlation points you have the higher that your accuracy will be To add the TSS parameter to your data file go to the Setup menu Choose Parameters then Add Remove Select the TSS parameter and click the Add button The Calibrate TSS window will appear Name the file for identification in the future Multiple calibration files may be created Any previously created calibration files will be located in the drop down name list box Once you have entered the desired number of correlation points click OK EcoWatch will calculate the TSS values by doing a li
407. tery configuration and for the rechargeable battery pack option Operating Temperature Range for Visible Display 10 to 60 Degrees Celsius Storage Temperature Range 20 to 70 Degrees Celsius Dimensions 9 13 inches long by 4 75 inches wide by 2 25 inches deep Weight with 4 Alkaline C cells and no attached sonde or cable Approximately 2 1 Ibs 960 g Display 4 VGA LCD with 320 by 240 pixels with backlight Connector MS 8 Meets IP 67 specification Standard Battery Configuration 4 Alkaline C Cells with detached battery cover Optional Battery Configuration Nickel Metal Hydride Battery Pack with attached battery cover and 110 volt charger Battery Life Approximate battery life for typical sampling applications with 4 alkaline C cells 3 hours of on time per day for 0 5 month 10 working days with the meter powering a 6600 sonde with all probes active Approximate battery life for typical sampling applications with rechargeable battery pack 3 hours of on time per day for 0 2 months 4 working days with the meter powering a 6600 sonde with all probes active Battery capacity restored completely with a 6 hour charge and charged to approximately 85 with a 2 hour charge YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 61 650 MDS Section 3 Barometer Range 500 to 800 mm Hg Resolution 0 1 mm Hg Accuracy 3 mm Hg within 15 C of the calibration temperature Communication Protocol
408. the 650 during logging and this factor may be a consideration if you have purchased a 650 with Low memory and you do not really require this information in your file Once these selections have been made highlight the Edit site list selection and press Enter to display the screen below Note that you can use the left right arrows to scroll between the Filename and Site name selections and that tips about the meaning of these terms is provided at the bottom of the display depending on the position of the cursor Edit site list _Ediit site list Site list _ __ Site list Filename Site name Filename Site name or to move a site or to move a site to insert a site B to insert a site to delete a site to delete a site Tip Leave blank to use the same Tip Sitename will added to the filename as the previous site header of new files N 0 0 000 E 0 0 000 EE al N 0 0 000 E 0 0 000 741L1mmig 07 11 2001 14 33 54 g 06 09 2000 08 53 48 BLC Nm To make Site list entries for this application begin by highlighting the Filename position pressing Enter and inputting the file name WEST in this case from the keypad Press Enter to confirm the entry and the cursor will automatically move to the right for the entry of a Site name Enter BLUE LAKE for the site and press Enter to confirm the entry The curso
409. the calibration temperature This temperature error can be reduced by employing a chlorophyll temperature compensation routine Chl tempco resident in the sonde software under the Advanced Sensor menu From our studies it appears that entry of a value of 1 to 2 per degree C for Chl tempco is appropriate to partially account for changes in the fluorescence of environmental phytoplankton with temperature This value can be estimated in the above example as follows Change in Temperature 21 1 20 C Change in Fluorescence 226 185 41 ug L Change in Fluorescence 41 185 x 100 22 1 Chl Tempco Factor 22 1 20 1 11 per degree C Note that the use of this empirically derived compensation does not guarantee accurate field readings since each species of phytoplankton is likely to be unique with regard to the temperature dependence of its fluorescence Changes in fluorescence with temperature are a key limitation of the in vivo fluorometric method see below which can only be reduced not eliminated by this compensation In general the best way to minimize errors is to calibrate with phytoplankton standards of known chlorophyll content that are as close as possible in temperature to that of the environmental water under investigation EFFECT OF FOULING ON OPTICAL MEASUREMENTS Field optical measurements are particularly susceptible to fouling not only from long term build up of biological and chemical debris but als
410. the following operations are provided in the noted sections of the manual which you received with your 6500 Process Monitor e Supplying power to the 6500 Section 2 5 2 e Connecting the sonde to the 6500 Section 2 5 1 e Configuring the 4 20 mA current loops to the existing sensors Section 3 3 4 e Interfacing the current loop or modbus output of the sonde to your SCADA system Section 2 5 3 e Using the 6500 software to set up your sonde calibrate sensors and customize the display Section 3 2 This appendix to the Drinking Water Sondes Manual is designed as a Quick Start guide to common operations involved in using your DW sonde with a 6500 and is also designed to be used as a check list for this application In addition this appendix explains in detail the Sample and Hold feature of the DW sonde software which has been designed specifically for applications in which the DW sonde is interfaced to a6500 Please refer to the following schematic diagram for many of the operations described below Single 12 pin connector for relay outputs RS485 for Modbus AC Power connector RS232 for Modbus and Grounding af D software upgrades crews 10 32 D OO
411. the probes into the solution and rotate the calibration cup to engage several threads YSI recommends supporting the sonde with a ring stand and clamp to prevent the sonde from falling over 2 With the proper cable connect the sonde to a PC access EcoWatch for Windows and proceed to the Main menu for information on how to run EcoWatch for Windows software see Section 2 4 2 Running EcoWatch Software From the sonde Main menu select 2 Calibrate Callbillorgats iE Conductanantay 6 ISE3 NH4 DWTS CZ ESEA NOS 3 Pressure Abs S Cpoere RUvieloalesiicy oO26 4 ISE1 pH JS OpEtcme hilkoraop inva SS SEZ ORE Select option 0 for previous menu 3 Note that the exact appearance of this menu will vary depending upon the sensors that are available and enabled on your sonde To select any of the parameters from the Calibrate menu input the number that is next to the parameter Once you have chosen a parameter some of the parameters will have a number that appears in parentheses These are the default values and will YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 29 Sondes Section 2 be used during calibration if you press Enter without inputting another value Be sure not to accept default values unless you have assured that they are correct If no default value appears you must type a numerical value and press Enter 4 After you input the calibration value or
