6712 Portable Sampler User Manual
Contents
1. 5 25 5 12 1 Once Enabled Stay Enabled 5 25 5 12 2 Repeatable Enable ls suala unta e 5 25 5 12 3 Sample at Enable or Disable 5 25 5 12 4 Delay To Start Of Sampling 5 26 5 12 5 Dry Period Option 5 26 5 12 6 Resetting the Sample Interval at Enable 5 26 5 13 Pauses Resumes 5 27 5 14 Running Programs 5 27 5 14 1 Run Time Screens 5 27 5 14 2 Interrupting a Running Program 5 27 5 15 Sampling Reports 0 5 28 5 16 Other Functions CREA ER A da oe RUN eae ele a WA 5 28 5 17 Software Options ee woes eoe OR eo ee Y Q asw 5 28 vii 6712 Portable Sampler Table of Contents viii 5 17 1 Liquid Detector Enable Disable 5 28 5 17 2 Programming Style 5 29 5 17 8 Measurement 5 29 5 17 4 Dual Sampler 5 29 5 17 5 Pre sample and Post sample Purge Counts 5 31 5 1756 Serial ua2. 4 1 4 18 ANS Reports oie oo EEG UP FCRC Re d at IR Es SECUN GIS 4 19 4 15 1 Collecting Reports 4 19 4 15 2 Viewing the Data 4 20 4 15 3 Configuring 4 21 4 15 4 Sampling Results 4 22 4 15 5 Combined Results Report 4 22 4 15 6 Summary Report 4 22 416 System ID8 lel koe ldem eil EE c oe VERG a dE 4 30 4 17 Programming for 700 Series Modules 4 30 Section 5 Extended Programming 5 1 Extended and Standard 5 1 5 2 One Part and Two Part Programs 5 1 5 3 Storage for Extended Programs 5 2 5 3 1 Selecting a Stored Program 5 2 5 4 Programming for 700 series 5 4 5 5 Programming Examples 5 4 5 5 1 Storm Water Runoff Sampling 5 4 5 6 Suction Head ese oe vea es ct CORR UN D Le 5 12 5 7 Rinses and 5 12 5 8 c ECC 5 12 5 8 1
3. 5 6 5 3 Event Paced Sampling 5 13 5 4 Sampler Enable 222222 2222 eek anu u aaa ee 5 24 5 5 Serial Data Codes i una Re ek ate eh oe a UR EE 5 33 6 1 501 12 Sonde Parameters 6 3 7 1 6712 Remote Menu Commands 7 3 7 2 Serial Data 7 6 7 3 Remote Control of Sampler Keypad 7 8 7 4 6712 Remote Phone Commands 7 9 8 1 Setting the Clock and Calendar 8 3 8 2 Resetting the Pump Counter 8 4 8 3 Checking and Replacing the Internal Battery 8 5 C T H zardous 542 pie gg teen See re gd 4s da a C 6 xi 6712 Portable Sampler Table of Contents xii 6712 Portable Sampler r Fr Section 1 Introduction 6712 Controller 1 1 About this Manual The 6712 Series Samplers are an integral part of Teledyne Isco s comprehensive sampling system The system includes the 6712 Compact Sampler the 6712 Standard Sampler and the 6712FR and 6712SR Refrigerated Samplers The 6712 portable samplers are easily moved from site to site Constructed f
4. 4 27 4 8 Report Combined Results continued 4 28 4 9 Report Summary 2 4 29 5 1 Sample Distribution 5 18 5 2 Factors Affecting Flow Weighted Variable Volume Samples 5 20 5 3 Variable Volume Scenario 5 21 5 4 Start Time Diagram for Sampler Enable Settings 5 23 5 5 Event Mark Timing Diagram 5 31 5 6 Password Protected Functions 5 35 6 1 Teledyne Isco AQ700 Multi Parameter Sonde 6 1 7 1 Press and hold to connect to the sampler 7 2 7 2 Example list of remote menu commands 7 2 8 1 Removing and Replacing the Pump Tube 8 9 8 2 Placing the Pump Tube in the Liquid Detector 8 9 8 3 Opening the Controller 8 11 8 4 Main Circuit Board Connections 8 12 1 6712 Menu Tree for Standard Programming 1 2 Standard Programming Programming Screens A 2 Standard and Extended Programming Start Times A 3 4 Standard
5. 2 17 2 14 Collecting Sample Bottles 2 17 2 14 1 Compact Sampler Bottle Collection 2 17 2 14 2 Standard Sampler Bottle Collection 2 18 6712 Portable Sampler Table of Contents vi Section 3 Programming Introduction 3 1 3 2 3 3 3 4 3 5 3 6 3 7 Initial Operati0nr u ga a puas wale boa raba boos 3 1 3 1 1 Selecting a 3 3 Using Menus and Entering Numbers 3 3 3 2 1 Selecting Menu Options 3 3 3 2 2 Entering Numbers 8 8 Quick View Screeniss sis pi ee bee AX ae ea eo E AIR E ORES 3 4 3 3 1 Paging Through Quick View Screens 3 4 3 3 2 Changing Settings in a Quick View Screen 3 4 Clock and Calend ar ul p Aui u a RO RUE 3 5 3 4 1 Setting the Clock and Calendar 3 6 3 4 2 Menu Screens Clock Start Times 3 6 Menu Screens Site Descriptions and Program Names 3 7 M e8SSa668 pL 3 9 3 6 1 Information Messages 3 9 3 6 2 Help Notes 2 2 REL RR iR 3 9 3 6 3 Warning Messages
6. 3 10 3 6 4 Operation Messages 3 11 Trees 4i ies ab c Eee C ek as e Re are wads 3 11 Section 4 Standard Programming 4 1 Switching Between Standard and Extended Modes 4 1 4 2 Language Selection Units of 4 1 4 3 Programming Examples 4 2 44 PACING iet eee eee e etae aee a mosse i 4 5 4 4 1 Trigger Pacing ics ARE e yapu RES 4 5 4 5 Distribution Ji e udi ese Ver EQ ede redes u etre edite te lead asda dee eee dase 4 6 4 5 T Sequential en Dee Vi eecbaiu is 4 6 4 5 2 Bottles Per Sample 4 6 4 5 8 Samples Per Bottle 4 6 4 5 4 Composite oon cl am Va E ee 4 6 4 5 5 Continuous Sampling 4 6 4 6 Start Times u y he nae toe RR E each Shae Er pae SA ie E 4 8 4 6 1 How Do Start Times Work 4 8 4 6 2 Sampler Enable Disable 4 9 4T Running Programs a u de se a oe ect a 4 10 4 7 1 Run Time Screens RE Ee herd 4 10 4 7 2 Module Readings 4 11 4 8 Interrup
7. G 19 Em rgencies l tu ie u u EE C T 10 Eield Equipment uer soe gera kaq e masara 2 Lethal Atmospheres in Sewers C 3 Hazardous Gases is uy tn Mla tate ak BA Aware Appendix D Replacement Parts List D 1 Replacement Parts Diagrams and Listings Appendix E Accessories List E 1 Order Information E 2 Controller Center Sections Top Covers and Tubs Compact and Mini Sampler Bottle Kits E 4 Compact Sampler Bottle Kits E 5 Standard Sampler Bottle E 6 Bottle Carriers Retaining Rings and Racks Bottle Inserts Discharge Tubes E 7 Bulk Sets of Bottles with Lids E 8 General Accessories Compact and Standard Samplers E 9 Pump Tubes Suction Line Strainers E 10 Data Collection Devices and Cables E 11 Power Sources and E 12 Modules Rain Gauges amp Interfacing Instruments E 13 SDI 12 Data Acquisition Connect List of Figures
8. 68 6700 017 Set of 12 950 milliliter Bottles 68 3700 023 Set of 100 950 milliliter Bottles with PTFE Lined Lids 68 6700 018 Set of 8 2 0 liter Polyethylene Bottles with Unlined Lids 68 2740 026 Set of 100 2 0 liter Polyethylene Bottles with Unlined Lids 68 3720 028 E 3 6712 Portable Sampler Appendix E Accessories List Set of 8 1 8 liter Glass Bottles with PTFE Lined Lids 68 2740 027 Set of 100 1 8 liter Glass Bottles with PTFE Lined Lids 68 3720 030 3 7 liter Glass Bottles with PTFE Lined Lids 68 6700 147 3 7 liter Polyethylene Bottles with Unlined Lids 68 2910 003 Set of 4 3 7 liter Glass Bottles with PTFE Lined Lids 68 6700 146 Set of 4 3 7 liter Polyethylene Bottles with Unlined Lids 68 6700 020 9 4 liter 21 9 Glass Bottle with PTFE Lined Lid 68 2700 005 9 4 liter 21 9 Polyethylene Bottle 144 299 0013 04 18 9 liter 5 gallon Glass Bottle with Cap and Teflon Liner for the 5 Gallon Bottle Base 68 6700 079 E 8 General Accessories Compact and Standard Samplers
9. driven A command driven sample sample PH Phone command Phone command sample R Resume Sample event at resume time S Start Sample event at start time Sw Switch time Sample event at switch time TO Time Override Sample event at bottle switch time T time Time paced sample event Error Codes DJ Distributor Jammed The distributor jammed IP sample in progress Sample in progress when report was printing L pump latch open Unable to take sample because the pump band was opened ND no distributor arm There is no distributor arm or the stop is damaged NL No Liquid Detected The sampler was unable to detect liquid LF Not enough flow Not enough flow for the minimum sample volume entered for samples with vol to flow No More Liquid After the sampler detected liquid and while the sample was being taken the liquid detector stopped detecting liquid M Bottle Full The composite bottle is full O Sampler Shut Off The sampler was turned off with the On Off key during the sample event Probable Overflow The sampler was directed to take a sample that would not fit into the bottle Occurs for flow paced time override programs only P Power Failed The power supply failed during the sample event Note Power failures during five consecutive sample events results in a LOW BATTERY shut down PJ Pump Jammed The pump jammed Sk Sample Skipped Sample not taken US User S
10. 58 ENABLE RAIN AND LEVEL FLOW A DONE DONE 59 RAIN SET POINT 0 15 INCHES PER __HOURS __MINUTES 60 ENABLED WHEN ABOVE SET POINT BELOW SET POINT 61 RESET RAIN HISTORY YES NO 5 10 Enter 2500 Select YES This will cause the first sample to be taken 20 minutes the delay to start of sampling specified in Step 67 after the enable for Part B Enter 1 Select NUMBER OF SAMPLES Enter 1 Select NO Enter 500 Select RAIN Select AND Select LEVEL Enter 0 15 for inches then enter 30 minutes Select ABOVE SET POINT Select YES 6712 Portable Sampler Section 5 Extended Programming Table 5 2 Storm Water Runoff Sampling Continued 62 63 64 65 66 67 68 69 70 71 LEVEL CONDITION SET POINT RANGE RATE OF CHANGE LEVEL SET POINT 0 25 ft 0 100 30 000 ONCE ENABLED STAY ENABLED YES NO SAMPLE AT ENABLE YES NO START OF SAMPLING AFTER A 15 MINUTE DELAY 1 999 PAUSE RESUME 1 HH MM DD HH MM DD 2 HH MM DD HH MM DD CLEAR DONE NO DELAY TO START DELAYED START CLOCK TIME WAIT FOR PHONE CALL START STORM AFTER A 72 HOUR DRY PERIOD YES NO START STORM AFTER A 1 MINUTE DELAY 1 999 PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO Select SET POINT Enter 0 25 Select YES Select NO Ente
11. Press the Down Right arrow Press 29 on the keypad then until the S on line 2 blinks Up Left until space blinks Then press J Press 1 SITE SICTORY051 ABCDEF GHIJKLMNOPQRST ABODEFGHIKLMNOPORST UVWXYZ amp 0123456789 6280425156 789 BACK UP DONE BACK UP DONE e Press the Up Left arrow p heD Righ until the I blinks Press DONIS risa Continue pressing arrow keys to select T E and space Press after selecting each character Hold an arrow key down for faster movement f your description uses all ten spaces in the text line the sampler automatically moves to the next screen as soon as you add the tenth character You can enter numbers by pressing the number keys Erase characters by replacing them with a space character Select the BACK UP option to move the cursor to the left To leave the menu before completing the entry press Stop The sampler will display this menu SAVE CHANGES YES NO Select YES to save any changes made Select NO to leave the original description or program name unchanged 3 8 3 6 Messages 3 6 1 Information Messages 3 6 2 Help Notes 6712 Portable Sampler Section Programming Introduction The sampler has four sets of messages that supplement the pro gramming screens Information messages tell you about pro gramming status Help Notes are brief comments associated with programming scree
12. 68 6700 023 Includes Bottle Carrier Retaining Ring Bottles and 2 Discharge Tubes 12 Bottle Kit 375 milliliter Glass Bottles 68 6700 024 Includes Bottle Carrier Retaining Ring Bottles and 2 Discharge Tubes E 1 6712 Portable Sampler Appendix Accessories List E 4 Compact Sampler Bottle Kits 1 Bottle Kit 9 4 liter Polyethylene 68 6700 025 Includes Bottle and 2 Discharge Tubes 1 Bottle Kit 9 4 liter Glass Bottle 68 6700 026 Includes Bottle and 2 Discharge Tubes E 5 Standard Sampler Bottle Kits 24 Bottle Kit 1 000 milliliter Polypropylene Bottles 68 6700 006 Includes Retaining Ring Bottles and 2 Discharge Tubes 24 Bottle Kit 350 milliliter Glass Bottles 68 6700 007 Includes Retaining Ring Bottles and 2 Discharge Tubes 12 Bottle Kit 1 000 milliliter Polypropylene Bottles 68 6700 008 Includes Insert Bottles Retaining Ring and 2 Discharge Tubes 12 Bottle Kit 950 milliliter Glass Bottles 68 6700 009 Includes Insert Retaining Ring Bottles and 2 Discharge Tubes 8 Bottle Kit 2 0 liter Polyethylene 68 6700 010 Includes Insert Bottles Retaining Ring and 2 Di
13. Chlorophyll micrograms per liter Flow rate cubic meters per second Flow volume cubic meters Other data not listed above 1 The three most recent samples will have entries as B The will be the first bottle number in the set If the sample is a grab sample it will be shown as B0 2 Rainfall tips roll over every 256 counts 3 The checksum does not include the checksum carriage return and linefeed The string is terminated with lt CR gt lt LF gt A in the identifier indicates SDI 12 address 5 xx matches the data label for the SDI 12 parameter 7 7 6712 Portable Sampler Section 7 Remote Operation 7 8 Optional checksum 7 1 3 Remote Control of Sampler Keypad Optionally commands to the sampler can be validated using a checksum Checksum validation can avoid problems caused by faulty program control or communication lines When using the checksum add the CS identifier and a comma at the end of the command and the checksum value of the string up to the last comma For example the command with checksum validation to turn the sampler on would appear as STS 2 CS 582 lt CR gt The numeric value of each character is its ASCII equivalent expressed in decimal format The checksum of 582 was calcu lated as shown below STS 2 CS 582 To control the sampler keypad remotely type CONTROL at the gt prompt and press ENTER The s
14. Power Consumption 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued 6712 Controller in Standby 10 mA Average Current of Accessories Controller Display Backlight 228 mA 701 pH Module 11 mA 710 Ultrasonic 11 mA 720 Submerged Probe Module 11 mA 730 Bubbler Module at 2 ft of liquid level 24 mA at 10 ft of liquid level 31 mA 750 Area Velocity Module 12 mA 780 4 20 mA Module 10 mA YSI 600 with pH DO Conductivity and Temperature 11 Programmable Analog 4 20 mA Output 124 mA CDMA cellular telephone modem standby current 35 mA current while communicating 150 mA GSM cellular telephone modem standby current 62 mA current while communicating 230 mA a Current ratings when input power is 12 5 VDC and ambient temperature is 77 F 25 C b Average current when programmed to take readings at 15 minute intervals c Rating for three outputs Sampler Only Approximately 30 mA based on 200 ml sample every hour 10 ft 3 m suction Operating Current line and 5 ft 1 5 m suction head Teledyne Isco External Battery Capacity Number of Complete Standard Sampling Routines Nickel Cadmium Battery Lead Acid Battery Sampler Only Sampler with pH Module Sampler with Ultrasonic Module Sampler with Submerged Probe Module Sampler with Bubbler Module 1
15. e Random interval pacing For clock time pacing enter specific times for each sample event see screen 2 You can enter as many as 99 clock times but the interval between times cannot be greater than 24 hours Remember to use a 24 hour clock when entering times The sampler takes a sample at the start time For nonuniform interval pacing enter the number of sample events spaced at intervals of minutes 12 samples at 5 minute intervals 6 samples at 10 minute intervals and so on The sampler accepts as many as 99 nonuniform interval entries The sampler takes a sample at start time To program the sampler for random interval pacing enter the length of time you want to sample The run time is the only random programming setting you ll need to enter because the sampler derives the number of sample events required for the program from the distribution settings You can combine random pacing with any distribution Each time you run the program the sampler generates a new set of random intervals This makes each sample event unpredictable from run to run In both nonuniform clock time pacing and nonuniform interval pacing the sampler takes a sample at the start time For random pacing however it takes the first sample at the end of the first interval not at the start time 5 15 6712 Portable Sampler Section 5 Extended Programming 5 9 Distribution 5 9 1 Sequential 5 9 2 Bottles Per Sample 5 9 3 Samples Per Bottle
16. 15 13 440 At bottom An insecti Combustible Bisulfide when pure color ous cide gas indicator less anesthetic irritating vom Poisonous iting convulsions psychic distur bance C 6 6712 Portable Sampler Appendix C General Safety Procedures Table C 1 Hazardous Gases Continued Specific Max Max Safe Explosive Likely Simplest and T Gas Chemical Common dale Physiological S0 8 Hour by eM gs TUR Cheapest Formula Properties Effect r Safe Method Density Exposure Limits Highest Sources Air 1 ppm ppm lower upper Concentration Qu etis Carbon Asphyxiant 1 1 53 Cannot be 40 000 5 000 At bottom Products Oxygen Dioxide orless odorless endured at 10 to when heated of com deficiency When breathed more than a 60 000 may stratify bustion indicator in large quanti few minutes at points sewer gas ties may cause even if subject above bottom sludge acid taste is at rest and Also issues Non flammable oxygen content from car Not generally is normal Acts bona present in dan on respiratory ceous gerous amounts nerves strata unless an oxygen deficiency exists Carbon CO Chemical 0 97 Combines with 400 50 12 5 74 0 Near top espe Manufac CO ampoules Monox asphyxiant Col hemoglobin of cially if present tured gas ide orless odorless blood Uncon with illuminat flue gas tasteless scious
17. 4 Slide a new bottle carrier filled with clean bottles into the tub 5 Pour more ice into the carrier or tub 2 14 2 Standard Sampler To collect the bottles from a standard sampler Bottle Collection 1 Open the latches and lift the center section from the tub Place caps on the bottles 2 Drain any ice water from the standard tub by opening tub s drain plug Remember to replace the plug s cap when done 3 Attach a label to the tub or on each bottle detailing the location time date etc 4 Replace the standard tub and or bottles with a clean set 5 Pour more ice into the tub Drain Plug Location on the Tub 2 18 6712 Portable Sampler A Section 3 Programming Introduction 3 1 Initial Operation Before programming the 6712 you should become familiar with its keys and how to use the screens The 6712 Sampler has two sets of programming modes The first mode Standard Programming lets you set up typical sam pling programs easily and efficiently The second mode Extended Programming lets you create sophisticated pro grams for complex sampling applications All of the sampling features available in standard programming mode are available in extended programming mode However extended programming provides many additional features Standard and extended programming features are explained in separate sections This section focuses on some basic features that are common to both programming modes suc
18. __ ft SUCTION LINE SUCTION LINE LENGTH IS _ ft 3 99 TIME BETWEEN SAMPLE EVENTS HOURS __ MINUTES NG EVERY TIME PACED _ MINUTES FLOW PACED FLOW BETWEEN SAMPLE EVENTS 0 075 Mgal 0 001 99999 SEQUENTIAL Multi Bottle BOTTLES SAMPLE RUN CONTINUOUSLY SAMPLES BOTTLE YES NO BOTTLES PER SAMPLE EVENT 1 max DISTRIBUTION BOTTLES SAMPLE RUN CONTINUOUSLY SAMPLES PER BOTTLE 1 max 1 Bottle DO YOU WANT TO RUN CONTINUOUSLY TAKE ___ SAMPLES YES NO 1 max MUST BE SELECTED SAMPLE VOLUME 200 ml SAMPLES ___ ml 10 max Continued in Figure A 5 Figure A 4 Standard Programming Quick View Programming Screens A 4 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 4 FIRST SAMPLE AFTERA MINUTE DELAY 1 999 NO DELAY TO START NO DELAY TO START DELAYED START CLOCK TIME WAIT FOR PHONE CALL FIRST SAMPLE AT HH MM If applicable SELECT DAY S AT LEAST ONE DAY SU MO TU WE TH FR SA MUST BE SELECTED DONE DONE PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO FIRST SAMPLE HH MM MO TH RUN See Run Time Screens on page 4 10 PROGRAM VIEW REPORT OTHER FUNCTIONS Figure A 5 Standard Programming Quick View Start Times 6712 Portable Sampler Appendix A Menu Flowcharts RUN PROGRAM VIEW REPORT OTHER FUNCTIONS No valid options NO DATA TO DISPLAY SELECT
19. Pow 67 See Figure A 6 Figure A 9 Extended Programming Programming Screens A 9 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 9 NUMBER OF BOTTLES 1248 12 24 BOTTLE VOLUME IS ml 300 30000 SUCTION LINE LENGTH IS __ ft 3 99 SUCTION HEAD OF AUTO SUCTION HEAD ft ENTER HEAD min max RINSE CYCLES 0 3 RETRY UP TO TIMES WHEN SAMPLING 0 3 BOTTLES AVAILABLE ONE PART PROGRAM ASSIGN BOTTLES TWO PART PROGRAM 1 THRU __ TO PART A 1 max See Figure A 11 Figure A 10 Extended Programming Equipment Setup 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 10 TIME BETWEEN SAMPLE EVENTS HOURS MINUTES UNIFORM TIME PACED FLOW PACED EVENT PACED NONUNIFORM TIME PACED BY FLOW PULSES FLOW MODULE VOLUME FLOW BETWEEN SAMPLE EVENTS ____ PULSES 1 9999 NONUNIFORM TIME TAKE SAMPLES AT CLOCK TIMES 1 START TIME INTERVALS IN MINUTES 2 HH MM RANDOM INTERVALS 3 HH MM See Figure A 12 Event Conditions SAMPLE AT START YES NO PROGRAM RUN TIME HOURS __ MINUTES FIRST SAMPLE AT START TIME THEN DO YOU WANT TO RUN CONTINUOUSLY YES NO QUANTITY A T INTERVAL 1 __ AT ___ MIN 2 AT ___ MIN __ AT ___ MIN V y SWITCH BOTTLES ON BOTTLES PER NUMBER OF SAMPLES SAMPLE EVENT 1 max TIME Multi bottle SWITCH
20. 1 max Multi bottle DISTRIBUTION BOTTLES SAMPLE ___ SAMPLES BOTTLE HOURS RUN CONTINUOUSLY Y 1 bottle DO YOU WANT TO RUN CONTINUOUSLY YES NO Uniform Time Paced Only DO YOU WANT SAMPLE VOLUMES DEPENDENT ON FLOW YES NO VOLUME ml SAMPLES See FigureA 17 i FIRST SAMPLE AT START TIME 1 __ AT ___ MIN THEN SWITCH BOTTLES EVERY MINUTES AT i ou No TIME BETWEEN SAMPLE EVENTS HOURS MINUTES PACED BY FLOW PULSES FLOW MODULE VOLUME FLOW BETWEEN SAMPLE EVENTS PULSES 1 9999 TAKE SAMPLES AT 1 START TIME 2 HH MM 3 HH MM SAMPLE AT START YES NO QUANTITY AT INTERVAL 2 ___ MIN 3 AT ___ MIN SWITCH BOTTLES ON NUMBER OF SAMPLES TIME SWITCH BOTTLES EVERY _ SAMPLES 1 max FIRST SWITCH TIME DO YOU WANT TO RUN CONTINUOUSLY SAMPLES 1 999 YES NO TAKE ___ MINIMUM SAMPLE VOLUME max SAMPLE VOLUME 10 ML FOR EVERY PULSES 1 9999 ml 10 SAMPLE VOLUME ml 10 max Figure A 16 Extended Programming Quick View Pacing and Distribution A 16 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 16 Continued from Figure A 21 Done I O are not options for 1 0 Conditions See Note A See Note A A ENABLE ENABLE All except ENABLE RAIN ENABLE RAIN AND RAIN gt 0 11 1 00 1 0 RAIN LEVEL NONE 1 0 LEVEL FLOW AN
21. 11 12 13 14 15 4 4 NUMBER OF BOTTLES 1 2 4 8 12 24 BOTTLE VOLUME IS 1000 ml 300 30000 SUCTION LINE LENGTH IS 10 ft 3 99 TIME PACED FLOW PACED FLOW BETWEEN SAMPLE EVENTS 2 PULSES 1 9999 SEQUENTIAL BOTTLES SAMPLE SAMPLES BOTTLE RUN CONTINUOUSLY YES NO 1 BOTTLES PER SAMPLE EVENT 1 24 NO DELAY TO START DELAYED START CLOCK TIME WAIT FOR PHONE CALL START FLOW COUNT AT 00 00 SELECT DAYS SU MO TU WE TH FR SA DONE PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO Select 24 Enter 1000 Enter 7 Select FLOW PACED Enter the number of pulses between sample events Select BOTTLES SAMPLE For this example select NO by pressing an arrow until the option blinks Then press 1 Selecting YES allows the program to run indefinitely by repeating the sample distribution Continuous sampling assumes that filled bottles are replaced with empty bottles at regular service intervals Enter 2 Select CLOCK TIME Enter 6 then enter 0 This is the time at which the sampler will start the pacing countdown Select MO WE and FR Use the arrow keys and to select the days When the correct days are blinking select DONE and press Select NO 4 4 Pacing Standard Time Pacing and Flow Pacing Screens for Samplers without Flow Modules TIME PACED FLOW PACED When programming you will
22. 4 10 5 27 s Sample volume calibrating 4 14 flow proportional 5 19 measuring 2 13 variable volume sampling 5 19 Sampler enable 4 9 5 23 dry period option 5 26 master slave sampling 5 29 repeatable enable 5 25 sample at enable or disable 5 25 start delay 5 26 start times 4 8 stay enabled 5 25 Samples per bottle 4 6 5 16 Sampling programs running programs 4 10 5 27 Sampling reports Collecting reports 4 19 5 28 configuring 4 21 sampling results report 4 22 Viewing 4 20 Sampling results report see Sampling reports Sampling retries 5 12 SDI 12 parameters 6 2 Sequential distribution 4 6 5 16 Serial output 5 39 7 6 Servicing 2 16 collecting filled bottles 2 17 recovering the sampler 2 17 service schedule 2 17 Site description menu how to use 3 7 software compatibility 1 3 sonde calibration 6 7 sonde setup 5 36 sondes 6 1 AQ700 6 1 data storage 6 6 disconnect 6 8 Isco ready 6 4 non Isco ready 6 5 parameters 6 2 scan 6 3 Start times Index 3 6712 Portable Sampler Index Index 4 clock start time menu 3 6 Y event pacing 5 12 YSI 600 first valid day 4 8 5 27 about the sonde 1 2 sampler enable 4 8 displayed readings 4 11 Stored data 5 1 Stored programs 5 2 effects of reinitializing controller to factory settings 8 7 selecting a program 5 2 Stormwater monitoring Two part programs 5 2 Strainers selecting 2 11 Suction head auto suction head 5 12 aut
23. 5 in 2 hours and the level goes above 1 foot Select RAIN Choose AND Select LEVEL Enter 5 for the inches of rain Press Enter 2 HOURS Select ABOVE SET POINT Select YES Select SET POINT Enter 1 foot Select ABOVE SET POINT Your enable conditions will be summarized on the display If correct press to continue If necessary make changes to the enable conditions 5 12 Sampler Enable Responses 5 12 1 Once Enabled Stay Enabled 5 12 2 Repeatable Enable 5 12 3 Sample at Enable or Disable 6712 Portable Sampler Section 5 Extended Programming In addition to programming enable conditions extended pro gramming lets you control the sampler s response to its enable state You can e Stay enabled after the first enable Set up a repeatable enable e Take a sample at enable or disable Delay the start of sampling after the enable e Reset the sampling interval countdown each time the sampler is enabled Control the sampling interval countdown while disabled Enable Part B of a two part program when Part A is done For certain monitoring programs you may want the sampler to continue to sample even though the conditions that enabled the sampler no longer exist When you use the ONCE ENABLED STAY ENABLED feature after becoming enabled the sampler takes samples until it reaches the end of its program ONCE ENABLED STAY ENABLED YES NO M Note The STAY E
24. 5 9 4 Composite 5 9 5 Multiple Bottle Compositing 5 9 6 Time Switching 5 16 Distribution describes how the sampler is to deposit samples A sample is the volume of liquid deposited in a bottle A sample event includes the full sampling cycle and may deposit a sample into more than one bottle You can program the sampler for five distribution methods Sequential Bottles per sample e Samples per bottle Composite Multiple Bottle Compositing In sequential distribution the sampler deposits one sample in each bottle A sequential sample represents a snapshot of the flow stream at a point in time In bottles per sample distribution the sampler deposits a sample in each of a set of bottles A bottle set includes at least two bottles but may include all bottles Use bottles per sample when the volume to be collected is larger than the amount one bottle can hold or when you need identical samples In samples per bottle distribution the sampler deposits samples from several sample events in a single bottle before moving to the next bottle Use samples per bottle distribution to collect a series of small composite samples For single bottle configurations samples per bottle distribution is known as composite sampling composite sample represents an average of the flow stream s characteristics during the sam pling period Multiple bottle compositing is a combination of bottles per sample and samples per bott
25. 5 EXTENDED PROGRAMMING 1 1 4 4 7 if ONLY DISTRIBUTION SWITCH BOTTLES ON 2 BOTTLES SAMPLE 2 BOTTLES PER NUMBER OF SAMPLES SWITCH BOTTLES EVERY gt RUN CONTINUOUSLY 3 SAMPLES BOT TLE SAMPLE EVENT 1 24 TIME 3 SAMPLES 1 50 YES NO Time Switched Flow paced No sample at start Start Time Time Override pes 2 6 i TO 5 4 EXTENDED PROGRAMMING ONLY DISTRIBUTION SWITCH BOTTLES ON 1 BOTTLES SAMPLE 1 BOTTLES PER NUMBER OF SAMPLES SWITCH BOTTLES EVERY SWITCH AT 13 00 SAMPLE EVENT 1 24 TIME 1 HOURS 0 MINUTES 1 THEN EVERY 1 00 Figure 5 1 Sample Distribution 5 18 5 10 Flow Proportional Sample Volumes 6712 Portable Sampler Section 5 Extended Programming The 6712 can collect flow proportional sample volumes For some sampling protocols these flow weighted variable volume samples can be more representative of the stream This is because stream characteristics often change as the flow fluc tuates Variable volume sampling is possible when the sampler is pro grammed for Uniform Time pacing To enable this feature select YES at the display asking DO YOU WANT SAMPLE VOLUMES DEPENDENT ON FLOW DO YOU WANT SAMPLE VOLUMES DEPENDENT ON FLOW YES NO After answering YES the sampler displays screens to program the flow proportional volumes If the sampler has a 700 Series Flow Module inserted you will be asked which flow mea surement should be used to determine the volu
26. Composite Tube Guide Recommended for all 1 Bottle Kits 60 9004 051 Distributor Arm isa ee saree eee E E A eee eee 60 9004 050 Locking Assy compact 6712 samplers includes locking cables and padlock 68 6710 111 Locking Assy standard 6712 samplers includes locking cables and padlock 68 6700 134 Suspension Harness for Compact and Standard Samplers 60 1394 014 1000 milliliter Plastic Graduated Cylinder 299 0020 00 E 9 Pump Tubes Suction E 4 Line Strainers Pump Tube Qty 5 u suq assqa naa ERIT E E ETE CHE ER Vei 60 6700 062 Pump F be Qty 10 sisa bh ei IRURE RE ERANT EA ead tars 60 6700 044 Pump Tube Qty 25 4o ter Rer EX ERE eh 60 6700 045 38 inch Standard weighted polypropylene strainer with 10 foot Suction Line 60 9004 378 38 inch Standard weighted polypropylene strainer with 25 foot Suction Line 60 9004 379 PTFE Suction Line 10 foot length 60 1683 146 PTFE Suction Line 25 foot length 60 2703 114 Bulk Vinyl Suction Line 100 foot length 68 1680 058 Bulk Vinyl Suction Line 500 foot length 68 1680 059 38 inch Vinyl Suction Line Acces
27. FORWARD PUMP POST SAMPLE PU COUNTS 10 9999 SERIAL OUTPUT EVERY 15 SEC 1 MIN 5 MIN 5 MIN POWER ON OFF TIMES CANNOT SPAN MORE THAN ONE DAY POWER ON OFF TIMES MUST BE ENTERED IN PAIRS A 19 6712 Portable Sampler Appendix A Menu Flowcharts RUN EXTENDED 1 MAINTENANCE DO YOU HAVE A PROGRAM MANUAL FUNCTIONS RAIN GAUGE ATTACHED VIEW REPORT SOFTWARE OPTIONS YES NO OTHER FUNCTIONS HARDWARE RAIN GAUGE 0 01 inch TIP 0 1mm TIP If applicable NEW HARDWARE SETUP DOWNLOAD DATA NOW PLEASE WAIT PARTITION MEMORY OR LOSE ALL DATA WILL LAST __ DAYS DONE SCAN SDI 12 SONDES _ TURN ON TIME If scan finds sonde see Figure A 24 YES NO See Note A SET 1 0 pris NEW HARDWARE SETUP DOWNLOAD DATA NOW FR TEMP PON RUNNING OR LOSE ALL DATA PGM ENABLED A ENABLED B ENABLED RUN FLOW THRU PUMP PROGRAM DONE SECONDS BEFORE A DONE TAKING READINGS B DONE 0 120 RUN ERROR FLOW THRU N CONDITIONS See Figure A 13 Notes See Figure A 22 A lt denotes input signal gt denotes output signal Figure A 20 Extended Programming Normal View Hardware A 20 6712 Portable Sampler Appendix A Menu Flowcharts RUN ISCO 6712 PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS SOFTWARE OPTIONS HARDWARE DO YOU HAVE A RAIN GAUGE 0 01 inch TIP RAIN GAUGE ATTACHED 0 01 i
28. If applicable SELECT UNITS FOR SELECT UNITS FOR Programming screens for a FLOW RATE FLOW VOLUME PROGRAM MODULE i gps gpm Mgd cf gal Mgal VES ANO 700 Series module Refer to lps m3s m3h m d m3 lit Module s manual if 1 2 4 or 8 bottles BOTTLE VOLUME IS lit 0 3 100 0 NUMBER OF BOTTLES SUCTION LINE LENGTH 12481224 IS __ ft OR LOSE ALL DATA BOTTLE VOLUME IS 9799 DONE z ml 300 30000 If applicable NEW MODULE SETUP DOWNLOAD DATA NOW if 12 or 24 bottles TIME PACED FLOW PACED TIME BETWEEN FLOW BETWEEN SAMPLE EVENTS SAMPLE EVENTS _ HOURS __ MINUTES 0 075 Mgal 0 001 99999 SEQUENTIAL BOTTLES SAMPLE SAMPLES BOTTLE BOTTLES PER Multi bottle SAMPLE EVENT 1 max ___ SAMPLES PER RUN CONTINUOUSLY BOTTLE 1 max YES NO DO YOU WANT TO RUN CONTINUOUSLY TAKE ___ SAMPLES YES NO 1 999 SAMPLE VOLUME _ ml 10 max See Figure A 3 Standard and Extended Programming Start Times Figure A 2 Standard Programming Programming Screens A 2 Continued from Figure 2 NO DELAY TO START DELAYED START CLOCK TIME WAIT FOR PHONE CALL PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO RUN PROGRAM VIEW REPORT OTHER FUNCTIONS See Note E Notes See Notes B amp C FIRST SAMPLE AFTER A 6712 Portable Sampler Appendix A Menu Flowcharts ___ MINUTE DELAY 1 999 See Note D FIRS
29. baud rate is known the 6712 returns an identification ban ner This banner indicates that the connection is working properly 5 Type DATA lt CR gt each time the data string is desired The serial data is in comma separated value format Only the values that the sampler is set up to measure will be output in the data string The string is terminated with a lt CR gt lt LF gt To read the data in the string refer to Table 5 5 This serial data can also be accessed from a remote location using the optional dialout modem see Section 7 M Note The internal modem is disabled when an interrogator cable is connected to the sampler s Interrogator port It cannot receive incoming calls and the alarm dialout is rendered inoperative while this cable is connected Disconnect the interrogator cable in order to use the 4200T modem 5 32 6712 Portable Sampler Section 5 Extended Programming Table 5 5 Serial Data Codes Identifier Parameter Units B Bottle number and time days since 1 Jan 1900 CR Current day s rain tips rolls over every 256 tips cs Checksum unsigned long DE Description 6712 Sampler FL Flow cubic meters per second ID Unit specific identifier 10 digit unsigned long LE Level meters MO Model 6712 PE Percent percent of full scale PH pH none PR Previous day s rain tips rolls over every 256 tips RA Rain tips
30. be asked to select time or flow paced sampling Depending upon your choice you will see one of the following screens TIME BETWEEN SAMPLE EVENTS __ HOURS __ MINUTES FLOW BETWEEN SAMPLE EVENTS PULSES 1 9999 Flow Pacing Screen for Samplers with Flow Modules FLOW BETWEEN SAMPLE EVENTS Mgal 0 001 99999 4 4 1 Trigger Pacing 6712 Portable Sampler Section 4 Standard Programming Sample pacing is the rate at which the sampler takes samples Depending on the type of pacing you select the rate is controlled by the sampler s internal clock or by inputs received from con nected instruments Standard programming provides time pacing and flow pacing refer to Step 7 in the previous two programming examples In time paced sampling the interval between samples is a constant time interval When you program the sampler for time pacing the sampler prompts you to enter the time between sample events in hours and minutes Time paced programs always take a sample at the start time Flow paced sampling requires a flow meter flow logger or a module flow meter or flow logger paces a sampler by sending an electronic signal to the sampler after measuring a specified volume of liquid Because each pulse represents a volume interval flow pacing rates are proportional to the volume of water flowing through the channel When you program the sampler for flow pacing and are using a flow meter or
31. between the liquid level and the pump is as small as possible 2 6 1 Attaching Suction Line Attach the vinyl suction line to the pump tube with the s inch to Pump Tube tubing coupler First screw the threaded end into the suction line until the flat surface is flush against the suction line Figure 2 9 Then push the other end of the coupler into the end of the pump tube until the other flat surface is flush against the tubing Figure 2 9 Attaching the suction line to the pump tubing 2 10 2 7 Strainers 2 7 1 Alternative to Strainers 6712 Portable Sampler Section 2 Installation Preparation Once the coupler is attached to the pump tube removal is dif ficult and may require cutting the tube Teledyne Isco offers three styles of strainer that help prevent solids from clogging the suction line 3 s inch standard weighted polypropylene strainer for routine and priority pollutant sampling 3 g inch stainless steel low flow strainer 3 s inch CPVC coated strainer for acidic liquid sources To select the right strainer for your application see Table 2 3 To install the optional stainless strainer in PTFE suction line heat the end of the suction line to make it more pliable then carefully screw the strainer s threaded connector into the suction line When sampling from high velocity streams with heavy sus pended solids some field investigations suggest that more repre sentative samples are obtained without
32. rolls over every 256 tips RTE Refrigerator Temperature degrees celsius ss Sampler enable state logical degrees celsius Tl Current time days since 1 Jan 1900 VE Velocity meters per second VO Volume cubic meters VSI Velocity signal strength percent VSP Velocity spectrum strength percent COS Conductivity milliseimens per centimeter DO Dissolved oxygen milligrams per liter pH none SA Salinity parts per thousand SP Specific Conductance milliseimens per centimeter TD Total Dissolved Solids grams per liter TE Temperature degrees Celsius Oxidation reduction potential millivolts LE Level meters Ammonium nitrogen milligrams nitrogen per liter MA Ammonia nitrogen milligrams nitrogen per liter Nitrate Nitrogen milligrams nitrogen per liter TBa Turbidity nephelometric turbidity units 5 33 6712 Portable Sampler Section 5 Extended Programming Table 5 5 Serial Data Codes Continued Identifier Parameter Units CL Chloride milligrams per liter CP Chlorophyll micrograms per liter Fla Flow rate cubic meters per second VO Flow volume cubic meters Other data not listed above e The three most recent samples will have entries as B The will be the first bottle number in the set If the sample is a grab sample it will be shown as BO e An a in the identifier indicates an SDI 12 address e matches the da
33. ters can be calibrated you will then advance to the calibration screen If you do not want to calibrate or validate select DONE to return to the Hardware option screens 6 6 6712 Portable Sampler Section 6 SDI 12 Sondes 6 7 Sonde Calibrationand You should calibrate your sonde in the lab according to Validation 6 7 1 Calibration Procedure manufacturer s recommendations M Note The AQ700 multi probe s PC software program provides cali bration for its sensors Refer to the AQ700 user manual for complete instructions for calibration of each parameter The 6712 allows for field calibration of level pH Dissolved Oxygen DO and Oxidation Reduction Potential ORP however field calibrations are stored in the sampler not in the sonde They are used to modify readings from the sonde until a new sonde is connected When a sonde is moved to another sampler it will retain internal calibration constants set in the lab but will not retain any that were set in the field Although field calibration is limited to four parameters you can validate any of the available parameters Validation allows you to immerse the sonde in a known solution and verify the sonde s readings The validation process does not modify any readings like calibration does it merely alerts you to inaccurate ones No data will be stored nor will enable conditions be updated while calibration or validation is being performed To access the calibration
34. the manhole should be assumed to contain an unsafe atmosphere and forced ventilation must be provided It should never be assumed that a manhole is safe just because there is no odor or the manhole has been entered previously Since the top of the manhole is usually flush with the sur rounding surface there may not be anything for the person who is entering the manhole to grab on to steady himself Persons who are entering manholes should not be permitted to carry any thing in their hands as they enter the manhole to ensure that their hands will be free to hold on or grab if they slip A good method for entering a manhole is to sit on the surface facing the manhole steps or ladder with the feet in the hole and the arms straddling the opening for support As the body slides forward and downward the feet can engage a rung and the back can rest against the opposite side of the opening If there is any doubt about the soundness of the manhole steps a portable ladder should be used A person should never enter a manhole unless he is wearing per sonal safety equipment including a safety harness and a hard hat Two persons should be stationed at the surface continuously while anyone is working inside a manhole to lift him out if he is C 1 5 Traffic Protection C 1 6 Falling Objects C 1 7 Removing the Covers C 1 8 Other Precautions 6712 Portable Sampler Appendix C General Safety Procedures overcome or injured One man cannot lif