412. tion 0 for previous menu e Setup your Unattended Sampling study as described above and allow readings to be logged to internal memory for 2 3 hours Using the FilelView command as described in Section 2 9 3 inspect the free chlorine readings and after they are stable proceed with the calibration as described below If you are using a 6500 Process Monitor observe the real time readings on the display for 2 3 hours and make certain they are stable before proceeding with the calibration e Collect a sample of water from the outlet hose of the flow cell and immediately analyze it for free chlorine using an independent method e g the DPD method with a YSI 9100 Photometer e If using a PC or 650 Display Logger for sonde interface return to the Main menu using the Esc key and select 2 Calibrate and then 4 Free C12 e NOTE If using a 6500 Process Monitor for the sonde interface perform the calibration according to the instructions in Section 4 of the 6500 manual e At the prompt input the independently determined free chlorine value and press Enter A display similar to that shown below will appear on either the computer monitor or the 650 display The calibration will occur automatically after the countdown on the screen reaches zero YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 38 Sondes Section 2 Temp SpCond Sal DOsat CA Depth pH NH4 N NO3 N Turbid C morom ppt mg L feet mg L mg L NTU
413. tions Manual 3 10 650 MDS Section 3 Note that the screen is divided into two sections the Main Display at the top and a Status Bar at the bottom The Main Display will provide access to the 650 and sonde menus and will be used to view sonde sensor readings in real time to configure the 650 and the sonde to calibrate the sonde sensors and to log data to either sonde or 650 memory The Status Bar will always show the date and time of the 650 clock updated in real time the remaining battery capacity the current barometer reading if you have purchased this option the GPS readings from a user supplied GPS instrument and will indicate whether the menu being viewed in the Main Display is associated with your sonde or the 650 Additional information about the Status Bar will be provided in Section 3 2 10 of this manual You may also want to take the instrument into a dark room and with the instrument turned ON press the backlight key which is located at the top right of the keypad The instrument backlight should illuminate the LCD so that the display can be read Pushing the backlight key again will turn the backlight off The backlight will power off automatically after two minutes of non use 3 2 7 ADJUSTING THE DISPLAY CONTRAST The contrast of the 650 display is automatically temperature compensated to provide a proper display under most field conditions 10 to 40 C Some users however may wish to alter the display con
414. tive compounds in solution are HOCI and OCI Thus YSI free chlorine readings are expressed in units of C12 mg L rather than HOCI OCI mg L to be consistent with standard reporting convention There are two categories of chlorine in most treated drinking water free chlorine HOCI OCT and combined chlorine which is made up of species formed in the reaction of free chlorine with ammonia which is present in the water Combined Chlorine is thus made up of a general class of compounds called chloramines with formulae such as NH Cl NHC1 and NCl In water which is treated just with chlorine there will be a small amount of combined chlorine from the natural ammonia in the water and a large amount of free chlorine in water which is treated with both free chlorine and ammonia there will be a small YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 5 Principles of Operation Section 5 amount of free chlorine and a large amount of combined chlorine Total Chlorine is defined as the sum of the free and combined chlorine concentrations Combined chlorine is usually not measured directly Instead the free chlorine is measured by a color forming chemical test under one set of conditions and the total chlorine is measured colorimetrically under a slightly different set of conditions Since Total Chlorine Free Chlorine Combined Chlorine the Combined Chorine is calculated as the difference between the Total and Free C
415. tivity Temperature 6 pin connector 6561 pH 4 pin connector 6565 Combo pH ORP 4 pin connector 6566 Fouling Resistant pH ORP 4 pin connector 6561FG pH Flat Glass 4 pin connector 6565FG pH ORP Flat Glass 4 pin connector 6882 Chloride Probe leaf spring connector 6883 Ammonium Probe leaf spring connector 6884 Nitrate Probe leaf spring connector 6026 Turbidity Probe Wiping 8 pin connector 6136 Turbidity Probe Wiping 8 pin connector 6025 Chlorophyll Probe Wiping 8 pin connector 6130 Rhodamine WT Probe Wiping 8 pin connector OUOOCOOOOKDKCOOOD LUBRICATE O RINGS Apply a thin coat of O ring lubricant supplied in the YSI 6570 Maintenance Kit to the O rings on the connector side of each probe that is to be installed CAUTION Make sure that there are NO contaminants between the O ring and the probe Contaminants that are present LUBRICATE O RINGS under the O ring may cause the O ring to leak when the sonde is deployed NOTE Before installing any probe into the sonde bulkhead be sure that the probe port is free of moisture If there is moisture present you may use compressed air to blow out the remaining moisture INSTALLING THE TURBIDITY CHLOROPHYLL AND RHODAMINE WT PROBES If you have a turbidity chlorophyll and or rhodamine WT probe it is recommended that the optical sensors be installed first If you are not installing one of these probes do not remove the port pl