35. to run program 1 press 3 Ifthe command 15 valid for its current state of operation the sampler responds with command number please acknowledge If the command is not valid the sampler responds with the command number followed by three quick beeps Enter a valid command 4 Acknowledge the valid command by pressing the number For the example press 1 5 Ifthe number is incorrect the sampler responds with your entry followed by three quick beeps You must re enter the command step 2 6 After the command is confirmed the sampler replies with command number acknowledge and executes the com mand To enter additional commands repeat steps 2 through 5 The sampler will hang up after ten seconds of quiet time Table 7 4 6712 Remote Phone Commands Name Description Start This command will immediately start any program set to WAIT FOR PHONE CALL and currently waiting for the remote start command see Section 4 6 Load and Run Program 1 21 Load and Run Program 2 3 or 4 3 7 4rd This command will load Program 1 as the sampler s current Extended pro gram reset partition if the storage interval has been changed and run the pro gram RUNI is valid when the sampler is in standby or when it is waiting for a start command RUN1 will also run the current program while in Standard pro gramming These commands will load the selected progr
36. 03 237 Ted 22 20 18 T 237 1 1 23 20 33 T 236 1 24 20 48 230 20 48 DONE 19 DEC SOURCE S SOURCE T Figure 4 6 Report Sampling Results 4 26 6712 Portable Sampler Section 4 Standard Programming SAMPLER ID 3687447734 06 32 19 DEC 02 Hardware Software 1 02 BUBBLER MODULE 2215419583 Hardware A00000 Software 1 07 COMBINED RESULTS kkkkkkkkkxkxk SITE FACTORY051 Program Started at 15 03 WE 18 DEC 02 Nominal Sample Volume 200 ml FLOW TOTAL LEVEL RATE FLOW SAMPLE BOTTLE TIME ft cfs Mgal T 1 15 03 0 009 2 495 000000 000 1 1 2 15 18 0 012 2 576 000000 017 1 1 3 15 33 0 012 2 666 000000 035 Il 4 15 48 0 012 2 773 000000 053 1 1 5 16 03 0 012 2 773 000000 072 1 1 6 16 18 0 012 2 798 000000 091 1 1 7 16 33 0 012 2 798 000000 109 1 8 16 48 0 012 2 798 000000 128 9 17 03 0 012 2 751 000000 147 1 1 10 17 18 0 012 2 773 000000 166 1 1 11 17 33 0 009 2 798 000000 185 1 1 12 17 48 0 012 3 728 000000 207 1 1 13 18 03 0 012 3 728 000000 232 1 1 14 18 18 0 012 3 728 000000 257 1 1 15 18 33 0 009 3 728 000000 282 16 18 48 0 012 5 273 000000 317 1 1 17 19 03 0 012 5 239 000000 353 1 1 18 19 18 0 012 6 651 000000 397 Lad 19 19 33 0 009 6 651 000000 442 E 20 19 48 0 009 6 651 000000 486 Le 2 20 03 0 012 6 651 000000 531 1 1 22 20 18 0 012 6 651 000000 576 1 1 23 20 33 0 009 3 404 000000 612 1 1 24 20 48 0 012 3 425 000000 634 Figure 4 7 Report Combined Resul
37. 1 PROGRAM VI EW REPORT OTHER FUNCTI ONS 2 Select hardware and use the down arrow to scroll to the I O screen MAI NTENANCE MANUAL FUNCTI ONS SOFTWARE OPTIONS HARDWARE 3 Select the first pin to program From this screen your choices are viewed by scrolling with the arrow buttons PGM RUNNING PGM ENABLED ENABLED B ENABLED PROGRAM DONE DONE B DONE RUN ERROR FLOW THRU CONDITIONS NONE ENABLE 5 38 Note All choices listed are alarm output settings except for I O ENABLE This is the input function to enable the sampler via an external device 4 f you select CONDITIONS the sampler will display 1 01 RAIN NONE Depending on what equipment is connected to your sampler you may see other parameters in addition to RAIN such as LEVEL FLOW VELOCITY etc Under CONDITIONS you can program limits for a condition to trigger the alarm when the measured parameter exceeds its limit You can use one or two conditions to trigger one alarm using AND or OR operators When you select a parameter with the arrow keys and Enter you can then program the limits for alarm triggering For example if you select rain the sampler will display RAIN SET POINT 1 00 INCHES PER 1 HOURS 0 MINUTES O IS HIGH means Alarm is triggered Select ABOVE BELOW then select whether or not to reset rainfall history when the alarm is triggered RESET RAIN HI STO
38. 1 plastic bottle 12 400 ml Samples 37 F 3 C Composite Sample 37 F 3 C 1 glass bottle 12 400 ml Samples 36 F 2 Composite Sample 36 F 2 C The cooling capacity is the temperature of the sample and the cooling water 24 hours after the last sample is taken The amount of ice specified for the ice capacity was used The temperature of the sample liquid is 65 F 18 C The ambient temperature is 75 F 24 C Average Thermal R 10 Resistance Factor The average R value for a complete sampler This includes a tub center section top cover controller pump tube distributor arm and discharge tube 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued 6712 Standard Sampler with Optional 5 Gallon Bottle Physical Specifications Dimensions Base Alone Assembled Sampler Height 15 4 inches 39 1 cm Diameter 19 9 inches 50 6 cm Height 31 5 inches 80 0 cm Diameter 19 9 inches 50 6 cm Sampler Tub Configuration 1 round glass bottle 5 gallons 18 9 liters Dry Weight 52 Ibs 24 kg tube This includes the top cover center section bottle base 5 gallon glass bottle controller pump tube and discharge Ice Capacity Filled Bottle Weight x 3 4 x 1 4 approximate ice cube size Ice capacity will vary with the size of the cubes 21 Ibs 9 5 kg 115 Ibs 52 kg
39. 13 C 12 plastic bottles 250 ml Sample 34 F 1 C Sample 12 41 F 5 C 12 glass bottles 175 ml Sample 34 F 1 C Sample 12 43 F 6 C 1 plastic bottle 12 400 ml Samples 43 F 6 Composite Sample 43 F 6 C 1 glass bottle 12 400 ml Samples 39 F 4 C Composite Sample 39 F 4 The cooling capacity is the temperature of the sample and the cooling water 24 hour after the last sample is taken The amount of ice specified for the ice capacity was used The temperature of the sample liquid is 65 F 18 C The ambient temperature is 75 F 24 C Average Thermal R 11 Resistance Factor The average R value for a complete sampler This includes a tub center section top cover controller pump tube distributor arm and discharge tube a The 710 Ultrasonic Module and sensor have been discontinued as of August 17 2012 Connector Icon Pin Location Diagram 6712 Portable Sampler Section 1 Introduction Table 1 4 Connector Specifications Pin Function POWER SOURCE m 2 PIN MALE SEALED A Ground B 12 volts DC RAIN GAUGE 9 PIN FEMALE SEALED A 12 volts DC B Ground Programmable 1 01 pin D Rain gauge input E 12V switched F SDI 12 Data recv G SDI 12 Transmit 5V Programmable 1 2 pin I Programmable 1 03 pin INTERROGATOR Switched 12 volts Ground Connection Sens
40. C 1 3 Adverse Atmospheres C 1 4 Entering Manholes Sharp Edges Sharp edges of items in or near a manhole may cause cuts or bruises Lifting Injuries Unless proper tools are used to remove manhole covers back injuries or injuries to hands or feet may result Advance planning should include arrangements for test equipment tools ventilating equipment protective clothing traffic warning devices ladders safety harness and adequate number of personnel Hasty actions may result in serious injuries Time spent in the manhole should be kept to a minimum Refer to Table C 1 Hazardous Gases at the end of this appendix Before workers enter a manhole tests should be made for explosive atmosphere presence of hydrogen sulfide and oxygen deficiency Combustible or toxic vapors may be heavier than air so the tests on the atmosphere must be run at least 3 4 of the way down the manhole Whenever adverse atmosphere is encountered forced ventilation must be used to create safe conditions After the ventilating equipment has been operated for a few minutes the atmosphere in the manhole should be retested before anyone enters the manhole When explosive conditions are encountered the ventilating blower should be placed upwind to prevent igniting any gas that is emerging from the opening When a gasoline engine blower is used it must be located so that exhaust fumes cannot enter the manhole If testing equipment is not available
41. Distributor Arm Position B Discharge Tube 60 9009257 Discharge Tube Length 14 4 inches 36 2 cm 2 2 6712 Portable Sampler Section 2 Installation Preparation Table 2 1 Distributor Arm Adjustments and Discharge Tube Lengths for Bottle Kits Standard 24 Bottle Kit e 350 milliliter glass bottles 1 000 milliliter polypropylene bottles Distributor Arm Position D Discharge Tube 60 9009 260 Discharge Tube Length 17 4 inches 43 8 cm O O en OE 0 amp Standard 12 Bottle Kit e 950 milliliter glass bottles 1 000 milliliter polypropylene bottles Distributor Arm Position C Discharge Tube 90 30037265 Discharge Tube Length 16 2 inches 41 9 cm Cx Standard 8 Bottle Kit e 1 8 liter glass bottles e 2 0 liter polyethylene bottles Distributor Arm Position B Discharge Tube 60 9003 264 Discharge Tube Length 15 4 inches 40 0 cm Standard 4 Bottle Kit e 3 7 liter 1 gallon glass bottles e 3 7 liter 1 gallon polyethylene bottles Distributor Arm Position A Discharge Tube 60 9003 266 Discharge Tube Length 15 inches 38 1 cm lt Les 2 O Or lt 2 3 Installing Bottle Kits The samplers are shipped from the
42. Event Pacing RUD REA RC iu 5 12 5 8 2 Event Paced Sampling 5 18 5 8 3 Nonuniform Time Pacing 5 15 5 8 4 Nonuniform Clock Time Pacing 5 15 5 8 5 Nonuniform Interval Pacing 5 15 5 8 6 Random Interval Pacing 5 15 5 9 Distribution oce 3 maypim ayq ans SETS ORE Sule 5 16 5 9 1 Sequential 22222222252 oe pa a ee WC eS 5 16 5 9 2 Bottles Per Sample 5 16 5 9 3 Samples Per Bottle 5 16 5 9 4 Composite hv e eS Sed da 5 16 5 9 5 Multiple Bottle Compositing 5 16 5 9 6 Time Switching 5 16 5 9 7 Continuous Sampling 5 17 5 10 Flow Proportional Sample Volumes 5 19 5 10 1 Calculating Variable Sample Volume Settings 5 20 5 10 2 Calculations when Using an External Flow Meter 5 21 5 10 3 Calculations when Using a 700 Series Flow Module 5 22 5 11 Sampler l icol e iE dac ed EE e ERAT 5 23 5112 Sampler Enable rii IR Seas ee src Tere E RS 5 24 5 12 Sampler Enable
43. Extended Programming mode and SDI 12 Sonde Setup must be selected from the Hardware Setup menu refer to Section 5 18 For complete SDI 12 sonde setup instructions refer to Section 6 WARNING Most Teledyne Isco flow meters are not certified for use in hazardous locations as defined by the National Electrical Code Contact your Teledyne Isco representative for your equipment s status Never operate equipment in hazardous locations that has not been certified as safe for such use Refer to Appendix C in the back of this manual for more safety information 2 15 6712 Portable Sampler Section 2 Installation Preparation Table 2 4 Connecting Teledyne Isco Instruments to the Sampler Connector Icon Connect These Instruments Power Source 12 volt power source 4 4 Rain Gauge et 674 Rain Programmable I O Pins pins C H and 1 SDI 12 Sonde Refrigerator Temperature Sensor i Interrogator _Z 581 RTD Rapid Transfer Device IBM PC or compatible computer running FLOWLINK External Modem External Data Logger Controller Flow Meter ms 1640 Liquid Level Actuator 3000 Series Flow Transmitters 2100 Series Flow Modules 4100 Series Flow Loggers 4200 Series Flow Meters Master Slave Sampler Pulse Duration Input Interface 4 20 mA Input Interface Closed Pipe Flow Meters using 4 20 mA Inp
44. MISMATCH see Optional check sum on page 7 8 22 INVALID BOTTLE bottle requested is not in the current configuration 23 VOLUME OUT OF RANGE the sample volume requested is outside its range 10 9990 ml ST1 35523 41875 is the most recent sample time BTL 2 is the bottle that received the most recent sample SVO 100 is the most recent sample s volume SOR O0 is the results of attempting the most recent sample The possible results are 0 SAMPLE OK 12 NO LIQUID FOUND 2 LIQUID LOST not enough liquid 3 USER STOPPED using the Stop Key 4 POWER FAILED 5 PUMP JAMMED 7 5 6712 Portable Sampler Section 7 Remote Operation 6 DISTRIBUTOR JAMMED 8 PUMP LATCH OPEN 9 SAMPLER SHUT OFF while sampling 11 NO DISTRIBUTOR 12 SAMPLE IN PROGRESS CS xxxx is the byte by byte sum of the entire string MO CS see Optional checksum on page 77 8 M Note For commands that are not understood INVALID COMMAND or CHECKSUM MISMATCH or when no samples have been taken the most recent bottle information is left off the response string Send Data This command causes the sampler to return the Send Status appended with data from any module rain gauge or SDI 12 device Refer to Table 7 2 to interpret the returned string This returns the same data as the programmable software option Serial Output as described in Section 5 17 6 of this manual The command to send data is DATA CR Ta
45. NUT S 4 40 70 340503000 BATTERY 3AH COIN DISK STYLE NOTE ITEM IS NOT SHOWN IN ILLUSTRATION D 7 6712 Portable Sampler Appendix D Replacement Parts List e S lt 2 58 6 69 NI S 59 N we D 60 MODEL 6712 GN PUMP GEAR CASE e ASSEMBLY Oo L 753 NS gt 2 i 68 66 65 ITEM INVENTORY NO DESCRIPTION 58 6090031 12 DISK OPT 59 609004203 WGR ASSY PMP SNSR 60 609004296 MOT MTG PL ASSY CE 61 609004 304 PMP SFT ASSY 62 602703129 STDF DISTR GR CS 63 609004298 MTG PL ASSY PMP 64 609004 305 SPCR 1 38 X 0 51 L 65 237263210 STDF 6 32 X 1 00 L 66 609004303 GR ASSY 67 237012000 SPACER 140 ID X 313 OD X 312 LONG 68 699003555 SHLD DSPL 69 609004046 MOT ASSY D 8 6712 Portable Sampler z F Appendix E Accessories List E 1 Order Information Prices available on request Additional items appear in Appendix D Replacement Parts List Many other items are available To order any item contact your sales representative or the factory Note that the part name listed on your order acknowledgment and invoice may be different from the item name listed here When examining these documents use the part number for ref erence
46. O2 and 1 Input Output pins respectively Each pin can be either an input for sampler enabling or an output for alarms M Note The state of the I O lines is not defined when the sampler is OFF The enable input requires a pulse signal of 5 to 15 volts Teledyne Isco offers optional interface modules for converting from a 4 20 mA analog or pulse duration signal The alarm output can be set for any RUNNING PROGRAM or RUN ERROR state In addition the CONDITIONS output can report alarm conditions using the parameters the 6712 is con figured to measure You can set thresholds for one or two condi tions and the CONDITIONS output can then trigger alarms when the measured parameters exceed the threshold Alarm function requires an alarm interface module factory installed talking modem or external digital cellular modem see Section 5 18 4 Dialout Alarms Teledyne Isco offers a module designed to provide one two or three contact closures The alarm module can interface the sampler with many types of non Isco devices For more infor mation about the alarm module contact your Teledyne Isco sales representative 5 37 6712 Portable Sampler Section 5 Extended Programming Example I O Pin Programming Although the screens displayed may vary depending on your site setup the programming sequence will be the same or similar to the following example 1 Select OTHER FUNCTIONS to enable the dialout alarm RUN EXTENDED
47. Programming Quick View Programming Screens A 4 5 Standard Programming Quick View Start Times A 5 A6 View Report esa Rcs UM RES dunes aaa aus A 6 7 Maintenance A 7 8 Manual Functions Screens A 8 9 Extended Programming Programming Screens A 9 A 10 Extended Programming Equipment Setup A 10 A 11 Extended Programming Pacing and Distribution A 11 A 12 Extended Programming Event Conditions A 12 A 13 Extended Programming Programmed Sampler Enable A 13 A 14 Extended Programming Quick View Programming Screens A 14 A 15 Extended Programming Quick View Equipment Set Up A 15 A 16 Extended Programming Quick View Pacing and Distribution A 16 A 17 Extended Programming Quick View Programmed Sampler Enable A 17 A 18 Extended Programming Normal View Software Options A 18 A 19 Extended Programming Quick View Software Options A 19 A 20 Extended Programming Normal View Hardware A 20 A 21 Extended Programming Quick View Hardware A 21 A 22 Analog Dialout Screens A 22 A 23 Analog Outp
48. Programming Levels Standard programming lets you set up typical sampling programs quickly Extended programming includes all features available in standard programming plus additional features Sample Delivery System Features Peristaltic Pump Benefits Liquid moves continuously under pumped flow The pump has no metering chambers or gravity fed internal tubing to trap sediment or residual liquid Sample liquid contacts only the strainer suction line tube coupling pump tube bulkhead fitting and sample bottles LD90 Liquid Detector Non wetted Detection Sample liquid never touches the detector Two Line Purges in Sampling Cycle The sampling cycle always includes a pre sample purge and post sample purge that clears the suction line of residual liquid 1 8 6712 Portable Sampler Section 1 Introduction Table 1 1 6712 Standard and Compact Sampler Features Continued Easy Grab Samples Simply disconnect the pump tube from the bulkhead fitting on the center section and place the pump tube over your sample container Vinyl and Suction Lines e 3 inch ID Inside Diameter vinyl line e ID PTFE lined with polyethylene jacket Standard Programming Features Pacing Uniform Time Pacing Sampling at regular time intervals Flow Pacing Sampling at regular flow volume intervals Distribution Methods Composite Samples deposited in a sing
49. The Program Settings report listing current program settings Sampling Results report listing the events occurring during the program Combined Results report combining sampling events with readings from a rain gauge module or SDI 12 sonde Module Summary report summarizing flow rate or parameter readings The Rainfall Summary report listing a summary of rainfall readings Serial Data Output ASCII data output from the interrogator port Units of Measure A variety of metric and English units of measure for length flow rate flow volume and temperature External Sampler Enable Dual Sampler Mode Teledyne Isco flow meters and flow loggers have a programmable sampler enable feature that lets them send an electronic signal to a 6712 that enables starts or disables stops a running sampling program Dual Sampler Mode operates two samplers Command Driven Operation Operate sampler functions using RS 232 communications Warning Messages Pump Tube Warning The 6712 displays a warning to inspect the tube Internal Battery Warning From the Maintenance screen the 6712 displays a warning when it is time to replace the internal battery The internal battery preserves stored data when the 6712 is without external power On Line Help Notes When programming the sampler press the Help key for a brief help note All help topics appear in the index Two
50. Weight of Battery Backed Power 6 6 Ibs 3 0 kg Pack Controller Dimensions Length 10 3 in 26 0 cm Width 12 5 in 31 7 cm Height 10 in 25 4 cm Temperature Ranges Operational 32 to 120 F 0 to 49 C Storage 0 to 140 F 18 to 60 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued Maximum Altitude 2 000 Meters Installation Category II Pollution Degree 2 Humidity 95 RH Maximum Enclosure NEMA 4X and 6 Pump IP17 Enclosure IP67 Typical Delivered The ability to deliver the programmed sample volume Volume Accuracy 10 ml or 10 of programmed value whichever is greater Sample volume calibration is recommended for suction heads greater than 20 feet For recommended calibration at high suction heads refer to Section 4 12 2 Typical Repeatability The ability to repeat the delivered volume for a set of samples collected under the same conditions 5 ml or 5 of the average of the maximum and minimum sample volume in a sample set whichever is greater at lifts up to 25 feet Typical Pump Flow Rate and Suction Head Flow Rate Line Transport Velocity Line Transport Velocity 3 feet 3 9 liters per minute 3 0 ft s 0 91 m s 5 feet 3 9 liters per minute 3 0 ft s 0 90 m s 10 feet 3 7 liters per minute 2 9 ft s 0 87 m s 15 feet 3 6 liters per minute 2 7 ft s 0 83 m s 20 feet 3 3 liters per minut
51. be returned This command causes the sampler to return its status information and current parameter data SD or SCREEN DUMP This command causes the sampler to return the information currently displayed on the sam plers screen The remote screen follows the sampler s display as the information is updated This mode can be used to observe from a remote location while the sampler is programmed on site P or PAUSE Sampling reports This command causes a sampler currently running a program to enter the MANUAL PAUSE menu While you are connected in this mode the sampler keypad becomes disabled and your computer s keypad will be redirected to simulate the sampler keypad The following keys will be activated Enter decimal point and number keys Esc S or s STOP lt Backspace gt L or l and U or u Left Up arrows R or r and D or d Right Down arrows You can retrieve the sampling reports at any time using the same serial connection Type Q to exit the menu Then at the prompt type REPORT and press Enter The sampler controller will send reports as configured 7 3 6712 Portable Sampler Section 7 Remote Operation 7 1 2 External Program Under external program control the sampler operates according Control to received commands An external program can be as simple as manually entered commands to collect a sample when needed or as complex as a user developed process control program for
52. be shown Enable options may include LEVEL FLOW pH TEMP PERCENT VEL RAIN 1 0 A DONE FR TEMP TEMPx CONDx SP COx TDSx SALx Hx ORPx LEVELx NH4x NH3x NO3x TURBx Clx Notes FLOWx See Figure A 5 B YES Latched or Stay Enabled NO Repeatable Enable Figure A 17 Extended Programming Quick View Programmed Sampler Enable A 17 6712 Portable Sampler Appendix A Menu Flowcharts RUN ISCO 6712 PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS SOFTWARE OPTIONS HARDWARE USE LIQUID DETECTOR YES NO PROGRAMMING STYLE NORMAL QUICK VIEW CHANGE MEASUREMENT INTERVAL 5 15 30 SECONDS 1 2 5 MINUTES STORAGE INTERVAL DUAL SAMPLER MODE YES NO BOTTLE FULL DETECT YES NO BACKLIGHT ALWAYS OFF TIMED BACKLIGHT CONTINUOUS BACKLIGHT EVENT MARK SENT FOR EVERY SAMPLE COMPLETE SAMPLES PRE SAMPLE PURGE __ COUNTS 10 9999 POST SAMPLE PURGE DEPENDENT ON HEAD FIXED COUNT PERIODIC SERIAL OUTPUT YES NO POWER ALWAYS ON POWER ON OFF TIMES ALARM DIALOUTS ONLY Figure A 18 Extended Programming Normal View Software Options A 18 EVENT MARK DURATION 3 SECONDS WHILE PUMPING POST SAMPLE PURGE _ COUNTS 10 9999 PORT SETTINGS 9600n81 4800n81 2400n81 1200n81 POWER ON OFF DONE AT THE BEGINNING OF INITIAL PURGE FORWARD PUMPING DURING ENTIRE PUMP CYCLE FORWARD PUMPING SERIAL OUTPUT EVERY 1
53. between the ampersand amp and the double quotes is a space character Line 4 contains two additional options e BACK UP an option that moves the cursor on the text line to the left one character DONE an option that tells the sampler to save the text The cursor is the blinking rectangle that identifies the current field When the screen first appears the cursor blinks on the first character of the text in line 1 The matching character in line 2 or 3 also blinks When you press J the cursor on line 1 moves to the right one position and at the same time the sampler blinks on the matching character on lines 2 or 3 3 7 6712 Portable Sampler Section Programming Introduction To change any character in the text line 1 Press the left or right arrow until the replacement charac ter on lines 2 or 3 blinks 2 Press 1 The replacement character will appear on the first Changing the Site Name line and the cursor will move to the next character SITE 1 3 Repeat steps 1 and 2 until the text in the top line is com ABCDEFGHIJKLMNOPQRST plete UVWXYZ amp 0123456789 ak BACK UP DONE 4 Finish the entry by selecting DONE Then press J Some additional tips for using the text entry menus SITE SACTORY01 n SITE SITE 29 ABCDEFGHIJKLMNOPQRST VINO UVWXYZ amp 0123456789 ABCDEFGHIJKLMNOPQRST UVWXYZ amp 0123456789 BACK UP DONE BACK UP DONE
54. bottle kit To increase cooling for the multiple bottle kits use an ice water bath Place as much ice as possible in the center of the bottle kit and slowly add cold water Continually add ice as the water will melt some ice Always use the retaining rings or hold downs They hold the bottles in position and keep the bottles from floating Route the line so that it runs continuously downhill from the sampler to the liquid source This helps drain the line during pre sample and post sample purges When the sampler is used in below freezing temperatures there is a risk of the suction line being frozen A suitably warm sampling source can usually prevent this provided there are no loops in the suction line Some situations may require more protective measures such as insulation of the suction line or heat tape Thoroughly draining the suction line minimizes the possibility of frozen liquid clogging the line For representative samples place the intake in the main current of the flow stream not in an eddy or at the edge of flow Placing an intake at the bottom may produce samples with excess heavy solids and no floating materials while placement at the top may produce the opposite conditions Place the sampler on a relatively flat horizontal surface Placing the sampler on a steep incline may cause the sample to miss the bottle mouth When installing the sampler be sure the vertical distance between the level of the liquid and the pu
55. e Number of Bottles is used to determine the distributor arm position and the acceptable range for the BTL values e Suction Line Length Used with liquid detection to deliver correct sample volumes according to the SVO value 74 6712 Portable Sampler Section 7 Remote Operation Send Status This command causes the sampler to return data string that identifies the controller and lists its current status The command to send current status is STS 1 lt CR gt The status is received as pairs of comma separated identifiers and values complete description of each pair is listed below MO 6712 is the model number of the sampler 10 2424741493 is the sampler s unique ID number 35523 50000 is the sampler s current time shown in date time format based on the number of days since 00 00 00 1 Jan 1900 and the time shown as a fraction The possible states returned by the STS 1 command are 1 WAITING TO SAMPLE 4 POWER FAILED for short time after power is restored 5 PUMP JAMMED must be resolved before continu ing 6 DISTRIBUTOR JAMMED must be resolved before continuing 9 SAMPLER OFF 12 SAMPLE IN PROGRESS 20 INVALID COMMAND Possible causes may be identifier code is not supported bottle requested is not in current configuration sample volume requested is outside its range 10 9990 ml day Set Time must be 5 digits and more recent than 1977 21 CHECKSUM
56. extended character screen contains a pager option that des ignates the phone number as a pager When programmed as a pager number an identification string will be sent seven times after the pager number is dialed with a three second delay between strings An example identification string would be 828 1 meaning Alarm condition 1 exists at sampler 828 If more than one alarm condition exists the string would read similar to 828 1 3 5 18 6 Digital Modem Text The sampler can send alarms in the form of text messages con Messaging taining the same information as that found in voice messages To use this option you must have acellular phone with text messaging capabilities 5 40 5 18 7 Refrigerator Temperature 5 18 8 Analog Output 6712 Portable Sampler Section 5 Extended Programming external digital modem recommended Teledyne Isco s CDMA cellular modem part 68 6710 148 or GSM cellular modem part 60 5314 563 M Note If an internal voice modem is installed the sampler will use that modem and text messaging will be disabled When you enter each of the up to three phone numbers for the sampler to call if text messaging is active a request for the TAP Telocator Alphanumeric Protocol server number and communi cations parameters will be made As with voice messaging the sampler will dial each telephone number up to five times per alarm condition until the message is acknowledged
57. is missing or broken The distributor drive mechanism inside the controller is malfunctioning Occasionally the sampler displays a warning message to alert you to a potential problem The warning REPLACE PUMP TUBE reminds you to check the condition of the pump tube Instructions regarding the pump tube can be found elsewhere in this section 6712 Portable Sampler Appendix Menu Floucharts See Running Programs on page 10 RUN PROGRAM VIEW REPORT OTHER FUNCTIONS POWER USED CURRENT _ _ amp hr PREVIOUS _ _ amp hr Note A 4 See the charts pages 2 through 19 Note See View Report on page 6 MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE See Maintenance Screens on page A 7 Su C See Manual Functions Screens on page A 8 PROGRAMMING STYLE NORMAL QUICK VIEW CHANGE Note A Menu access can be controlled with the optional Program Lock See Section 5 Figure A 1 6712 Menu Tree for Standard Programming A 1 6712 Portable Sampler Appendix A Menu Flowcharts RUN PROGRAM VIEW REPORT OTHER FUNCTIONS SITE DESCRIPTION SITE STOP key FACTORY ABCDEFGHIJKLMNOPQRST pressed SAVE CHANGES CHANGE UVWXYZ 8 0123456789 YES NO YES NO BACK UP DONE DONE Programming screens shown are for a 730 Bubbler Flow Module Screens for other modules may vary
58. is larger than the amount one bottle can hold or when you need identical samples In samples per bottle distribution the sampler deposits samples from several sample events in a single bottle before moving to the next bottle Use samples per bottle distribution to collect a series of small composite samples For single bottle configurations samples per bottle distribution is known as composite sampling composite sample represents an average of the flow stream s characteristics during the sam pling period Sample programs can be run indefinitely by selecting YES at the RUN CONTINUOUSLY screen Continuous sampling resets the distribution when the distribution sequence is com plete That is when the last bottle set is reached the next bottle set is the first bottle set All pacing modes except RANDOM are supported When running a program continuously the bottles must be ser viced at regular intervals to prevent overfilling the bottles The sampler assumes that the next bottle set is empty and ready to receive samples The figure on the next page steps through the programming screens for sequential bottles per sample and samples per bottle distribution Sequential ZA j j 6712 Portable Sampler Section 4 Standard Programming DIS
59. of fatigue or wear replace it immediately A properly maintained sampler will pro vide the years of reliable service that is expected of a Teledyne Isco Sampler 8 7 6712 Portable Sampler Section 8 Maintenance 8 4 1 Checklist For 1 Disconnect power from the sampler Replacing Pump Tube N WARNING The pump s safety lock prevents the sampler from running the pump when the pump band is open DO NOT tamper with the safety mechanism The pump is extremely powerful The pump rollers can injure you severely if the sampler activates the pump while you are working on it or inside it Disconnect power from the sampler before replacing the pump tube 2 Loosen the liquid detector s cover by unscrewing the black knob on top of the detector Unlatch the pump band The band is the rounded metal band that holds the tube in the pump 3 Pull the tube away from the bulkhead fitting Pull it from the pump and detector 4 Clean the pump rollers and the inside of the pump band 5 Thread the new tubing through the pump so that the tube follows its natural curve around the pump rollers You may need to move the pump rollers to make the installation easier 6 The blue collars on the tube help align the tube in the detector and pump Align the tube by placing the collars in the grooves inside the liquid detector 7 Close the detector s cover and tighten the black knob Close the pump strap and latch it 8 Reset the pump tube co
60. options that are available in the Extended Program mode see example at left While the REENTER NEW PASSWORD password may only be changed in the Extended Program mode the program lock works for both Standard and Extended pro grams Should you forget your password a key code can be obtained from Teledyne Isco s Customer Support department for a nominal fee 5 34 6712 Portable Sampler Section 5 Extended Programming ENTER PASSWORD Programming Screens VIEW DATA SYSTEM IDs CONFIGURE REPORTS ENTER PASSWORD SAMPLINK REPORT FLOWLINK REPORT CUSTOM REPORT ALL REPORTS ENTER PASSWORD MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE ENTER PASSWORD STOP PROGRAM RESUME PROGRAM VIEW DATA GRAB SAMPLE From Standby RUN PROGRAM VIEW REPORT OTHER FUNCTIONS gt gt While Running Program SAMPLE 3 Stop Key IN 00 03 26 9 D gt On Off Key ENTER PASSWORD Figure 5 6 Password Protected Functions 5 35 6712 Portable Sampler Section 5 Extended Programming 5 18 Hardware Setup The hardware setup screens make adjustments to the sampler s RUN PROGRAM NAME PROGRAM VIEW REPORT OTHER FUNCTIONS Select Other Functions MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE HARDWARE Select Hardware 5 18 1 SDI 12 Sonde Setup 5
61. program settings and memory to factory settings You do not need to run the diagnostic tests on a routine basis The diagnostic tests are a troubleshooting tool Teledyne Isco s Customer Service department staff may ask you to run these tests when they work with you in diagnosing problems with your sampler Access the diagnostic screens by selecting Other Functions from the main menu then Maintenance and Diagnostics The unit will automatically test the memory and display you can choose whether it tests the pump and distributor and whether it reini tializes the unit to its original factory settings 8 5 6712 Portable Sampler Section 8 Maintenance 8 6 PLEASE WAIT RAM PASSED TEST PURGING PLEASE WAIT ROM PASSED TEST PURGING e If RAM or ROM fails the test ON OFF RATIOS the sampler will report that RAM or FAILED TEST Contact Teledyne Isco s TEST DISTRIBUTOR Customer Service for assis YES NO tance ABCDEFGHIJKLMNOPQRST ABCDEFGHIJKLMNOPQRST FINDING ARM FLEXURE ABCDEFGHIJKLMNOPQRST ABCDEFGHIJKLMNOPQRST TEST PUMP NOW AT BOTTLE __ YES NO RE INITIALIZE PUMPING YES NO PUMPING ON OFF RATIO Memory Test Screens 1 and 2 at left show you the diagnostic tests for the unit s memory If either screen shows you a message saying that the memory failed the test contact Teledyne Isco s Cu
62. sampling program con tinues to operate as normal with the exception of taking samples If a sample was to be taken it is skipped The sampler records sample skipped in the sample event log and continues to operate as normal The manual paused state displays a scrolling menu with several options see example below Use the Arrow keys to scroll through the manual paused options and the key to make selection Return to the running program by selecting resume program or pressing the Stop key If you do not make a selection the sampler automatically resumes the original sampling program five minutes after the last key was pressed lt STOP PROGRAM RESUME PROGRAM VIEW DATA Manual Paused Screen GRAB SAMPLE 4 8 1 Stop Program This option terminates the running program and records program stopped in the sample event log The program cannot be resumed 4 12 4 8 2 Resume Program 4 8 3 View Data 4 8 4 Grab Sample 4 8 5 Pump Tube Alarm 4 8 6 Calibrate Volume 4 8 7 Cal Adj Parameters 4 8 8 Adjust Pacing 6712 Portable Sampler Section 4 Standard Programming Selecting this option will cause the sampler to exit the manual paused state and return to normal program operation manual resume event will be logged This option allows you to view the data recorded by the sampler See Reports on page 4 19 for more information When selected you will be asked to enter the volume to be pumped sample will
63. screen In some screens you can use the Decimal Point key in a number Some screens display the range of acceptable numbers between parentheses If an entry is too low or high the controller beeps and erases the entry Type a new number and continue 3 3 6712 Portable Sampler Section Programming Introduction 3 3 Quick View Screens 3 4 3 3 1 Paging Through Quick View Screens 3 3 2 Changing Settings in a Quick View Screen Quick view screens are a special type of menu screen They show the current program settings and let you move quickly through the program You must change the programming style to QUICK VIEW CHANGE to see the quick view screens as shown below RUN PROGRAM Select OTHER FUNCTIONS 1 VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANGA EUNBHONE Select PROGRAMMING STYLE 2 PROGRAMMING STYLE PROGRAMMING STYLE Select QUICK VIEW CHANGE 3 QUICK VIEW CHANGE The arrows in the corners of each quick view screen are menu options that let you move from one quick view screen to another Select the up arrow to go to the previous screen Select the down arrow to go to the next screen Press Stop to return to the main menu Because the forward arrow is always blinking when the screen appears you can simply press to go to the next quick view screen making it easy to page through the screens Although the quick view screens offer you a quick way to see the program settings
64. storage resolution Submerged Probe 16 bits representing level 0 0001 m storage resolution Bubbler 16 bits representing level 0 0001 m storage resolution 0 0001 m storage resolution 0 001 ft s storage resolution Area Velocity 16 bits representing level 16 bits representing velocity 4 20 mA 16 bits representing percent 0 1 storage resolution 16 bits representing level 32 bits representing flow SDI 12 Sonde Readings Parameter Range Resolution Storage Bytes Temperature 40 100 C 0 1 C 2 Conductivity 0 100 mS cm 0 01 mS cm 2 Specific Conductance 0 100 mS cm 0 01 mS cm 2 Total Dissolved Solids 0 90 g l 0 01 g l 2 Salinity 0 70 ppt 0 1 ppt 2 Dissolved Oxygen 0 20 mg l 0 1 mg l 1 pH 0 14 0 1 1 ORP 999 999 mv 0 1 mv 2 Level 0 6 5279 m 0 0001 m 2 Ammonium Nitrogen 0 200 mgN 0 1 mgN 1 2 Ammonia Nitrogen 0 200 mgN 1 0 1 mgN 1 2 Nitrate Nitrogen 0 200mgN 1 0 1 mgN 1 2 Turbidity 0 5000 NTU 0 1 NTU 2 Chloride 0 1000 mg l 0 1 mg l 2 Chlorophyll 0 400 ug l 0 1 ug l 2 Other 99999 0 99999 0 0 0001 4 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued Module Reading Conversions Level and 4 20 mA readings converted to flow rate units gallons per second gallons per minute million gallons per day cubic feet per second cubic meters per second cubic meters per hour cubic meters per day liters per second Velocity unit
65. the Work strainer and suction line to the pump tube The liquid flows through the pump tube and past the liquid detector which senses the liquid From the detector the liquid follows the pump tube through the pump to the bulkhead fitting and then through the discharge tube to the sample bottle 2 8 1 A Typical Sampling 1 The sampler moves the distributor arm over the bottle that Cycle is to receive the sample 2 The pump reverses for the pre sample purge 3 The pump direction changes filling the suction line 4 When the detector senses liquid the sampler begins mea suring the sample 5 After depositing the sample the pump again reverses for the post sample purge Sampling cycles vary somewhat according to program settings for distribution The sampler can move the distributor arm clockwise and counterclockwise making a number of distribution methods possible In this manual the words sample event refer to a full sampling cycle for any distribution Other variations include extended program settings for suction line rinses and sampling retries sampler running a program with line rinses completes the pre sample purge and then rinses the line The suction line is purged after each rinse When programmed for sampling retries the sampler will attempt to pump a sample again if it fails on previous attempts a Controller b Peristaltic pump c Liquid Detector d Strainer e Suction line f Stainless Steel
66. the alarm condition it records the type of alarm and the time it occurred Acknowl edgements are a separate Sampling Report entry recording the time and telephone number that responded to the call As mentioned previously as many as three telephone numbers may be entered The modem can dial up to 25 digits Enter numbers using the numeric keys on the sampler keypad When entering telephone numbers longer than 17 digits the display will scroll Extended characters the Comma Pound and Star also may be included in the 25 digits To enter an extended character press the Decimal Point key on the sampler keypad The sampler displays a screen used to select and enter the extended char acters Each comma entered will cause the modem to pause for two seconds before proceeding with the remaining digits Phone numbers that are no longer needed can be removed Advance the cursor to the end of the telephone number and then press the Left Arrow key to erase the preceding character If the cursor is not at the end of the telephone number the Left Arrow key will only shift the cursor without erasing any characters Dialout telephone and pager numbers are included in the Program Settings Report Connecting either the serial output or the standard interrogator cable to the sampler disables the internal dial out modem The interrogator or serial output cable must be disconnected before you can use the modem 5 18 5 Pager Numbers The