416. to EcoWatch for Windows from the 650 File menu This means that all data for the West and East sites are located in separate files identified by the Filenames WEST and EAST as shown in the 650 File Directory below 650 File Filename Samples Bytes Upload to PC EAST 1 363 View file File memory Delete all files N 0 0 000 E 0 0 000 TLT N 0 0 000 E 0 0 000 TAL Goa 02 25 2000 17 19 17 Qmm 02 25 2000 17 20 46 ommi Details of the files shown by pressing Enter when the File is highlighted in Directory are shown below Note that the site name BLUE LAKE is listed in the file since the data was logged using Single Site Designations File details iew file File WEST dat Site BLUE LAKE ID YSI 650 File details iew file File EAST dat Site BLUE LAKE ID YSI 650 Samples 1 Bytes 325 First 07 11 2001 15 06 40 Last 07 11 2001 15 06 40 N0 0 000 E 0 0 000 ELE 07 11 2001 15 08 49 Qmm Samples 1 Bytes 325 First 07 11 2001 15 06 51 Last 07 11 2001 15 06 51 N0 0 000 E 0 0 000 ELE 07 11 2001 15 09 20 Qmm YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 39 650 MDS Section 3 These files will remain open in 650 memory so that you can return to each location at a future time and log more data to the file designations WEST and EAST but see note below The key for this Site list setup is that all data logged will be stored in a
417. to activate the RunlDiscrete Sample submenu of the Main 6 series menu Ifthe Sonde run selection is made data automatically appears on the screen at a sample interval of approximately 1 second However if the user chooses to use the Run function from the sonde menu the sample rate can be set to higher values in the Discrete Sample menu This feature will be described in detail in Section 3 5 2 To Run the sonde from the Discrete sample menu highlight Start sampling and press the Enter key 3 4 3 2 Setting up a sonde for deployment Use the 650 Sonde menu selection to access RunlUnattended sample and then proceed with the setup for the monitoring study as described in detail in Section 2 of the 6 series manual Use the keypad to set the sample interval and input file and site names Then highlight Start logging and press Enter to begin the Unattended study in which data is logged directly to the sonde memory Finally disconnect the 650 and deploy the sonde 3 4 3 3 Uploading data from sondes to the 650 Use the 650 Sonde menu selection to access the sonde File menu and then choose either a Quick upload all data in the last file or Upload complete or partial data in any sonde file as described in detail in Section 2 of the 6 series manual After the proper selection is made press Enter and the file will be transferred automatically to the 650 memory with the 650 display indicating that an upload is in progress The uploading of data files from son
418. to be relatively stable the displayed chlorophyll reading can vary significantly depending on the nature of the particles in the optical path at the instant of measurement In a discrete sample study of environmental water for example the variability of the output can be significant This apparent jumpiness is not observed in dye standards since these are homogeneous solutions containing no suspended matter 4 The sonde chlorophyll system allows the user to apply a mathematical filter to the raw data so that the sensor output may be more representative of the average phytoplankton content of the environmental sample From the 8 Advanced menu of the sonde software the user can activate the data filter and adjust its performance For typical sampling and monitoring applications YSI recommends that the Data Filter settings for chlorophyll be selected as follows Enabled On Wait for Filter Off Chlorophyll Time Constant 12 Chlorophyll Threshold 1 The advantage of the filter is a more stable display of chlorophyll readings YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 22 Principles of Operation Section 5 5 14 RHODAMINE WT INTRODUCTION AND PRINCIPLE OF OPERATION Rhodamine WT is a red dye that is commonly used in stream flow studies The amount of the species at various points horizontal and vertical in the water under examination is determined by utilizing the fact that rhodamine WT fluoresces when irradia
419. to choose PC6000 format After it is uploaded the data will be in a DAT file on your PC You can then use EcoWatch to view manipulate and print the data file 4 2 3 UPLOAD A FILE FROM A 650 DM DISPLAY LOGGER To transfer data files resident in the 650 memory either logged directly or uploaded from sonde memory to a PC that is running YSI EcoWatch for Windows software you must first connect the 650 to a serial port of your computer via the 655174 PC Interface cable as shown in the diagram above After the connection is made run EcoWatch for Windows click on the sonde icon in the upper toolbar and set the Comm port number to match your interface After this setup procedure the following screen will be present on your PC monitor YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 8 EcoWatch for Windows Section 4 To transfer data from the 650 to your PC highlight the Upload to PC selection in the 650 File menu and press Enter to view a list of the files Highlight the file that you wish to transfer and press Enter The 650 and PC displays will show the progress of the file transfer until completion 650 File _ Filename Samples Bytes Directory PROFILE txt 0 EEEL DEPLOY dat 132 5658 View file 00003FA3 glp 20 410 Bytes sent File memory 2827 Delete all files ane 0 0 000 E 0 0 000 738 9mmHg 0 0 000 E 0 0 000 74Lemmig 000 E 0 0 000 739 2mmHg 07712 2001 07 23 of E 0
420. trast to meet their own preference In addition if the instrument is used at more extreme temperatures the display is likely to require some adjustment The contrast is easily adjusted by pressing and holding down the backlight key in the upper right of the keypad and then pressing repeatedly or holding down the up down arrow keys while observing the display Pressing the up arrow while holding down the backlight key increases darkens the contrast pressing the down arrow under these conditions decreases lightens the contrast NOTE The backlight itself will only be activated if the backlight key is pressed and released You must hold down the backlight key to adjust the contrast YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 11 650 MDS Section 3 3 2 8 USING THE YSI 650 KEYPAD On Off Backlight Escape Key Arrows Enter Key Alpha Numeric Keys Minus Hyphen Key pened Cy Key YS I incorporated The 650 keypad allows the user to navigate various sonde and 650 menu selections and to make alpha numeric entries into both the 650 and sonde software The arrow keys are used to select various options in the menus the cellular phone style alpha numeric keys allow data entry the Enter key is used to confirm selections and the Escape key returns the user to the previous position in the menu structure The alpha numeric keys of the 650 can be used to enter both numbers and letters For many entries however
421. ts and basic written instructions will guide you through basic hardware and software setup YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 1 Sondes Section 2 2 2 CONNECTING YOUR SONDE There are a number of ways in which you may connect the sondes to various computers data collection devices and VT 100 terminal emulators To utilize the configuration that will work best for your application make sure that you have all of the components that are necessary The following list and diagrams provide a few possible configurations Sonde to Lab Computer recommended for initial setup Sonde to Data Collection Platform Sonde to Portable Computer Sonde to YSI 650 MDS Display Logger Oooo Sonde to Lab Computer Power Supply m a 6651 220 VAC _ 6038 110 VAC MS 8 SON You will need 0 Sonde 0 Field Cable Sonde 0 Computer with Com Port 0 6095B MS 8 DB 9 Adapter 0 Power Supply Field Cable gt Not required if you use sonde battery power YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 2 Sondes Section 2 Sonde to Data Collection Platform 6096 MS 8 Adapter with Flying Leads You will need Q Sonde Q Field Cable Q 6096 Adapter with leads Q Data Collection Platform Sonde to Portable Computer DB 9 MS 8 a Field Cable _ You will need UO Sonde Q Field Cable Q Computer with Com
422. ts as shown in the figures below Inaccuracy of the sensor from drift determined from periodic colorimetric analysis can easily be removed by recalibration of the sensor at the time of quality checks YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 9 Frequently Asked Questions About YSI Drinking Water Systems Appendix H Study 1 CONTINUOUS MEASUREMENT OF CHLORINE IN DRINKING WATER AT OHIO SITE NO RECALIBRATION DURING 77 DAY STUDY FREE CL2 MG L TIME DAYS Study 2 MONITORING OF FREE CHLORINE IN AT OHIO SITE 82 DAY STUDY ONE RECALIBRATION AFTER 7 DAYS OF DEPLOYMENT J g ul zZ T o a is w w c ira TIME DAYS YSI Incorporated Drinking Water Monitoring Systems Operations Manual H 10 Frequently Asked Questions About YSI Drinking Water Systems Appendix H Study 3 All Data MONITORING OF FREE CHLORINE AT OHIO SITE FOR 97 DAYS ONE RECALIBRATION OF SENSOR AFTER 14 DAYS FREE CHLORINE MGL TIME DAYS Study 3 Expansion MONITORING OF FREE CHLORINE AT OHIO SITE BLOW UP PLOT SHOWS ACCURACY OF SENSOR FREE CHLORINE MGL 53 TIME DAYS How often should I check the accuracy of and or recalibrate the free chlorine sensor You should confirm the accuracy of your free chlorine readings relative to a DPD colorimetric analysis within one week of your deployment and as often as possible thereafter
423. tudies data will either be stored at relatively long sample intervals 5 60 minutes to the internal memory of the sonde using the Unattended mode or the sonde will be attached to a 6500 Process Monitor and the data will be output in 4 20 mA or Modbus format and stored in a SCADA system or similar external logger Thus while the Discrete sample mode may be required in some set up and troubleshooting operations most studies will be done using the Unattended mode Select 1 Run from the Main menu to begin taking readings or to set verify the parameters required for a study There are two options in the Run menu as shown below Run setup 1 Discrete sample 2 Unattended sampl Select option 0 for previous menu YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 39 Sondes Section 2 DISCRETE SAMPLING NOTE THAT THIS FUNCTION WILL NORMALLY BE USED IN DRINKING WATER STUDIES ONLY DURING THE BREAK IN OF THE SENSOR AFTER RECONDITIONING Select 1 Discrete sample from the Run menu The Discrete sample menu will be displayed Discrete sampl 1 Start sampling 2 Sample interval 4 3 File 4 Site 5 Open file Select option 0 for previous menu Select 2 Sample Interval to type a number that represents the number of seconds between samples The maximum sample interval is 32767 seconds 9 hours The factory default sample interval is 4 seconds and works best for most discrete sampling application
424. u use the probe This will provide a default setting for the effect of temperature on your particular sensor After this initial calibration you can use the less time consuming 2 point and 1 point routines to update the 3 point calibration However we strongly recommend a new 3 point calibration after each deployment of 30 days or longer 2 Ion selective electrodes may not stabilize as rapidly as pH sensors Be sure to allow plenty of time for the readings to come to their final values during all calibration routines 3 Ion selective electrodes generally drift more than pH sensors To check for this drift place the sonde in one of your standards at the end of each deployment 4 Ammonium standards are good growth media for a variety of organisms This growth can significantly reduce the nitrogen content of your standards an effect that is particularly important for the 1 mg L solution It is best to use new standards for each deployment but if you decide to save your solutions for reuse we recommend refrigerated storage to minimize the growth of these organisms 5 Remember that the ammonium sensor will take longer to stabilize after exposure to buffers in a sonde pH calibration To accelerate this process soak the sensor in 100 mg L standard for a few minutes after performing a pH calibration In addition be particularly careful that readings are stable during ammonium calibration after exposure to buffers CAUTION The ammonium membra
425. ud I 9600 1200 baud 1 a S A Select option 0 for previous The default is 9600 but you may change it to match your host communication interface protocol by typing in the corresponding number through 7 An asterisk confirms the selection Auto baud may be selected along with any of the choices The Auto baud option allows the sonde to recognize and adjust to the received characters and we recommend that it is activated NOTE If you change the baud rate exit the sonde interaction and immediately change the baud rate in EcoWatch for Windows Comm Settings If you do not adjust the baud rate in the PC software the sonde will not be able to communicate with the computer or any display logger and your system will appear to be locked up Select 3 Page length from the System Setup menu and press Enter This will allow you to control how many lines of data are sent to your display before a new header is shown The smaller the page number the fewer the lines of data will be transmitted to your display between headers However if you set the page length to zero 0 only the initial header will be displayed In many cases a page length of zero is the preferred configuration if you choose to upload your data in an ASCII or CDF format See Section 2 9 3 File Menu for more details NOTE The header itself takes 4 lines Therefore if the page length is set to 25 there will be 21 lines of data and one header