67. the main circuit board Remove the three screws and the 4 inch stud attaching the main circuit board to the case Detach the main circuit board from the keypad connector by pulling gently upward on the edges of the board next to the connector Pull the main board up until the keypad con nector is almost even with the edge of the case Next detach the main circuit board from the connector board De solder the existing battery cylindrical or coin style using care to prevent damage to the circuit board Insert the new battery and solder it in place M Note Poor soldering techniques can easily damage a printed circuit board The battery should be replaced by a skilled technician WARNING Danger of explosion if lithium battery is incorrectly replaced Replace with the same type ensuring correct polarity Do not dispose of used lithium battery in fire 9 10 11 12 Reconnect the main circuit board to the connector board before reconnecting it to the keypad Replace the 4 inch stud and the three screws and reconnect the module liq uid detector and pump count connectors Replace the EMI shield and grounding straps Reconnect the two distributor connectors Ensure that all connections and hardware are secure Replace the desiccant and close the case Reset the battery alarm If the sampler detects an error that prevents it from taking a sample or continuing the program it displays an e
68. the main menu Select PROGRAM NAME EXTENDED 1 from the quick view menu Select SELECT NEW PROGRAM to change the program You can go through QUICK VIEW screens quickly by pressing at each screen You can also change settings in quick view screens see Changing Settings in a Quick View Screen on page 3 4 Select the name of the extended program you want to use Each program s name appears on the same line If you inadvertently give two programs identical names you can still identify them by their location on the screen To run the program immediately select YES To run the program later select NO 5 3 6712 Portable Sampler Section 5 Extended Programming 5 4 Programming for 700 The bay the controller s side accepts any of Teledyne Isco s 700 series Modules Series Modules These optional accessories are not required to operate the 6712 However the modules offer an economical way to combine flow rate or parameter monitoring with sampling The programming of these modules is integrated with the pro gramming of the sampler so attachment of a module will cause different screens to be displayed depending on the type of module and the selections you make while programming Two modules that are commonly used are the 730 Bubbler Module which monitors a flow stream s level and flow rate and the 750 Area Velocity Module for monitoring a flow stream s level velocity and flow rate Section 4 contains two examples
69. the program settings to the settings shipped with the sampler screen 12 Reinitializing also clears the memory that stores the sampler s event log and module data Use this option cau tiously Replace the pump tube only with Teledyne Isco s 6712 pump tubing Other pump tubes will not work The 6712 pump tubing is easily recognized by the blue alignment collars Improper pump tubes include those made for Teledyne Isco s other samplers 3700 GLS etc and tubing from non Teledyne Isco vendors Also note that the discharge tube is not the same as the pump tube You could experience several problems if you install the wrong pump tubing The sampler will not pump the liquid e Pump jams naccurate sample volumes e Faulty liquid detection Inspect the pump tube periodically Replace the tube when it cracks or appears worn Inspect the tube frequently when the sample liquid contains a high percentage of suspended or abrasive solids M Note The importance of regular tubing replacement cannot be over stated The key is to replace the tube before failure not after When a pump tube ruptures grit and other abrasive debris can be driven into the pump shaft seal Over time this abrasive material will degrade the pump seal jeopardizing the NEMA 4x 6 rating of the controller Failure to maintain the pump tube may result in permanent damage to the sampler Check the condition of the pump tube regularly and if the tube shows signs
70. the strainer Consider attaching a short piece of thin walled aluminum tubing to the end of the suction line anchor the tubing so that the inlet opens upstream The aluminum tubing s thin wall will not disturb the flow stream and most sample analyses disregard aluminum ions Under most conditions the pre sample purge removes any debris over the tubing entrance Table 2 3 Selecting the Right Strainer Strainer Dimensions Application Maximum Depth 10 5 3 8 Stainless 1 Routine Vinyl Line Steel Ends m u applica 22 feet 6 7m Polypropylene NU SAM OW SSO mons PTFE Line Center 400 1 4 15 feet 4 5m Diameter Diameter 7 l Low flow Vinyl Line 3 8 1 22 feet 6 7m Stainless Steel Ne woo MC hae su Low Flow 400 nas Teflon Line diameter 562 15 feet 4 5m diameter aS IEL 11 5 Highly Vinyl Line acidic 4 feet 1 2m 3 8 m OO O O O liquids CPVC 1 5 16 Diameter Note The suction lines will float when filled with air during the purge cycles and when depths exceed the listed ratings Secure the suction lines when sampling at depths exceeding the maximum ratings All strainer dimensions are in inches PTFE suction line is compatible only with the 3 g stainless steel strainer 6712 Portable Sampler Section 2 Installation Preparation 2 8 How Does the Sampler When the sampler takes a sample it draws liquid through
71. then be taken as if it is to be placed into a container outside the sampler base Do this by removing the pump tubing from the bulkhead fitting See Grab Samples on page 4 15 A grab sample event will be logged If the pump tube is changed this option should be selected to reset the pump counts on the counter This will remove the WARNING REPLACE PUMP TUBING message that may appear while the program is running A pump tube replaced message is logged See Replacing The Pump Tube in Section 7 Maintenance When selected you will be asked to enter the volume to be pumped A sample will then be taken as if it is to be placed into a container outside the sampler base Do this by removing the pump tubing from the bulkhead fitting After the sample has been pumped you will then be asked to enter the amount actually delivered Once you have entered the delivered volume and accepted the calibration a volume delivered event will be logged When the sampler is configured for operation with a module this option becomes available Selecting this option will display the appropriate level adjustment screens and or the calibration screens If the level is adjusted an adjusted level event is logged If a parameter is calibrated an appropriate event is logged Calibrating a parameter probe will temporarily turn off the partition data storage and the sample enable disable functions These functions are disabled during the calibration and f
72. they also provide you with a way to change set tings Using quick view screens to change settings is sometimes a faster way to change a program because you can go quickly to the setting or settings that needs updating To change the program settings in a quick view screen Press an arrow until the setting blinks Press J The 6712 then displays the screen used to change the setting The Quick View screens below shows you how to change the sample volume Begin by paging through the quick view screens until you see the screen containing the sample volume setting 200 ml SAMPLES When you change a setting the sampler stores the new settings and returns to the updated quick view screen You can repeat this process until all settings shown in the quick view screens have been changed When you are done select the screen s forward arrow to move to the next quick view screen or press Stop to return to the main menu Quick View Screens in Standard Programming RUN PROGRAM VIEW REPORT OTHER FUNCTIONS e To see the Quick View screens select PROGRAM SITE DESCRIPTION SITE29 Y e Use the keypad s arrow key to select 4 for the next quick view screen When is blinking press J e Use the keypad s arrow key to select for the previous quick view screen When is blinking press J e Use the keypad s arrow key to select the program setting When the setting is blinking press 1 to display the scr
73. to identify proper data types for each data value reported This section shows you how to set up both Isco Ready and other SDI 12 sondes for use with the 6712 WARNING SDI 12 Sondes have not been approved for use in hazardous locations as defined by the National Electrical Code N CAUTION Before you install any sonde you must take the proper safety precautions Refer to Appendix C in the back of this manual Additional safety considerations may be required Check appli cable guidelines codes and regulations of federal state city and county agencies 6 2 Parameter Temperature Table 6 1 SDI 12 Sonde Parameters Units Range 40 100 Resolution 6712 Portable Sampler Section 6 SDI 12 Sondes Conductivity Specific Conductance 0 100 Total Dissolved Solids 0 90 Salinity 0 70 Dissolved 0 20 0 14 999 999 Level 0 6 5279 Ammonium Nitrogen Ammonia Nitrogen Nitrate Nitrogen Turbidity NTU Chloride mg L Chlorophyll ug L Other 6 3 Scanning For Sondes 99999 0 99999 0 sampler must be in Extended Programming to work with sonde You can manually initiate a one time scan for connected sondes or the sampler can automatically scan for the presence of sondes on power up From the main menu select OTHER FUNCTIONS VIEW REPORT OTHER FUNCTIONS RUN PROGRAM NAME PR
74. tured gas gas indicator odorless taste tissues of oxy sludge less Flammable gen Does not digestion support life tank gas electroly sis of water Rarely from rock strata Hydrogen HCN Faint odor of bit 0 93 Slight symp 10 60 40 0 Near top Insecti Detector tube Cyanide ter almonds toms appear cide and Colorless gas upon exposure rodenti to 0 002 to cide 0 004 0 3 rapidly fatal C 7 6712 Portable Sampler Appendix C General Safety Procedures Table C 1 Hazardous Gases Continued C 8 Specific Max Max Safe Explosive Likely Simplest and 5 5 5 i Gas Chemical Common EE Physiological Seid S0 8 Hour by RS RAE Cheapest Formula Properties Effect T Exposure Tel Safe Method Density Exposure Limits Highest Sources Air 1 ppm lower upper Concentration Qu etis Gas Chemical Common Specific Physiological Max Max Explosive Range Likely Most Simplest and Formula Properties IGravityor Safe Safe by vol Location Common Cheapest apor 60 Min 8 Hour lin air lof Sources Safe Method Density Exposure Exposure Limits Highest bf Testing Air 1 ppm ppm ower upper Concentration Hydro H2S Irritant and poi 1 19 Impairs sense 200 20 4 3 Near bottom Coal gas 1 5 gen Sul sonous volatile of smell rap to but may be petro Ampoule fide compound Rot idly as concen 300 45 0 above bottom
75. when enabled It receives an enable signal at 10 03 and takes a sample After resetting the interval the sampler takes subsequent samples at 10 18 not 10 15 10 33 not 10 30 and so on If you select NO when asked if you want to reset the sample interval at enable you will be asked if you want to continue the countdown while disabled You can have the sampler continue the countdown repeating it as often as necessary while the sampler is disabled or you may suspend the countdown while disabled resuming the countdown as the sampler is enabled The standard program allows the countdown to continue while dis abled 5 26 5 13 Pauses Resumes Pause and Resume Screens Flowcharts containing the pause and resume screen appear in Appendix A PAUSE RESUME 1 17 00 MO 08 00 TU 2 17 00 TU 08 00 WE CLEAR DONE SAMPLE AT RESUME YES NO 5 14 Running Programs 5 14 1 Run Time Screens 5 14 2 Interrupting a Running Program 6712 Portable Sampler Section 5 Extended Programming Pause and resume settings available in extended programming create an intermittent sampling schedule A program with pauses and resumes begins sampling at its programmed start time continuing until the first pause time and day of the week It then suspends sampling until the first resume time when it begins sampling again If the start time falls within a pause period the sampler will not begin sampling until the next resume ti
76. 1 1 Software Update window 2 1 Installing the Distributor Arm 2 2 Placing the 24 Bottle Kit in a Standard Tub 2 3 Placing the 12 Bottle Kit in a Standard Tub 2 4 Placing the 8 Bottle Kit in a Standard Tub 2 5 Placing the 4 Bottle Kit in a Standard Tub 2 6 Placing the carrier in the compact tub 2 7 Installing the Composite Tube Guide 6712 Portable Sampler Table of Contents 2 8 Composite Bottles 2 8 2 9 Attaching the suction line to the pump tubing 2 10 2 10 Identifying the Sampler Components 2 12 3 1 Menu Tree for Standard Programming 3 12 4 1 Sample Distribution 4 7 4 2 Start Time Diagram ete LR Goo esas saku cox ETC Genres 4 10 4 3 Running Program 4 11 4 4 Taking Grab Sample 4 15 4 5 Report Program Settings 4 26 4 6 Report Sampling Results 4 26 4 7 Report Combined Results
77. 1 kg 4 plastic bottles 98 lbs 45 kg 4 glass bottles 104 Ibs 48 kg 1 plastic bottle 90 lbs 41 kg 1 glass bottle 94 lbs 43 kg This includes everything in the Dry Weight Dry Weight With and Ice Capacity specifications and the bottles are filled to the capacities listed in Sampler Tub Configurations This weight does not include a power source Ice Capacity 24 plastic bottles 12 lbs 5 4 kg 24 glass bottles 30 lbs 13 6 kg 12 plastic bottles 1616 7 3 kg 12 glass bottles 16 lbs 7 3 kg 8 plastic bottles 12 lbs 5 4 kg 8 glass bottles 12 lbs 5 4 kg 4 plastic bottles 28 lbs 12 7 kg 4 glass bottles 25 lbs 11 3 kg 1 plastic bottle 35 lbs 15 9 kg 1 glass bottle 35 lbs 15 9 kg x x 1 4 approximate ice cube size Ice capacity will vary with the size of the cubes Cooling Capacity Configuration Sample Size Cooling Water Last Sample Last Sample Temp 24 plastic bottles 500 ml Sample 61 F 16 C Sample 24 63 F 17 C 24 glass bottles 175 ml Sample 39 F 4 C Sample 24 41 F 5 C 12 plastic bottles 500 ml Sample 36 F 2 C Sample 12 54 F 12 C 12 glass bottles 475 ml Sample 36 F 2 C Sample 12 54 F 12 C 8 plastic bottles 1 000 ml Sample 50 F 10 C Sample 8 57 F 14 C 8 glass bottles 900 ml Sample 37 F 3 C Sample 8 54 F 12 C 4 plastic bottles 1 850 ml Sample 34 F 1 Sample 4 34 F 1 C 4 glass bottles 1 850 ml Sample 37 F 3 Sample 4 37 F 3
78. 10 9990 1 Disconnect the pump tube from the bulkhead fitting dd desi Sohne Place the end of the tube over a collection container GRAB SAMPLE 2 3 Follow the steps in Taking a Grab Sample at left 4 3 PRESS WHEN READY Reconnect the pump tube to the bulkhead fitting PURGING 4 SUCTION LINE 5 PUMPING 200 ml PURGING 6 SUCTION LINE GRAB SAMPLE CALIBRATE VOLUME 7 OPERATE PUMP MOVE DISTRIBUTOR Press STOP to return to main menu Figure 4 4 Taking a Grab Sample 4 15 6712 Portable Sampler Section 4 Standard Programming 4 12 Volume Calibration Typically the sampler delivers accurate sample volumes without calibration If you find that sample volumes vary sig nificantly from the programmed values first check the suction line for proper installation Be sure it slopes continuously downhill to the liquid source and drains completely after each sampling cycle Then compare the actual length of the suction line to the suction line length settings in the program to see that they match Also check the pump tube for excessive wear and replace it if necessary Calibration is recommended when A new pump tube is installed Run the pump for five minutes before calibrating e The sample source is above the sampler e Sampling from pressurized lines 15 PSI Maximum e The controller has been reinitialized Reinitializing the controller clears the calibration data
79. 100 500 milliliter Polyethylene Bottles with Polyethylene Foam Lined Lids 68 6700 027 Set of 500 500 milliliter Polyethylene Bottles with Polyethylene Foam Lined Lids 68 6700 028 Set of 12 500 milliliter Polyethylene Bottles with Unlined Lids 68 2900 014 Set of 100 500 milliliter Polyethylene Bottles with Unlined Lids 68 6700 029 Set of 500 500 milliliter Polyethylene Bottles with Unlined Lids 68 6700 030 Set of 12 375 milliliter Glass 68 2900 015 Set of 100 375 milliliter Glass Bottles 68 6700 031 Set of 24 1 000 milliliter Polypropylene Bottles with Polyethylene Foam Lined Lids 68 2100 007 Set of 100 1 000 milliliter Polypropylene Bottles with Polyethylene Foam Lined Lids 68 3700 046 Set of 500 1 000 milliliter Polypropylene Bottles with Polyethylene Foam Lined Lids 68 3700 047 Set of 24 350 milliliter Glass Bottles with PTFE Lined Lids 68 2100 001 Set of 100 350 milliliter Glass Bottles with PTFE Lined 68 3700 048 Set of 12 1 000 milliliter Polypropylene Bottles with Lids 68 3700 035 Set of 100 1 000 milliliter Polypropylene Bottles with Lids 68 6700 016 Set of 500 1 000 milliliter Polypropylene Bottles with Lids
80. 18 2 Rain Gauge Setup DO YOU HAVE A RAIN GAUGE CONNECTED YES NO Select YES RAIN GAUGE 0 01 inch TIP 0 1 mm TIP The rain gauges are set up to tip on either 01 inch or 1 mm Select the desired tip 5 36 hardware based features e SDI 12 Sonde Setup Rain Gauge Setup O Pin Programming Dialout Alarms Pager Numbers eText Messaging Refrigerator Temperature e Analog Outputs The 6712 supports SDI 12 sondes For more information on setting up sondes refer to Section 6 With standard programming the sampler does not record rain gauge readings However with extended programming recording the rain gauge readings and the rain enable option can be turned on or off Enter the hardware setup and follow the screens to the left in the margin When asked if you have a rain gauge connected select YES to record the rain gauge readings and add RAIN as a sampler enable option Select the appropriate tip for the rain gauge The sampler will then create a rain memory partition and update the available sampler enable conditions Select NO to disable the readings and the sampler enable option When you select NO the sampler removes the rain memory par tition leaving the memory space available for other reading types 5 18 3 I O Pin Programming Enable Alarms 6712 Portable Sampler Section 5 Extended Programming Pins C H and I on the Rain Gauge Connector are user con figured as 1 I
81. 2 ft head Sampler with Area Velocity Module Sampler with 4 20 mA Module A Standard Sampling Routine is a 200 ml sample taken every hour in 24 bottle mode with a 10 foot 3 m vinyl suc tion line at 5 feet 1 5 m of head The module is set to take a reading every 15 minutes O gt gt 529 O O O O Ou cO cO cO O Flow Meter 5 to 15 volt DC pulse or isolated contact closure of at least 25 millisecond dura Signal Requirement tion 4 20 mA or pulse duration signal may be converted with optional interface unit 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued 6712 Controller Software Specifications Suction Line Programmable 3 to 99 ft 1 to 30 m lengths of 0 95 1 0 Vinyl Jig 0 95 cm I D PTFE lined with polyethylene jacket Sample Frequency From 1 minute to 99 hours and 59 minutes in 1 minute increments between consecutive samples e Nonuniform times in minute intervals or clock time Random time intervals between consecutive samples From 1 to 9 999 flow pulses in single pulse intervals Flow paced in volume with attachable flow module Rainfall Reading Units Inches or millimeters Module Readings 0 1 pH storage resolution 0 1 C storage resolution pH 8 bits representing pH 16 bits representing temp Ultrasonic 16 bits representing level 0 0001 m
82. 5 SEC 1 MIN 5 MIN 5 MIN POWER ON OFF TIMES CANNOT SPAN MORE THAN ONE DAY POWER ON OFF TIMES MUST BE ENTERED IN PAIRS RUN ISCO 6712 PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS SOFTWARE OPTIONS HARDWARE LIQUID DETECT ON QUICK VIEW CHANGE TAKE MEASUREMENTS EVERY MINUTES DUAL SAMPLER ON BTL FULL DECTECT OFF TIMED BACKLIGHT 4 EVENT MARK SENT WHILE PUMPING FORWARD PUMP COUNTS FOR EACH PURGE CYCLE PRE SAMPLE _ POST SAMPLE SERIAL OUTPUT EVERY __ MINUTES INTERROGATOR CONNECTOR POWER ALWAYS ON Y Y USE LIQUID DETECTOR YES NO PROGRAMMING STYLE NORMAL QUICK VIEW CHANGE MEASUREMENT INTERVAL 5 15 30 SECONDS 1 2 5 MINUTES STORAGE INTERVAL DUAL SAMPLER MODE YES NO BACKLIGHT ALWAYS OFF TIMED BACKLIGHT CONTINUOUS BACKLIGHT EVENT MARK DURATION 3 SECONDS WHILE PUMPING PRE SAMPLE PURGE __ COUNTS 10 9999 PERIODIC SERIAL OUTPUT YES NO POWER ALWAYS ON POWER ON OFF TIMES ALARM DIALOUTS ONLY 6712 Portable Sampler Appendix A Menu Flowcharts BOTTLE FULL DETECT YES NO EVENT MARK DURATION 3 SECONDS WHILE PUMPING POST SAMPLE PURGE DEPENDENT ON HEAD FIXED COUNT PORT SETTINGS 9600n81 4800n81 2400n81 1200n81 POWER ON OFF DONE Figure A 19 Extended Programming Quick View Software Options If applicable gt THE BEGINNING OF INITIAL PURGE FORWARD PUMPING DURING ENTIRE PUMP CY
83. 6712 Portable Samplers Installation and Operation Guide 236 TELEDYNE ISCO Everywhereyoulook Part 69 9003 588 of Assembly 60 9004 334 Copyright O 2001 All rights reserved Teledyne Isco Revision JJ May 2015 Foreword This Instruction manual is designed to help you gain a thorough understanding of the operation of the equipment Teledyne Isco recommends that you read this manual completely before placing the equipment in service Although Teledyne Isco designs reliability into all equipment there is always the possibility of a malfunction This manual may help in diagnosing and repairing the malfunction If a problem persists call or e mail Teledyne Isco technical support for assistance Simple difficul ties can often be diagnosed over the phone For faster service please have your serial number ready If it is necessary to return the equipment to the factory for service please follow the shipping instructions provided by technical support including the use of the Return Merchandise Authori zation RMA specified Be sure to include a note describing the malfunction This will aid in the prompt repair and return of the equipment Teledyne Isco welcomes suggestions that would improve the information presented in this manual or enhance the operation of the equipment itself Teledyne Isco is continually improving its products and reserves the right to change product specifications replacement parts schematics and instr
84. 8 Irritating odor 100 ppm dan Deadly poison gerous 200 ppm fatal Oxygen 0 Colorless odor 1 11 Normal air con Variable at dif Oxygen Oxygen defi less tasteless tains 20 8 of ferent levels depletion ciency indica Supports com Man can tol from poor tor bustion erate down to ventila 1296 Minimum tion and safe 8 hour absorp exposure 14 to tion or 16 Below 10 chemical dangerous to consump life Below 5 to tion of 7 probably oxygen fatal Ozone O3 Irritant and poi 1 66 Max naturally 0 08 0 04 Near bottom Where Detectable sonous Strong occurring level ozone is odor electrical odor is 0 04 ppm used for at 0 015 ppm Strong oxidizer 0 05 ppm disinfec Colorless At 1 causes irrita tion ppm strong sul tion of eyes and fur like odor nose 1 to 10 ppm causes headache nau sea can cause coma Symp toms similar to radiation dam age 6712 Portable Sampler Appendix C General Safety Procedures Table C 1 Hazardous Gases Continued Specific Max Max Safe Explosive Likely Simplest and T A R i Gas Chemical Common Physiological S0 8 Hour es by Cheapest Formula Properties Effect 3 Exposure SN Safe Method Density Exposure Limits Highest Sources Air 1 ppm ppm lower upper Concentration Qu etis Sludge Mostly a simple Variable Will not support No data Would 53 19 3 Near top of From See compo Gas asphyxiant M
85. 999 5 12 5 Dry Period Option For samplers used with a 0 01 inch tip rain gauge you can cause the sampler to wait for a dry period of under 0 10 inches of rain over a 72 hour period before running the program At RUN time the sampler asks if you want to restart the 72 hour period Select this choice if you want the sampler to disregard any dry period that took place prior to the program start The sampler will wait for up to one year for the dry period to occur START EXTENDED 1 AFTER A 72 HOUR DRY PERIOD YES NO 5 12 6 Resetting the Sample Interval at Enable You may want the pacing countdown to start over each time the sampler becomes enabled accomplish this select YES when INTERVAL AT ENABLE asked if you want to reset the sample interval at enable The next YES NO sample event will occur at the end of a full interval Fur thermore if the sampler is enabled several times during the Ifyou answer NO to the above program it resets the countdown each time screen you will see Use the reset interval feature carefully For example avoid CONTINUE COUNTDOWN WHILE DISABLED resetting the interval when you sample with uniform time pacing and want to take samples at specific times The effects of resetting the interval can be seen in this example A sampler has been programmed to sample every 15 minutes and to reset the interval
86. AM VIEW REPORT OTHER FUNCTIONS Type the volume of the sample you want deposited in each bottle Then press 4 For this example select DELAYED START by pressing an arrow until the option blinks Then press J Type the delay period you want between the time you run the program and the time the sampler takes the first sample Then press 1 Run the program immediately by selecting YES Select NO if you want to run the program later by selecting RUN from the main menu Press J after making your choice In this example NO is selected Run the program by selecting RUN and pressing J The following table is an example of flow paced sampling Program type Standard e Site description SITE 29 Bottle kit 24 1000 milliliter bottles Suction line length 7 feet Pacing Flow pacing every two pulses Distribution 2 bottles per sample e Sample Volume 250 milliliters e Start time Clock Time 6 00 a m on Monday Wednesday Friday Module No module installed Table 4 2 Standard Program Flow Paced Sampling Two Bottles Per Sample 6712 SAMPLER STANDARD PROGRAMMING For HELP at any Screen press key RUN PROGRAM VIEW REPORT OTHER FUNCTIONS SITE DESCRIPTION FACTORY051 CHANGE YES NO Select PROGRAM Select NO 4 3 6712 Portable Sampler Section 4 Standard Programming Table 4 2 Standard Program Flow Paced Sampling Two Bottles Per Sample Continued 10
87. AMPLING AFTER A YES NO _ MINUTE DELAY 0 999 PAUSE RESUME 1 HH MM DD HH MM DD 2 HH MM DD HH MM DD CLEAR DONE If applicable PAUSE amp RESUMES MUST BE ENTERED IN PAIRS SAMPLE AT RESUME YES NO Y See Figure A 5 A Allvalid enable options will be shown Enable options may include LEVEL FLOW pH TEMP PERCENT VEL RAIN 1 0 A DONE FR TEMP CONDx SP COx TDSx SALx DOx Hx ORPx LEVELx NH4x NH3x NO3x TURBx Notes 104 B YES Latched or Stay Enabled NO Repeatable Enable Figure A 13 Extended Programming Programmed Sampler Enable A 13 6712 Portable Sampler Appendix A Menu Flowcharts RUN EXTENDED 1 EXTENDED 1 PROGRAM EXTENDED 2 VIEW REPORT EXTENDED 3 OTHER FUNCTIONS EXTENDED 4 NAME SELECT NEW PROGRAM ABCDEFGHIJKLMNOPQRST SAVE CHANGES CHANGE PROGRAM NAME UVWXYZ amp 0123456789 YES NO PROGRAM NAME BACK UP DONE EXTENDED 1 SITE DESCRIPTIONS FACTORY NAME ABCDEFGHIJKLMNOPQRST SAVE CHANGES UVWXYZ amp 0123456789 YES NO 4 UNITS SELECTED BACK UP DONE LENGTH ft SELECT UNITS FOR FLOW RATE gps Mgd m3s m3h m3d 4 UNITS SELECTED FLOWRATE cfs FLOW VOLUME Mgal Y If applicable If applicable BUBBLER MODULE NEW MODULE SETUP 4 WEIR Programming screens for a 700 Series Mod DOWNLOAD DATA NOW 90 ules Refer to the Module s manual OR LOSE ALL DATA V
88. BOTTLES EVERY _ SAMPLES 1 max SWITCH BOTTLES EVERY HOURS FIRST SWITCH TIME MINUTES gt AT stnn 1 bottle RUN CONTINUOUSLY YES NO TAKE _ __ SAMPLES 1 999 RUN CONT YES NO Yes lt NUOUSLY Uniform Time Paced Only DO YOU WANT SAMPLE VOLUME SAMPLE VOLUMES FLOW PULSES 10 ML FOR EVERY DEPENDENT ON FLOW FLOW MODULE VOLUME YES NO PULSES All other pacing SAMPLE VOLUME ml 10 max See Figure A 13 Figure A 11 Extended Programming Pacing and Distribution A 11 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 12 All valid event options will be shown Y EVENT RAIN LEVEL FLOW CONDx NONE pHx TEMPx TDSx DOx 1 0 RAIN OTHER OPTIONS RAIN SET POINT z INCHES PER HOURS MINUTES LEVEL CONDITION SET POINT RANGE RATE OF CHANGE ENABLED WHEN ABOVE SET POINT BELOW SET POINT CONDITION IS TRUE WHEN LEVEL RISES FALLS Repeat until conditions are set or until DONE RESET RAIN HISTORY YES NO RISES ENABLED WHEN I O ENABLE IS HIGH HOURS MINUTES I O ENABLE IS LOW LEVEL HOURS MINUTES LEVEL RANGE LOWER ft UPPER ft 0 001 30 000 ENABLED WHEN INSIDE RANGE OUTSIDE RANGE NO EVENT PARAMETERS CURRENTLY AVAILABLE LEVEL SET POINT t 0 001 30 000 ENABLED WHEN ABOVE
89. Coupling g pump tube routed from the liquid detector s intake port through the pump out the detector s discharge port and over the side of the controller to a bulkhead fitting at the top of the center section h Bulkhead fitting i Discharge tube running from the bulkhead fitting on the inside of the center section through the spring and distributor arm j Distributor arm and spring Figure 2 10 Identifying the Sampler Components 2 12 2 8 2 Measuring Sample Volume 2 9 Installing the Sampler 2 9 1 Icing the Samples 2 9 2 Tips for Routing Suction Line 2 9 3 Intake Placement 2 9 4 Positioning a Sampler 6712 Portable Sampler Section 2 Installation Preparation Sample volume refers to the amount of liquid delivered into a bottle The volume is determined by the programmed value The volume is dependent on the volume per revolution of the pump which is dependent on the suction head The 6712 delivers the sample by counting the pump revolutions and automatically compensating for the suction head The following paragraphs briefly describe initial sampler instal lation N CAUTION Tests indicate that the pump produces sound levels in excess of 85db at one meter Prolonged exposure to this sound could result in hearing loss and requires the use of protective ear plugs Ice is placed in the center of the bottle kit or around the com posite bottle The ice capacity varies according to the
90. D FLOW pH TEMP AND OR DONE pH TEMP COND D O 0 500 LEVEL 1 500 COND D O NONE NONE DONE All except I O Rain and Done DONE RAIN SET POINT ENABLED WHEN __ __ INCHES PER 1 0 ENABLE IS HIGH HOURS MINUTES 1 0 ENABLE IS LOW LEVEL CONDITION SET POINT RANGE RATE OF CHANGE ENABLED WHEN LEVEL RANGE LEVEL SET POINT ABOVE SET POINT LOWER CONDITION IS TRUE it BELOW SET POINT UPPER WHEN LEVEL 0 001 30 RISES FALLS 0 001 30 000 ENABLED ENABLED WHEN LEVEL RISES RESET RAIN HISTORY INSIDE RANGE Loft ABOVE SET POINT YES NO OUTSIDE RANGE HOURS MINUTES BELOW SET POINT ONCE ENABLED See Note B STAY ENABLED YES NO Repeatable Enable A ENABLE REPEATABLE ENABLE SAMPLE AT DISABLE SAMPLE AT DISABLE NO SAMPLE AT ENABLE WES NO SAMPLE AT ENABLE If applicable YES NO CHECK ENABLE EVERY 0 5 1 2 5 10 15 30 MINUTES Latched Enable A ENABLE START OF SAMPLING No Sample at Enable gt _ MINUTE DELAY TO AFTER A START OF SAMPLING ___ MINUTE DELAY 0 999 A ENABLE RESET SAMPLE CONTINUE COUNTDOWN Repeatable Enable COUNTDOWN CONTINUES INTERVAL AT ENABLE WHILE DISABLED WHILE DISABLED YES NO YES NO ENABLE PAUSE RESUME PAUSE amp RESUMES 1 HH MM DD HH MM DD LE AT RESUME NO SAMPLE AT RESUME 2 HH MM DD HH MM DD YES NO CLEAR DONE A All valid enable options will
91. DATA TO VIEW SAMPLING REPORT MODULE FR TEMP RAIN SDI 12 Valid Options Will Be Shown VIEW DATA SYSTEM IDs CONFIGURE REPORT SAMPLER 6712 ID 1234567890 HARDWARE B0 SOFTWARE 1 00 SAMPLINK REPORT le FLOWLINK REPORT CUSTOM REPORT le ALL REPORTS Note A Menu access can be controlled with the optional Program Lock See Note 8 Note B 1108 Program Lock Figure A 6 View Report A 6 VIEW DAILY SUMMARY CURRENT READINGS pH MODULE VIEW pH DATA TEMPERATURE DATA Screens Will Vary Depending on Devices Attached Note B SOFTWARE OPTIONS NONE When applicable ULTRASONIC MODULE 0710 1D 1234567890 HARDWARE A1 SOFTWARE 1 00 REPORTS FOR SAMPLER PROGRAM SETTINGS SAMPLING RESULTS BOTH NONE When applicable REPORTS FOR MODULE DAILY SUMMARY COMBINED RESULTS BOTH NONE When applicable REPORTS FOR FR TEMP DAILY SUMMARY COMBINED RESULTS BOTH NONE When applicable REPORTS FOR RAIN DAILY SUMMARY COMBINED RESULTS BOTH NONE When applicable DO YOU WANT COMBINED RESULTS FOR SDI 12 DATA YES NO INCLUDE DETAIL DATA FOR FLOWLINK AND TEXTLINK PROGRAMS YES NO When applicable SDI 12 SONDE SOFTWARE RUN PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE See Note A SET CLOCK ENTER TIME AND DATE HH MM DD MON YY 6712 Portable S
92. DE alarm when the condition defined for 1 1 is true PAGER 1 Select YES to enable the dialout alarm DIALOUT WHEN 101 Use an arrow key to select a code and press Enter BECOMES TRUE to insert it in the number on the DIALOUT YES NO NUMBERS screen Enter the delay time between each attempt A The controller asks the same question for IO2 and delay will allow time between attempts so you can 103 Select NO return a call to the controller to acknowledge the alarm condition DI ALOUT WHEN 102 BECOMES TRUE MINUTE YES NO DELAY BETWEEN CALLS 0 99 DI ALOUT WHEN 03 5 TRUE Note Numbers be removed from the list YES NO advancing the cursor to the very end of the number with the right arrow key then pressing the left arrow key to erase the number 2 Using the number entry keys enter as many as 3 telephone numbers to the contact list 5 39 6712 Portable Sampler Section 5 Extended Programming When the call is answered the sampler s modem announces the alarm condition analog talking modem or sends a digital text message external cellular modem and the sampler s three digit ID number To acknowledge the call press the star key and the three digit ID number on your phone The sampler will reply with an acknowledgment when the keyed entry is correct A record of alarms and acknowledgements is available in the Sampling Report When the sampler detects
93. DELAYED START 1 CLOCK TIME 1 CLOCK TIME WAIT FOR PHONE CALL WAIT FOR PHONE CALL Select DELAYED START Select CLOCK TIME FIRST SAMPLE AFTER A FIRST SAMPLE AT 2 ___ MINUTE DELAY 2 06 00 1 999 Enter the number of Enter the time of day minutes to delay the countdown to the first SELECT DAYS SU MO TU WE TH FR SA sample 3 DONE START FLOW COUNT AFTERA Press arrow key 3 __ MINUTE DELAY until the cursor is on 1 999 the correct day e The sampler uses this Press screen for flow paced e Repeat until each day programs you want is blinking e Press an arrow until DONE blinks Press A Teledyne Isco flow meters and flow loggers have a programmable sampler enable feature that lets them enable start or disable stop a program according to certain monitored conditions For example these conditions can be level flow rate pH temper ature percent rainfall I O or a combination of two conditions The 1640 Liquid Level Actuator can also be used as well as any other instrument that can ground the input to pin F Grounding the input disables the sampler The sampler disregards disable signals during the delay to start time However when the sampler detects a disable signal at the start time it suspends the program until it is enabled The diagram in Figure 4 2 shows the sampler s responses 4 9 6712 Portable Sampler Section 4 Standard Programming Select RUN from the star
94. ELECT CODE PAGER YES NO MINUTE DELAY BETWEEN CALLS 0 99 Figure A 22 Analog and Dialout Screens A See Figure A 21 Note Repeat for each channel When DECIMAL POINT key is pressed A A Factory installed option Requires B1 hardware or newer If applicable See Note ANALOG OUTPUT ANALOG OUTPUT _ HARDWARE HAS NOT BEEN INSTALLED SETUP MANUAL CONTROL SET ANALOG OUTPUT _ _ ANALOG OUTPUTS DONE DIALOUT EACH TIME 1 0x BECOMES TRUE DIALOUT WHEN 1 0 BECOMES TRUE YES NO DIALOUT NUMBERS MINUTE DELAY BETWEEN CALLS 0 99 Figure A 23 Analog Output and Dialout Quick View Screens A 22 LEVEL VELOCITY FLOW NONE ANALOG OUTPUT _ 0 TO 20 mA 4 0 20 mA ANALOG OUTPUT _ 0 mA _ __ fps 20 mA AT _ __ fps 99999 99999 Repeat for each channel SELECT CODE PAGER When DECIMAL POINT key is pressed 6712 Portable Sampler Appendix A Menu Flowcharts NEW HARDWARE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE NO SDI 12 SONDE SETUP KNOWN SONDES SCAN SDI 12 SONDES PLEASE WAIT LOOKING FOR NO SDI 12 SONDE SDI 12 SONDES AUTO SDI 12 SCAN ON a PREVIOUSLY CONFIGURED SONDES FOUND _ SONDE S FOUND If Sondes Found If No Sondes Found NEW HARDWARE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE SCAN SDI 12
95. ES SAMPLE Enter 2 Select NO Enter 250 Select CLOCK TIME Enter 6 then enter 0 This is the time at which the sampler will start the pacing countdown Select MO WE and FR Use the arrow keys and to select MO WE and FR When the correct days are blinking select DONE and press 1 Select NO 4 33 6712 Portable Sampler Section 4 Standard Programming Table 4 5 Programming Example With 750 Module Installed MODULE INSERTED DOWNLOAD DATA NOW OR LOSE ALL DATA DONE 6712 SAMPLER STANDARD PROGRAMMING For HELP at any screen press key RUN PROGRAM VIEW REPORT OTHER FUNCTIONS SITE DESCRIPTION FACTORY051 CHANGE YES NO SELECT UNITS FOR FLOW RATE cfs gps Mgd Ips m3s m3h m3d SELECT UNITS FOR FLOW VOLUME cf gal Mgal m3 lit SELECT UNITS FOR VELOCITY fps mps PROGRAM MODULE YES NO MODE OF OPERATION FLOWMETER LEVEL AND VELOCITY 10 FLOW CALCULATION AREA VELOCITY LEVEL TO FLOW RATE 11 LEVEL TO AREA CHANNEL SHAPE DATA POINTS 12 ROUND PIPE U CHANNEL RECTANGULAR CHANNEL TRAPEZOIDAL CHANNEL 4 34 With the sampler off insert the module in the bay on the controller Turn the sampler on by pressing the On Off key Press Download stored data if you want to keep it Pressing DONE erases it and advances to the next screen This screen will now appear for 8 seconds Th
96. Flow Meter e 2105 Interface Module There are two versions of the AQ700 to choose from depending on your monitoring requirements AQ702 pH e ORP Oxidation Reduction Potential Specific Conductance Optical DO Temperature Depth AQ703 e Everything the AQ702 has plus Turbidity w wiper Figure 6 1 Teledyne Isco AQ700 Multi Parameter Sonde 6 1 6712 Portable Sampler Section 6 SDI 12 Sondes 6 2 SDI 12 Data The 6712 Sampler can accept up to 16 parameters from up to ten Parameters sensors with SDI 12 addresses from 0 9 refer to Table 6 1 This data can be used in different ways Data can be logged at user selectable time intervals for later download and processing by Teledyne Isco s Flowlink program You can set up sampling programs that will be enabled to run only if conditions based on parameters monitored by the connected SDI 12 devices are met The sampler can also be programmed to take samples each time certain parameter limits are exceeded The data parameters used by the sonde and sampler must match Otherwise the equipment could record the data values for one parameter as another s such as reporting a pH value as being temperature Some sondes such as the AQ700 have plug and play setup Known as Isco Ready these sondes can tell the sampler what values they have their order and units of measure Other SDI 12 compatible sondes can still be used but require manual setup
97. I 12 sonde the sampler logs additional entries at each sample event Module sonde refrigerator temperature and rain gauge readings are stored in memory partitions The storage capacity depends on the reading types the number of bytes per reading and the data storage interval The sampler clears the sampling results memory when the site description changes It is important to collect the sampling results before changing the site description the data can not be retrieved afterwards Keep in mind that the description may change when selecting an extended program The partition data is cleared when the sampler automatically creates and sizes the memory partitions This occurs when you Select a new program with a different storage interval Change the Data Storage Interval in the current program Change the programming mode e Install a new 700 Series Module Change 700 Series Module mode of operation Add or remove a rain gauge with the Hardware Setup 6712 Portable Sampler Section 5 Extended Programming Add or remove a refrigerator temperature sensor as e Add or remove a SDI 12 sonde parameter with the Hardware Setup e Reinitialize the sampler The stored data is lost as the sampler reformats its memory As a precaution before clearing the memory the sampler display will show the following message INTERVAL CHANGED DOWNLOAD DATA NOW OR LOSE ALL DATA DONE If you want to keep the stored
98. List D 1 Replacement Parts Replacement parts are called out in illustrations in this section Diagrams and Listings Reference the call outs in the accompanying tables to determine the part number for the item Replacement parts can be purchased by contacting Teledyne Isco s Customer Service Department Teledyne Isco Customer Service Department P O Box 82531 Lincoln NE 68501 USA Phone 800 228 4373 402 464 0231 FAX 402 465 3022 E mail IscoInfo teledyne com D 1 6712 Portable Sampler Appendix D Replacement Parts List MODEL 67 STANDARD PORT ABIL 20 15 4 Controller Mounting Screws 8 32 x 3 4 4 8 Lockwashers 4 8 Flatwashers 4 pem c ITEM INVENTORY NO DESCRIPTION 609004330 MODEL 6712 CONTROLLER 2 609004 157 PUMP TUBE QUICK DISCONNECT 3 609004247 TOP COVER ASSY STD 4 109060505 DRAW LATCH 55 SMALL 5 609003088 BULKHEAD FITTING 6 609004246 CENTER SECTION ASSY STD INCLUDES ITEM 4 7 609004052 SAMPLE TUB ASSY STD INCLUDES ITEMS 8 11 8 209001828 RTNG RING SST 875SFT 1 200 9 609003250 DRAIN CAP STRAP 10 6031 3032 GASKET CONNECTOR CAP 609003294 DRAIN CAP 12 609004020 DIST ARM ASSY BOTTOM 15 602923007 DISTRIBUTOR ARM NUT 14 609005517 SPRING DISTRIBUTOR ARM 0 15 609003260 DISCHARGE TUBE FOR