426. ue does not increase the accuracy of the chlorophyll sensor significantly over the simple 1 point calibration recommended above the user still must collect grab sample and perform laboratory analysis to be assured of meaningful chlorophyll values The primary utility of the dye is to check for sensor drift during deployment by reanalyzing the dye solution after sonde recovery The use of the 2 point dye calibration procedure may make it easier to quantify the predeployment dye value and if so may be preferable Remember however that no real enhancement of sensor accuracy is attained by using the dye as a calibrant PREPARATION OF RHODAMINE WT SOLUTIONS FOR CHECKING SENSOR DRIFT RHODAMINE WT STANDARD SOLUTION CAUTION Be certain to read and follow all the safety instructions and MSDS documentation which is supplied with the dye before proceeding Remember that only trained personnel should handle chemicals YSI Incorporated Drinking Water Monitoring Systems Operation Manual 5 18 Principles of Operation Section 5 Use the following procedure to prepare a Rhodamine WT solution for use as a sensor stability check reagent 1 Rhodamine WT dye is usually purchased in solution form and can vary somewhat in nominal concentration YSI uses Rhodamine WT from the supplier noted below and recommends that the user purchase this exact item if possible The solution is approximately 2 in Rhodamine WT Fluorescent FWT Red Dye Lot 2
427. ue of the product Cleaning Certificate Organization Department Address City State __ Zip Country Phone Model No of Device Lot Number Contaminant if known Cleaning Agent s used Radioactive Decontamination Certified Answer only if there has been radioactive exposure _ Yes No Cleaning Certified By YSI Incorporated Drinking Water Monitoring Systems Operations Manual 8 3 Warranty and Service Information YSI Incorporated Drinking Water Monitoring Systems Operations Manual Section 8 8 4 Health and Safety Appendix A APPENDIX A HEALTH AND SAFETY NOTE For additional health safety and disposal information about YSI reagents download the MSDS documents for the chemical in question from the YSI webpage ysi com YSI Conductivity solutions 3161 3163 3165 3167 3168 3169 INGREDIENTS Q Iodine Q Potassium Chloride Q Water Inhalation Inhalation of mist or splashes of iodine solution can cause severe irritation with potential destruction of respiratory tissues spasms and edema choking in throat and lungs depending on frequency and degree of exposure Other reported potential effects are coughing burning sensation laryngitis headache and nausea Use a NIOSH approved respirator for liquid mists and or splashes Get supplier recommendations Provide adequate ventilation Avoid conditions that cause misting or splashing Remove to fresh air G
428. ug and go on to the next probe installation YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 12 Sondes Section 2 All optic probes 6026 and 6136 turbidity 6025 pane chlorophyll and 6130 rhodamine WT are installed in the fo os OPTIC same way Install the probe into the center port seating the Te PROBE pins of the two connectors before you begin to tighten on D Tighten the probe nut to the bulkhead using the short b extended end of the tool supplied with the probe Do not over tighten INSTALLATION TOOL ee CAUTION Be careful not to cross thread the probe nut G Note that the YSI 6920DW sondes can accept only a single turbidity chlorophyll or rhodamine WT probe INSTALLING THE FREE CHLORINE PROBE CONDUCTIVITY TEMP AND pH ORP PROBES Insert the probe into the correct port and gently rotate the probe until the two connectors align The probes have slip nuts that require a small probe installation tool to tighten the probe With the connectors aligned screw down the probe nut using the long extended end of the probe installation tool Do not over tighten PROBE INSTALLATION CAUTION Do not cross thread the probe nut TOOL INSTALLING THE ISE PROBES The Ammonium Nitrate and Chloride ISE probes do not have slip i ISE PROBE nuts and should be installed without tools Use only your fingers NITRATE OR AMMONIUM to tighten Any ISE probe can be installed in any o
429. ult in heat generation If a battery becomes rusted the gas release vent may no longer operate and this failure can result in bursting 2 If electrolyte from the battery pack contacts the skin or clothing thoroughly wash the area immediately with clean water The battery fluid can irritate the skin A Caution Notifications Misuse creates a possibility of mild or serious injury or damage to the equipment 1 Do not strike or drop the battery pack If any impact damage to the battery pack is suspected contact YSI Customer Service 2 Store the battery pack out of reach of babies and small children 3 Store the battery pack between the temperatures of 20 and 30 C 4 Before using the battery pack be sure to read the operation manual and all precautions carefully Then store this information carefully to use as a reference when the need arises YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 59 650 MDS Section 3 A 616 Cigarette Lighter Charger Safety Information 1 This section contains important safety and operating instructions for the 650 cigarette lighter battery charger YSI Model 616 RadioShack Number 270 1533E BE SURE TO SAVE THESE INSTRUCTIONS 2 Before using the 616 cigarette lighter charger read all instructions and cautionary markings on battery charger battery pack and Model 650 3 Charge the 6117 battery pack with the 616 cigarette lighter charger ONLY when the 6117 is installed