99. NABLED feature works only when the sampler becomes enabled following program start If you need this fea ture with enable prior to program start contact Teledyne Isco for details After enabling the sampler the enabling instrument or instru ments continues to monitor the conditions and disables the sampler when the conditions are no longer satisfied If re enabled the sampler resumes the sampling program Note Repeatable enable is called sampler latching in flow meters flow loggers and FLOWLINK Latching a sampler produces the same results as selecting YES the difference is that the external instrument controls the latching You have the option of directing the sampler to take a sample as soon as it receives the enable and or disable signal If you program the sampler to stay enabled and choose to take a sample at enable the sample interval will be reset at the enable time Samples at disable do not affect the sample intervals Standard programs do not take a sample at the enable time SAMPLE AT ENABLE YES NO 5 25 6712 Portable Sampler Section 5 Extended Programming 5 12 4 Delay To Start Of If you have selected ONCE ENABLED STAY ENABLED and Sampling have chosen to not sample at the enable you have the oppor tunity to suspend the start of sampling This choice is useful for storm programs that require a flow paced sample taken after the initial grab sample START SAMPLING AFTER A MINUTE DELAY 1
100. NE Select 24 Enter 1000 Enter 5 The 6712 calculates new pump tables Select AUTO SUCTION HEAD Enter 0 5 7 6712 Portable Sampler Section 5 Extended Programming Table 5 2 Storm Water Runoff Sampling Continued RETRY UP TO 0 TIMES WHEN SAMPLING Enter 0 24 0 3 ONE PART PROGRAM Select TWO PART PROGRAM 25 TWO PART PROGRAM 24 BOTTLES AVAILABLE Enter 6 ASSIGN BOTTLES I 26 1 THRU 6 TO Screen will say Beginning Part A before proceeding with screen 27 PART A 1 23 UNIFORM TIME PACED FLOW PACED Select UNIFORM TIME PACED 27 EVENT PACED NONUNIFORM TIME TIME BETWEEN 1 SAMPLE EVENTS Enter 0 for hours 5 for minutes 28 0 HOURS 5 MINUTES 1 BOTTLES PER Enter 1 29 SAMPLE EVENT 1 6 SWITCH BOTTLES ON NUMBER OF SAMPLES Select NUMBER OF SAMPLES 30 TIME SWITCH BOTTLES Enter 1 31 1 SAMPLES 1 50 RUN CONTINUOUSLY Select NO 32 YES NO DO YOU WANT SAMPLE VOLUMES Select NO 33 DEPENDENT ON FLOW YES NO SAMPLE VOLUME Enter 800 34 200 ml 10 1000 ENABLE RAIN LEVEL FLOW Select RAIN 35 NONE Note All valid enable options will appear here so your screen may differ 5 8 6712 Portable Sampler Section 5 Extended Programming Table 5 2 Storm Water Runoff Sampling Continued ENABLE RAIN Select AND 36 AND OR DONE ENABLE RAIN AND LEVEL FLOW NONE Select LEVEL RAIN SET POIN
101. NOTCH DONE May ask for level offset etc Series of screens will vary depending upon module If applicable DATA STORAGE INTERVAL CHANGED __ MINUTE INTERVAL IN MINUTES DOWNLOAD DATA NOW DATA INTERVAL 1 2 5 OR LOSE ALL DATA 10 15 30 DONE See Figure A 15 See Figure A 17 See Figure 16 I Su See Figure A 5 Figure A 14 Extended Programming Quick View Programming Screens A 14 Continued from Figure A 14 6712 Portable Sampler Appendix A Menu Flowcharts NUMBER OF BOTTLES ml BOTTLES __ ft SUCTION LINE AUTO SUCTION HEAD RINSES _RETRIES Y _ RINSE CYCLES 0 3 RETRY UP TO _ TIMES WHEN SAMPLING 0 3 ONE PART PROGRAM ONE PART PROGRAM TWO PART PROGRAM See Figure A 16 1 2 4 8 12 24 SUCTION LINE LENGTH IS BOTTLE VOLUME IS ml 300 30000 When Liquid Detector is on AUTO SUCTION HEAD SUCTION HEAD OF ENTER HEAD IS ft min max BOTTLES AVAILABLE ASSIGN BOTTLES 1 THRU __ TO PART A 1 max Figure A 15 Extended Programming Quick View Equipment Set Up 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 15 UNIFORM TIME PACED FLOW PACED EVENT PACED NONUNIFORM TIME PACING TIME EVERY HOURS __ MINUTES NONUNIFORM TIME CLOCK TIMES INTERVALS IN MINUTES RANDOM INTERVALS PROGRAM RUN TIME HOURS __ MINUTES BOTTLES PER SAMPLE EVENT
102. OGRAM Select Other Functions MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE HARDWARE Select Hardware Select HARDWARE e Press J to move through the hardware screens until the following appears NO SDI 12 SONDE AUTO SDI 12 SCAN OFF Select NO SDI 12 SONDE to start a scan for sondes If one is found you can set it up and the AUTO SDI 12 SCAN option will be switched to yes 6 3 6712 Portable Sampler Section 6 SDI 12 Sondes 6 4 Isco Ready Sondes 6 4 Select the AUTO SDI 12 SCAN option to manually turn on or off automatic scanning for sondes when the sampler is turned on If a sonde has already been connected and set up the hardware screen will instead display a screen similar to the following SDI 12 DATA TEMPO pHO SD COO SALO 05DATAO DOO ORPO LEVELO 09DATAO Press the arrow keys until SDI 12 DATA is blinking then press l You will see the screen below NO SDI 12 SONDE SETUP KNOWN SONDES SCAN SDI 12 SONDES Select SCAN SDI 12 SONDES and press 1 The system will scan to detect connected sondes If it detects a newly connected sonde it will indicate so and advance to the setup screens SELECT ADDRESS OF SONDE TO SETUP DONE Select the address you want to set up Company Model Optional Information SONDE AT ADDRESS __ HAS __ DATA VALUES Wait a few seconds for the above display to disappear or press J
103. R PHONE CALL Select NO DELAY TO START when you want the sampler to start as soon as you select RUN Select DELAYED START when you want the sampler to delay from 1 to 999 minutes before starting the program Select CLOCK TIME when you want the sampler to begin the program at a specific time on at least one day of the week e Select WAIT FOR PHONE CALL when you want the sampler to begin the program after receiving a remote command to start optional modem required 4 6 1 How Do Start Times As soon as you select RUN from the main menu the sampler Work checks the program s start time settings With a DELAYED START setting the sampler starts a countdown to the start time The period between the time you select RUN and the start time you ve specified in the program is called the delay to start time When you run a program with CLOCK TIME settings the sampler also starts a countdown to start time until the day of week and clock times are met The sampler may not collect a sample at the start time The sampler must be enabled and the pacing selected must call for a sample at start In any event the sampler checks the pacing set tings and begins the pacing interval countdown 4 8 4 6 2 Sampler Enable Disable 6712 Portable Sampler Section 4 Standard Programming Delayed Start Screen Clock Start Time Menu NO DELAY TO START NO DELAY TO START DELAYED START
104. RB IT Packaged Desiccant SECTION IV FIRE EXPLOSION DATA Fire and Explosion Hazard Negligible fire and explosion hazard when exposed to heat or flame by reaction with incompatible substances Flash Point Nonflammable Firefighting Media Dry chemical water spray or foam For larger fires use water spray fog or foam Firefighting Nonflammable solids liquids or gases Cool containers that are exposed to flames with water from the side until well after fire is out For massive fire in enclosed area use unmanned hose holder or monitor nozzles if this is impossible withdraw from area and let fire burn Withdraw immediately in case of rising sound from venting safety device or any discoloration of the tank due to fire SECTION V HEALTH HAZARD DATA Health hazards may arise from inhalation ingestion and or contact with the skin and or eyes Ingestion may result in damage to throat and esophagus and or gastrointestinal disorders Inhalation may cause burning to the upper respiratory tract and or temporary or permanent lung damage Prolonged or repeated contact with the skin in absence of proper hygiene may cause dryness irritation and or dermatitis Contact with eye tissue may result in irritation burns or conjunctivitis First Aid Inhalation Remove to fresh air immediately If breathing has stopped give artificial respiration Keep affected person warm and at rest Get medical attention immediately First A
105. RE YES NO Choose NO to re enter select YES if correct Press Select the number of bottles in your bottle kit by pressing either arrow key until the correct number blinks Press For this example select 24 Type the volume for the bottles in your kit For this example 1000 is correct so simply press J Type the length of the suction line then press If you change the length the sampler will display a message PLEASE WAIT GENERATING PUMP TABLES Select FLOW PACED If the module is being used as a flowmeter you will see screen 17 If the module is being used for level only you will see screen 17b If the module is being used as a flowmeter choose the amount of flow between sample events 6712 Portable Sampler Section 4 Standard Programming Table 4 4 Programming Example With 730 Module Installed Continued 87 18 19 20 21 22 23 24 25 FLOW BETWEEN SAMPLE EVENTS 2 PULSES 1 9999 SEQUENTIAL BOTTLES SAMPLE SAMPLES BOTTLE 2 BOTTLES PER SAMPLE EVENT 1 24 RUN CONTINUOUSLY YES NO SAMPLE VOLUME 250 ml 10 1000 NO DELAY TO START DELAYED START CLOCK TIME WAIT FOR PHONE CALL START FLOW COUNT AT 06 00 SELECT DAYS SU MO TU WE TH FR SA DONE PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO If the module is being used for level only enter the number of pulses between sample events Select BOTTL
106. REVERSE if not known GRAB SAMPLE PRESS 4 WHEN READY SAMPLE VOLUME ml 100 9990 CALIBRATE VOLUME PRESS 4 WHEN READY VOLUME DELIVERED ARE YOU SURE YES NO PUMPING PRESS THE RED STOP KEY WHEN DONE PUMPED COUNTS PURGING PRESS THE RED STOP KEY WHEN DONE PURGED COUNTS 6712 Portable Sampler Appendix A Menu Flowcharts RUN EXTENDED 1 PROGRAM EXTENDED 1 EXTENDED 2 EXTENDED 3 EXTENDED 4 VIEW REPORT OTHER FUNCTIONS If STOP key pressed PROGRAM NAME ISCO 6712 CHANGE YES NO NAME ABCDEFGHIJKLMNOPQRST SAVE CHANGES UVWXYZ amp 0123456789 YES NO BACK UP DONE SELECT NEW PROGRAM CHANGE PROGRAM NAME SITE DESCRIPTION FACTORY CHANGE YES NO SITE ABCDEFGHIJKLMNOPQRST SAVE CHANGES UVWXYZ amp 0123456789 YES NO BACK UP DONE i STOP key NO pressed SELECT UNITS FOR Units Selected screens are for a 730 Bubbler Flow LEN ft GTH m SELECT U FLOW cfs gps Ips m3s NITS FOR RATE gpm Mgd m3h m3d SELECT UNITS FOR FLOW VOLUME Module Screens for other modules may vary cf gal Mgal m3 lit If applicable NEW MODULE SETUP DOWNLOAD DATA NOW Programming screens for a 700 Series Module 27 PROGRAM MODULE Refer to the Module s manual YES NO OR LOSE ALL DATA DONE Y See Figure A 10 Y See Figure A 11 See Figure A 12
107. RY YES NO Continue with programming I O2 and 1 03 in the same manner or if additional alarms are not needed select NONE 6712 Portable Sampler Section 5 Extended Programming 5 18 4 Dialout Alarms Dialout alarms require the sampler to be equipped with the factory installed 2400 baud talking modem or the external digital cellular CDMA or GSM modem The dialout alarm allows the sampler to notify a contact list when an alarm condition exists is true At the transition to the true state any programmed I O output can cause the sampler to warn of the alarm condition As many as three telephone numbers can be entered The sampler tries each telephone number in succession until the alarm is acknowl edged with a callback For each alarm condition the sampler will attempt each telephone number entered a maximum of five times at user specified intervals Alarms are set up through the I O programming menu shown in Section 5 18 3 I O1 I 02 and I O3 represent the three alarms Example Dialout Alarms If the controller is equipped with a dialout modem it If the phone number requires extended characters can be programmed to notify a telephone or pager or if you need to designate a number as a pager contact list when an alarm condition is true press the decimal key The controller displays Before proceeding the I O conditions must be defined Refer to section 5 18 4 These steps program a dialout SELECT CO
108. SCADA or other systems that directs sample collection according a system s needs The 6712 controller will respond to four commands Turn on the sampler e Take a sample e Send status e Send data Note that commands and responses are comma separated pairs The first set of alpha characters is an identifier the second set of numeric characters indicates the value The 6712 controller will not receive and process the command unless it is followed by a carriage return Turn on the sampler If the sampler is OFF the sampler responds by placing itself in the ON state and returning a status string to report the new status See Send Status for a description of this string The command to turn the sampler ON and return status is STS 2 lt CR gt Take a Sample This directs the sampler to take a sample The command specifies how much volume to take and which bottle to place the sample in The sampler responds by taking a sample and returning a status string that reports the new status An example of a command to take a sample is shown below BTL 2 SVO 100 lt CR gt This example instructs the sampler to place the distributor arm over bottle 2 BTL 2 and take a 100 ml sample SVO 100 While most settings of the sampler program start times enables distribution schemes etc are ignored when responding to external commands the sampler does rely on two program set tings that configure the sampler These settings are
109. SET POINT BELOW SET POINT Figure A 12 Extended Programming Event Conditions A 12 6712 Portable Sampler Appendix A Menu Flowcharts Continued from Figure A 11 Continued from Figure A 21 See Note A ENABLE 1 0 RAIN LEVEL FLOW TEMPx CONDx NONE TDSx DOx NONE ae ENABLED WHEN I O ENABLE IS HIGH I O ENABLE IS LOW Done 1 0 not options for I O Conditions See Note A All except ENABLE RAIN AND ENABLE RAIN AND NONE 1 0 LEVEL FLOW AND OR DONE TEMPx CONDx TDSx DOx DONE DONE All except I O Rain and A Done RAIN SET POINT __ INCHES PER HOURS MINUTES LEVEL CONDITION SET POINT RANGE RATE OF CHANGE ENABLED WHEN LEVEL RANGE LEVEL SET POINT ABOVE SET POINT LOWER ft CONDITION IS TRUE ft BELOW SET POINT UPPER ft WHEN LEVEL 0 001 30 000 RISES FALLS 0 001 30 000 ENABLED WHEN ENABLED WHEN INSIDE RANGE LEVEL RISES ABOVE SET POINT OUTSIDE RANGE cops ct BELOW SET POINT HOURS MINUTES RESET RAIN HISTORY YES Y If applicable REPEAT FOR SECOND TYPE ONCE ENABLED STAY ENABLED YES NO See Note B Yes If applicable CHECK ENABLE EVERY 0 5 1 2 5 10 15 30 MINUTES SAMPLE AT DISABLE SAMPLE AT ENABLE YES NO YES NO RESET SAMPLE SAMPLE AT ENABLE INTERVAL AT ENABLE YES NO YES NO CONTINUE COUNTDOWN WHILE DISABLED START OF S
110. SONDES AT TURN ON TIME YES NO PARTITION MEMORY WILL LAST __ DAYS SELECT ADDRESS OF Done SONDE TO SETUP DONE Company Model Optional Information SONDE AT ADDRESS _ HAS _ DATA VALUES Non Isco Ready Sondes DATA FROM SONDE SONDE _ DATA xx OTHER pH OTHER DO OTHER LEVEL DATA FROM SONDE _ 4 OTHER 5 OTHER DONE Enough partitions to Store this sonde s data SONDE STORE SONDE Not enough partitions to store this sonde s data 2 STORE ALL PARAMETER DATA YES NO TEMPERATURE DATA YES NO LABEL IS TEMP_ Repeat for all data types NEW HARDWARE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE Proceed to calibration validation screens and rest of Hardware screens Figure A 24 SDI 12 Sonde Screens A 23 6712 Portable Sampler Appendix A Menu Flowcharts A 24 6712 Portable Sampler z I ne n m tsF Appendix B Material Safety Data Sheets This appendix provides Material Safety Data sheets for the internal desiccant used in the 6712 sampler Specific questions regarding the use and handling of these products should be directed to the manufacturer listed in the MSDS B 1 6712 Portable Sampler Appendix Material Safety Data Sheets 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE SM Phone 505 864 6691 lv Fax 505 861 2355 Performance Packaging ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Pac
111. STANDARD 24 BOTTLE KIT 16 609003262 DISCHARGE TUBE FOR STANDARD 12 BOTTLE KIT 17 609003264 DISCHARGE TUBE FOR STANDARD 8 BOTTLE KIT S 18 609003266 DISCHARGE TUBE FOR STANDARD 4 BOTTLE KIT 19 609004019 DIST ARM TOP ASSY 20 609004051 COMPOSITE TUBE GUIDE FOR STANDARD AND COMPACT a 21 60900327 DISCHARGE TUBE FOR STANDARD BOTTLE KITS 22 609004 94 5 GALLON BOTTLE BASE SHOWN D 2 6712 Portable Sampler Appendix D Replacement Parts List DWG 60 9002 066 MODEL 6712 E SAMP T 2 Controller Mounting Screws 8 32 x 3 4 4 8 Lockwashers 4 8 Flatwashers 4 ITEM INVENTORY NO DESCRIPTION 609004330 MODEL 6712 CONTROLLER 2 609004 157 PUMP TUBE QUICK DISCONNECT 3 609004248 TOP COVER ASSY CMPT 4 109060503 DRAW LATCH ASSY SMALL 5 609004245 CENTER SECTION ASSY CMPT INCLUDES ITEM 4 6 603704 29 SAMPLE TUB ASSY CMPCT 7 609004020 DIST ARM 55 8 602923007 DISTRIBUTOR ARM NUT 9 609004019 DIST ARM ASSY TOP 10 6090053517 SPRING DISTRIBUTOR ARM M 609003257 DISCHARGE TUBE FOR COMPACT 24 amp 12 BOTTLE KITS 12 60900405 COMPOSITE TUBE GUIDE FOR STANDARD AND COMPACT 15 609003258 DISCHARGE TUBE FOR COMPACT BOTTLE KITS 14 609005088 BULKHEAD FITTING 15 603704181 MINI BASE ASSEMBLY SHOWN D 3 Appendix Repla
112. Solar Panel Battery Charger 40 watt 60 5314 347 Solar Panel Battery Charger 90 watt 60 5314 399 Power Products rece ec ee Woah e Cer Ra Ie OUR C RR 60 9003 092 E 12 Modules Rain Gauges Note Additional accessories for modules and interfacing instruments amp Interfacing appear in the accessories list at the back of the manual for each module Instruments or instrument 701 pH Module with Double Junction pH Sensor with Temperature Sensor 68 6700 052 720 Submerged Probe Module 10 68 6700 068 730 Bubbler Flow Module 68 6700 050 780 Analog Interface Module 2 60 9004 040 675 Rain Gauge vost ep cete bunte eei tit ua 60 3284 013 1640 Liquid Level 0 60 1644 000 4 20 mA Sampler Input 60 3704 075 Refrigerator Temperature Sensor with 5 ft 1 55 m cable 68 6700 136 Internal three channel 4 20 mA programmable output 60 9004 266 Includes multi analog output cable 10 ft E 13 SDI 12 Data Note Y connect cables can be combined with other Y connect cables or Acquisition Co
113. T 1 d sd 0 15 INCHES PER Enter 0 15 for inches then enter 30 minutes __HOURS __MINUTES ENABLED WHEN ABOVE SET POINT Select ABOVE SET POINT 39 BELOW SET POINT RESET RAIN HISTORY Select YES 40 YES NO LEVEL CONDITION SET POINT Select SET POINT 41 RANGE RATE OF CHANGE LEVEL SET POINT 0 25 ft Enter 0 25 0 001 30 000 42 ENABLED WHEN ABOVE SET POINT Select ABOVE SET POINT 43 BELOW SET POINT ONCE ENABLED STAY ENABLED Select YES 44 YES NO SAMPLE AT ENABLE Select YES 45 YES NO PAUSE RESUME 1 HH MM DD HH MMpp Select DONE 46 2 HH MM DD HH MM DD Screen will say End of Part A then Beginning Part B CLEAR DONE UNIFORMTIME PACED FLOW PACED Select FLOW PACED 47 EVENT PACED NONUNIFORM TIME PACED BY FLOW PULSES Select FLOW MODULE VOLUME 48 FLOW MODULE VOLUME 5 9 6712 Portable Sampler Section 5 Extended Programming Table 5 2 Storm Water Runoff Sampling Continued 49 FLOW BETWEEN SAMPLE EVENTS 2500 gal 0 001 99999 50 SAMPLE AT START YES NO 51 1 BOTTLES PER SAMPLE EVENT 1 18 52 SWITCH BOTTLES ON NUMBER OF SAMPLES TIME 53 SWITCH BOTTLES EVERY 1 SAMPLES 1 50 54 RUN CONTINUOUSLY YES NO 55 SAMPLE VOLUME 200 ml 10 1000 56 ENABLE RAIN LEVEL FLOW A DONE NONE 57 ENABLE RAIN AND DONE
114. T ALWAYS OFF or TIMED BACKLIGHT when using a battery Event Marks Event Marks The sampler generates an event mark at each sample event sending it through the flow meter connector to a EVENT DI SP connected instrument The event mark may also control an COMPLETE SAMPLES external device a connected solenoid relay for example When using the event mark for a data logger or to control external devices you may need to adjust the mark by changing the factory settings The event mark is adjustable through the software setup screens You can set up the sampler to generate an event mark for EVERY SAMPLE or for COMPLETE SAMPLES If you select COMPLETE SAMPLES the sampler sends a three second pulse only after it successfully collects a sample The sampler will not send an event mark if an error occurs such as No Liquid Detected If you select EVERY SAMPLE the sampler will send an event mark every time a sample is initiated The event mark signal can be a e 3 second pulse at the beginning of the pre sample purge 5 30 6712 Portable Sampler Section 5 Extended Programming e 3 second pulse at the beginning of forward pumping only marking the time the sampler deposited the sample e Variable duration pulse generated during the pump cycle from the beginning of the pre sample purge to the end of the postsample purge e Variable duration pulse generated only during forward pumping Figure 5 5 shows even
115. T SAMPLE AT HH MM SELECT DAYS SU MO TU WE TH FR SA DONE FIRST VALID DAY z LEAST ONE DAY MUST BE SELECTED DONE Extended Programming Only See Run Time Screens on page A 4 B Appears for standard flow paced programs C Appears for extended programs D Appears for standard flow paced programs E Main menu for extended programming START EXTENDED AFTER A _ MINUTE DELAY 1 999 HH MM RUN EXTENDED PROGRAM VIEW REPORT START FLOW COUNT AFTER A ___ MINUTE DELAY 1 999 START FLOW COUNT AT OTHER FUNCTIONS Figure A 3 Standard and Extended Programming Start Times 6712 Portable Sampler Appendix A Menu Flowcharts It SITE STOP key SITE DESCRIPTION ABCDEFGHIJKLMNOPQRST pressed SAVE CHANGES FACTORY UVWXYZ amp 0123456789 YES NO BACK UP DONE Units Selected screens are for a 730 Bubbler Flow Module Screens for other modules may vary SELECT UNITS FOR FLOW RATE If applicable cfs gps gpm Mgd UNITS SELECTED Ips m3s m3h m3d FLOW RATE cfs FLOW VOLUME Mgal SELECT UNITS FOR FLOW VOLUME cf gal Mgal m3 lit If applicable Programming a NEW MODULE SETUP If applicable 4 BUBBLER MODULE WEIR a 730 Series Module DOWNEOAD DATA NOW 90 OR LOSE ALL DATA Refer to Module s manual DONE V NOTCH NUMBER OF BOTTLES BOTTLE VOLUME 15 1248 12 24 ml 300 30000 ml BOTTLES
116. THER FUNCTIONS e Manual Functions see Section 4 Select OTHER FUNCTIONS e Software Options Hardware MAINTENANCE MANUAL FUNCTIONS SOFTWARE OPTIONS HARDWARE 5 17 Software Options The software option screens allow you to set up a number of dif ferent software options e Liquid Detector Enable e Display Backlighting e Normal Quick View Screens Event Marks Measurement Interval Pump Purge Counts Dual Sampler Mode Serial Output Full Bottle Detection Remote Access e Interrogator Connect Power 5 17 1 Liquid Detector Under some conditions pressurized lines sampling foam a Enable Disable more repeatable sample volume may be delivered by disabling the liquid detector Selecting NO will turn the Liquid Detector off If the Liquid Detector is off you must enter the SUCTION HEAD no RINSES or RETRIES will be available you will not be able to CALIBRATE SAMPLE volumes the RESULTS report will read a COUNT TO LIQUID of 0 Acomplete purge will occur between samples when using multiple bottles per sample distribution USE LIQUID DETECTOR YES NO 5 28 5 17 2 Programming Style 5 17 3 Measurement Interval MEE IRE INTERVAL 15 30 SECONDS 2 5 MINUTES STORAGE INTERVAL 5 17 4 Dual Sampler Mode Dual Sampler Mode DUAL SAMPLER MODE YES NO Select YES to put the sampler in the dual sampler mode When you no longer need dual samplers return to this s
117. TIS Name and amount of Hazardous Substances or Elements in the product O Am E IS TEST O Represent the concentration of the hazardous substance in this component s any homogeneous pieces is lower than the ST standard limitation X 3k R Z 5 SER EVI S V TERRE BS X ER MEER BS HST A TEHA Adm SE ERIS DUX ER RI BORAT 25 UL B3 o X Represent the concentration of the hazardous substance in this component s at least one homogeneous piece is higher than the ST standard limitation Manufacturer may give technical reasons to the X marks yg Environmentally Friendly Use Period EFUP was determined through experience ES HB RAS TO TE TR NSIS Bl AES 207 53520074 1 E SH B N 5 date of Manufacture 15 code within the serial number first three numbers the year of manufacture 207 is year 2007 followed by a letter for the month A is January is February and so on Hazmat Table 6712 3700 60 9003 655Rev DECLARATION OF CONFORMITY ISM1 A Application of Council Directive Equipment Type Environment Trade Name Model No Year of Issue Standards to which Conformity is Declared Manufacturer s Name Manufacturer s Address 2004 108 EC The EMC Directive 2012 19 EC The WEEE Directive 2006 95 EC The Low Voltage Directive Teledyne Isco 4700 S
118. TRIBUTION SEQUENTIAL SEQUENTIAL gt BOTTLES SAMPLE gt RUN CONTINUOUSLY STANDARD SAMPLES BOT TLE YES NO PROGRAMMING Each bottle receives one sample from one sample event Bottles per Sample SS j J w OF 1 1 2 2 3 3 DISTRIBUTION SEQUENTIAL 2 BOTTLES SAMPLE BOTTLES SAMPLE L gt 2 BOTTLES PER I gt RUN CONTINUOUSLY STANDARD SAMPLES BOT TLE SAMPLES EVENT 1 24 YES NO PROGRAMMING Multiple bottles receive a sample from one sample event Samples per Bottle 2 4 6 8 1 3 5 7 DISTRIBUTION SEQUENTIAL 2 SAMPLES BOT TLE BOTTLES SAMPLE 2 SAMPLES PER I gt RUN CONTINUOUSLY STANDARD PROGRAMMING SAMPLES BOT TLE BOTTLE 1 50 YES NO Each bottle receives a sample from multiple sample events Figure 4 1 Sample Distribution 6712 Portable Sampler Section 4 Standard Programming 4 6 Start Times It is important to understand the difference between the time at which you run a program and the programs start time Running a program simply means selecting RUN from the sampler s main menu The start time is the time at which the sampler begins the program s first sample interval countdown The start time is con trolled by your selections from the start time screens Each program contains start time settings that tell the sampler when to begin the program When programming the sampler you can select one of four start time options NO DELAY TO START DELAYED START CLOCK TIME or WAIT FO
119. Teledyne Isco P O Box 82531 Lincoln NE 68501 Telephone Within U S A Toll free 800 228 4373 Outside U S A 402 464 0231 Fax 402 465 3022 IscoCSR teledyne com E 2 Controller Center Sections Top Covers and Tubs 6712 Sampler 7 4 1 68 6710 074 Includes 2 Pump Tubes 6712 Portable Sampler Instruction Manual 60 9004 334 6712 Portable Sampler Pocket Guide 60 9003 589 Compact Center Section 1 1147 4 60 9004 245 Compact T b uyu aa dea bx RR RU Euch DU Edu ana E 60 3704 129 Mini Tub for use with Compact Tub and multiple bottle carrier only 60 3704 181 Compact Top Cover red Na area e Care ex Cede id 60 9004 248 Standard Center 60 9004 246 Standard Covers a art Blows ata e ci C BERT dad 1 60 9004 247 Standard oh am E SOY 60 9004 052 E 3 Compact and Mini Sampler Bottle Kits 24 Bottle Kit 500 milliliter Polyethylene Bottles 68 6700 022 Includes Bottle Carrier Bottles Retaining Ring and 2 Discharge Tubes 12 Bottle Kit 500 milliliter Polyethylene Bottles
120. Teledyne Isco offers a temperature sensor intended for use with the 6712FR Refrigerated Sampler The optional sensor connects to the Rain Gauge port and uses I O3 to transmit its temperature readings to the 6712 Note If alarms are being used the temperature sensor is simply plugged into the panel mount on the one or two alarm output module Because the temperature sensor uses I O3 it cannot be used with a three alarm output module To configure an attached temperature sensor select FR TEMP as the input for I O3 6712 will display the NEW HARDWARE SETUP screen Select DONE and the 6712 recon figures its memory partitions to record the temperature readings Temperature readings are updated approximately every 2 5 seconds The readings are stored as FR TEMP readings at the data storage interval You can retrieve a history of temperature readings through the 6712 s reports The temperature data also can be used as a sampler enable condition Teledyne Isco offers three analog outputs as a factory installed option The option is installed inside the controller and includes a six pin connector to interface with external devices The analog outputs can be programmed for either 0 to 20 mA or 4 to 20 mA operation With the exception of rain any parameter that the 6712 sampler is currently measuring can be used to control any or all of the analog output channels Programming the outputs requires parameter levels at each en
121. The current program is the program you see when you select PROGRAM from the main menu and page through the pro gramming screens It is the program the sampler uses when you select RUN from the main menu You cannot delete programs but you can modify them as often as necessary To run a program with different settings without losing the settings in your current program select a stored program and modify its settings For example assume you have been running the current program named EXTENDED 1 at site A for several weeks This program contains all the settings you need for site A and you don t want to lose those settings Nevertheless you need another program because you want to move the sampler to site B so you select EXTENDED 2 and modify it for site B The settings in EXTENDED 1 are pre served automatically When you return the sampler to site A you won t need to reprogram the sampler Merely select EXTENDED 1 again double check the program settings and run the program To select an extended program follow the steps in Table 5 1 Table 5 1 Selecting a Stored Extended Program Press the On Off key to turn the sampler on Press to clear the start up message If the words STANDARD PROGRAMMING appear on the second line of the start up message the sampler is using the standard programming screens To see the extended screens type 6712 2 at the main menu shown in step 2 Select PROGRAM from
122. This includes everything in the Dry Weight and the Ice Capacity specifications and the bottle is filled to the capacities listed in Sampler Tub Configurations This weight does not include a power source Cooling Capacity Composite Sample Temperature 36 F 2 C Cooling Water 36 F 2 C Sample Size 12 800 ml Samples The cooling capacity is the temperature of the sample and the cooling water 24 hours after the last sample is taken The amount of ice used is specified in ice capacity The sampler is set up to take one sample every hour for twelve hours filling the bottle half full The temperature of the incoming sample liquid is 65 F 18 C The ambient tempera ture is 75 F 24 C Average Thermal Resistance Factor This is the average R value for the complete sampler This includes a bottle base center section top cover control ler pump tube discharge tube and composite tube guide R 10 6712 Compact Portable Sampler Physical Specifications Dimensions Height 27 6 inches 70 1 cm Diameter 17 75 inches 45 1 cm Sampler Tub Configurations 24 wedge polyethylene bottles 500 ml 12 round polyethylene bottles 500 ml 12 round glass bottles 375 ml 1 round polyethylene bottle 9 4 liters 2 5 gallon 1 round glass bottle 9 4 liters 2 5 gallon Dry Weight 31 Ibs 14 kg This includes the top cover center section tub controller pump t
123. VEL again Choose RATE OF CHANGE Choose RISES This will enable the event condition if a rise occurs within the time frame and above the amount specified in screen 9 Enter 1 ft and press 1 Then enter 2 hours Select pH Select RANGE Enter 4 for the lower range and 10 for the upper range Choose INSIDE RANGE You will not be entering a fourth event condition so use the arrow keys to scroll down and then select DONE Proceed with the rest of the programming steps 5 8 3 Nonuniform Time Pacing 5 8 4 Nonuniform Clock Time Pacing 5 8 5 Nonuniform Interval Pacing 5 8 6 Random Interval Pacing Time Pacing Screens NONUNIFORM TIME CLOCK TIMES INTERVALS IN MINUTES RANDOM INTERVALS CLOCK TIMES TAKE SAMPLES AT 1 START TIME 2 HH MM 3 HH MM FIRST SAMPLE AT START TIME THEN INTERVALS IN MINUTES QUANTITY AT INTERVAL 1 _AT__ MIN 2 __ AT MIN 3 AT MIN PROGRAM RUN TIME HOURS __ MINUTES RANDOM INTERVALS 6712 Portable Sampler Section 5 Extended Programming The extended time pacing options are uniform time and non uniform time Uniform time pacing is identical to time pacing in standard programming Nonuniform time pacing uses an irregular interval between sample events each interval is indi vidually programmable There are three types of nonuniform time pacing Nonuniform clock time pacing Nonuniform interval pacing
124. You will then be asked if you want to store the parameter data Refer to SONDE SETUP STORING PARAMETER DATA on page 6 6 If the scan finds an Isco Ready sonde it will automatically rec ognize the sonde s data types and units You can then use Hardware Options to set up the definitions for data storage and calibrate the sonde Even with an Isco Ready sonde the 6712 may find a parameter that is not on its list of supported parameters Table 6 1 Such a parameter will be identified with a generic name such as O5DATA1 Write down the appropriate data type next to the generic name for your records Once the data is brought into Flowlink data sets can be manually changed so that reports show the appropriate labels 6712 Portable Sampler Section 6 SDI 12 Sondes 6 5 Non Isco Ready If you have connected an SDI 12 sonde that is not Isco Ready SDI 12 Sondes you will need to define the sonde s data values When you select the address of the sonde you want to set up the company model and other information will be displayed along with the number of data values the sonde has When you advance to the next screen see 3 below the data types will be listed as OTHER because you have not defined them yet Select one of the data types to begin defining it A list of possible parameters will appear see 4 below After you have defined all data types for your sonde select DONE Parameter data storage setup is explained in
125. a rechargeable desiccant to prevent moisture damage to the electronics pump and distributor systems Control panel sloped 15 degrees for easy reading Keys labeled with large vivid icons 80 character display 4 lines by 20 columns Display has selectable backlight Always on or always off Timed switching off when keypad is inactive for 60 seconds Memory for program and data storage Flash memory for easy software upgrades NEMA 4X and 6 IP67 ratings Center Section Secured to tub with lockable latches Large handles Adjustable Distributor Arm A single distributor arm adjusts quickly to fit all bottle kits Easily removed for composite sampling Discharge Tube and Support Spring Composite Tube Guide for Composite Sampling Routes sample liquid from pump tube through distributor arm to sample bottle Keeps discharge tube in place over composite bottles Tub Large comfortable handles Both compact and standard samplers accept a variety of bottle kits Compact Tubs Only Removable bottle carrier insert Standard Tubs Only Tub drain Optional five gallon bottle base fits the standard sampler Compatible Teledyne Isco Products 581 Rapid Transfer Device 1640 Liquid Level Actuator 674 Rain Gauge 2100 Series Flow Modules Signature Series Flow meters 700 Series Modules 4100 Series Flow Loggers SDI 12 Sondes 4200 Series Flow Mete
126. al soldered lithium battery Newer units have a coin style snap in lithium battery For replacement instructions refer to Replacing the Internal Battery on page 8 12 MODEL 6712 CONTROLLER se INSIDE 33 OR 70 34 54 6X 53 4X 252 50 48 49 47 REFER TO EXPLODED VIEW 45 2 2 D 6 Ns 40 43 6712 Portable Sampler Appendix D Replacement Parts List ITEM INVENTORY NO DESCRIPTION 51 609003407 STRAP INTCON 3 5 52 609004324 CBA CPU YSI CE 33 340500000 BAT 2 3A LITHIUM CYLINDER STYLE 34 609004201 RTNG CLIP ASSY 55 609005077 SPCR 188 X 0 25 L 36 609003 32 HLDN CONT PNL TOP 37 2024001 14 O RING 61210 103 38 202400118 O RING 862ID 103 39 609004346 CBA 6712 CONN 2001 40 609004328 CONT PNL ASSY CE 41 609003029 HLDN CONT PNL 42 609003066 GSKT CONT PNL 43 699003554 SHLD MN PCB 44 609003020 NUT CONN 45 202100018 O RING 739ID 070 46 60900430 PMP GR CS ASSY CE INCLUDES ITEMS 58 THRU 69 47 609004206 CONN ASSY 8 PIN CE 48 609003074 STRAP P 49 609003075 P FL MDL CONN 50 609003 33 HLDN CONT PNL BOT 209902158 CLIP TNSN 375 DIA 52 49000 300 HMD INDCTR CARD 53 233040405 FL 125 NYL 54 231514920 SCR SLFTPG6 I9X5 8 55 609004006 DSPL KYPD ASSY 57 232910100
127. al mode EN61000 4 6 Conducted RF on AC lines 150 kHz to 80 MHz B 3V rms 80 modulated EN61000 4 11 Voltage Dips Short Interruptions 0 5 cycle each polarity 100 B EN 55022 RF Emissions Group 1 Class A Information Technology Equipment EN61000 3 2 3 3 Harmonic Flicker We the undersigned hereby declare that the design of the equipment specified above conforms to the above Directive s and Standards as of July 5 2001 William Foster USA Representative m TELEDYNE ISC0 A Teledyne Technologies Company William Foster Director of Engineering Teledyne Isco Inc 4700 Superior Street Lincoln Nebraska 68504 Phone 402 464 0231 Fax 402 464 4543 60 3212 049 Rev Teledyne Isco One Year Limited Factory Service Warranty This warranty exclusively covers instruments providing a one year covering parts and labor Any instrument that fails during the warranty period due to faulty parts or workmanship will be repaired at the factory at no charge to the customer Teledyne Isco s exclusive liability is limited to repair or replacement of defective instruments Teledyne Isco is not liable for consequential damages Teledyne Isco will pay surface transportation charges both ways within the 48 contiguous United States if the instrument proves to be defective within 30 days of shipment Throughout the remainder of the warranty period the customer will pay to ret
128. am number as the sampler s cur rent Extended program reset partition data if the storage interval has changed and run the program They are valid when the sampler is in standby or when it is waiting for a start command The commands are available for Extended programming only 7 9 6712 Portable Sampler Section 7 Remote Operation Table 7 4 6712 Remote Phone Commands Continued Phone Command Name Description Disable This command is similar in functionality to a pin F low signal a signal typically used to enable or disable the sampler from a flow meter At run time the sam pler starts with the phone enable in the enabled state PHONE DISABLE is valid while a program is running If successful a reply of REMOTE ENABLE IS FALSE will be returned A Remote Disable is the highest priority disable If the sample is disabled with this command no condition other than command 6 ENABLE will allow the program to become enabled again This command is used to re enable a phone disabled sampler PHONE ENABLE is valid while a program is running If successful a reply of REMOTE ENABLE IS TRUE will be returned Grab Sample 7 10 This command causes the sampler currently running a program to take a sam ple The sample will count as one of the program s samples and is placed in the current bottle Part A s current bottle when using two part programming TAKE_SAMPLE is valid while the
129. ampler Appendix Menu Floucharts PUMP COUNTS WARNING AT PUMP COUNTS PUMP TUBE ALARM INTERNAL BATTERY DIAGNOSTICS PLEASE WAIT TESTING RAM PASSED TEST PLEASE WAIT TESTING ROM ROM PASSED TEST ON ABCDEFGHIJKLMNOPQRST ABCDEFGHIJKLMNOPQRST ABCDEFGHIJKLMNOPQRST ABCDEFGHIJKLMNOPQRST ON Note A The standard programming maintenance screen is shown Extended programming has SOFTWARE and HARDWARE options Figure A 7 Maintenance Screens REPLACE INTERNAL BATTERY BEFORE DID YOU REPLACE THE INTERNAL BATTERY YES NO TEST PUMP YES NO RESET PUMP COUNTER YES NO WARNING AT __00000 PUMP COUNTS 1 99 00000 TEST DISTRIBUTOR YES NO PUMPING PUMPING OFF RATIO _ _ PURGING PURGING OFF RATIO _ __ FINDING ARM FLEXURE NOW AT BOTTLE __ DISTRIBUTOR SYSTEM ARM FLEXURE __ RE INITIALIZE YES NO DEFAULT SETTINGS ARE YOU SURE YES NO A 7 6712 Portable Sampler Appendix A Menu Flowcharts RUN PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE GRAB SAMPLE CALIBRATE VOLUME OPERATE PUMP MOVE DISTRIBUTOR GO TO BOTTLE __ 1 max NOW AT BOTTLE __ Figure A 8 Manual Functions Screens A 8 SAMPLE VOLUME ml 10 9990 COMPACT PORTABLE STANDARD PORTABLE REFRIGERATOR SELECT DIRECTION PUMP FORWARD PUMP
130. ampler Section 4 Standard Programming Moving the Distributor Arm GRAB SAMPLE CALIBRATE VOLUME OPERATE PUMP MOVE DISTRIBUTOR Select MOVE DISTRIBUTOR GO TO BOTTLE 1 MAX Enter the bottle number to which you want to move the distributor NOW AT BOTTLE The 6712 records a variety of data while running a sampling program It uses the data to produce four reports e The Program Settings report listing the program settings e The Sampling Results report listing the program settings time of samples and other program events The Combined Results report combining the sample event times with rainfall or module data The Summary report listing daily summaries of data collected The Summary report may be rainfall and or module data The sampler stores the data for each report in memory where they remain until you select RUN Selecting RUN clears the memory so that it can store the data from the next program There are a number of ways to collect the reports View reports program settings sampling results and abbre viated summary reports on the sampler s display Collect the reports except for summary reports with a Teledyne Isco 581 RTD and use a computer running flowlink to transfer the reports from the RTD to a file on the computer M Note The RTD is not compatible with samplers running software ver sion 2 50 Refer to Section 1 4 5 for complete information Collect the
131. ampler display appears on your computer monitor as you step through the programming screens While in this mode the computer keys will be redirected to simulate the sampler s keypad and the sampler keypad itself will be disabled to avoid any conflict The active keys and their corresponding functions are given in Table 7 3 Table 7 3 Remote Control of Sampler Keypad Computer Sampler lt Esc gt S s STOP L l U u lt Backspace gt Left Up R r D d Right Down O o ON lt Enter gt arrows decimal numbers Same as sampler NOTE You will not be able to turn the sampler off remotely 7 2 Telephone Commands 6712 Portable Sampler Section 7 Remote Operation 6712 controllers equipped with an internal voice modem can be operated using telephone commands This factory installed option includes a 12 ft 8 6 m modem cable After connecting to the sampler from a touch tone telephone command numbers may be entered from the telephone s keypad followed by the pound button The commands are listed in Table 7 4 To use telephone commands 1 Dial the sampler s telephone number When the sampler connects 1t answers with Teledyne Isco Sampler Site number If the sampler does not receive a touch tone command in five seconds it assumes that a computer modem has called and initiates the modem connect sequence If this occurs you must hang up and try again 2 Enter the command For example
132. andles Metal Retaining Rings Power Source Draw Catches EPDM Ethylene Propylene Diene Monomer rubber Amphenol Connectors Cadmium Plated Aluminum Retaining Ring Draw Cords Polypropylene jacketed rubber with stainless steel clip inside standard tub Retaining Ring Tie Down Iridited aluminum inside standard tub Drain Plug CPVC with polypropylene retaining strap standard tub only Webbing for Compact Bottle Polypropylene Carriers Table 1 3 Technical Specifications for the 6712C and Standard Samplers General Notes 1 All weights may vary 1 Ib 1 2 kg 2 All dimensions may vary 1 4 inch 0 64 cm 3 Sample delivery specifications valid for the following conditions and ranges unless otherwise stated 75 F 24 C ambient sample liquid tap water at 50 to 80 F 10 to 27 C sample volumes from 50 ml to 1000 ml suction line lengths of 25 ft 7 6 m or less suction heads from 1 to 20 ft 0 3 to 6 1 m atmospheric pressure between 29 92 and 31 89 inHg 760 and 810 mmHg and a power source of a Teledyne Isco High Capacity Power Pack at 12 5 volts DC no load output 6712 Controller Pump and Tubing Mechanical Specifications Weight of Controller Controller only 13 0 Ibs 5 9 kg With pump tube 13 2 Ibs 6 0 kg Weight of Nickel Cadmium Bat 4 3 Ibs 2 0 kg tery Weight of Lead Acid Battery 5 7 165 2 6 kg Weight of Power Pack 6 0 Ibs 2 7 kg
133. ant opening controller case 8 10 Diagnostic tests distributor test 8 7 Diagnostics 8 5 Dialout alarms 5 39 dialout alarms 5 39 Discharge tube accessories list E 3 Display Backlighting 5 30 Distribution 4 6 5 16 bottles per sample distribution 4 6 5 16 continuous sampling 4 6 5 17 count switched distribution 5 16 event pacing 5 12 multiple bottle compositing 5 16 random interval pacing 5 15 Samples per bottle 4 6 5 16 sequential distribution 4 6 5 16 time switched distribution 5 16 Distributor arm accessories list E 4 Dual sampler mode 5 29 Index 1 6712 Portable Sampler Index Index 2 E Enable see Sampler enable Equipment suspension platform accessories list E 4 Error messages 8 13 Event marks 5 30 3 second pulse 5 31 master slave sampling 5 29 timing diagram 5 31 variable duration pulse 5 31 Event pacing 5 12 Extended programming extended programming features 1 8 one part and two part programs 5 1 showing extended screens 4 1 5 1 External 12 Volt DC Power Connect Cable 2 9 F Five gallon bottle base 2 7 Flow pacing 4 5 Flow proportional sample volumes 5 19 G Grab samples 4 13 4 15 H hardware analog output 5 41 cellular modems 5 40 dialout alarms 5 39 I O pin programming 5 37 pager numbers 5 40 rain gauge 5 36 refrigerator temperature 5 41 sonde 5 36 Hardware set up master slave sampling 5 29 hardware setup 5 36 I O pin pro
134. art B sample volume 500 milliliters e Part enable At least 0 15 inches of rainfall in 30 minutes and a flow stream level of more than 0 25 feet once enabled stay enabled no sample taken when the sampler is enabled first sample taken 20 minutes after the sampler is enabled e Part B pause and resumes None e Start time Delayed start of 1 minute 730 Bubbler Module Installed 5 5 6712 Portable Sampler Section 5 Extended Programming Table 5 2 Storm Water Runoff Sampling 10 11 5 6 6712 SAMPLER EXTENDED PROGRAMMING For HELP at any screen press key RUN EXTENDED 1 PROGRAM VIEW REPORT OTHER FUNCTIONS PROGRAM NAME EXTENDED 1 CHANGE YES NO SELECT NEW PROGRAM CHANGE PROGRAM NAME NAME STORM ABCDEFGHIJKLMNOPQRST UVWXYZ amp 0123456789 BACK UP DONE SITE DESCRIPTION FACTORY051 CHANGE YES NO SITE SITE 54 ABCDEFGHIJKLMNOPQRST UVWXYZ amp 0123456789 BACK UP DONE SELECT UNITS FOR LENGTH ft m SELECT UNITS FOR FLOW RATE cfs gpm Mgd Ips m3s m3h 3 SELECT UNITS FOR FLOW VOLUME cf gal Mgal m3 lit PROGRAM MODULE YES NO This screen will appear briefly Select PROGRAM Note If the start up screen displayed STANDARD PROGRAMMING type 6712 2 at this menu before selecting PROGRAM Select YES Note If the quick view screen shows up press STOP then se
135. ay life vary widely with composi structure digestion nents be practically tion of sludge odorless taste less Sulfur SO Colorless pun 2 26 Inflammation of 50 10 At bottom Industrial Detectable Dioxide gent odor Suffo the eyes 400 to to combine with waste taste and odor cating corrosive 500 ppm imme 100 water to form combus at low concen poisonous diately fatal sulfurous acid tion com tration non flammable mon air pollutant Toluene Colorless 3 14 At200 500 ppm 200 100 127 7 0 At bottom Solvent Combustible to zene like odor headache nau gas indicator sea bad taste lassitude Turpentine Colorless 4 84 Eye irritation 100 At bottom Solvent 1 Detectable acteristic odor Headache diz usedin odor atlow ziness nausea paint concentration irritation of the s kidneys 2 Combustible gas indica tor Xylene CgHio Colorless flam 3 66 Narcotic in high 100 11 7 0 At bottom Solvent Combustible mable concentrations gas indicator less toxic than benzene Percentages shown represent volume of gas in air For concentration over 0 3 Mostly methane and carbon dioxide with small amounts of hydrogen nitrogen hydrogen sulfide and oxygen occasionally traces of carbon monoxide C 9 6712 Portable Sampler Appendix C General Safety Procedures 6712 Portable Sampler Appendix D Replacement Parts
136. b with warm soapy water or by spraying them with a hose Avoid using a high pressure hose to clean the controller especially around the control panel Extreme pressures may force water past the control panel seal When cleaning the controller and top cover cap the connectors at the back of the controller tightly Keep a power source connected to the power source connector or replace the protective cap shipped with the sampler over the power source connector to protect the pins from moisture damage Make sure the two pump drain holes located on the bottom right hand side of the pump beneath the pump band are open and free of debris or buildup The sample bottles have a wide mouth to facilitate cleaning Wash them with a brush and soapy water or use a dishwasher You can autoclave the glass bottles 8 1 6712 Portable Sampler Section 8 Maintenance 8 2 3 Cleaning or Replacing Wetted Parts 8 3 Maintenance Screens 8 3 1 Set Clock Entering Times and Dates ENTER TIME AND DATE HH MM DD MON YY e Move from one field to another by pressing the arrow keys Change a setting in a field by typing a number Press to accept the new setting 8 2 For general cleaning you can wash the strainer and sample bottles with a brush and soapy water then rinse with clean water You can clean the liquid path through the wetted parts by placing the strainer in a cleaning solution and pumping it through the delivery
137. begin tallying the pump counts for the new tube Replacing the pump tube does not reset the counter Experience may suggest a significantly different pump tube life You can change the alarm count to represent the pump tube life for your application The example below shows how to set the alarm count and reset the pump counts 8 3 6712 Portable Sampler Section 8 Maintenance Table 8 2 Resetting the Pump Counter 8 4 RUN PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE HARDWARE SET CLOCK PUMP TUBE ALARM INTERNAL BATTERY DIAGNOSTICS 1024000 PUMP COUNTS WARNING AT 1000000 1024000 PUMP COUNTS RESET PUMP COUNTER YES NO WARNING AT 1000000 PUMP COUNTS 1 99 00000 SET CLOCK PUMP TUBE ALARM INTERNAL BATTERY DIAGNOSTICS Select OTHER FUNCTIONS Select MAINTENANCE Select PUMP TUBE ALARM The sampler displays this screen briefly to give you the current pump count information The first line shows you the pump counts tallied since the counter was last reset The second line shows the current alarm setting To reset the counter to zero select YES Always reset the counter after replacing a pump tube Select NO when merely checking the current count If necessary change the pump count alarm setting by typing the first two digits of the new setting The sampler accepts entries between 1 and 99 For example to increase the coun
138. ble 7 2 Serial Data Codes Identifier Parameter Units Bottle number and time days since 1 Jan 1900 Current day s rain tips cs Checksum unsigned long DE Description 6712 Sampler FL Flow cubic meters per second ID Unit specific identifier 10 digit unsigned long LE Level meters MO Model 6712 PE Percent percent of full scale PH pH none PR Previous day s rain tips RA Rain tips RTE Refrigerator Temperature degrees celsius SS Sampler enable state logical TE Temperature degrees celsius 7 6 6712 Portable Sampler Section 7 Remote Operation Table 7 2 Serial Data Codes Continued Identifier Parameter Units Current time days since 1 Jan 1900 Velocity meters per second Volume cubic meters Velocity signal strength percent Velocity spectrum strength percent Conductivity milliseimens per centimeter Dissolved oxygen milligrams per liter pH none Salinity parts per thousand Specific Conductance Total Dissolved Solids Temperature milliseimens per centimeter grams per liter degrees Celsius Oxidation reduction potential millivolts Level meters Ammonium nitrogen milligrams nitrogen per liter Ammonia nitrogen Nitrate Nitrogen Turbidity milligrams nitrogen per liter milligrams nitrogen per liter nephelometric turbidity units Chloride milligrams per liter
139. bottles 2 0 liters 8 round glass bottles 1 8 liters 4 round polyethylene bottles 3 7 liters 1 gal 4 round glass bottles 3 7 liters 1 gal 1 round polyethylene bottle 9 4 liters 2 5 gal 1 round glass bottle 9 4 liters 2 5 gal Dry Weight 32 Ibs 15 kg This includes the top cover center section tub controller pump tube distributor arm distributor arm nut and dis charge tube for the 24 bottle configuration 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued Dry Weight With 24 plastic bottles hold down no caps 36 lbs 17 kg 24 glass bottles expander ring no caps 55 lbs 25 kg 12 plastic bottles insert expander ring no caps 37 lbs 17 kg 12 glass bottles insert expander ring no caps 45 lbs 21 kg 8 plastic bottles insert hold down no caps 36 lbs 17 kg 8 glass bottles insert hold down no caps 46 lbs 21 kg 4 plastic bottles insert hold down no caps 36 lbs 17 kg 4 glass bottles insert hold down no caps 45 lbs 21 kg 1 plastic bottle and composite tube guide no cap arm or nut 34 lbs 16 kg 1 glass bottle and composite tube guide no cap arm or nut 38 lbs 18 kg Filled Bottle Weight 24 plastic bottles 101 lbs 46 kg 24 glass bottles 104 Ibs 48 kg 12 plastic bottles 89 Ibs 41 kg 12 glass bottles 95 Ibs 43 kg 8 plastic bottles 84 Ibs 38 kg 8 glass bottles 90 Ibs 4
140. brated while running a program Whenthe sampler delivers the sample it runs through a complete sampling cycle using the current settings for volume line rinses and retries If it is a two part program the sampler uses the volume setting for part A You can manually operate the sampler s pump in the forward or reverse direction You can do this to test the pump draw a large sample or purge the suction line When you run the pump manually the sampler reports the number of pump counts during the pump s operation Use this feature to obtain an estimate of the pump counts required to purge a nonstandard suction line You can also manually run the pump from the main menu Press the 1 key and then to run the pump in reverse Press the 3 key and then to run the pump forward N CAUTION Tests indicate that the pump produces sound levels in excess of 85db at one meter PROLONGED EXPOSURE TO THIS SOUND LEVEL COULD RESULT IN HEARING LOSS AND REQUIRES THE USE OF PROTECTIVE EAR PLUGS The sampler lets you reposition the distributor arm Use this feature to verify a bottle location when installing a bottle kit You cannot move the distributor arm while the sampler is running a program N CAUTION DO NOT rotate the distributor arm manually this will severely damage the distributor drive gears 4 15 Reports Interrogator 4 15 1 Collecting Reports F p 581 RTD 6712 Portable S
141. cement Parts List 6712 Portable Sampler MODEL 6712 CONTROLLER OUTSIDE 23 20 DWG 60 9002 058 REV D D 4 6712 Portable Sampler Appendix D Replacement Parts List ITEM INVENTORY NO DESCRIPTION 609003035 PIN HNG O9X3 635 2 609004013 LID ASSY LIQ DET 3 609004009 PMP PADDLE ASSY 4 232916101 NUT S 10 32 5 6031 15024 CAP CONN PTCTR MDM 6 605115052 CONN CAP 7 609005291 STRAP CONN 8 231310106 SCR SLFTPG 4X3 8 9 2030122035 SPR CPRSN O42WIRE 10 609004016 SFT ASSY DISTR 609003040 BSHG 184 ID 12 609004014 DISTR MOT ASSY 13 609004015 SFT ASSY WORM 14 609004 14 OPT SNSR ASSY 15 209000900 RTNG RING 2110 16 201512300 BRG 25010 5800 17 609005007 PL TOP DISTR ENV 18 251014456 SCR PNH 6 32X 1 8 19 6090040 CONT BOX S A BOT 20 609005054 GSKT CONT BOX 21 6990035 18 BOX 2 88X2 33X5 15 22 609003052 PIN HNG 8 2 25 609004300 HSG BND ASSY 24 109080300 LCH DRAW SST 25 231311206 SCR SLFTPG 6X3 8 26 603703278 BSHG PMP ENV 27 609004295 PMP COV ASSY 28 202999100 SEAL 625IDXI ITEM IS NOT SHOWN IN ILLUSTRATION D 5 6712 Portable Sampler Appendix D Replacement Parts List Note Older units have a cylindric
142. cing 4 5 5 12 event pacing 5 12 flow pacing 4 5 nonuniform clock time pacing 5 15 nonuniform time pacing 5 15 random interval pacing 5 15 time pacing 4 5 5 12 trigger pacing 4 5 Partitions creating 5 42 Password Protected Functions 5 35 Pause and resume 5 27 Periodic serial output 5 39 Power sources 2 9 accessories list E 5 Presample purge event marks 5 31 pressurized lines 5 44 Program name menu how to use 3 7 Program settings report see Sampling reports Program storage see Stored programs Programming changing program name 3 8 changing site description 3 8 clock and calendar 3 5 extended programming features 1 8 menu screens 3 3 program name menu 3 7 running programs 4 10 5 27 site description menu 3 7 text entry 3 7 pump accessories E 4 manual 4 18 pump counts 8 7 pump tube replacement 8 7 pump tube warning 8 3 purging 5 31 tubing replacement 8 7 wetted parts 8 2 pump tube warning 8 14 Q Quick View Screens 3 4 see Program Style R rain gauge setup 5 36 Random interval pacing 5 15 Recovering the sampler 2 17 refrigerator temperature 5 41 Refrigerator temperature sensor 5 41 E 6 Reinitialize controller effects on stored programs 8 7 6712 Portable Sampler Index Remote access computer commands 7 1 telephone commands 7 9 Replacing internal alkaline battery 8 12 Reports 4 19 Resume 5 27 Retries 5 12 Rinses 5 12 RS 232 communications 7 1 Running programs
143. creen to turn the feature off 6712 Portable Sampler Section 5 Extended Programming The sampler has two different styles of programming screens normal and quick view These are both explained in Section 3 When you are in extended programming the default style is Quick View which allows you to move more quickly through the Screens If you prefer a step by step display for the screens switch to the Normal setting If using a 700 Series module or SDI 12 Sonde parameter for enabling the sampler will request a Measurement Interval The Measurement Interval allows the sampler to compare the parameter to the enabling conditions at a rate faster than the Data Storage interval If the Measurement Interval is equal to or greater than the Data Storage interval the parameter will be checked at the rate of Data Storage interval Normally there are two considerations when selecting the Mea surement Interval power consumption and duration of the enabling event This setting for battery powered samplers will require some degree of balance between the need to conserve power yet detect the enabling event before it has passed Dual Sampler Mode lets you operate two samplers as a pair The primary sampler disables the secondary one until the primary sampler completes its sampling program The samplers then reverse roles with the second sampler becoming the primary one Setting Up Dual Samplers 1 Turn on the dual sampler mode in both sampler
144. d of the analog range and then assumes a linear relationship between those points MANUAL CONTROL of each output is also available 5 41 6712 Portable Sampler Section 5 Extended Programming 5 19 Memory 5 42 M Note The internal analog output can not be installed in a controller that has the internal voice modem also installed Contact the factory for information regarding external cellular modem options Flowcharts for analog output screens appear in Appendix A The 6712 Sampler contains 512 kilobytes of battery backed RAM Random Access Memory that stores e Five sampling programs e The sampling results from the most recent program e The rainfall data collected from rain gauges e The data from a refrigerator temperature sensor The data collected from a 700 Series module e Parameter data collected from an SDI 12 Sonde Calculated flow information from the current flow module The sampling results memory stores up to approximately 1004 events the actual number is dependent on the number of SDI 12 parameters The program run and start time information is logged as four events These four entries are held for the duration of the program The remaining 1000 are for logging sample events program events and errors from the currently running program If the running program exceeds 1000 events the data will roll over That is the sampler will replace the oldest stored event with the newest event When using an SD
145. data download it before pro ceeding When DONE is selected the sampler clears the stored data and reformats the memory partitions The sampler then dis plays the new capacity of the partition memory PARTITION MEMORY WILL LAST 13 DAYS If the duration is too short try changing the data storage interval or eliminating unnecessary reading types in the Hardware or Module Setup For example a sampler configured with a 730 Bubbler Module and a rain gauge storing data at a one minute interval creates level and rainfall partitions that hold 100 days of readings Changing the storage interval to two minutes extends the storage capacity to 201 days The sampler does not have to be running a program to store readings When the sampler is on it stores readings at the selected data storage interval Once the partition is filled the readings roll over When the sampler is running a program the partitions become triggered by the programmed start time or the first enable time whichever is later A triggered partition continues to log readings at the selected interval but will not replace any readings taken after the trigger event The sampler fills the par tition and then stops recording to preserve the data The first reading preserved in a full partition is one hour before the trigger event A full partition can be reset by starting another program or changing storage parameters If you need continuous readings for analysis be s
146. dem instruction sheet For Path to Files use the Select button to browse to the files you downloaded The software filename will have a bin exten sion 6712 Portable Sampler Section 1 Introduction S Update 589 Instrument sofware Model Rev Model 6712 HW Rev AD SW Rev 2 34 0000 ID 3687707707 Com port Instrument type 1 v 4100 4200 6700 C 2100 4700 Path to files J Publishing 69 9003 588 6712 6712Ci_Software lt r List of program files Available operations Login to Module Software file appears in mm Help window About Update Software Esit Status Logged in to instrument Figure 1 1 Software Update window 1 5 Memory to Store Monitoring Data 1 6 Pump Requirements The samplers contain enough memory to store five sampling pro grams sampling data Teledyne Isco 700 Series Module readings and SDI 12 parameter readings You can view the readings on your sampler s display You can also retrieve the readings and reports so the information can be processed on a personal computer Readings and reports may be collected with a computer running Teledyne Isco s Flowlink software Flowlink can download the information through a direct connection a modem connection when the sampler is equipped with the optional 4200T dial out modem or connected to the optional digital cellular modem or from a 581 Rapid Transfer Device RTD The RTD is a quick and simp
147. denly from breathing too much Be cautious about strange odors Do not determine percent oxygen in the air There is a danger that the result will influence a man s thinking about the seriousness of the real hazards Most important use ample ventilation and do not enter a potentially hazardous structure except in a good safety harness with two men at the top who can lift you out C 3 Hazardous Gases The following table contains information on the properties of hazardous gases Table C 1 Hazardous Gases Specific Max Explosive Likely E i Gravity T Safe 60 MS Range by Location Most Gas Chemical Common or Vapor Physiological Min 8 Hour vol in air of Common Cheapest Formula Properties A Effect Exposure Safe Method Density Exposure Limits Highest Sources i ppm of Testing Air 1 ppm lower upper Concentration Ammonia Irritant and 0 60 Causes throat 300 85 16 25 Near top Sewers Detectable poisonous Col and to Concentrates chemical odor at low orless eye irritation at 500 in closed up feed concentrations with characteris 0 05 cough per spaces rooms tic ing odor at 0 17 Short exposure at 0 5 to 1 fatal Benzene CgHg Irritant colorless 2 77 Slight symp 3 000 25 13 7 1 At bottom Industrial Combustible anesthetic toms to wastes gas indicator after several 5 000 varnish hours solvents exposure at 0 16 to 0 32 2 rapidly fatal Carbon CS Nearly odorless 2 64 Very poison
148. des Indicates events and codes that occur in Standard Programming Program Events listed in the order that they most likely would occur Program Run The sampler ran the sampling program Program Started The sampler started the sampling program Program Enabled Dis abled The sampler was enabled or disabled according to program settings or an external instrument Enabled Disabled Program part A or B was enabled or disabled according to the program s set tings Sample A sample was taken as programmed See Source Codes and Error Codes in this table Sample Switch Time Program Done Done A sample was taken at programmed switch time The sampler finished the sampling program The sampler finished program part A or B Manual Pause Stop was pressed during the program to enter the Manual Paused state Program Stopped You selected Stop from the manual paused options terminating the program Grab Sample A grab sample was taken while in the Manual Paused state Pump Tube Replaced Calibrate Volume Calibrate SDI Parameter The pump tube alarm was reset while in the Manual Paused state The volume was calibrated An SDI 12 sonde or module parameter was calibrated Adjusted Pacing The pacing interval was changed while in the Manual Paused state Volume Changed Sample volume was changed while i
149. e D Transmit E Receive FLOW METER 6 PIN MALE SEALED A 12 volts DC B Ground C Flow Pulses In D Bottle Number Out Dual Sampler Out E Event Mark Out F Inhibit In MODULE IN MODULE BAY 8 PIN MALE SEALED 1 NC 2 12 volts DC 3 Ground 4 Module Sense 5 Receive 6 Transmit 7 Clock 8 Control 6712 Portable Sampler Section 2 Installation Preparation 2 1 Preparing the Sampler 2 2 Installing the Distributor Arm and Discharge Tube Distributor Arm When sampling with a single bottle the composite tube guide is installed and the discharge tube is threaded through the guide When sampling with multiple bottles both the compact and standard 6712 Samplers use a distributor arm It is adjustable so that you can position the discharge tube over the bottles of each kit Each bottle kit also uses a discharge tube of a specific length Table 2 1 lists the correct discharge tube lengths for each bottle kit After installing the distributor arm and discharge tube run the distributor to each bottle position to ensure proper instal lation If using bulk tubing to cut your own tubes cut the ends of the tube square not at an angle and cut the length accurately The two piece distributor arm has four positions marked on the underside with the letters A B C and D Adjust the arm to the correct position for the bottle kit bein
150. e and post sample purge can also be manually set 5 31 6712 Portable Sampler Section 5 Extended Programming 5 17 6 Serial Output Serial ASCII data can be output through the controller s interro Programming the serial gator port The output frequency is user selectable every 15 output seconds every minute every 5 minutes every 15 minutes or by PERIODIC command ONTE UT To receive serial data as a periodic output 1 Select YES at screen asking if you want periodic serial out put PARE aL NA 2 Select the appropriate baud rate setting in screen Note 2400N81 1200 81 that at all baud rates the data is sent with no parity eight data bits and one stop bit If you have difficulty with the connection try a slower baud rate SERIAL Cee Tea 3 Select the desired output interval in screen SMIN SEMIN 4 Connect to the 6712 controller s interrogator connector using a standard interrogator cable To receive serial data by command 1 Select NO at the screen asking for periodic serial output 2 Connect your computer to the 6712 controller s interroga tor connector with a standard interrogator cable P N 60 2544 040 25 pin or 60 2544 044 9 pin 3 Configure your communications software for a baud rate no higher than 19 200 kb no parity 8 data bits and 1 stop bit 4 From the computer s keyboard type repeatedly until the 6712 controller determines the baud rate Once the
151. e The possible results are 0 SAMPLE 1 NO LIQUID FOUND 2 LIQUID LOST not enough liquid to satisfy requirements 5 45 6712 Portable Sampler Section 5 Extended Programming 5 46 3 USER STOPPED using the Stop Key 4 POWER FAILED 5 PUMP JAMMED 6 DISTRIBUTOR JAMMED 8 PUMP LATCH OPEN 9 SAMPLER SHUT OFF while sampling 11 NO DISTRIBUTOR 12 SAMPLE IN PROGRESS CS xxxx is the byte by byte sum of the entire string MO CS For commands that are not understood INVALID COMMAND or CHECKSUM MISMATCH or when no samples have been taken the most recent bottle information is left off the response string 6712 Portable Sampler Section 6 SDI 12 Sondes In order to provide you with the flexibility to use the water parameter sensors that best meet your needs Teledyne Isco has implemented support for SDI 12 protocol Support of this standard allows you to use SDI 12 compatible devices in con Junction with your 6712 sampler in Extended Programming mode 6 1 Teledyne Isco AQ700 The AQ700 Multi Parameter Sonde can be used in any natural Sonde water up to 50 degrees C and 49 feet 15 meters depth Its ease of use design includes direct USB connection to your com puter real time data viewing and LED indicators for operating status Using SDI 12 protocol the AQ700 can connect to the fol lowing Teledyne Isco instru ments 6712 or Avalanche Wastewater Sampler e Signature
152. e 2 5 ft s 0 77 m s 23 feet 3 1 liters per minute 2 3 ft s 0 71 m s 25 feet 2 8 liters per minute 2 2 ft s 0 66 m s Maximum Suction Head The maximum suction head is the vertical height at which a sample can be taken 28 ft 8 5 m at 30 inHg 762 mmHg Pump Tube Life Tube life may vary depending on the abrasiveness of the sample liquid Recommended maximum 1 000 000 pump counts This equates to 912 stan dard samples A standard sample is 200 ml at 5 ft 1 5 m suction head using a 10 ft 3 m vinyl suction line 6712 Controller Electrical Specifications Controller Internal Battery 5 years minimum maintains internal logic program settings amp stored data Real Time Clock Accuracy 1 minute per month Program Memory Nonvolatile programmable Flash Can be field updated via interrogator connector Sampler Power Requirements Nominal 12 volts DC by battery or AC power converter Operational 11 to 13 Volts DC Absolute Maximum 14 4 Volts DC Power Pack Requirements 120VAC 12VAC 60 Hz 1 0 Amp Use only Teledyne Isco made power packs certified by UL P N 60 1684 088 Power Pack Requirements 230VAC 23VAC 2 0 Amp 50 60 Hz Use only Teledyne Isco made CE certified power packs P N 60 3004 190 Note This is the only version certified by UL The line cord mains connect cable is the Disconnect Device Note The line cord mains connect cable is the Disconnect Device
153. e Bottle Full Detect screen allows you to enable or disable this feature Selecting YES enables the sampler to detect a full bottle and stop the sampling routine Selecting NO disables this feature The Bottle Full Detect setting is part of the sam pling program Because it is a program setting full bottle detection can be enabled or disabled for each of the four extended programs If the Bottle Full Detect setting is critical to your sam pling program always check this Software setting after you select a different Extended Program Bottle Full Detect BOTTLE FULL DETECT YES NO This feature relies on a post purge after each sample When using the Bottle Full Detect make sure that post sample purges greater than 100 are used Bottle Full Detect is always disabled in the Standard Pro gramming mode Adjusting the Display Display Backlighting The display has a backlight that is Backlighting adjustable so that the backlight is always off timed or always on BACKLIGHT ALWAYS OFF In the timed backlight mode the sampler turns the backlight off TIMED BACKLIGHT after detecting no key strokes within 60 seconds Any keystroke ee except ON OFF turns the backlighting on again In this mode the backlight must be on before the sampler accepts a menu choice or number entry If you press a key and a screen does not respond it is because the keystroke turned the backlight on It is recommended that you use either BACKLIGH
154. e Sampling at fixed head greater than 20 feet refer to Section 4 12 2 for additional instructions 4 12 1 Standard Calibration To calibrate 4 16 Procedure 1 Disconnect the pump tube from the bulkhead fitting 2 Place the end of the tube over a collection container 3 Perform the menu steps on the following page After preparing to collect the sample volume in a graduated cylinder or similar container select CALIBRATE VOLUME from the MANUAL FUNCTIONS or the PAUSED screen GRAB SAMPLE CALI BRATE VOLUME OPERATE PUMP MOVE DISTRI BUTOR Enter the sample volume SAMPLE VOLUME _ m 10 9990 Place the end of the pump tube over the container and press J CALI BRATE VOLUME PRESS 4 WHEN READY The controller will complete a sample collection cycle to deliver the programmed volume using its generated pump tables PURGI NG SUCTION LI NE PUMPING 200 ml PURGI NG SUCTI ON LI NE 6712 Portable Sampler Section 4 Standard Programming The collection cycle is complete when the controller displays the programmed volume Measure the actual volume delivered to the collection container and enter the amount here VOLUME DELIVERED _ ml If you enter a volume more than twice or less than half the programmed volume the message below is displayed 200 ml ARE YOU SURE YES NO Select YES when the volume delivered matches the volume displayed on this screen Select NO to re enter th
155. e and date To move from one field to another without changing the setting press the arrow keys Use this technique when you want to change only one or two settings Change the setting by typing a new number Press to accept the new setting For example to enter 2 00 p m 2 00 p m is 14 00 on a 24 hour clock type 14 Press Next type 0 zero for the minutes and press J To enter a date such as January 22 2001 type 22 J 01 2101 1 8 3 2 Pump Tube Alarm 6712 Portable Sampler Section 8 Maintenance Table 8 1 Setting the Clock and Calendar RUN PROGRAM Select OTHER FUNCTIONS 1 VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS Select MAINTENANCE 2 PROGRAMMING STYLE SET CLOCK PUMP TUBE ALARM Select SET CLOCK 3 INTERNAL BATTERY DIAGNOSTICS ENTER TIME AND DATE i HH MM DD MON YY Enter the time and date 4 14 00 22 JAN 01 SET CLOCK PUMP TUBE ALARM Press STOP to return to the main 5 INTERNAL BATTERY menu DIAGNOSTICS The sampler tracks the pump counts in both the forward and reverse cycles with a resettable counter When the counter reaches the default count of 1 000 000 or the count you have entered the sampler displays a message WARNING REPLACE PUMP TUBE The message appears each time you turn the sampler on or run a program until you reset the counter After replacing the pump tube see page 8 7 reset the count to zero so the sampler can
156. e ee WU 1 2 1 4 Telephone Communication 1 2 1 4 1 4200 Landline 1 2 1 4 2 GSM Cellular Modem 1 2 1 4 3 CDMA Cellular Modem for CSD 1 3 1 4 4 6712Ci1Modem 222222522259 ER E RR LEGE 1 3 1 4 5 Software Compatibility 1 3 1 5 Memory to Store Monitoring 1 5 1 6 Pump 1 5 I 7 Sampler Features un l ya sion t hul oA a EI n eS 1 6 1 8 Sampler Construction and Specifications 1 9 Section 2 Installation Preparation 2 1 Preparing the 2 1 2 2 Installing the Distributor Arm and Discharge Tube 2 1 2 3 Installing Bottle Kits for Multiplex Sampling 2 3 2 3 1 Aligning Bottle Kits in the Standard Tub 2 4 2 3 2 Aligning Bottle Kits in the Compact Tub 2 7 2 4 Installing Bottle Kits for Composite Sampling 2 7 2 4 1 Optional Jumbo Bottle Base 2 7 2 5 Installing a Power Source 2 9 2 5 1 Connectin
157. e option PROGRAM will be blinking Press 41 The option NO will be blinking Press J For the purposes of this example it isn t necessary to change the description Select the desired units for the flow rate For this example choose cfs Press J Select the desired units for the flow volume For this example choose Mgal Press J Select the desired units for the flow velocity For this example choose fps Press J Select YES to program the module The 750 can have two different modes of operation Flowmeter or Level and Velocity For this example choose Flowmeter Press J When you select Flowmeter you will have two options for performing the flow conversion Area Velocity or Level to Flow Rate For this example choose Area Velocity Press J For this example choose Channel Shape Press 1 For the channel shape select Round Pipe Press 6712 Portable Sampler Section 4 Standard Programming Table 4 5 Programming Example With 750 Module Installed Continued ROUND PIPE Enter the diameter of the round pipe Press 13 DIAMETER 2 00 ft CURRENT aoe IS The current level will be displayed Enter an adjustment if needed If the 14 adjustment is different by more than 0 50 ft you will be prompted ARE YOU peat TO SURE YES NO Choose NO to re enter select YES if correct Press ZERO LEVEL OFFSET Enter the amount of zero level offset Press 1 15 oM MAXIMUM DEPTH FOR T
158. e setting by typing a new number Press J to accept the new setting For example to enter 2 00 p m 2 00 p m is 14 00 on a 24 hour clock type 14 Press Next type 0 zero for the minutes and press J To enter a date such as January 22 2001 type 22 01 101 1 3 5 6712 Portable Sampler Section Programming Introduction 3 6 3 4 1 Setting the Clock and Calendar 3 4 2 Menu Screens Clock Start Times RUN PROGRAM Select OTHER FUNCTIONS 1 VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS Select MAINTENANCE 2 PROGRAMMING STYLE SET CLOCK PUMP TUBE ALARM Select SET CLOCK 3 INTERNAL BATTERY DIAGNOSTICS ENTER TIME AND DATE i HH MM DD MON YY Enter the time and date 4 14 00 22 JAN 01 SET CLOCK PUMP TUBE ALARM Press Stop to return to the main 5 INTERNAL BATTERY DIAGNOSTICS There are four start time settings you can use in a sampling program This section discusses only one of these settings the clock start time clock start time lets you set up a sampling program that starts at the same time on one or more days of the week For example you may want to begin sampling at 6 00 a m on Monday through Friday refer to the screen below To select a day or days from the menu 1 Press arrow key until the cursor 18 on the correct day Then press 1 2 Repeat these steps until each day you want is blinking 3 Press an arrow until DONE b
159. e volume delivered The collection cycle is complete when the display returns the MANUAL FUNCTIONS screen Press the Stop key to return to the main or paused menu GRAB SAMPLE CALIBRATE VOLUME OPERATE PUMP MOVE DISTRIBUTOR 4 Reconnect the pump tube to the bulkhead fitting Note To prevent sample to sample repeatability from affecting vol ume accuracy use the average of 3 or more samples 4 12 2 Calibration for When sampling at fixed suction heads greater than 20 feet addi Sampling at Fixed High tional steps are recommended for calibration Head 1 Before calibrating the sampler place it in extended mode from the main menu enter 6712 2 2 From OTHER FUNCTIONS gt SOFTWARE OPTIONS dis able the liquid detector as described in Section 5 17 1 3 Perform calibration as described in the previous section 4 Check volume accuracy Repeated calibrations may be nec essary 4 17 6712 Portable Sampler Section 4 Standard Programming 4 12 3 Calibration Tips 4 13 Operating the Pump Operating the Pump GRAB SAMPLE CALIBRATE VOLUME OPERATE PUMP MOVE DISTRIBUTOR SELECT DIRECTION PUMP FORWARD PUMP REVERSE PURGING PRESS THE RED STOP KEY WHEN DONE PURGED COUNTS 4 14 Moving the Distributor Arm 4 18 For best results calibrate the sampler after installation Use a graduated cylinder for volume measurement The sampler cannot be cali
160. eadings 6712 Portable Sampler Section 4 Standard Programming If RUN had been previously Stopped and no programming changes were made ENTER START BOTTLE 1 MAX For the first run using a 24 bottle base If applicable PLEASE WAIT TESTING DISTRIBUTOR SYSTEM FATAL ERROR NO DISTRIBUTOR ARM If applicable PROGRAM WILL START AT 06 00 MO 17 OCT OPERATION ERROR DISTRIBUTOR JAMMED 05 52 22 MO 17 OCT PURGING SUCTION LINE PUMPING 250 ml RINSING SUCTION LINE SAMPLE 2 IN 00 14 29 Samplers with an attached module display the module s readings pH and temperature for the pH module level per centage or flow rate for the 4 20 mA module level flow rate and flow volume readings for the flow modules level velocity flow rate and positive flow volume readings for the area velocity module Some module screens will alternate with the sampler screens BOTTLE 2 IN 00 14 39 150 gpm 0 82 ft 00001438200 gal The Module readings are updated e Every second when displaying the reading during programming e Every minute otherwise 6712 Portable Sampler Section 4 Standard Programming An asterisk appears next to the reading if the module was unable to take a reading If an asterisk appears the reading dis played is the last available reading Flow rates will be reported as zero flow if the error persists for more than five mi
161. eady 501 12 Sondes 6 5 Sonde Setup Storing Parameter 6 6 Sonde Calibration and Validation 6 7 6 7 1 Calibration Procedure 6 7 6 7 2 Validation Procedure 6 8 Disconnecting 4 6 8 Section 7 Remote Operation 7 1 7 2 Computer Operation 7 1 AT Men Control l lurasa EN REP ad 7 2 7 1 2 External Program 1 7 4 7 1 8 Remote Control of Sampler Keypad 7 8 Telephone Commands 7 9 Section 8 Maintenance 8 1 8 2 8 3 8 4 8 5 8 6 Maintenance Checklist 8 1 Cleaning Guidelines u uuu Ae IY bela ds 8 1 8 2 1 Controller Top Cover Center Section Retaining Ring and Tub 8 1 8 2 2 Sample Bottles 8 1 8 2 3 Cleaning or Replacing Wetted Parts 8 2 Maintenance Screens 8 2 8 3 1 Set Clock 4i sre ere bI RI IU A 8 2 8 3 2 Pump Tube Alarm erori eee Sing tee Sere gee