430. unless the pH is much higher than normal for most drinking water sites From empirical testing it appears that the YSI free chlorine sensor is less sensitive to OCT than it is to HOCL and as the pH rises there is no question that the amount of HOCI relative to OCI is reduced significantly This means that the sensitivity of the sensor to the mixture of HOCI and OCT is reduced at high pH but the sensor has been shown empirically to have enough overall sensitivity to be functional at pH values up to ca 9 3 and data to support this claim is available on request from YSI Note however that at pH values above 8 8 there is a possibility that calibration errors can occur If you see these errors contact YSI Technical Support for advice on whether to override them The YSI philosophy relative to the use of the free chlorine sensor at high pH is to calibrate the sensor under the these conditions of reduced sensitivity in the high pH water and then assume that minor variations in pH during the monitoring study will have only a minimal effect on accuracy This philosophy has been adopted rather than compensating for changes in pH using the on board pH sensor in the sonde It was decided not to do pH compensation because chlorine is usually the most important parameter to the drinking water industry and the accuracy of this parameter would be grossly compromised if a pH sensor failed while providing compensation data during long term monitoring studies In other
431. urbidity in NTUs and Chlorophyll in ug L Date and time will also be displayed NOTE Do not attempt to memorize or associate a number or letter with a particular parameter The numbering scheme is dynamic and changes depending on the sensors which have been enabled The following list is a complete listing of the abbreviations utilized for the various parameters and units available in the Report setup menu Parameter Description Date Day Month Y ear format selectable Time Hour Minute Second 24 hour clock format Temp C Temperature in degrees Celsius Temp F Temperature in degrees Fahrenheit Temp K Temperature in degrees Kelvin SpCond mS cm Specific Conductance in milliSiemens per centimeter SpCond uS cm Specific Conductance in microSiemens per centimeter Cond mS cm Conductivity in milliSiemens per centimeter Cond uS cm Conductivity in microSiemens per centimeter Resist MOhm cm Resistivity in MegaOhms centimeter Resist Kohm cm Resist Ohm cm TDS g L TDS kg L Sal ppt Free C12 mg L C12 chrg pH pH mV Orp mV NH4 N mg L NH4 N mV NH3 N mg L NO3 N mg L NO3 N mV Cl mg L Cl mV Turbid NTU Turbid NTU Chl ug L Fluor FS Rhod ug L YSI Incorporated Resistivity in KiloOhms centimeter Resistivity in Ohms centimeter Total dissolved solids in grams per liter Total dissolved solids in kilograms per liter Salinity in parts per thousand set to local barometer at calibration Free chlorine concentrati
432. usually O and 100 ug L To begin the calibration immerse the sonde in the 0 ug L standard as instructed and press Enter It is mandatory that the Oug L standard be calibrated first The screen will display real time readings that will allow you to determine when the readings have stabilized Pressing Enter will confirm the first calibration Following the instructions on the screen place the sonde in the second rhodamine standard input the correct rhodamine value in ug L press Enter and view the stabilization of the values on the screen in real YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 74 Sondes Section 2 time After the readings have stabilized press Enter to confirm the calibration Then as instructed press any key to return to the Calibrate menu Select the 3 point option for maximum accuracy over the entire range of 0 to 200 ug L As for the 2 point procedure one of the standards must be 0 NTU The procedure for this calibration is the same as for a 2 point calibration but the software will prompt you to place the sonde in the additional solution to complete the 3 point procedure For all rhodamine calibration procedures be certain that the standard and sensor are thermally equilibrated prior to proceeding with the calibration REESTABILISHING DEFAULT CALIBRATION UNCAL COMMAND If for any reason you want to return to the factory default settings slope and offset for any parameter fo
433. w keys to highlight the Autosleep RS232 selection and toggle the function on off with the Enter key until it is correct for your application 3 5 LOGGING DATA WITH THE 650 3 5 1 INTRODUCTION AND BASICS OF LOGGING A primary function of the 650 is to facilitate the storage of field data from 6 series sonde sensors for later analysis It is important to understand that sonde sensor data can be logged to two memory locations using a system consisting of a 650 interfaced with a sonde 1 memory resident in the sonde and 2 memory resident in the 650 itself Different applications may favor one logging choice over another In addition data can be logged either as single points after the user has verified stabilization or as a continuous data stream at a fixed sample interval No matter where or how the user decides to log field data with a 650 sonde system the 650 software plays the key role in controlling the process When setting up the 650 sonde system for your logging application it important to realize that the 650 Run display from which all logging is initiated can be activated by two methods The first is to simply highlight the Sonde run selection from the 650 menu The second is to use the Sonde menu command from the 650 Main menu to enter the sonde menu structure and then to activate a Discrete sample study Either of these methods can be used to log data to both the sonde and the 650 However for most applications the latter met
434. w that quantifies the time of the deployment the sample interval and the site where the sonde was used In addition the data in the file can be viewed by using the 1 View file command File details Filename Samples 1 BRIDGE1 dat 1 View file 2 BRIDGE2 dat 2a 2 File CLRLAKE2 dat 3 UPLAKE dat 33 3 Samples 167 4 CLRLAKE2 dat 167 4 Bytes 4421 5 DWNLAKE2 dat eal 5 First 08 23 2001 6 00003001 glp 3 6 First 08 33 40 7 Last 08 23 2001 Selec Cpiiem 0 mow previous imei e 4 8 Last 09 04 20 P incecwaill 3 10s OO 8 LO A Site Clear Lake Select 2 Upload to view file lists in memory same as shown above and then upload the data to a PC or to the YSI 650 MDS Display Logger The uploaded data can then be processed with YSI EcoWatch for Windows to allow data manipulation and to easily generate reports plots and statistics Three formats for file transfer are available PC6000 Comma amp Quote Delimited and ASCII text YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 78 Sondes Section 2 e PC6000 format will transfer the data so that it will be compatible with the EcoWatch for Windows supplied with your sonde software package YSI recommends data transfer in this format since it is significantly more rapid than other transfer options If this data is required in Comma amp Quote Delimited and or ASCII formats the user can quickly generate data in these formats using the Export