162. ears in quotations on the first line of the main menu The factory programs are named EXTENDED 1 EXTENDED 2 EXTENDED 3 and EXTENDED 4 You can rename them with more descriptive names making them easier to identify The program name is one of the extended program s settings After selecting a stored program review the settings with the quick view screens Each sampling program stores all the set tings required by the sampler to run a program These settings include the bottle kit information number of bottles and the bottle volume the suction line length the site description start times and so on If you use the same program at two sites each requiring dif ferent bottle configurations suction line lengths or other details always check these settings before running a program You may need to make minor changes to the program to make sure the settings match your equipment 5 2 6712 SAMPLER EXTENDED PROGRAMMING For HELP at any screen press key RUN EXTENDED 1 PROGRAM VIEW REPORT OTHER FUNCTIONS PROGRAM NAME EXTENDED 1 SITE DESCRIPTION SELECT NEW PROGRAM CHANGE PROGRAM NAME EXTENDED 1 EXTENDED 2 EXTENDED 3 EXTENDED 4 PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO RUN EXTENDED 2 PROGRAM VIEW REPORT OTHER FUNCTIONS 6712 Portable Sampler Section 5 Extended Programming
163. eclare that the design of the equipment specified above conforms to the above Directive s and Standards as of October 13 2014 USA Representative its Vikas V Padhye Ph D Executive Vice President of Sales and Marketing and Product Line General Manager 4700 Superior Street Lincoln Nebraska 68504 Phone 402 464 0231 Fax 402 464 0318 60 9002 068 Rev B m TELEDYNE ISCO Everywhereyoulook DECLARATION OF CONFORMITY ISM1 A Application of Council Directive 89 336 The EMC Directive 73 23 EEC The Low Voltage Directive Manufacturer s Name Teledyne Isco Inc Manufacturer s Address 4700 Superior Lincoln Nebraska 68504 USA Mailing Address P O Box 82531 Lincoln NE 68501 Equipment Type Environment Laboratory Equipment for Light Industrial Commercial Environments Trade Name Model No 4200T Modem Year of Issue 2001 Standards to which Conformity is Declared EN 55024 1998 EMC Requirements for Information Technology Equipment EN 60950 Safety Requirements for Information Technology Equipment FCC Part 68 Standard Description Severity Applied Performance Criteria EN61000 4 2 Electrostatic Discharge Level 2 4kV contact discharge B Level 3 8kV air discharge B EN61000 4 3 Radiated RF Immunity 80 MHz to 1000MHz 80 AM at 1kHz A Level 1 10V m EN61000 4 4 Electrical Fast Transient Level 2 2kV on ac lines EN61000 4 5 Surge on AC Lines 2kV common mode 1kV differenti
164. een used to change the setting Press Stop for the main menu All quick view screens work the same way 3 4 Clock and Calendar Entering Times and Dates ENTER TIME AND DATE HH MM DD MON YY Move from one field to another by pressing the arrow keys Change a setting in a field by typing a number Press to accept the new setting 6712 Portable Sampler Section Programming Introduction 200 ml SAMPLES Press the arrow key until 200 ml SAMPLES blinks Then press SAMPLE VOLUME 250 ml 10 1000 the new sample volume and press 1 T 250 ml SAMPLES You may have to set the internal clock or calendar The samplers are shipped with their clocks set to U S Central Standard time If your sampler operates in a different time zone you will have to reset the clock The example to the left shows you how to find the time and date screen When setting the clock and calendar use a 24 hour clock for times and the day month year format for dates The illustration at the left shows blanks for each position that accepts an entry The positions are called fields When this screen appears on your sampler the fields will contain the sampler s current settings for the time and date To move from one field to another without changing the setting press the arrow keys Use this technique when you want to change only one or two settings Change th
165. endable Do not use one unless you check it at frequent intervals against air con taining known 5 concentrations A supposed safety device that is unreliable is worse than none at all Remember that the nose fails too when it comes to sensing dan gerous concentrations of H58 Various other toxic gases have been mentioned in some publica tions It is unlikely that any person has been asphyxiated in a sewer by any of those other gases except possibly chlorine The vapor of gasoline and other hydrocarbons is sometimes present in C 5 6712 Portable Sampler Appendix C General Safety Procedures amounts that could cause discomfort and illness but under that condition the explosion hazard would be far more serious The explosimeter tests as well as the sense of smell would warn of the danger Pipelines in chemical plants might contain any number of harmful vapors They too are sensed by smell and explosimeter tests if they get into the public sewer Such occur rences are rare The attempt to instill a sense of urgency about real hazards is diluted if a man is told to give attention to a long list of things that in fact are irrelevant Be very careful to avoid high H5S concentrations flammable atmospheres and hazards of physical injuries Remember that much H S may be released by the stirring up of sludge in the bottom of a structure Obey your senses in respect to irritating gases such as chlorine unconsciousness comes sud
166. er the first bottle switch time 5 9 7 Continuous Sampling 6712 Portable Sampler Section 5 Extended Programming If the program settings instruct the sampler to take a sample at the start time the sampler also draws a sample at the switch time When this occurs the pacing will also be reset at the switch time Time switching is normally used with flow paced programs that do not take a sample at start These programs will place a sample in the current bottle if it is empty at the switch time and then move to the next bottle set Pacing intervals are reset at every switch time When you use the time switching feature the volume in each bottle or bottle set may vary Sample volumes that would exceed the bottle capacity are not taken and a PROBABLE OVERFILL message is logged Sample programs can be run indefinitely by selecting YES at the RUN CONTINUOUSLY screen Continuous sampling resets the distribution when the distribution sequence is com plete That is when the last bottle set is reached the next bottle set is the first bottle set All pacing modes except RANDOM are supported When running a program continuously the bottles must be ser viced at regular intervals to prevent overfilling the bottles The sampler assumes that the next bottle set is empty and ready to receive samples If you are using this feature with two part pro gramming keep in mind that the parts will most likely reset at different inte
167. ev 2 32 0369 ID 1066836872 7 Model 6712 HW Rev 2 32 0369 ID 1066836872 77 xxx Model 6712 HW Rev 2 32 0369 ID 1066836872 gt 77 xx Model 6712 HW Rev 2 32 0369 ID 1066836872 gt menu lt ST gt ATUS Get current status information lt S gt CREEN_ lt D gt UMP View 671275 display lt P gt AUSE Enter the MANUAL PAUSE menu if running a program lt 5 gt DISABLE Disables a currently running program Causes a currently running program to take a sample Get control of 671275 keypad Exit Connected 0 18 34 Auto detect 192008 N 1 SCROLL 5 NUM Capture Print echo Figure 7 2 Example list of remote menu commands 7 2 Menu Command START 6712 Portable Sampler Section 7 Remote Operation Table 7 1 6712 Remote Menu Commands Description This command will immediately start any program set to WAIT FOR PHONE CALL and cur rently waiting for the remote start command see Section 4 6 1 or RUN1 This command will load Program 1 as the sampler s current Extended program reset partition if the storage interval has been changed and the program RUNI is valid when the sampler is in standby or when it is waiting for a start command RUN1 will also run the current program while in Standard programming 2 or RUN2 3 or RUN3 4 or RUN4 These commands will load the selected program number as the sampler s current Extended program reset partitio
168. factory with sample bottles in for Multiplex place When using the sampler for the first time you will only Sampling need to remove the bottle lids When installing cleaned bottles or a new kit keep these guidelines in mind Never mix glass and plastic bottles together Install all bottles to insure that they remain in place Align the bottles correctly If the bottles are misaligned the sampler may miss the bottle mouth or the sampler will deposit samples in the wrong bottle 2 3 6712 Portable Sampler Section 2 Installation Preparation Each time you change from one size bottle to another you must adjust the length of the distributor arm and install a discharge tube of the correct length e Each time you install a bottle kit check the program settings for the number of bottles and bottle volume You must adjust the distributor arm and use a different dis charge tube for each bottle kit See Installing Distributor Arm and Discharge Tube and Table 2 1 for more information 2 3 1 Aligning Bottle Kitsin Figures 2 2 through 2 5 show each kit being installed in the the Standard Tub standard tub Refer to Table 2 1 to adjust the distributor arm to the correct length and use the correct length of discharge tube 1 Install the bottles then secure the plastic retaining ring with the three draw cords For glass bottles use the stainless steel retaining ring 2 Adjust the distributor arm to the correct position inse
169. flow logger the sampler prompts you to enter the interval between sample events in pulses The sampler initiates a sample event when the set number of pulses is received Pro grams that are flow paced do not take a sample at the start time After setting the program start time you will be prompted to enter a maximum run time of zero to 999 hours If you would like the program to run indefinitely enter 0 zero for maximum run time The flow pacing screens change when you attach a flow module see example to the left Because the sampler is more closely integrated with the modules the standard flow pacing screen prompts you for the flow volume between sample events instead of pulses between events The flow volume units displayed are what you had previously programmed Teledyne Isco 4200 Series Flow Meters and 4100 Series Flow Loggers send pulses for trigger pacing The flow meter or flow logger sends pulses at two different time intervals when trigger pacing a sampler Trigger pacing for example lets you sample less frequently when the trigger condition a condition based on level flow or rainfall remains below a set point The intervals are determined by the flow instrument s program set tings for trigger pacing When conditions change and readings pass the set point trig gering the new rate you can sample more frequently Or when the trigger condition is a clock setting the instrument changes the pacing interval accord
170. fs 10 00 11 00 2 7942 CEB 11 00 12 00 3 456 cfs 12 00 13 00 5 385 cis 13 00 14 00 6 651 cfs 14 00 15 00 223591 chs 15 00 16 00 1 593 cts 16 00 17 00 NO DATA 17 00 18 00 NO DATA 18 00 19 00 NO DATA 19 00 20 00 NO DATA 20 00 21 00 NO DATA 21 00 22 00 NO DATA 22 00 23 00 NO DATA 23 00 24 00 NO DATA Wu api Seb p mipi a e 8 00 T I 6 00 I I HH gt HH 4 00 I HHH x HHH X I Td THdHdEH ER I 2 00 HHHHHHH x Td ERE X I HHHHHHHH 0 00 FSS SSS abe SSeS Seba Hee SSeS Hour Ending 08 16 24 Units cfs Figure 4 9 Report Summary 4 29 6712 Portable Sampler Section 4 Standard Programming 4 16 System IDs System IDs RUN PROGRAM VIEW REPORT OTHER FUNCTIONS Select VIEW REPORT VIEW DATA SYSTEM IDs CONFIGURE REPORTS Select SYSTEM IDs SAMPLER 6712 ID HARDWARE SOFTWARE __ Displayed briefly MODULE TYPE MODEL ID HARDWARE _ SOFTWARE Displayed briefly SOFTWARE OPTIONS Options List Press STOP to return to the main menu 4 17 Programming for 700 4 30 Series Modules In addition to viewing report data and configuring reports the View Report option on the main menu lets you view system iden tification information The sampler reports the sampler model number ID
171. g Ring for Standard 12 Bottle 60 3704 112 Bottle Insert for Standard 12 Bottle 60 9004 147 Retaining Ring for Standard 8 Bottle 60 9004 149 Bottle Insert for Standard 8 Bottle Kits 60 9004 146 Retaining Rack for Standard 4 Bottle Kits 60 9004 351 Discharge Tube for Compact 12 Bottle Kit and 24 Bottle Kit 60 9003 257 Discharge Tube for Compact 1 Bottle Kit 60 9003 258 Discharge Tube for Standard 24 Bottle 60 9003 260 Discharge Tube for Standard 12 Bottle Kit 60 9003 262 Discharge Tube for Standard 8 Bottle Kit 60 9003 264 Discharge Tube for Standard 4 Bottle 60 9003 266 Discharge Tube for Standard 1 Bottle Kits 60 9003 271 Bulk Discharge Tube 10 foot Length 60 6700 046 Bulk Discharge Tube 50 foot Length 60 6700 047 E 7 Bulk Sets of Bottles with Lids Set of 24 500 milliliter Polyethylene Bottles with Polyethylene Foam Lined Lids 68 2900 002 Set of
172. g an External 12 Volt DC Source 2 9 2 6 Suction Lines ws beatin a ed eee utr ac e Ede CR ERU E e 2 10 2 6 1 Attaching Suction Line to Pump Tube 2 10 Def SUL AMONG oer UU Ses oU HI dete ted as S ME u a aea e Ge FI 2 11 2 7 1 Alternative to Strainers 2 11 2 8 How Does the Sampler Work 2 12 2 8 1 A Typical Sampling Cycle 2 12 2 8 2 Measuring Sample Volume 2 13 2 9 Installing the Sampler 1 2 13 2 9 1 Icing the Samples 2 13 2 9 2 Tips for Routing Suction 2 13 2 9 3 Intake 1 2 13 2 9 4 Positioning a Sampler 2 18 2 9 5 Using the Suspension Harness ProHanger 2 14 2 10 Connecting External Instruments 2 14 210 1 Flow Meter Flees up a eave RR NIRE 2 14 2 10 2 Rain Gauge 2 15 2 11 Locking the Sampler zanesena e sS ccc eee eee sS Du 2 16 2 12 Servicing the Sampler 2 16 2 13 Recovering the Sampler
173. g used Table 2 1 shows the correct position for each kit Thread the discharge tube through the spring and arm so that the tube protrudes from the arm 16 to 1 8 inch If too much tube protrudes from the arm it can catch on bottles and jam the distributor arm Attach the arm to the distributor shaft Secure the arm with the black plastic nut Slide the free end of the discharge tube onto the bulkhead fitting lt ZR p Composite Tube Guide 2 1 6712 Portable Sampler Section 2 Installation Preparation Step 1 The two piece arm has four posi tions marked on the underside with the letters A B C and D Adjust the arm to the correct posi tion for the bottle kit Table 2 1 shows you the correct position for each kit Thread the discharge through the spring and arm so that the tube protrudes from the arm 1 16 to 18 inch Step 2 Attach the arm to the distributor shaft The arm and shaft are keyed so that you can align them correctly Secure the arm to the shaft with the black plastic nut Step 3 Slide the end of the discharge tube onto the bulkhead fitting Figure 2 1 Installing the Distributor Arm Compact 24 Bottle Kit e 500 milliliter polyethylene bottle Distributor Arm Position B Discharge Tube Discharge Tube Length 14 4 inches 36 2 cm Compact 12 Bottle Kit e 375 milliliter glass bottles e 500 milliliter polyethylene bottles
174. gramming 5 37 Installing suction line 2 13 Interrupting interrupting a running program 4 12 manual paused operation 4 12 L Line rinses 5 12 Liquid detector enable disable 5 28 Locking the sampler 2 16 Maintenance 8 2 alkaline battery 8 12 checklist 8 7 cleaning guidelines 8 1 diagnostics 8 5 maintenance programming screens 8 2 opening controller case 8 10 pump tube 8 7 pump tube alarm 8 7 reinitializing 8 7 maintenance pump tubing 8 7 Manual functions 4 14 calibrate volume 4 14 grab samples 4 14 moving distributor 4 18 manual functions pumping 4 18 Manual paused operation 4 12 4 14 Master slave sampling 5 29 event marks 5 29 sampler enable 5 29 Master Slave to Flow Meter Cable 5 29 Materials used in sampler construction 1 9 Memory 1 7 capacity 1 5 5 43 creating partitions 5 42 partition sizes 5 42 roll over 5 43 stored data will be lost 5 1 triggered 5 43 memory 5 42 Menu screens 3 3 Modem 7 9 modems 1 2 CDMA serial over IP 1 3 CSD 1 3 GSM 1 2 landline 1 2 software compatibility 1 3 Module summary report see Sampling reports Modules displayed readings 4 11 Multiple bottle compositing 5 16 N Nonuniform time pacing 5 15 O One part programs 5 1 Operating running sampling programs 4 10 5 27 Other Functions see Hardware setup 4 14 5 28 see Maintenance 4 14 5 28 see Manual functions 4 14 5 28 see Programming Style 4 14 5 28 P Pa
175. h as using the menus and setting the clock CAUTION This sampler has a high performance pump As with all such pumps it relies upon liquid to cool working components If the sampler is programmed to pump in the absence of liquid in excess of 5 minutes excessive heat buildup may damage the paddles rollers and housing Ensure that the liquid inlet is completely immersed Turn the sampler on by pressing the Standby key It is labeled with this icon The start up screen appears first 6712 SAMPLER STANDARD PROGRAMMING For HELP at any screen press key It remains on the display for about eight seconds or until you press a key It tells you the type of programming screens the sampler is currently using standard or extended and gives you a tip about the on line help The main menu screen shown below appears next RUN PROGRAM VIEW REPORT OTHER FUNCTIONS If a module is attached a different screen may appear first See the module manual for more information 3 1 6712 Portable Sampler Section 3 Programming Introduction The sampler will continue to use the program mode you selected even if the sampler is turned off and on again until you man ually switch to the other programming mode With the display backlight activated the screen will glow for several seconds following your last keystroke If you press a key and the screen text does not change it is probably because the keystro
176. hard D Pomeroy and published in the October 1980 issue of Deeds amp Data of the WPCF Dr Pomeroy is particularly well known for his studies over a period of nearly 50 years in the field of the control of hydrogen sulfide and other odors in sewers and treatment plants He has personally worked in a great many functioning sewers In the earlier years he did so he admits with little knowledge of the grave hazards to which he exposed himself It is gratifying that the subject of hazards to people working in sewers is receiving much more attention than in past years and good safety procedures are prescribed in various publications on this subject It is essential that people know and use correct pro cedures It is less important to know just what the hazardous components of sewer atmospheres are as safety precautions should in general be broadly applicable but there should be a reasonable understanding of this subject It is disturbing to see statements in print that do not reflect true conditions One of the most common errors is the assumption that people have died from a lack of oxygen The human body is able to function very well with substantially reduced oxygen concentra tions No one worries about going to Santa Fe New Mexico elev 2 100 meters where the partial pressure of oxygen is equal to 16 2 a normal atmosphere is about 21 oxygen When first going there a person may experience a little shortness of breath fo
177. he cover from being dropped on the toes The 2 inch projection should be inserted into one of the holes in the cover the handle grasped with both hands and the cover lifted by straightening the legs which have been slightly bent at the knees Other precautions which should be taken when entering a manhole are Wear a hard hat Wear coveralls or removable outer garment that can be readily removed when the work is completed Wear boots or nonsparking safety shoes Wear rubberized or waterproof gloves Wear a safety harness with a stout rope attached Do not smoke Avoid touching yourself above the collar until you have cleaned your hands C 3 6712 Portable Sampler Appendix C General Safety Procedures C 1 10 Field Equipment 2 Lethal Atmospheres in C 4 C 1 9 Emergencies Sewers Every member of the crew should be instructed on procedures to be followed in cases of an emergency It is the duty of each crew chief to have a list of emergency phone numbers including the nearest hospital and ambulance service police precinct fire station and rescue or general emergency number The following equipment will be available for use Blowers Gloves Traffic cones Breathing apparatus Hard Hats Coveralls Harnesses First aid kits Manhole irons Emergency flashers Pick axes Flashlights Rain slickers Mirrors Ropes Gas detectors Safety vests Gas masks Waders The following is an article written by Dr Ric
178. his screen is applicable for standard sized probes only 16 VELOCITY MEASUREMENT a P 4 Select the maximum depth for the velocity measurement Press 1 Select the number of bottles in your bottle kit by pressing either arrow key 17 NUM BER until the correct number blinks Press J From this point forward the screens will be the same as in Table 4 2 4 35 6712 Portable Sampler Section 4 Standard Programming 4 36 6712 Portable Sampler Hu rO r I Y Section 5 Extended Programming 5 1 Extended and Standard Mode 5 2 One Part and Two Part Programs The 6712 Sampler has two sets of programming screens The first set called standard programming screens lets you set up typical sampling programs easily and efficiently The second set extended programming screens lets you create sophisticated pro grams for complex sampling applications All of the sampling features available with standard pro gramming screens discussed in Section 4 are available with extended programming screens However the extended screens provide several additional features and some screen display dif ferences which are discussed in this section The menu flow charts for both sets of programming screens are in Appendix A Menu Flowcharts This section assumes that you have read and are familiar with the instructions in Section 4 Standard Programming The sampler is shipped with factory default settings in standard p
179. hown in Figure 2 7 Discharge tube part numbers and lengths are listed in Table 2 2 The compact and standard sampler bottle bases accept 21 2 gallon glass or plastic bottle Place the bottle in the recess formed in the bottle base You can install an optional bottle base on the standard sampler to collect larger composite volumes The optional base replaces the standard tub and holds a 4 gallon 15 liter polyethylene bottle 5 gallon 19 liter glass bottle or 5 5 gallon 20 8 liter polyethylene bottle Prepare the sampler as shown in Table 2 2 and Figure 2 7 and place the bottle in the recess formed in the bottle base Figure 2 7 Installing the Composite Tube Guide 2 7 6712 Portable Sampler Section 2 Installation Preparation Table 2 2 Discharge Tubes for Composite Sampling Configuration Discharge Tube Discharge Tube Length Compact 1 Boule 60 9003 258 10 inches 25 4 cm e 9 4 liter 2 2 gallon glass bottle e 9 4 liter 91 2 gallon polyethylene bottle Standard 1 60 9003 271 12 inches 30 5 cm e 9 4 liter 2 2 gallon glass bottle 1 e 9 4 liter 2 2 gallon polyethylene bottle Jumbo Bottle Option 60 9003 271 12 inches 30 5 cm e 15 liter 4 gallon polyethylene bottle e 19 liter 5 gallon glass bottle e 20 8 liter 5 5 gallon polyethylene bottle Standard samplers only Requires the Jumbo Bottle Base 5 Gallon Glass 2 5 Gallon Plastic 2 5 Gallon Glass Composite Bot
180. ices Section 7 Precautions for Safe Handling and Use Leak Procedures Steps to be Taken if Material Sweep or vacuum up and place the spilled material a waste disposal container Avoid raising dust Is Spilled Or Released Waste Disposal Dispose in an approved landfill according to federal state and local regulations Methods Precautions to be Taken In Handling and Storage Other Precautions and or Special Keep in sealed containers away from moisture The silica gel will readily adsorb moisture Hazards Cover promptly to avoid blowing dust Wash after handling Optional Indicating Silica Gel B 7 6712 Portable Sampler Appendix B Material Safety Data Sheets B 8 6712 Portable Sampler Appendix C General Safety Procedures C 1 Practical Safety Precautions C 1 1 Hazards In field installations of Teledyne Isco wastewater samplers and associated equipment the safety of the personnel involved should be the foremost consideration The following sections provide safety procedures for working in and around manholes and sewers the first section offers general safety advice The second section deals with the special problem of hazardous gases found in sewers WARNING The 6712 has not been approved for use in hazardous locations as defined by the National Electrical Code N CAUTION Before any sampler is installed the proper safety precautions must be taken The following discuss
181. id Ingestion If large amounts have been ingested give emetics to cause vomiting Stomach siphon may be applied as well Milk and fatty acids should be avoided Get medical attention immediately First Aid Eyes Wash eyes immediately and carefully for 30 minutes with running water B 3 6712 Portable Sampler Appendix B Material Safety Data Sheets B 4 101 Christine Drive Belen New Mexico 87002 S D CHEMIE 505 864 6691 iw Fax 505 861 2355 Performance Packaging ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Packaged Desiccant NOTE TO PHYSICIAN This product is a desiccant and generates heat as it adsorbs water The used product can contain material of hazardous nature Identify that material and treat accordingly SECTION VI REACTIVITY DATA Reactivity Silica gel is stable under normal temperatures and pressures in sealed containers Moisture can cause a rise in temperature which may result in a burn SECTION VII SPILL OR LEAK PROCEDURES Notify safety personnel of spills or leaks Clean up personnel need protection against inhalation of dusts or fumes Eye protection is required Vacuuming and or wet methods of cleanup are preferred Place in appropriate containers for disposal keeping airborne particulates at a minimum SECTION VIII SPECIAL PROTECTION INFORMATION Respiratory Protection Provide a NIOSH MSHA jointly approved respirator in the absence of
182. ide carbon monoxide water Decomposition Products HAZARDOUS POLYMERIZATION Conditions None May Occur To Avoid Optional Indicating Silica Gel B 6 6712 Portable Sampler Appendix B Material Safety Data Sheets Page 2 Section 5 Health Hazard Data PRIMARY ROUTES Inhalation LIIngestion CARCINOGEN LINTP LOSHA OF ENTRY Skin Absorption Not Hazardous LISTED IN IARC Monograph LINot Listed HEALTH HAZARDS Acute May cause eye skin and mucous membrane irritation Chronic Prolonged inhalation may cause lung damage Signs and Symptoms Drying and irritation of Exposure Medical Conditions Asthma Generally Aggravated by Exposure EMERGENCY FIRST AID PROCEDURES Seek medical assistance for further treatment observation and support if necessary Eye Contact Flush with water for at least 15 minutes Skin Wash affected area with soap and water Contact Inhalation Remove affected person to fresh air Ingestion Drink at least 2 glasses of water Section 6 Control and Protective Measures Respiratory Protection Use NIOSH approved dust mask or respirator Specify Type Protective Light cotton gloves Eye Protection Safety glasses Gloves VENTILATION Local Exhaust Mechanical General Special TO BE USED lother Specify Other Protective None Clothing and Equipment Hygienic Work Avoid raising dust Avoid contact with skin eyes and clothing Pract
183. identifi cation number and software version number as system identifi cation notes The sampler also reports the same information for an attached module The model and ID numbers remain unchanged through the life of the sampler The ID numbers appear on the sampler s reports and in files created by flowlink when they interrogate the sampler The software packages use the ID number to make sure that data from different samplers is not combined in the same file The software version number changes when your sampler s software is updated The system will also list any software options that you have acti vated on your unit These software options are discussed in Section 5 The bay on the controller s side accepts any of Teledyne Isco s 700 Series Modules These modules are optional accessories that are not required for operation of the 6712 However the modules offer an economical way to combine flow rate or parameter moni toring with sampling The programming of these modules is integrated with the pro gramming of the sampler so attachment of a module will cause different screens to be displayed depending on the type of module and the selections you make while programming Two modules that are commonly used are the 730 Bubbler Module which monitors a flow stream s level and flow rate and the 750 Area Velocity Module for monitoring a flow stream s level velocity and flow rate The following sets of screens give yo
184. if leum ten egg odor in tration airisheated sewer gas 2 5 by weight small concentra increases highly humid Fumes lead acetate tions Exposure Death in few from blast solution for 2 to 15 min at minutes at ing under 0 01 impairs 0 2 Exposure some con sense of smell to 0 07 to 0 1 ditions Odor not evident rapidly causes Sludge gas at high concen acute poison trations Color ing Paralyzes less Flammable respiratory center Methane Simple asphyxi 0 55 Acts mechani Probably 5 0 15 0 At top increas Natural 1 Combustible ant cally to deprive limit pro ing to certain gas sludge gas indicator Colorless odor tissues of oxy vided oxygen depth gas manu less tasteless gen Does not percent age factured 2 Oxygen defi flammable support life is sufficient gas sewer ciency indica for life gas Strata tor of sedi mentary origin In swamps or marshes Nitrogen N2 Simple asphyxi 0 97 Physiologically Near top but Sewergas Oxygen ant Colorless inert may be found sludge gas deficiency tasteless near bottom Also issues indicator Non flammable from some Principal constit rock strata uent of air about 79 Nitrogen NO Colorless 1 04 60 to 150 ppm 50 10 Near bottom Industrial NO detector Oxides cause irritation wastes tube N20 Colorless and coughing Common sweet odor 1 53 air pollut Asphyxiant ant Reddish brown 1 5
185. ing Report e ES was described above Selecting the Current Readings option e Select VIEW REPORT causes the sampler to display real time readings When there are VIEW DATA multiple screens they will be displayed alternately You can SYSTEM IDs quickly advance through the screens by pressing an arrow key or 2 CONFIGURE REPORTS Pressing Stop exits the Current Readings mode Select VIEW DATA SELECT DATA TO VIEW SAMPLING REPORT 3 MODULE DATA RAINFALL DATA Select a report or data type VIEW DAILY SUMMARY 4 CURRENT READINGS Select DAILY SUMMARY to view the stored data or CURRENT READINGS to view real time data 4 20 4 15 3 Configuring Reports Configuring Reports RUN PROGRAM VIEW REPORT OTHER FUNCTIONS Select VIEW REPORT VIEW DATA SYSTEM IDs CONFIGURE REPORTS Select CONFIGURE REPORTS FLOWLINK REPORT CUSTOM REPORT ALL REPORTS Select the option that matches your data collection software or tailor the output according to the reports needed 6712 Portable Sampler Section 4 Standard Programming The Configure Reports option lets you specify which of the Sam pling Reports will be included in any output request Each sampler is shipped with the option Flowlink Report selected The Flowlink Report options allow you to tailor the output to the Teledyne Isco software used to collect the reports Flowlink Report provides the Sampl
186. ing Reports and the detailed partition data Selecting the Flowlink Report option enables the output of the detailed partition data so Flowlink can add the data to the site s database file When you are familiar with the available Sampling Reports you may want to specify an output containing only the specific data you require The Custom Report option will allow selection of detailed data Data collection time and storage space may be optimized using this option 4 21 6712 Portable Sampler Section 4 Standard Programming 4 15 4 Sampling Results Report 4 15 5 Combined Results Report 4 15 6 Summary Report 4 22 As the sampler runs a program it records the program s events Program events include such items as sample events program enables and disables power losses and so on Table 4 3 lists each event with a short description You can view the report by fol lowing the steps in Viewing the Data on page 4 20 or print the log as the Sampling Results report In the text file version of the report sample event entries include the time of the event as well as the sample and bottle numbers The sample column contains the sample number deposited into the bottle This information reflects the distribution selected for the program The letters in the Source columns are codes for the cause of the event The letters in the Error column are codes for the causes of missed samples The source and error codes appear with expla nat
187. ing to the time of day Using a clock trigger condition for instance the flow meter or flow logger can pace the sampler slowly at night and more frequently during the day For more information about trigger pacing see your flow meter or FLOWLINK manual 4 5 6712 Portable Sampler Section 4 Standard Programming 4 5 Distribution 4 5 1 Sequential 4 5 2 Bottles Per Sample 4 5 3 Samples Per Bottle 4 5 4 Composite 4 5 5 Continuous Sampling 4 6 The flow meter or flow logger sends the same pulse for both flow and trigger pacing and the sampler cannot distinguish between them Therefore to program a sampler for trigger pacing simply program it for flow pacing Distribution describes how the sampler is to deposit samples A sample is the volume of liquid deposited in a bottle A sample event includes the full sampling cycle and may deposit a sample into more than one bottle In standard programming you can program the sampler for these different distribution methods e Sequential Bottles Per Sample e Samples Per Bottle Composite In sequential distribution the sampler deposits one sample in each bottle A sequential sample represents a snapshot of the flow stream at a point in time In bottles per sample distribution the sampler deposits a sample in each of a set of bottles A bottle set includes at least two bottles but may include all bottles Use bottles per sample when the volume to be collected
188. ions at the end of the report A list of codes appears in Table 4 3 The last column in the Sampling Results report records the pump counts for the sample event Large variations in pump counts from event to event indicate fluctuating heads a relocated suction line or a temporarily clogged strainer At the time of each sample event the sampler records the readings from each connected module rain gauge or SDI 12 sonde The Combined Results Report presents the event time sample and bottle number and the respective readings from the device For flow modules the readings are level and flow rate For the pH module the readings are temperature and pH For the rain gauge and SDI 12 Sonde the readings vary according to the selections enabled during the hardware setup in extended pro gramming When recording four or more sonde parameters the Combined Results report will exceed the standard 40 character width To read the additional columns the data must be collected with Flowlink 5 1 for Windows software This report summarizes the rain gauge or module data The types of readings are the same as those available to the Com bined reports The sampler compiles the data to present a daily total the day s average maximum and minimum reading and a listing of hourly averages The sampler then graphs the day s readings 6712 Portable Sampler Section 4 Standard Programming Table 4 3 Reports Program Events Source Codes and Error Co
189. ions becomes true The default distribution setting for event paced sampling is sequential each time an event occurs the sampler takes one sample placing it in one bottle However any distribution setting may be used If you have programmed multiple conditions and more than one condition comes true at the same time within your measurement interval one sample will be taken and all conditions that caused the event will be noted on reports Table 5 3 uses rate of change for the event condition see step 7 This feature enables the event condition under specific cir cumstances In the example below a rate of change is set so that if the level rises more than one foot in a two hour time period the event con dition would be enabled and a sample taken In determining if the rise occurs in this example the sampler looks back at the previous two hour time period to see if there is a rise of more than one foot between any valley low point or peak high point within that time period Once the condition becomes true a rise of more than one foot is noted the event condition is enabled It will not be enabled again unless the condition becomes false and then true again within the two hour time window In event pacing up to three different rate of change event condi tions can be programmed for two part programs a total of six rate of change event conditions can be defined three for each part 5 8 2 Event Paced Sampling Thi
190. ions of safety procedures are only general guidelines Each situation in which you install a flow meter varies You must take into account the individual circumstances you are in Additional safety considerations other than those discussed here may be required The following procedures are those used by Black amp Veatch a respected consulting firm and are published here by permission Field personnel must keep safety uppermost in their minds at all times When working above ground rules of common sense and safety prevail However when entering manholes strict safety procedures must be observed Failure to do so could jeopardize not only your own life but also the lives of other crew members There are many hazards connected with entering manholes Some of the most common hazards are Adverse Atmosphere The manhole may contain flammable or poisonous gases or the atmosphere may be deficient in oxygen Forced ventilation may be necessary Deteriorated Rungs Manhole steps may be corroded and not strong enough to support a man It may be difficult to inspect the rungs because of poor lighting Traffic Whenever manholes are located in the traveled way barricades and warning devices are essential to direct traffic away from an open manhole Falling Objects Items placed near the manhole opening may fall and injure a worker in the manhole 6712 Portable Sampler Appendix C General Safety Procedures C 2 C 1 2 Planning
191. kaged Desiccant SECTION I PRODUCT IDENTIFICATION Trade Name and Synonyms Silica Gel Synthetic Amorphous Silica Silicon Dioxide Chemical Family Synthetic Amorphous Silica Formula SiO2 x SECTION HAZARDOUS INGREDIENTS Components in the Solid Mixture COMPONENT CAS No ACGIH TLV PPM OSHA PEL Amorphous 63231 67 4 gt 99 PEL 20 RESPIRABLE LIMIT NONE Silica 5 HAZARD IRRITANT Synthetic amorphous silica is not to be confused with crystalline silica such as quartz cristobalite or tridymite or with diatomaceous earth or other naturally occurring forms of amorphous silica that frequently contain crystalline forms This product is in granular form and packed in bags for use as a desiccant Therefore no exposure to the product is anticipated under normal use of this product Avoid inhaling desiccant dust SECTION PHYSICAL DATA Appearance and Odor White granules odorless Melting Point 21600 Deg C 22900 Deg F Solubility in Water Insoluble Bulk Density gt 40 Ibs cu ft Percent Volatile by Weight 1750 Deg F lt 10 B 2 6712 Portable Sampler Appendix B Material Safety Data Sheets 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE SY Phone 505 864 6691 505 861 2255 Performance Packaging ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SO
192. ke turned the backlight on instead of performing its function Simply press the same key again Table 3 1 About the Keypad 14 Se EFU Key Name Function Standby Turns sampler on or off St Stops the pump or distributor Pauses a running sampling program op programming returns to previous screen Enter Accepts a menu choice or number entry and goes to next screen Help In programming screens displays a brief help message rm Selects the menu option right or below the current choice Up Left Arrow Selects the menu option left or above the current choice Numbers Types a number Decimal Point Types a decimal point Pump Reverse Press when at the main menu to run the pump in reverse Pump Forward Press when at the main menu to run the pump forward 3 2 3 1 1 Selecting a Language 3 2 Using Menus and Entering Numbers The Main Menu RUN PROGRAM VIEW REPORT OTHER FUNCTIONS 3 2 1 Selecting Menu Options 3 2 2 Entering Numbers SUCTION LINE LENGTH IS ft 3 99 the length of the suction line Acceptable values are shown between the parentheses Press 1 to accept the number 6712 Portable Sampler Section Programming Introduction The sampler is programmed at the factory so that the standard programming screens appear when
193. l Over IP Capability 68 6710 148 GSM Digital Cellular Modem 60 5314 563 Requires sampler software 2 34 and the purchase of a SIM card from your preferred provider E 11 Power Sources and Chargers 913 High Capacity Power Pack 120 volt 60 1684 088 914 Battery Backed Power Pack 120 volt 60 3004 130 921 Nickel Cadmium 60 1684 040 923 High Capacity Power Pack 240 volt 60 1684 093 924 Battery Backed Power Pack 240 volt 60 3004 160 947 Lead Acid Battery xeu E aru EE ayaka DPI a PIS 60 3004 106 948 45 Amp Hour 68 3000 948 Portable 12 volt DC 6 Amp Battery Charger for 948 Battery 341 0118 12 961 Battery Charger 120 volt 60 3004 059 965 Five Station Battery Charger 120 240 V with 120 V 68 3000 965 E 5 6712 Portable Sampler Appendix E Accessories List 965 Five Station Battery Charger 120 240 V with 240 V 68 3000 966 Solar Panel Battery Charger 5 watt 60 5314 478
194. l appear in the list of IDs To download the correct version of software 1 Go to Teledyne Isco s public website at www isco com 2 In the left column under Service amp Support click Soft ware Firmware Updates 3 In the center of the page click Automatic Water Sam plers and then 6712 Avalanche software 1 3 6712 Portable Sampler Section 1 Introduction 4 Click Updating Software Procedures This PDF file pro vides step by step instructions for Installing software in Teledyne Isco instruments 5 Select 6712 Avalanche 2 35 2 5 software in your preferred language 6 Save the zip file to a directory of your choice and extract the contents N CAUTION Updating the sampler s software will reset the program and memory partition settings to factory default settings and may also erase stored data Record settings and download data before proceeding Installing 2 50 or later Software 1 Turn the sampler on and connect your computer to the interrogator port using either USB cable 60 2004 508 or serial port cable 60 2544 044 2 Open the Update Software application found in the pro gram gt Flowlink 5 1 menu 3 Follow the instructions provided in the PDF document Updating Software Procedures The Help file in the appli cation also contains these instructions M Note The downloaded files include software versions 2 34 and 2 50 software release notes for version 2 50 and a copy of the mo
195. lained in Section 4 The scrolling menu that appears during the manual paused state can have two extra options when using extended programming Adjust Enable This option is available for extended sampling programs that have programmed enable conditions Selecting this option allows you to change the set points or ranges for the enable conditions The sampler displays all of the programming screens that define the thresholds of the programmed enables You cannot change the type of enables used or the way they are combined If rain is an enabling condition you also have the option of resetting the rain history 5 27 6712 Portable Sampler Section 5 Extended Programming Adjust Suction Head If you have chosen to manually enter the suction head and are in the manual paused state the scrolling menu will have an option to adjust the suction head If you make changes to the suction head value the sampler logs a changed suction head event 5 15 Sampling Reports The 6712 records a variety of data while running a sampling program Sample reports can be found in Section 4 Section 4 Table 4 3 contains a list of source codes and program events that may be recorded when using either standard or extended programming 5 16 Other Functions Other Functions Menu In extended programming the Other Functions menu screen includes options for RUN PROGRAM NAME PROGRAM e Maintenance see Section 7 VIEW REPORT O
196. le At each sample event the sampler deposits a sample into a set of bottles It moves to a new bottle set only after each bottle of the first set contains the programmed number of samples Use multiple bottle compos iting to collect identical sets of composite samples or a composite sample that is larger than the capacity of a single bottle Mul tiple bottle compositing is available only in extended pro gramming In extended programming the sampler offers an additional dis tribution feature time switching This feature determines when the sampler fills the next bottle or bottle set and may be used with time paced or flow paced sample programs Time switching distribution occurs at regular intervals as programmed in screen 3 in the margin The switch times are relative to the pro grammed FIRST SWITCH TIME screen 4 Switch times occur regardless of the state of the sampler Be aware that the sampler may leave empty bottles if it becomes dis abled Pause and resumes are an exception the sampler will not switch bottles during a pause if the current bottle is empty Time Switched Distribution 2 BOTTLES PER SAMPLE EVENT 1 max Enter the number of bottles that should receive samples at each sample event SWITCH BOTTLES ON NUMBER OF SAMPLES TIME Select TIME SWITCH BOTTLES EVERY HOURS __ MINUTES Enter the time between bottle switches FIRST SWITCH TIME AT Ent
197. le or 1640 Liquid Level Actuator attach the sampler to flow meter cable to the Flow Meter Connector To connect the sampler to a closed pipe flow meter attach a Teledyne Isco 4 20 mA Input Interface device to the sampler s Flow Meter connector When using the sampler with an external instrument remember these guidelines Both the sampler and the flow instrument must be on and running a program e f using a flow meter logger or module for flow pacing the sampler and the flow instrument must both run programs with flow pacing settings e If using a flow meter or flow logger for trigger pacing the sampler must run a program with flow pacing settings and the flow instrument must run a program with trigger pacing settings When the sampler runs an event paced program it disregards pacing pulses from a flow meter or flow logger However the sampler continues to monitor for enable signals 2 10 2 Rain Gauge Connector Rain Gauge Connector Icon 6712 Portable Sampler Section2 Installation Preparation Attach the rain gauge SDI 12 Sonde or Refrigerator Temper ature Sensor cable connector to the nine pin Rain Gauge port When connecting a rain gauge and an SDI 12 Sonde or rain gauge and a Refrigerator Temperature Sensor use the appro priate Y cable For part numbers and ordering information see the Accessories appendix at the end of this manual To operate with an SDI 12 sonde the sampler must be placed in
198. le way to transfer the data from the field to your computer The sampler s peristaltic pump is extremely powerful This pump requires a high capacity power source such as Teledyne Isco s model 913 or 923 power pack Older model power packs do not provide the needed power A list of recommended power packs and batteries can be found in Installing a Power Source on page 2 9 The pump also requires a pump tube made specifically for the 6712 and 6700 Series samplers These pump tubes are easily rec ognized by their blue alignment collars The 6712 pump tubing is the same as that for Teledyne Isco s 6700 Series samplers but different from Teledyne Isco s earlier model samplers such as the 3700 Series Other types of pump tubing will not work in the 6712 Refer to Replacing the Pump Tube on page 8 7 1 5 6712 Portable Sampler Section 1 Introduction CAUTION This sampler has a high performance pump As with all such pumps it relies upon liquid to cool working components If the sampler is programmed to pump in the absence of liquid in excess of 5 minutes excessive heat buildup may damage the paddles rollers and housing Ensure that the liquid inlet is completely immersed 1 7 Sampler Features 6712 Portable Sampler Section 1 Introduction Table 1 1 6712 Standard and Compact Sampler Features General Features Top Cover Protects pump power source and controller Lockable latches Controller Contains
199. le large bottle Sequential Only one sample placed in each bottle Samples Per Bottle Multiple samples placed in each bottle Bottles Per Sample One sample deposited in multiple bottles Three Flexible Start Time Settings Start Immediately Starts the sampling program immediately Delayed Start Starts the sampling program after a user definable delay of 1 to 999 minutes Clock Time Starts the sampling program at a user definable time on one or more days of the week Option for a Continuous Run ning Program Pacing Continuous Sampling When sample bottles are regularly replaced the sample distribution can restart with the first bottle set after the last bottle set is filled without interrupting the running program Extended Programming Features Uniform Time Pacing Sampling at regular time intervals Nonuniform Time Pacing Sampling at irregular time intervals Random Interval Pacing Sampling at unique random time intervals generated by the controller Flow Pacing Sampling at regular flow volume intervals Event Pacing Sampling each time a user definable event occurs Flow Proportional Sample Volumes Allows for sample sizes to be based on flow This option is available only with uni form time pacing Distribution Methods Composite Samples deposited in a single large bottle Sequential Only one sample placed in each bottle Samples Per Bottle Multiple sam
200. lect OTHER FUNCTIONS SOFTWARE OPTIONS QUICKVIEW CHANGE NORMAL Then press STOP and go back to step 2 Select CHANGE PROGRAM NAME Enter the word STORM for the program name Select YES Enter SITE 54 for the site description Select ft Select gpm Select gal Select YES 6712 Portable Sampler Section 5 Extended Programming Table 5 2 Storm Water Runoff Sampling Continued 12 13 14 15 16 17 18 19 20 21 22 23 MODE OF OPERATION FLOWMETER LEVEL ONLY WEIR FLUME DATA POINTS EQUATION MANNING FLOW INSERT WEIR ORIFICE TYPE V NOTCH ROUND FLOW INSERT SIZE 6 8 10 12 NEW MODULE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE CURRENT LEVEL IS as ft ADJUST LEVEL TO o ft DATA STORAGE INTERVAL IN MINUTES 125 10 15 30 NUMBER OF BOTTLES 1 2 4 8 12 24 BOTTLE VOLUME IS 1000 ml 300 30000 SUCTION LINE LENGTH IS 5 ft 3 99 AUTO SUCTION HEAD ENTER HEAD 0 RINSE CYCLES 0 3 Select FLOWMETER Select FLOW INSERT Select ROUND Select 12 Select DONE Note Partition memory status message will be displayed briefly Press ENTER Select 5 If the data storage interval is different from the current program you will be informed that the storage interval has changed and that the stored data will be lost Download stored data if desired and select DO
201. lect the English option you will advance to a second screen that asks you to select your units of length SELECT UNITS FOR LENGTH ft m 4 1 6712 Portable Sampler Section 4 Standard Programming Use the arrow key to move between the two choices feet or meters When the desired choice is blinking press The default unit of length for the Spanish option is meters 4 3 Programming The following table is an example of time paced sampling Examples Further details about some of the menu items are provided in later sections Table 4 1 Standard Program Sample Every 15 Minutes One Sample Per Bottle 6712 SAMPLER STANDARD PROGRAMMING Turn the sampler on by pressing the On Off key Press 1 1 For HELP at any screen press key This screen disappears on its own after 8 seconds RUN PROGRAM The option PROGRAM will be blinking Press J 2 VIEW REPORT OTHER FUNCTIONS eater The option NO will be blinking Press 41 3 CHANGE For the purposes of this example it isn t necessary to change the description YES NO Select the number of bottles in your bottle kit by pressing either arrow key 4 NUM ap until the correct number blinks Press 1 For this example select 24 BOTTLE VOLUME IS Type the volume for the bottles in your kit For this example 1000 is correct 5 1000 300 30000 simply press 1 SUCTION LINE LENGTH Type the length of the suction
202. line then press J 6 IS 10 ft If you change the length the sampler will display a message 3 99 PLEASE WAIT GENERATING PUMP TABLES TIME PACED Because this example requires samples every 15 minutes select TIME 7 FLOW PACED PACED by pressing an arrow until the option TIME PACED blinks Then press 4 TIME BETWEEN SAMPLE EVENTS Type 0 for hours and press 15 for minutes and press 1 8 0 HOURS 15 MINUTES Tip Move back and forth between hours and minutes by pressing an arrow key B Because this program requires one sample in each bottle select 9 SAMPLES BOTTLE SEQUENTIAL by pressing an arrow until the option SEQUENTIAL blinks Then press 4 For this example select NO by pressing an arrow until the option blinks 10 RUN COP S NO Then press J Selecting YES allows the program to run indefinitely by repeating the sample distribution Continuous sampling assumes that filled bottles are replaced with empty bottles at regular service intervals 4 2 6712 Portable Sampler Section 4 Standard Programming Table 4 1 Standard Program Sample Every 15 Minutes One Sample Per Bottle Continued 11 12 15 14 15 SAMPLE VOLUME 200 ml 10 1000 NO DELAY TO START DELAYED START CLOCK TIME WAIT FOR PHONE CALL FIRST SAMPLE AFTER A 5 MINUTE DELAY 1 999 PROGRAMMING COMPLETE RUN THIS PROGRAM NOW YES NO RUN PROGR
203. links Press 41 To remove days from the list 1 Press an arrow key until the cursor is on the day you want to remove Press to deselect it 2 When finished select DONE and press 3 5 Menu Screens Site Descriptions and Program Names 6712 Portable Sampler Section Programming Introduction NO DELAY TO START DELAYED START CLOCK TIME Using the Clock WAIT FOR PHONE CALL Start Time Menu e Select CLOCK TIME FIRST SAMPLE AT 06 00 the time of day and press 4 SELECT DAYS SU MO TU WE TH FR SA DONE Press an arrow key until the cursor is on the correct day Then press 1 To remove a day move the cursor to it and press to deselect it Repeat these steps until each day you want is blinking Press an arrow until DONE blinks Press J The sampler has two text entry menus one for site description and another for an extended program name They work in the same way A site description is commonly a number address or other short note that helps identify the monitoring site Extended programming has a similar screen that lets you enter program names for stored programs The example on the next page shows how to change the site description from FACTORYOI to SITE 29 Line 1 contains text between two quotation marks Lines 2 and 3 contain the menu options numbers letters and punctuation marks used to spell out the description In line 3 the space
204. llowing exercise People in good health are not afraid to drive over the high passes in the Rocky Mountains At Loveland Pass oxygen pressure is 13 2 of a normal atmosphere At the top of Mt Whitney oxygen is equal to 12 2 t Many hikers go there and to higher peaks as well After adequate acclimation they may climb to the top of Mt Everest where oxygen is equal to only 6 7 6712 Portable Sampler Appendix C General Safety Procedures The lowest oxygen concentrations that I have observed in a sewer atmosphere was 18 percent It was in a sealed chamber near sea level upstream from an inverted siphon on a metropolitan trunk A man would be foolish to enter the chamber Without venti lation he might die but not from lack of oxygen It seems unlikely that anyone has ever died in a sewer from suf focation that is a lack of oxygen Deaths have often been attributed to asphyxiation This is a word which according to the dictionary is used to mean death from an atmosphere that does not support life The word has sometimes been misinter preted as meaning suffocation which is only one kind of asphyxi ation In nearly all cases of death in sewers the real killer is hydrogen sulfide It is important that this fact be recognized Many cities diligently test for explosive gases which is very important and they may measure the oxygen concentration which usually is unimportant but they rarely measure H S Death has occurred whe
205. me Pauses and resumes repeat weekly You can enter up to nine pairs of pause and resume times The pause and resume times shown as examples to the left suspend the program between 5 00 p m Monday and 8 00 a m on Tuesday and between 5 00 p m Tuesday and 8 00 a m on Wednesday If the start time is Monday at 8 00 a m the sampler takes samples between 8 00 a m and 5 00 p m Monday between 8 00 a m and 5 00 p m Tuesday and continues after 8 00 a m Wednesday To remove pause and resume settings from a program select CLEAR A sampler running a pause resume program resets the pacing interval at each resume time You can program the sampler to take a sample at resume times see screen at left To run an extended program select run from the main menu You may also select YES at the RUN THIS PROGRAM NOW screen at the end of the programming screens Extended programs scheduled to start at a clock time will not start until the programmed clock time on or after the first valid date Note that if you have recently calibrated a parameter probe the sampler may delay the start and display PLEASE WAIT until valid readings are expected from the probe The delay accounts for the time typically required to install the probe and lasts for five minutes after you complete the calibration Run time screens which report the program s status while running a program are explained in Section 4 Interrupting a running program is also exp
206. mes FLOW PULSES FLOW MODULE VOLUME To base the volumes on an external flow measurement device attached to the Flow Meter connector select FLOW PULSES To base the volumes on the 700 Series Flow Module readings select FLOW MODULE VOLUME Next the sampler asks for the SAMPLE VOLUME to collect at each time interval This volume is expressed as 10 ml for every X number of pulses or if using a flow module for every volume unit SAMPLE VOLUME 10 ml FOR EVERY PU LSES Refer to section 5 10 1 Calculating Variable Sample Volume Set tings for a more detailed discussion on this setting The final screen used to program variable volume sampling is the MINIMUM SAMPLE VOLUME If the number of flow pulses or flow module volume is not sufficient enough to collect this minimum volume the sample is skipped and the flow count carries over to the next sample time This setting ranges from 10 ml to a maximum determined by the bottle volume MI NI MUM SAMPLE VOLUME m 10 maxi mum 5 19 6712 Portable Sampler Section 5 Extended Programming 5 10 1 Calculating Variable The entry for the SAMPLE VOLUME display can be calculated Sample Volume based on expected flow rates and collection volume requirements Settings The number of pulses or flow module volume that you enter should ensure that the minimum volume of liquid required for analysis is collected without exceeding the bottle volume capacity of the sampler Y
207. monitoring permits require a first flush grab sample within the first 30 minutes of the storm event and flow paced samples during the remainder of the event With a two part program you can set up part A for the first flush sample and part B for the remainder Table 5 2 shows a storm water sampling program 5 3 Storage for Extended The sampler stores five sampling programs one standard and Programs four extended Program storage eliminates the need to reprogram the sampler with frequently used settings This feature is especially useful for complex extended programs such as two part programs or programs with many nonuniform time settings Teledyne Isco ships the sampler to you with factory programs that you can modify to suit your own needs All four extended programs are identical to each other The stored programs will also save your 700 Series Module program settings and any sampler enable conditions using rain gauge data or SDI 12 sonde parameters These program settings remain as long as you do not change the type of module or change the rain gauge or SDI 12 Hardware Setup 5 3 1 Selecting a Stored When the sampler is in extended programming mode it always Program has one current and three noncurrent programs each occupying a permanent location in memory The first time you access the extended mode the current program is EXTENDED 1 one of the factory extended programs The name of the current extended program app
208. mp is as small as pos sible 2 13 6712 Portable Sampler Section 2 Installation Preparation 2 9 5 Using the Suspension Harness or ProHanger 2 10 Connecting External Instruments 2 10 1 Flow Meter Icon Flow Meter Connector LADY 2 14 CAUTION When using the 6712 sampler with a 750 or 710 module trans mitters such as cell phones or walkie talkies must not be oper ated within 3 meters of the sampler If water level readings are fluctuating due to TV radio station transmitter towers in the area the sampler must be relocated WARNING 6712 samplers have not been approved for use in hazardous locations as defined by the National Electrical Code WARNING If you must enter a manhole or other dangerous location to install the sampler observe standard safety precautions Refer to Appendix C for a discussion of safety considerations Teledyne Isco has a stainless steel suspension harness to lower or raise the sampler through a manhole or suspend the sampler during operations from any suitable support ProHanger is an X shaped stainless steel bracket rated to 200165 that fits inside the lip of a manhole 18 to 24 inches in diameter and lets you suspend the sampler using a cable harness The 6712 sampler can be used in conjunction with several types of external instruments To connect the sampler to a Teledyne Isco open channel flow meter 4100 series flow logger 2100 series flow modu
209. n 3 Using your communications software connect to the sam pler Press and hold the question mark on the computer keyboard until the sampler returns its banner string A caret gt prompt will appear on the screen when the sam pler is ready to accept commands 7 1 6712 Portable Sampler Section 7 Remote Operation 6712 Sampler HyperTerminal File Edit Transfer nig 151 m Model 6712 HW Rev 2 92 0369 ID 1066836872 gt xxx Model 6712 HW Rev 2 32 0369 ID 1066836872 gt 7 xxx Model 6712 HW Rev 2 32 0369 ID 1066836872 gt xxx Model 6712 HW Rev 2 32 0369 ID 1066836872 gt xxx Model 6712 HW Rev 2 32 0369 ID 1066836872 gt Connected 0 00 31 autodetect 1920084 SCROLL CAPS Capture Print echo Figure 7 1 Press and hold to connect to the sampler 7 11 Menu Control Once you have remotely connected to the sampler menu com mands can be entered from your computer These menu com mands are listed in Table 7 1 To access the menu commands type MENU at the gt prompt and press ENTER The screen will return a list of the available options Note that the current state of the controller will determine the available menu options Then type the desired commands confirming with ENTER 6712 Sampler HyperTerminal x File Edit View Call Transfer D els cls l gt 77 xx Model 6712 HW R
210. n accessories E 5 discharge tube E 3 distributor arm E 4 equipment suspension platform E 4 power sources and battery chargers E 5 pump tube E 4 refrigerator temperature sensor E 6 strainers E 4 suction line E 4 acknowledge dialout alarm 5 40 alarm acknowledgement 5 40 alarms 5 39 Alkaline battery battery warning 8 12 opening controller case 8 10 replacing 8 12 Analog output 5 41 analog output 5 41 B Backlighting 5 30 Batteries 2 9 Bottle kits collecting filled bottles 2 17 installing 2 3 Bottle Number Signal 5 31 Bottles per sample distribution 4 6 5 16 C Cables External 12 Volt DC Power Connect Ca ble 2 9 Master Slave to Flow Meter Cable 5 29 Calendar 3 5 setting clock and calendar 3 6 8 3 Calibration during a manual pause 4 13 sample volumes 4 14 4 16 Clock setting clock and calendar 3 6 8 3 Clock start time menu 3 6 Combined results report see Sampling reports command responses 5 45 commands external 5 44 Compatible Isco products 1 6 Composite tube guide accessories list E 4 Computer control 7 1 checksum validation 7 8 external program control 7 4 menu control 7 2 remote keypad 7 8 sampling reports 7 3 Configuring reports 4 21 Construction compact and standard sampler 1 9 Continuous sampling 2 17 4 6 5 17 Count Switched Distribution Sampler Enable 5 23 D Data collection accessories accessories list E 5 data storage 5 42 Desicc
211. n data if the storage interval has changed and run the program They are valid when the sampler is in standby or when it is waiting for a start command The commands are available for Extended programming only 5 or DISABLE This command is similar in functionality to a pin F low signal a signal typically used to enable or disable the sampler from a flow meter At run time the sampler starts with the sampler in the enabled state DISABLE is valid while a program is running If successful a display of REMOTE ENABLE IS FALSE will be returned A Remote Disable is the highest priority disable If the sampler is disabled with this command no condition other than menu command 6 ENABLE will allow the program to become enabled again 6 or ENABLE This command is used to re enable a disabled sampler ENABLE is valid while a program is running If successful a display of REMOTE ENABLE IS TRUE will be returned 7 or TAKE SAMPLE ST or STATUS This command causes the sampler currently running a program to take a sample The sample will count as one of the program s samples and is placed in the current bottle Part A s current bottle when using two part programming TAKE SAMPLE is valid while the program is run ning after the start time but not while in the MANUAL PAUSE screens If successful a response similar to PUMPING XXML SAMPLE INTO BOTTLE will be returned If not a response similar to NO SAMPLE PROGRAM WAITING START will
212. n the Manual Paused state Adjust Enable Sampler enable thresholds were changed while in the Manual Paused state Reset Rain History Adjust Suction Head Manual Resume The rain history was reset The suction head was changed while in the Manual Paused state The resume program option was selected from the Manual Paused state Program Paused Resumed The program reached a programmed pause or resume time Paused Resumed Program part A or B reached a programmed pause or resume time Power Failed The power source was disconnected Power Restored The power source was reconnected Alarm Occurred An alarm occurred Alarm Acknowledged An alarm was acknowledged Missed Password The password was missed 4 23 6712 Portable Sampler Section 4 Standard Programming Table 4 3 Reports Program Events Source Codes and Error Codes Continued The Source and Error Codes Listed below refer to why a sample was taken and what happened while it was being taken Source Codes Calibrate sample Sample volume delivered during calibration D Disable Sample event at disable time E Enable Sample event at enable time Ev Event Event paced sample event F Flow Flow paced sample event G Grab sample Sample volume delivered as a grab sample M
213. nch TIP RAIN GAUGE YES NO 0 1mm TIP If applicable NEW HARDWARE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE See Figure A 24 4 NO SDI 12 SONDE AUTO 501 12 SCAN ONY SCAN SDI 12 SONDES AT TURN ON TIME YES NO 1 01 1 0 ENABLE 1 02 PGM RUNNING I OS3ZPROGRAM DONE See Note A SET 1 0 NONE lt 1 0 ENABLE NEW HARDWARE SETUP lt FR TEMP DOWNLOAD DATA NOW PGM RUNNING OR LOSE ALL DATA PGM ENABLED DONE A ENABLED B ENABLED RUN FLOW THRU PUMP PROGRAM DONE ___SECONDS BEFORE A DONE TAKING READINGS B DONE 0 120 RUN ERROR FLOW THRU CONDITIONS See Figure A 17 A lt denotes input signal See Figure A 23 Notes gt denotes output signal Figure A 21 Extended Programming Quick View Hardware A 21 6712 Portable Sampler Appendix A Menu Flowcharts Notes See Figure A 20 A Factory installed option Requires B1 hardware or newer B Requires factory installed Dialout Modem and B2 hardware or newer If applicable See Note A ANALOG OUTPUT ANALOG OUTPUT SETUP MANUAL CONTROL HARDWARE HAS NOT BEEN INSTALLED SET ANALOG OUTPUT _ TO __ __ mA DONE LEVEL VELOCITY FLOW NONE ANALOG OUTPUT _ 0 TO 20 mA 4 TO 20 mA ANALOG OUTPUT _ 0 mA fps 20 mA AT fps 99999 99999 If applicable See Note B DIALOUT WHEN I Ox BECOMES TRUE 1 Ox 1 2 DIALOUT NUMBERS S
214. ndition it is not necessary to store the data If all of the parameters data will fit in memory you will be asked if you want to store all of the parameter data Answering NO will still allow you to selectively store parameter data otherwise all data will be stored To access the setup option in the Hardware menu select Other Function from the main menu then choose Hardware Advance through the screens until you see one that displays SDI 12 DATA along with the selected parameters Select this screen to display the following NO SDI 12 SONDE SETUP KNOWN SONDES SCAN SDI 12 SONDES Select SETUP KNOWN SONDES and then select the address of the sonde you want to set up The sonde model and number of data values will appear briefly If all parameters data will fit in memory the sampler will ask if you want to store all parameter data If you select NO you will be asked to select which data you want to store one parameter at a time The screens will look similar to the example below SONDE 5 STORE TEMPERATURE DATA YES NO LABEL IS TEMP5 Select YES or NO for each parameter until all data storage options have been defined then select DONE You will advised that you have a new hardware setup NEW HARDWARE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE If you have collected all the data select DONE A partition mem ory message will appear briefly If one or more selected parame
215. ness in ing gas products Flammable 30 min at 0 2 of com Poisonous to 0 25 Fatal bustion in 4 hours at motor 0 1 Head exhausts ache in few Fires of hours at 0 02 almost any kind Carbon CCl Heavy ethereal 5 3 Intestinal 1 000 100 At bottom Industrial Detectable Tetra Chl odor upset loss of to wastes odor oride consciousness 1 500 solvent atlow concen possible renal cleaning trations damage respi ratory failure Chlorine Cl Irritant Yel 2 49 Irritates respi 4 1 At bottom Chlorine Detectable low green color ratory tract cylinder odor at low Choking odor Kills most ani and feed concentra detectable in very mals in a very lineleaks tions low concentra short time at tions Non flam 0 196 mable Formal CH 0 Colorless pun 1 07 Irritating to the 10 70 73 0 Near bottom Incom Detectable dehyde gent suffocating nose plete com odor odor bustion of organics Common air pollut ant fungi cide Gasoline Cs5Hy2 Volatile solvent 3 0 Anesthetic 4 000 1 000 13 6 0 At bottom Service 1 Combusti to Colorless Odor to effects when to stations ble gasindi noticeable at 4 0 inhaled Rap 7 000 garages cator 0 03 Flamma idly fatal at storage ble 2 4 Danger tanks 2 Oxygen ous for short houses deficiency exposure at 1 1 indicator to 2 2 Hydrogen H Simple asphyxi 0 07 Acts mechani 40 74 0 At top Manufac Combustible ant Colorless cally to deprive
216. ngs and all data stored in memory when the external power source is disconnected The battery requires replacement every five years The sampler keeps track of the time that has passed since the battery was installed To view this information select INTERNAL BATTERY from the Maintenance screen see example at left After 5 seconds the sampler asks if you have replaced the internal battery see example at left Select YES to reset the countdown to 59 months from the current DID YOU REPLACE THE date INTERNAL BATTERY While replacing the battery it is likely that the stored readings will be lost and your program will revert to the default program Before proceeding retrieve the stored data and record your program settings Note Teledyne Isco recommends you replace the battery every five years as soon as the battery warning appears To ensure that the replacement meets Teledyne Isco s specifications use only Teledyne Isco replacement batteries See Appendix D Replacement Parts 8 12 8 8 Error Messages 6712 Portable Sampler Section 8 Maintenance To replace the internal battery 1 8 Open the controller case Separate the case bottom and top by removing the two distributor connectors Lift the desiccant box from the case Remove the EMI shield and grounding straps by loosening the five 4 inch stop nuts Disconnect the module liquid detector and pump count connectors from
217. nnect SDI 12 adapter cables if multiple SDI 12 devices are to be connected Cables Rain Gauge Y Connect Cable 1 60 9004 294 This cable allows connection of 2 of the following rain gauge SDI 12 adapter cable SDI 12 Y connect cable I O adapter temper ature sensor YSLESDI 12 Adapter Cable eo RELERR a cls PO mes 60 9004 337 SDI 12 Y Connect 60 9004 338 This cable allows connection of a YSI SDI 12 sonde and a Teledyne Isco Rain Gauge Hydrolab Quanta SDI 12 Adapter 60 9004 339 Hydrolab Quanta SDI 12 Y Connect Cable 60 9004 340 This cable allows connection of a Hydrolab Quanta SDI 12 sonde and a Teledyne Isco Rain Gauge SDI 12 Adapter Cable 6 foot length 60 9004 341 This is for use with a customer supplied connector to an SDI 12 device SDI 12 Y Connect Cable 6 foot length no 60 9004 342 E 6 This is for use with a customer supplied connector to an SDI 12 device and a Teledyne Isco Rain Gauge 6712 Portable Sampler Index Numerics 700 Series Modules 1 2 A Accessories bulk discharge tubing E 4 bulk sets of bottles E 3 cables E 5 composite tube guide E 4 data collectio
218. ns describing the setting or offering assistance Warning messages tell you something is different than Teledyne Isco s standard Operation messages report the sampler s status as it runs a program These are brief messages about the programming status such as ROM PASSED TEST or the status message that displays when you first start up the sampler Information messages are displayed for four seconds unless they are terminated by pressing any key on the keypad To see a Help note 1 Press the Help key 2 When the note requires several screens the word more appears in the lower right corner Press for the next note 3 Move back and forth between screens by pressing the arrow keys 4 Press Stop at any time to return to the programming screen Most help notes refer to a related section in this manual Screens that require extensive explanation have notes that contain only a reference to the manual Sections mentioned in the notes appear in the index and the table of contents 3 9 6712 Portable Sampler Section Programming Introduction 7 ft 3 99 SUCTION EE LENGTH Press Help Using Help Notes Enter the length of suction line only excluding strainer Although this example shows the and pump tube more help notes that are associated Pressi or Down Rightto with the suction line length Sce the nett sereen screen you can use the same e Press Stop to ret
219. nutes for a level or velocity reading that flow is calculated from BOTTLE2 Ifan entire reading is filled with asterisks the value exceeds the IN 00 12 00 number of characters that can be displayed The sampler stores opm 5 73 ft the actual reading in memory so it may be collected later 00001457600 gal For those programs that have delayed or scheduled start times the readings will be displayed while waiting for the start time Keep in mind that any totalizer values will be reset at the start time Module and sonde readings are also displayed after a program is complete until a key is pressed It is not necessary to run a program to view module or sonde readings Real time data can be viewed on the display by selecting VIEW REPORT from the main menu 4 8 Interrupting a You can interrupt a sampling program by pressing the Stop key Running Program while the sampler is waiting for the next sample event Pressing Stop places the sampler into Manual Paused operation and records a manual pause in the sample event log In this state the sampler allows you to access several functions You can modify the program reset alarms take a grab sample etc without adversely affecting the running program Modifying the program is limited to adjusting the pacing intervals enable conditions and sample volume The basic program structure such as the type of pacing can not be changed While in the manual paused state the
220. of programming for modules Module programming is the same in Extended as it was in Standard programming 5 5 Programming In addition to the features available with standard pro Examples gramming and discussed in Section 4 extended programming offers Nonuniform time pacing Random interval pacing Event pacing Multiple bottle compositing Time switched bottles or bottle sets Programmable sampler enable Pauses and resumes Two part programming Automatic or user defined suction head e Suction line rinses e Sampling retries This manual provides several programming examples Some demonstrating simple tasks appear in the margins Others dem onstrating more complex tasks appear as examples Table 5 2 on the following pages steps you through a storm water runoff sam pling using extended programming 5 5 1 Storm Water Runoff Storm water runoff sampling is an ideal application for two part Sampling programming Typical monitoring permits require that a series of timed samples be taken during the initial portion of the storm event followed by flow paced samples during the remainder of the event This example assumes that a Rain Gauge and a Bubbler Flow Module are connected to the sampler To enable the Bubbler Module programming screens insert the module before turning on the sampler 5 4 6712 Portable Sampler Section 5 Extended Programming Using a 24 bottle kit it divides the bottles into two gr
221. omatic determination 5 12 manual ENTER HEAD settings 5 12 variations in pump counts for fluctuating heads 4 22 Suction line attaching to pump tube 2 10 installing and routing 2 13 measuring and cutting 2 10 System IDs 4 19 T Telephone commands 7 9 telephone communication 1 2 Text entry numbers 3 3 program names 3 7 site descriptions 3 7 text messaging 5 40 Time pacing 4 5 5 12 Times and dates entering times and dates 3 5 Time switched distribution 5 16 pause and resume 5 27 Trigger pacing 4 5 Tube coupling attaching suction line 2 10 Two part programs 5 1 storm water monitoring 5 2 V Variable volume sampling 5 19 Variable duration pulse 5 31 event marks 5 31 Voice modem 7 9 warning pump tube 8 3 warning messages 8 14 wetted parts 8 2 mt BSUBETI SUISSE ESSE Name and amount of Hazardous Substances or Elements in the product A 848 EW tuk BEM Hazardous Substances or Elements Component Name Es E A RAS ZW XA Pb Hg Cd Cr VD PBB PBDE m AX FEAR X O O O O O Circuit Boards SER x O O O O O Display m iih x Wiring gu ARREA x Internal Cables 9 O O O x O Line Cord I yi BJ x O O O x X O Keypad BEX O O x O O O Connectors B SB E S 6
222. or five minutes after the program is resumed During this time parameter data normally collected at the data storage interval will be logged as a 252 error message This option is available when the running program is paced by Time Flow Pulses or Flow Volume If you select this option you are asked to enter a new pacing interval The sampler logs an interval changed event The original pacing interval continues to count down until you return the sampler to the running program select resume program If the new pacing interval is less than the original count remaining the new interval is used 4 13 6712 Portable Sampler Section 4 Standard Programming 4 8 9 Adjust Volume 4 8 10 Power Used 4 9 Other Functions Other Functions Menu RUN PROGRAM VIEW REPORT OTHER FUNCTIONS Select OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE 4 10 Manual Functions 4 14 If the original count remaining is less than the new pacing interval the original count will continue to count down to the next sample event Subsequent samples are then paced by the new interval Select this option to change the sample volume within the limits of the currently programmed sample distribution If you change a sample volume a volume changed event is logged The 6712 has a fuel gauge that gives an indication of power usage The controller keeps track of how much power has been consumed since the last time it lo