435. where only numbers are appropriate the software automatically allows ONLY numeric entry e g the letters ABC associated with the 2 key cannot be activated Examples of this type of fixed numeric entry include setting the clock of the 650 or sonde entering calibration parameters for sonde sensors and changing entries such as DO warm up time and optical wiper interval in the Sonde Advanced Sensor submenu You will follow an example of this type of entry when you set the 650 clock in the example below When both numeric and alpha entry are appropriate for input the 650 keypad provides a cellular phone style interface for choosing the proper character As shown in the above diagram the 2 9 keys can also be used to input alpha characters Basically to activate a particular alpha numeric character the user must press the appropriate key repeatedly until the desired letter or number appears in the display For example to enter an M press the numeric 6 key once and release To enter an N press the numeric 6 key twice in rapid succession and then release Lower case letters are also available for input using this basic method The following chart shows the alpha numeric sequence available for each numeric key in the order they will appear as the key is pressed repeatedly YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 12 650 MDS Section 3 11 2 ABC2abc2 3 DEF3def3 4 GHI4ghi4 5 JKL5jkl5 6 MNO6mno
436. wo sites at the West and East ends of a lake Blue Lake at various time intervals for 30 days In this case the environmental scientists want all of the data in a single file for recording keeping convenience The key to this application is that the Site list will need to contain Multi Site Designations with the same Filename but with different Site names and Site numbers to characterize each physical location To make Site list entries for this application highlight the Logging setup selection in the 650 main menu and press Enter The following screen will appear As in the previous Site list setup make certain that you have activated deactivated the Store barometer and Store Lat and Long settings as appropriate for your application The real key however in configuring the Logging setup display for use with a Multi site list is that you MUST make certain that the selection Store Site number is ACTIVE as shown below before proceeding 650 Main Menu Logging setup Sonde run Muse site list Sonde menu MStore Barometer File MStore Lat and Long Logging setup MStore site number System setup Edit Site List Test 0 0 000 E 0 0 000 aes N 0 0 000 E 0 0 000 e N 02 25 2000 16 27 11 i 02 25 2000 20 38 26 iin YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 40 650 MDS Section 3 Then highlight the Edit site list selection and press Enter to display the following
437. xample the time temperature conductivity free chlorine pH ORP and battery sensors are enabled To disable a sensor simply press the number of the active sensor or port and the asterisk will disappear For the ISE and Optic selections press the appropriate number and then enable or disable the sensor using the submenu choices Be certain that the appropriate sensor is enabled in the submenu according to the sonde bulkhead port in which it is physically installed For example if an ammonium sensor is placed in the port labeled 3 on the bulkhead enable the sensor as ISE3 in the menu structure The following screen is the submenu selection structure for ISE3 ISE4 and ISE5 Select typ ISN 2N ca A SE3 NH4 ESO mNOS CSS Cil KOESREARI 1 1 1 Jal Select option 0 for previous menu As noted above the ISE3 PAR1 selection is used in a special instrument mated to a sensor for Photosynthetically Active Radiation that is available from YSI Massachusetts but is not likely to be useful in drinking water studies See Section 8 for contact information if you have questions about this sensor A submenu similar to that below will appear if either Optic T or Optic C is chosen as a sensor YSI Incorporated Drinking Water Monitoring Systems Operations Manual 2 86 Sondes Section 2 Select typ QpiEsLe I ie Twice y oOZ6 OpiEske 1 oie Twmoichiey ol Sc sas al AC
438. xtended by approximately a factor of five The only disadvantage of the Sample and Hold feature is that the data output to the 6500 SCADA from all sensors is frozen for the sample interval Thus if a study were begun at 10 00 at a 5 minute interval the sensor readings shown by the 6500 and output to the SCADA which were taken at 10 00 would remain the same even though they might be changing slightly until 10 05 when new sensor readings would be output These readings in turn would be frozen until 10 10 when the next readings would be sent to the 6500 The Sample and Hold feature can be activated in the Advanced lSetup menu of the sonde software while attached to a PC or a 650 Display Logger or can be activated directly from the Setup sonde menu of the 6500 NOTE CAREFULLY If the Sample and Hold feature is activated from a PC or 650 and then the sonde is attached to a 6500 no interface will occur until the first point is taken using the Sample and Hold mode At the time the first point is taken correct interface with the 6500 will take place and readings will be visible on the 6500 display For example if a sonde is put into Sample and Hold mode with a 15 minute interval at 15 05 and then immediately attached to a 6500 readings will not be visible on the 6500 display until 15 15 i e the time of the next reading in the Sample and Hold mode If activating the feature directly from the 6500 press the Esc and Enter keys
439. y Simple cellular phone style keypad Simple intuitive user interface Choice of alkaline batteries or optional rechargeable battery pack Fuel gauge display of battery capacity User selectable backlight Handstrap standard or hands free harness optional for user comfort Optional barometer Optional GPS interface Compatibility with YSI EcoWatch for Windows data analysis software User upgradeable software via the YSI Web page CE and Australian C Tick Compliance Partnered with a YSI 6 Series sonde the 650 will allow the user to easily e Display real time readings from YSI 6 series sondes Log real time sonde data to internal meter memory with custom site lists Calibrate 6 series sondes Set up 6 series sondes for deployment Upload data from sondes for transfer to PC 3 2 GETTING STARTED This section is designed to quickly familiarize you with the hardware and software components of the YSI 650 and its accessories By the end of Section 3 2 you will have Unpacked the YSI 650 and confirmed that all components are present Become familiar with the general features and setup configurations of your YSI 650 Installed batteries in the YSI 650 Established communication between your 6 series sonde and the YSI 650 Viewed data from your 6 series sonde on the YSI 650 display Learned the basics of making alphanumeric entries from the keypad by setting the YSI 650 clock and entering an Instrument ID name O O O O O
440. y Capacity Status The graphic indicator shows the portion of the battery capacity that is remaining either for the 4 C cell configuration or for the optional rechargeable battery pack If a 6117 rechargeable battery pack is in place a NiMH label will appear as part of the indicator During charging of the battery pack the black portion of the icon will pulse horizontally until charging is complete In addition the entire battery indicator will flash when your batteries are almost exhausted and require replacement C cells or recharge optional rechargeable battery pack 2 10 5 Menu Indicator This icon is located in the lower right portion of the Status Bar and provides a guide as to whether the menu on the display of the 650 originates in the sonde or the 650 itself The icon shown in the figure above represents a 650 menu if the menu on the display had originated in the sonde the Status bar would display a sonde like icon as shown below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 17 650 MDS Section 3 Calibrate File Status System Report Sensor Sonde Icon Advanced N 0 0 000 E 0 0 000 740 4mmHg 05 31 2000 14 21 14 GME 3 2 11 UPGRADING ECOWATCH FOR WINDOWS SOFTWARE To utilize the full capability of the 650 MDS you will need to upgrade your version of EcoWatch for Windows from the YSI World Wide Web page www ysi com Access the YSI Environmental Web Page select tech supp
441. y data Text Files txt pm gt MERGE This function takes two existing data files and merges them into one new file Both files must be in PC6000 format DAT have the same number of parameters and the same parameter types the parameter setup must be identical Data record time stamps in the destination data file will be stored in ascending order YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 13 EcoWatch for Windows Section 4 Merge File COPY TO CLIPBOARD If a graph or table is active then choosing this command will send its contents to the Windows clipboard so that it can be pasted into other programs This is a normal method of transfer data between different Windows programs Shortcuts Toolbar Keys CTRL C YSI Incorporated Drinking Water Monitoring Systems Operation Manual 4 14 EcoWatch for Windows Section 4 SAVE DATA DISPLAY When opening a data file you will probably want to look at the data in graph form You may also want to rearrange the default graph by selecting or reordering parameters zooming in to a portion of the graph or even changing colors or changing fonts You may sometimes choose to look at the data or a portion of it in table form All of this work is done in the Data Display window This command allows you to save the settings and content of the Data Display window so that you can load it at another time and have it look exactly the same as when you sav
442. y of the sender When service is required either at the user s facility or at YSI the following steps must be taken to insure the safety of our service personnel Ina manner appropriate to each device decontaminate all exposed surfaces including any containers 70 isopropyl alcohol or a solution of 1 4 cup bleach to 1 gallon tap water are suitable for most disinfecting Instruments used with wastewater may be disinfected with 5 Lysol if this is more convenient to the user The user shall take normal precautions to prevent radioactive contamination and must use appropriate decontamination procedures should exposure occur If exposure has occurred the customer must certify that decontamination has been accomplished and that no radioactivity is detectable by survey equipment Any product being returned to the YSI Repair Center should be packed securely to prevent damage Cleaning must be completed and certified on any product before returning it to YSI YSI Incorporated Drinking Water Monitoring Systems Operations Manual 8 2 Warranty and Service Information Section 8 PACKING INSTRUCTIONS Clean and decontaminate items to insure the safety of the handler Complete and include the Cleaning Certificate Place the product in a plastic bag to keep out dirt and packing material Use a large carton preferably the original and surround the product completely with packing material Insure for the replacement val
443. ys 1 the number of samples logged data points of several parameters and 2 the total number of bytes of memory occupied by the file Highlight the top file PROFILE1 and press Enter to generate a display of the details of this file Press Escape and then highlight the second file DEPLOY 1 and press Enter to again display information about the file File details File details File PROFILE1 dat File DEPLOY1 dat Site WEST LAKE Site EAST LAKE ID ID NotSet Samples 383 Samples 3 Bytes 17496 Bytes 342 First 08 21 2001 07 34 37 First 08 21 2001 08 00 40 Last 08 21 2001 07 40 59 Last 08 21 2001 08 10 40 Interval Discrete Interval 00 05 00 N 0 0 000 E 0 0 000 N 0 0 000 E 0 0 000 08 21 2001 08 18 52 mE mm 08 21 2001 08 22 26 mE mm For both files the file name site name file size and time of the first and last samples logged are shown The information under Interval will identify whether the data were logged by manual control of the system Discrete or to the memory of a sonde set up in an Unattended sampling study Only for Unattended sampling studies will the actual sample interval be displayed When the Interval has the designation Discrete the time between samples can be determined by viewing the data as described below YSI Incorporated Drinking Water Monitoring Systems Operations Manual 3 47 650 MDS Section 3 3 6 3 UPLOAD TO PC This frequently used command is used to tra
Download Pdf Manuals
Related Search