223. or greater Carcinogens 0 1 or PEL TLV RECOMMENDE greater D Silica Gel SiO2 98 0 6mg m 10mg m total dust total dust Cobalt Chloride gt 2 0 0 05mg m 05mg m TWA cobalt Cobalt TWA metal dust amp fume Non Hazardous Ingredients TOTAL 100 Section 2 Physical Chemical Characteristics Boiling N A Specific Gravity 2 1 Point H20 1 Vapor Pressure N A Melting Hg Temperature Point 020 Evaporation Rate Density 2 1 Air 1 Solubility Insoluble but will adsorb moisture Water Not reactive but will adsorb moisture in Water Reactive Appearance Purple crystals no odor and Odor Section 3 Fire and Explosion Hazard Data Flash Point and N A Auto Ignition N A Flammability Limits in N A LEL UEL Methods Used Temperature Air by Volume Dry chemical carbon dioxide foam used edia Special Fire Water will generate heat due to the silica gel which will adsorb water and liberate heat Fighting Procedures Unusual Fire and When exposed to water the silica gel can get hot enough to reach the boiling point of water Flooding with Explosion Hazards water will reduce the temperature to safe limits Section 4 Reactivity Hazard Data STABILITY Conditions Moisture and high humidity environments Stable To Avoid L Unstable Incompatibility Water Materials to Avoid Hazardous Carbon diox
224. ota a oe Gals Leal en 8 3 8 3 3 Internal Battery Warning 8 5 8 9 4 Diagnostics Sates Pe Be ee oe ee u ay E 8 5 Replacing the Pump 8 7 8 4 1 Checklist For Replacing Pump Tube 8 8 Opening the Controller Case 8 10 Replacing the Desiccant 8 10 6712 Portable Sampler Table of Contents 8 7 Replacing the Internal Battery 8 12 8 8 Error Messages aeryen ya uw bE ds Sas ea STRUM EU wam uq aps Baa 8 18 8 9 Pump Tube Warning Ree fe A ae ew h 8 14 Appendix A Menu Flowcharts Appendix B Material Safety Data Sheets Appendix C General Safety Procedures C 1 Practical Safety Precautions C I Hazardss wait eas S itiu bins Wwe wie ees er DEMEURE C 1 2 Planning oe eh SS Sine hack ORR fk RADE Chai pisi S C 1 3 Adverse Atmospheres C 1 4 Entering Manholes C 1 5 Traffic C 1 6 Falling Objects C 1 7 Removing the Covers C 1 8 Other Precautions
225. ou may find it helpful to determine a range of values by calculating both possibilities The number you enter would be selected from this range This range is illustrated in Figure 5 2 Total Bottle Capacity Minimum Required Sample Volume Flow Volume Figure 5 2 Factors Affecting Flow Weighted Variable Volume Samples In other words at the greatest expected flow this SAMPLE VOLUME value should be set to prevent filling the bottle before the end of the program An early full bottle condition would result in a composite sample that is not representative of the flow stream At the lowest expected flow the SAMPLE VOLUME value should be set to ensure that enough sample is collected If too little sample liquid is collected there may not be enough for analysis although it is a representative composite sample For example consider an NPDES sampling program used to collect a flow proportional composite sample for BOD TSS and NHs N analysis The laboratory requires at least 1 000 ml for BOD 100 ml for TSS and 400 ml for NH3 N tests The minimum composite volume needed for analysis is then 1 500 ml but to allow for duplicates and spillage this volume is doubled to 3 000 ml The samples are to be collected over an eight hour period at 15 minute intervals into a 9 400 ml composite bottle Flow rates at the site range from 1 5 to 2 0 mgd the equivalent volume of 500 000 and 666 667 gallons respectively over the eight hou
226. oups with six bottles assigned to part A and 18 to part B The sampler will begin taking samples after being enabled according to program mable enable controls that is when the rain gauge detects 0 15 inches of rainfall in 30 minutes and the module detects a flow stream level of more than 0 25 feet Because both program parts use the same enable settings the sampler will enable both parts at the same time A list of settings for the program follow e Program type Extended e Program name STORM e Site description SITE 54 Units Length Ft Flow Rate gpm Flow Volume gal Mode of Operation Flowmeter Flow Insert Round 12 Bottle kit 24 1000 milliliter bottles Suction line length 5 feet e Suction head Auto suction head e Line rinses None e Sampling retries None e Part A and B bottle assignments Bottles 1 6 to part A bottles 7 24 to part B e Part pacing Time pacing sampling every 5 minutes e Part A distribution Sequential 1 sample per bottle e Part sample volume 800 milliliters e Part AV enable At least 0 15 inches of rainfall in 30 minutes and a flow stream level of more than 0 25 feet once enabled stay enabled sample taken when the sampler is enabled e Part A pause and resumes None e Part B pacing Flow pacing sampling every 2 500 gallons e Part distribution Sequential 1 sample per bottle e P
227. own to the next sample event Appro priate service intervals will prevent overfilled bottles When recovering the sampler keep it level to prevent spilling the collected samples If the battery s charge is questionable replace it with a fully charged battery The 6712 has a fuel gauge that gives an indication of power usage The controller keeps track of how much power has been consumed since the last time it lost power The current power consumption as well as the previous power consumption can be accessed by pressing the STOP key while in the main menu Keep in mind that the sampler has no idea as to how much charge was originally stored in the battery or even if a battery is being used and therefore has no idea as to the remaining capacity of its power source If you return the entire sampler back to the office place caps on the bottles and drain any water from the carrier or tub If you leave the sampler at the site and only need to collect the bottles follow these guidelines for bottle collection To collect the bottles from a compact sampler 1 Open the latches and lift the center section from the tub Place caps on the bottles 2 Remove the bottles by lifting the bottle carrier from the tub Attach a label to the carrier detailing the location date etc Removing Bottles From the Compact Sampler 3 Pour any ice water out of the tub 2 17 6712 Portable Sampler Section 2 Installation Preparation
228. ples placed in each bottle Bottles Per Sample One sample deposited in multiple bottles Multiple Bottle Compositing A combination of samples per bottle and bottles per sample distribution methods Time Switched Bottles or Bottle sets Control the sample distribution using clock times Programmable Sampler Enable A 6712 sampler can be programmed to enable or disable a running sampling pro gram when readings received from a connected rain gauge module or SDI 12 Sonde meet certain conditions Pauses and Resumes Create intermittent sampling schedules 1 9 6712 Portable Sampler Section 1 Introduction Table 1 1 6712 Standard and Compact Sampler Features Continued Two Part Programming Two part programming lets you set up a sampling program that divides the bottles into two groups filling each group according to separate pacing distribution sam pler enable and pause and resume settings This is ideal for storm water run off sampling Auto Suction Head or Fixed Suction Head The suction head is the vertical distance from the flow stream to the liquid detec tor Extended programming has two settings Auto Suction Head The head is automatically determined Fixed Suction Head A user definable measurement for the head For recommended calibration at high suction heads refer to Section 4 12 2 Suction Line Rinses Program setting for the number of times 0 to 3 that the 6712 rin
229. pond to three commands Turn Sampler On GET STATUS and TAKE SAMPLE All commands must include the instruction set The checksum value is optional The available commands are 1 Turn Sampler On STS 2 CS 582 lt CR gt e 582 is the byte by byte sum of the ASCII values in the string STS 1 CS e lt CR gt is a carriage return signifying the end of the command e Ifthe sampler is OFF this command will turn it ON before returning status info 2 Get Status STS 1 CS 581 lt CR gt STS 1 instructs the sampler to return the current status e CS 581 is the optional checksum value The byte by byte sum of the ASCII values in the string STS 1 CS is 581 e lt CR gt is a carriage return signifying the end of the command 3 Take Sample BTL 2 SVO 100 CS 1039 lt CR gt The TAKE SAMPLE command is only valid if the sampler is WAITING TO SAMPLE e BTL 2 instructs the sampler to place the sample in bottle 2 e SVO 100 instructs the sampler to take a 100 ml sample 5 44 5 21 1 Command Driven Sampler Responses 6712 Portable Sampler Section 5 Extended Programming e CS 1039 is the optional checksum value The byte by byte sum of the ASCII values in the string BTL 2 SVO 100 CS is 1039 e lt CR gt is a carriage return signifying the end of the command The 6712 Sampler s response string is the same for each of the three commands sample response string i
230. program is running after the start time but not while in the MANUAL PAUSE screens If successful a response similar to PUMPING XXML SAMPLE INTO BOTTLE will be returned If not a response similar to NO SAMPLE PROGRAM WAITING START will be returned 6712 Portable Sampler O nr Or s Section 8 Maintenance 8 1 Maintenance Checklist 8 2 Cleaning Guidelines 8 2 1 Controller Top Cover Center Section Retaining Ring and Tub 8 2 2 Sample Bottles This section describes how to maintain and troubleshoot your 6712 sampler If you think your unit requires repair or if you have questions concerning its operation or maintenance contact Teledyne Isco s Technical Service Department Phone 800 228 4373 402 464 0231 FAX 402 465 3022 E mail IscoService teledyne com e Inspect the pump tube for wear Replace it if necessary Clean the pump tubing housing Change the suction line if necessary Clean the bottles suction line strainer and pump tube Check the humidity indicator Check the controller s internal battery status and replace the battery every five years e Ifthe keypad label has bubbles under it the air inside the controller has expanded To release this pressure unscrew the flow meter cable or connector cap on the back of the controller Push down on the label to force the air out then re tighten the cable connector or cap Clean the top cover center section retaining ring and tu
231. proper environmental control Contact your safety equipment supplier for proper mask type Ventilation Provide general and or local exhaust ventilation to keep exposures below the TLV Ventilation used must be designed to prevent spots of dust accumulation or recycling of dusts Protective Clothing Wear protective clothing including long sleeves and gloves to prevent repeated or prolonged skin contact Eye Protection Chemical splash goggles designed in compliance with OSHA regulations are recommended Consult your safety equipment supplier 6712 Portable Sampler Appendix B Material Safety Data Sheets 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE Phone 505 864 6691 Fax 505 861 2355 Performance Packaging ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Packaged Desiccant SECTION IX SPECIAL PRECAUTIONS Avoid breathing dust and prolonged contact with skin Silica gel dust causes eye irritation and breathing dust may be harmful No Information Available HMIS Hazardous Materials Identification System for this product is as follows Health Hazard 0 Flammability 0 Reactivity 0 Personal Protection HMIS assigns choice of personal protective equipment to the customer as the raw material supplier is unfamiliar with the condition of use The information contained herein is based upon data considered true and accurate However United Desiccant
232. r 20 Select DONE Screen will say End of Part B Select DELAYED START Select NO Option for samplers using a 0 01 inch tip rain gauge See Dry Period Option described on page 5 26 Enter 1 Select NO The above example presented several screens that are not available in standard programming Descriptions of features available in extended programming follow 6712 Portable Sampler Section 5 Extended Programming 5 6 Suction Head Extended Screen for Suction Head Settings AUTO SUCTION HEAD ENTER HEAD If you choose AUTO SUCTION HEAD the head will be determined for you If you select ENTER HEAD the screen below will be displayed so you can enter the suction head SUCTION HEAD OF ft min max 5 7 Rinses and Retries Screens for Line Rinses and Sampling Retries __RINSE CYCLES 0 3 RETRY UP TO TIMES WHEN SAMPLING 0 3 5 8 Pacing Extended Pacing Screen UNIFORM TIME PACE FLOW PACED EVENT PACED NONUNIFORM TIME 5 8 1 Event Pacing 5 12 Suction head is the vertical distance between the surface of the liquid source and the sampler s pump At each sample event the sampler determines the suction head automatically In extended programming you can manually enter the suction head if you want Select ENTER HEAD only when the head remains stable and you can measure it accurately Rinses and retries are extended programming feature
233. r period This flow is measured by an external flow meter that sends a flow pulse every 100 gallons Figure 5 3 depicts this scenario 5 20 6712 Portable Sampler Section 5 Extended Programming 9400 ml 666 667 gal 3000 ml 500 000 gal Figure 5 3 Variable Volume Scenario 5 10 2 Calculations when Using an External Flow Meter SAMPLE VOLUME 10 m FOR EVERY P ULSES The highest possible SAMPLE VOLUME value is determined by the minimum volume required for analysis and the least expected flow rate over the sampling duration To calculate the number of pulses at this high end of the range you should know the least expected flow volume that will pass the flow measurement point e the flow volume interval between each flow pulse from the external flow meter the minimum composite sample volume required for analysis Allow for duplicates and spillage These factors would be applied to the following equation Least Total Flow Vol Flow Pulse Vol 10 mi Tor every pulses Minimum Required Vol 10 ml per unit From the scenario we can apply the factors for the equation 500 000 gallons 100 gallons per pulse 3 000 ml 10 ml 10 ml for every 16 7 pulses Because the SAMPLE VOLUME entry must be in whole numbers 16 7 is rounded down to 16 It is important to note that this number is inversely proportional to the amount of volume collected Rounding up would result in les
234. rd Tub Compact Sampler Tub Aligning the carrier Alignment Notches Figure 2 6 Placing the carrier in the compact tub 2 6 2 3 2 Aligning Bottle Kits in the Compact Tub 2 4 Installing Bottle Kits for Composite Sampling 2 4 1 Optional Jumbo Bottle Base Step 1 Both the compact and standard samplers use the same compos ite tube guide to hold the dis charge tube in place over the composite bottle Attach the composite tube guide by firmly sliding it onto the distributor shaft housing It will snap in place The guide has a slot that fits over a key on the housing to align it Step 2 Thread the discharge tube through the guide as shown Attach the tube to the bulkhead fitting Removal To remove the composite tube guide rotate the metal clip to one side while pulling the guide away from the center section 6712 Portable Sampler Section 2 Installation Preparation To align the bottles 1 Place the bottles in the carrier and secure them with the appropriate retaining ring 2 Place the carrier in the tub aligning it as shown in Figure 2 6 The carrier will drop into the notches when properly aligned You can install a single 21 2 gallon bottle in either the standard or compact sampler tub for composite sampling Single bottle sampling uses a composite tube guide instead of a distributor arm to position the discharge tube over the bottle Install the composite tube guide and discharge tube as s
235. re it is unlikely that there was any measurable reduction in the oxygen concentration Waste water containing 2 mg per liter of dissolved sulfide and at a pH of 7 0 can produce in a chamber with high turbulence a concentration of 300 PPM 5 in the air This is considered to be a lethal concentration Many people have died from H gt 8 not only in sewers and industries but also from swamps and from hot springs In one resort area at least five persons died from HS poisoning before the people were ready to admit that H S is not a therapeutic agent Hardly a year passes in the U S without a sewer fatality from 5 as well as deaths elsewhere in the world The presence of 5 in a sewer atmosphere is easily determined A bellows and ampoule type of tester is very satisfactory for the purpose even though it is only crudely quantitative When using a tester of this type do not bring the air to the ampoule by way of a tube as this may change the H5S concentration Hang the ampoule in the air to be tested with a suction tube to the bulb or bellows Lead acetate paper is very useful as a qualitative indicator It cannot be used to estimate the amount of sulfide but it will quickly turn black in an atmosphere containing only a tenth of a lethal concentration Electrodes or other similar electrical indicating devices for 5 in air have been marketed Some of them are known to be unre liable and we know of none that have proved dep
236. reen appears after you select DONE on the cali bration screen It will be similar to the example below SELECT PARAMETER TO VALIDATE lt SAL5 05DATA5 DO5 ORP5 LEVELS gt Select the desired parameter to validate At the prompt place the probe in the standard When the reading is stable press 1 The reading will appear at the bottom of the screen Select DONE to return to the Hardware option screens When you have disconnected all sondes and have interrogated the sampler for all its data you can remove the sonde s from the sampler s hardware list From the main menu select Other Functions gt Hardware Advance through the screens until you see one that displays SDI 12 DATA Select this screen to display the following NO SDI 12 SONDE SETUP KNOWN SONDES SCAN SDI 12 SONDES Select NO SDI 12 SONDE You will advised that you have a new hardware setup NEW HARDWARE SETUP DOWNLOAD DATA NOW OR LOSE ALL DATA DONE If you have collected all the data select DONE A partition memory message will be displayed briefly and you will be returned to the Hardware options screens If you do not have a sonde attached you may want to turn off automatic scanning for sondes This will eliminate the time taken to scan for sondes whenever the sampler is turned on 6712 Portable Sampler OV s s O t Section 7 Remote Operation 7 1 Computer Operation The 6712 controller can be operated remotely f
237. reports except for summary reports with a computer running Flowlink 4 19 6712 Portable Sampler Section 4 Standard Programming 4 15 2 Viewing the Data Because the display area is small the data on the reports will be displayed a little differently from the data that is transferred to and viewed on your computer e For the Sampling Report the sampler displays each program event one at a time For the Module and Rainfall Data reports it displays daily summaries instead of the full reports available with the rtd Flowlink If you select Sampling Report or Rainfall step 3 in Viewing Data shown in the margin the sampler begins displaying the report data The sampler advances automatically through the report items displaying each item briefly While the sampler advances automatically through the displays e Stop the automatic displays by pressing Stop once Then use the arrow keys to move manually through the report Return to the main menu by pressing Stop twice At the end of the report the sampler leaves the last item dis played until you press the arrow keys to move forward or backward manually through the report e Stop to return to the main menu start the automatic displays again Viewing Data RUN If you select Module Data in step 3 the sampler displays the 1 VEA screen shown in step 4 Select the Daily Summary option and the OTHER FUNCTIONS sampler displays the stored data just as the Sampl
238. rogramming mode when you first turn the sampler on The start up screen tells you which programming mode the sampler is currently using You can switch between programming modes by entering a numerical command at the main menu At the main menu type 6712 2 to enter extended programming mode At the main menu type 6712 1 to enter standard programming mode RUN EXTENDED 1 PROGRAM VIEW REPORT OTHER FUNCTIONS Main Menu for Extended Mode Extended programming lets you set up a one part program or a two part program One part programs let you fill all bottles of the tub with one set of pacing distribution and enable settings Two part programs add an additional set of extended pacing dis tribution and enable screens to the sampling program Each set of screens is called a program part The program parts are simply called part A and part B Both parts share the program settings for suction line length suction head and rinses and retries They also share one start time setting 5 1 6712 Portable Sampler Section 5 Extended Programming Each part has its own group of bottles Because settings for each part are independent of each other the sampler when running a two part program fills each bottle group as if they were being filled by two different programs Two part programs finish when both parts are done Two part programming is ideal for sampling storm events Many storm water run off
239. rol box exceeds 20 As more moisture accumulates the areas numbered 30 and 40 will turn light pink or white indi cating relative humidities of 30 and 40 respectively Distributor Connectors Figure 8 3 Opening the Controller 6712 Portable Sampler Section 8 Maintenance If the 30 area of the humidity indicator turns light pink or white open the control unit inspect it for leaks and replace the desiccant bag N CAUTION Do not attempt to reactivate the used desiccant Reactivation may cause desiccant to leak out of the bag causing mechani cal damage inside the controller Follow the instructions in Opening the Controller Case in Section 8 5 to open the controller Remove the bag from the cardboard box part 69 9003 518 at the front of the case and replace it with a fresh bag of desiccant part 099 0002 00 N gt Desiccant Box 6712 Portable Sampler Section 8 Maintenance Keypad Connector Module Connector Battery Liquid Detecvor Connector Connector Board Pump Count Connector Connector Figure 8 4 Main Circuit Board Connections 8 7 Replacing the Internal Battery Battery Status Display A lithium battery housed inside the controller maintains power WARNING to the sampler s memory when the controller is disconnected REPLACE INTERNAL from a power source If it discharges completely the sampler will BATTERY BEFORE 17 OCT 06 lose all program setti
240. roller can be operated remotely from external devices e Section 8 Maintenance covers the basic maintenance required to keep your sampler in top operating condition 1 1 6712 Portable Sampler Section 1 Introduction 1 2 About 700 Series Modules 1 3 SDI 12 Sondes 1 4 Telephone Communication 1 4 1 4200T Landline Modem The appendices are Appendix A Menu Flowcharts Appendix B Material Safety Data Sheets e Appendix C General Safety Procedures Appendix D Replacement Parts Appendix E Accessories List The bay on the controller s side accepts any of Teledyne Isco s 700 Series Modules The 700 Series includes e 701 pH Parameter Module for monitoring pH and temperature e 720 Submerged Probe Module for monitoring a flow stream s level and flow rate with a submerged probe 730 Bubbler Flow Module for monitoring a flow stream s level and flow rate with a bubbler system e 750 Area Velocity Module for monitoring a flow stream s level velocity and flow rate 780 4 20mA Input Module for interfacing to non Teledyne Isco devices with 4 to 20 milliampere output signals The modules are optional accessories The samplers do not require them for operation However the modules offer a number of advantages they are an economical way to combine flow rate or parameter monitoring with sampling and you can program the samplers and modules as a single unit Finally the samplers store the reading
241. rom durable corrosion resistant materials the samplers withstand the hostile environments of industrial and municipal monitoring sites The 6712 Compact differs from the 6712 Standard Sampler only in size and sampling capacity Both samplers use the same con troller and sample delivery system Both instruments accept a variety of composite and multiple bottle kits Because the 6712 Compact and Standard Samplers share many features this manual includes programming operation and maintenance information for both instruments Except where specifically noted the contents of this manual apply to both units This manual contains the information you will need to install program operate and maintain a 6712 portable sampler There are seven sections and five appendices Section 1 Introduction lists the features and specifica tions of the 6712 portable samplers e Section 2 Installation Preparation steps you through installing the sampler and preparing it for use e Section 3 Getting Started describes features that are common to both standard and extended programming modes e Section 4 Standard Programming shows how to program your sampler using standard programming mode e Section 5 Extended Programming shows how to program your sampler using extended programming mode Section 6 SDI 12 Sondes provides information on setting up sondes to work with the 6712 Section 7 Remote Operation explains how the 6712 cont
242. rom external devices External controlling devices may be a computer via RS 232 serial communications or a telephone via touch tone com mands Remote telephone operation requires the factory installed 2400 baud talking modem The internal modem cannot be installed in a controller with the analog output option also installed The 6712 controller can be operated from a remote location using a computer There are two different levels of computer control Menu control is used to start and stop the current sampler program or programs if in Extended programming mode and to access other menu commands This level of remote operation relies on the sampler program for much of its capabilities External program control ignores the sampler s program and current state Using external control you can turn on the sampler take a sample and request sampler status data The pump distributor and serial data output simply respond to the external commands To operate the sampler remotely on either level you must first establish RS 232 serial communication between the computer and the 6712 controller To do so 1 Connect your computer to the 6712 controller s interroga tor port with a standard interrogator cable P N 60 2544 044 for 9 pin serial ports 2 On your computer open a terminal emulator program such as HyperTerminal and configure it for baud rate of 19 200 or less no parity 8 data bits 1 stop bit VT100 terminal emulatio
243. rror message OPERATION ERROR PUMP JAMMED 6712 Portable Sampler Section 8 Maintenance Error Messages ERRORS HAVE OCCURED DURING PROGRAM FATAL ERROR NO DISTRIBUTOR ARM 8 9 Pump Tube Warning WARNING REPLACE PUMP TUBE 8 14 There are messages for the following conditions PUMP JAMMED NO LIQUID DETECTED DISTRIBUTOR JAMMED NO MORE LIQUID PROBABLE OVERFLOW PUMP LATCH OPEN POWER FAILED e SAMPLER SHUT OFF LOW BATTERY e BOTTLE FULL USER STOPPED SAMPLE IN PROGRESS NO DISTRIBUTOR ARM Since the sampler may encounter more than one error during a program it does not display the messages continuously Instead it records each error and the time it occurred in the Sampling Results and Combined Results report It alerts you to the recorded errors by displaying the message ERRORS HAVE OCCURRED DURING PROGRAM If the sampler detects a low battery condition it stops the running program and displays the LOW BATTERY error message low battery condition exists when five consecutive sample events have resulted in a POWER FAILED error message Fatal Error The Fatal Error message will only show up if you are using a multiple bottle configuration and the distributor system fails Failing the test can indicate any of the following conditions e The distributor arm is not attached to the sampler The distributor arm stop inside the center section
244. rs 60 3004 018 Dual Sampler Mode Interconnect Cable 60 3704 065 Dual Sampler Mode to Flow Meter Cable 60 3704 080 Non Teledyne Isco Flow Meter to Sampler 60 1394 077 Sampler to Flow Meter 1640 Liquid Level Actuator Y Cable 60 3004 019 Sampler to Flow Meter Cable 60 3004 107 2100 Series Sampler Interface Cable 60 2004 260 Solar Panel Y Cable ete mn pe To acr EROR OR S ee ca a s 60 3004 098 Solar Panel Interrogator Extension Cable 60 2544 028 Solar Panel Cable 25 foot length 60 3004 097 Rain Gauge Refrigerator Temperature Sensor Y cable 60 9004 294 4200TModem IER EXE ER KERN EEUU FEM Uu ru factory installed Contact your sales representative or Teledyne Isco Customer Service M Note The modem is disabled when an interrogator cable is con nected to the sampler s Interrogator port It cannot receive incoming calls and the alarm dialout is rendered inoperative while this cable is connected Disconnect the interrogator cable in order to use the 4200T modem CDMA Digital Cellular Modem with Seria
245. rs Refrigerator Temperature Sensor Flowlink Real Time Displays As the sampler runs a sampling program it displays the program s status The sta tus display may include such information as the time of the next sample the num ber of the next bottle or whether the sampler is disabled or stopped If the sampler encounters an error while running the program it displays a message alerting you to the problem 1 7 6712 Portable Sampler Section 1 Introduction Table 1 1 6712 Standard and Compact Sampler Features Continued Programming for 700 Modules Program the modules from the sampler s control panel The module s program set tings become part of the sampling program Setup for SDI 12 Sondes Calibrate and program SDI 12 sondes from the sampler s control panel The pro gram settings become part of the sampling program See Section 6 Memory for Stored Programs and Readings 512 kilobytes of battery backed RAM Random Access Memory to store Five sampling programs A sampling report from the most recently run program It records as many as 1000 sampling events events can be the program start time enable time sample event information etc 700 Series module readings The readings can be level flow rate velocity pH temperature or the data collected by the 4 20 mA module Rain gauge and refrigerator temperature readings SDI 12 sonde readings Five Reports Available
246. rt the discharge tube and attach the distributor arm Figure 2 2 Placing the 24 Bottle Kit in a Standard Tub 2 4 1 Slide the 12 bottle insert into the tub aligning the label with the corresponding num bers on the outside of the tub 2 Place the bottles in the insert Secure the bottles against the wall with the stainless steel retaining ring 3 Adjust the distributor arm to the correct position insert the discharge tube and attach the distributor arm Figure 2 3 Placing the 12 Bottle Kit in a Standard Tub 1 Position the 8 bottle insert in the tub aligning the label with the corresponding num bers on the outside of the tub 2 Place the bottles in the insert then secure the plastic bottle insert with the three draw cords 3 Adjust the distributor arm to the correct position insert the discharge tube and attach the distributor arm Figure 2 4 Placing the 8 Bottle Kit in a Standard Tub 6712 Portable Sampler Section 2 Installation Preparation 2 5 6712 Portable Sampler Section 2 Installation Preparation 1 Place the rack in the tub aligning the label with the corresponding numbers molded on the outside of the tub 2 Place bottles in the rack and secure the hold down over the bottles with the three draw cords 3 Adjust the distributor arm to the correct position insert the discharge tube and attach the distributor arm Figure 2 5 Placing the 4 Bottle Kit in a Standa
247. rument peut tre affaiblie cela augmentera votre risque de blessure This product is often installed in confined spaces Some examples of confined spaces are manholes pipelines digesters and storage tanks These spaces may become hazardous environments that can prove fatal for those unprepared These spaces are governed by OSHA 1910 146 and require a permit before entering This manual applies Hazard Severity Levels to the safety alerts These three levels are described in the following sample alerts N CAUTION Cautions identify a potential hazard which if not avoided may result in minor or moderate injury This category can also warn you of unsafe practices or conditions that may cause property damage WARNING Warnings identify a potentially hazardous condition which if not avoided could result in death or serious injury 6712 Portable Sampler Safety Hazard Symbols Warnings and Cautions DANGER DANGER limited to the most extreme situations to identify an imminent hazard which if not avoided will result in death or serious injury The equipment and this manual use symbols used to warn of hazards The symbols are explained below Hazard Symbols The exclamation point within the triangle is a warning sign alerting you of important instructions in the instrument s technical reference manual N lightning flash arrowhead within the triangle is warning sign alert ing yo
248. rvals 5 17 6712 Portable Sampler Section 5 Extended Programming Sequential EXTENDED PROGRAMMING Each bottle receives one sample from one sample event FIRST SWITCH TIME AT 13 00 DISTRIBUTION SWITCH BOTTLES ON SEQUENTIAL 1 BOTTLES NUMBER OF SAMPLES gt SWITCH BOTTLES EVERY RUN CONTINUOUSLY SAMPLE EVENT 1 24 TIME 1 SAMPLES 1 50 YES NO Bottles per Sample EXTENDED PROGRAMMING 1 1 2 2 3 3 Multiple bottles receive a sample from one sample event Ly DISTRIBUTION SWITCH BOTTLES ON 2 BOTTLES SAMPLE gt 2 BOTTLES PER NUMBER OF SAMPLES SWITCH SETS EVERY gt l RUN CONTINUOUSLY SAMPLES EVENT 1 24 TIME 1 SAMPLES 1 50 YES NO Samples per Bottle EXTENDED jf EE PROGRAMMING HE ES SN m Each bottle receives sample from multiple sample events DISTRIBUTION SWITCH BOTTLES ON 2 SAMPLES BOT TLE gt 1 BOTTLES PER gt NUMBER OF SAMPLES SWITCH BOTTLES EVERY gt RUN CONTINUOUSLY SAMPLE EVENT 1 24 TIME ___ SAMPLES 1 50 YES NO Multiple Bottle Compositing SS SSS 3 3 6 6 2 2 5
249. s 2 Install the samplers 3 Connect the samplers with the Dual Sampler Mode Inter connect Cable by attaching the cable to the sampler s flow meter connectors If your installation includes a flow meter or flow logger use the Dual Sampler Mode to Flow Meter Cable instead 4 Decide which sampler is to be the primary sampler the primary sampler should be the sampler with the program you want to run first 5 Turn the primary sampler on and run its sampling pro gram by selecting RUN After at least 5 seconds turn the secondary sampler on and select RUN from its main menu How Does It Work The primary sampler sends a disable signal out its flow meter connector The secondary sampler receiving the signal is held disabled until the primary sampler completes its program When using a flow meter or flow logger a Dual Sampler Mode to Flow Meter cable must be used This cable is constructed so that the pacing instrument receives only the event marks Therefore a connected flow meter will not receive a bottle number signal nor will it be able to control the sampler inhibit 5 29 6712 Portable Sampler Section 5 Extended Programming Bottle Full Detection The sampler can detect a full bottle condition when collecting samples in a single bottle composite sampling When the sampler detects a full bottle it stops the sampling routine A BOTTLE FULL condition will also stop a sampling routine that is set to RUN CONTINUOUSLY Th
250. s feet per second meters per second Totalized flow units gallons million gallons cubic feet cubic meters liters Devices supported in flow conversion Weirs V notch 22 5 30 45 60 90 and 120 degrees Rectangular with and without end contractions Cipoletti Flumes Parshall 1 2 3 6 9 1 5 2 8 4 5 6 8 10 12 Palmer Bowlus 4 6 8 12 15 18 21 24 27 30 48 Trapezoidal LG 60 V 2 45 WSC 12 45 SRCRC 0 5 0 75 1 1 5 2 2 5 8 4 5 Equation Q a x Hd where Q flow head a b c and d entered values Manning Formula Round U channel Rectangular Trapezoidal Area Velocity Round U channel Rectangular Trapezoidal Data Points 50 level flow rate points 50 level area points Refrigerator Temperature Sen Optional sensor and 5 ft 1 55 m cable to record temperature readings sor Intended for use with fiberglass refrigerated FR samplers Range 40 0 C to 100 C Accuracy specification 0 3 C over a range of 0 0 to 10 0 C Reading data is 2 bytes with a storage resolution of 0 1 C 6712 Standard Portable Sampler Physical Specifications Dimensions Height 27 inches 68 6 cm Diameter 19 96 inches 50 7 cm Sampler Tub Configurations 24 wedge polypropylene bottles 1 000 ml 24 round glass bottles 350 ml 12 round polypropylene bottles 1 000 ml 12 round glass bottles 950 ml 8 round polyethylene
251. s 1 For the purposes of this example it isn t necessary to change the description Select the desired units for the flow rate For this example choose cfs Press J Select the desired units for the flow volume For this example choose Mgal Press J Select YES to program the module 4 31 6712 Portable Sampler Section 4 Standard Programming Table 4 4 Programming Example With 730 Module Installed Continued MODE OF OPERATION FLOWMETER LEVEL ONLY WEIR FLUME DATA POINTS EQUATION MANNING FLOW INSERT 10 V NOTCH RECTANGULAR CIPOLLETTI 11 V NOTCH WEIR ANGLE 120 90 60 45 30 22 5 12 CURRENT LEVEL IS t ADJUST LEVEL TO ft 15 NUMBER OF BOTTLES 1 2 4 8 12 24 14 BOTTLE VOLUME IS 1000 ml 300 30000 15 SUCTION LINE LENGTH IS 10 ft 3 99 16 TIME PACED FLOW PACED 47 FLOW BETWEEN SAMPLE EVENTS 0 075 Mgal 0 001 99999 4 32 If you choose Flowmeter proceed to screen 9 below If you choose LEVEL ONLY proceed to screen 12 When you select Flowmeter you will have several options for performing the flow conversion For this example choose Weir Press 1 For this example choose V Notch Press 1 For this example choose a Weir angle of 90 Press 1 The current level will be displayed Enter an adjustment if needed If the adjustment is different by more than 0 50 ft you will be prompted ARE YOU SU
252. s You can program the sampler to rinse the suction line automatically During a line rinse cycle the sampler draws liquid through the line to the liquid detector As soon as it detects liquid the sampler reverses the pump to purge the line The sampling retries feature lets you set the number of times from 0 to 3 that the sampler tries to detect liquid in the line before skipping the sample Sample pacing is the rate at which the sampler takes samples Depending on the type of pacing you select the rate is controlled by the sampler s internal clock or by inputs received from con nected instruments Standard programming provides time pacing and flow pacing which are described in Section 4 Extended programming pro vides additional pacing types so its pacing screen see example in margin has four items listed instead of two Uniform time pacing is identical to time pacing in standard programming Flow paced is the same for both types of pro gramming Event paced and nonuniform time pacing are described below To program the sampler for event pacing select event paced Refer to Table 5 3 for an example of event paced sampling that uses three event conditions Up to fourteen event conditions can be defined for two part pro grams up to fourteen event conditions can be defined for each part An event will occur when any of the programmed event 6712 Portable Sampler Section 5 Extended Programming condit
253. s example uses a sampler with an attached 730 Bubbler Flow Module Rain Gauge and an SDI 12 sonde at address 5 with four parameters Table 5 3 Event Paced Sampling UNIFORM TIME PACED FLOW PACED Select EVENT PACED 1 EVENT PACED NONUNIFORM TIME RAIN prt Select parameters that will trigger the event Use the arrow keys to 2 5 pH5 SP COS move through the parameters DO5 DONE To define the first event for this example select LEVEL LEVEL CONDITION SET POINT Choose SET POINT 3 RANGE RATE OF CHANGE LEVEL SET POINT I 1 000 ft Enter a set point of 1 foot 0 001 30 00 5 13 6712 Portable Sampler Section 5 Extended Programming Table 5 3 Event Paced Sampling Continued 5 ENABLED WHEN ABOVE SET POINT BELOW SET POINT 2 RAIN LEVEL FLOW TEMP5 5 SP CO5 DO5 DONE LEVEL CONDITION SET POINT RANGE RATE OF CHANGE CONDITION IS TRUE WHEN LEVEL RISES FALLS LEVEL RISES 1 000 ft HOURS MINUTES 10 EVENTO3 RAIN LEVEL FLOW 5 pH5 SP CO5 DO5 DONE 11 pH5 CONDITION SET POINT RANGE RATE OF CHANGE 12 PHX RANGE LOWER 4 00 UPPER 10 00 0 00 14 00 13 ENABLED WHEN INSIDE RANGE OUTSIDE RANGE 14 EVENTO4 RAIN LEVEL FLOW TEMP5 pH5 SP CO5 DO5 DONE 15 PACING EVENT PACED 3 EVENT CONDITIONS 5 14 Select ABOVE SET POINT Select LE
254. s in memory As an option the sampler accepts up to 16 parameters from up to ten sensors with SDI 12 addresses from 0 9 refer to SDI 12 Sonde Readings page 1 13 for specific parameters The data parameters used by the sonde and sampler must match Some sondes have plug and play setup Known as Isco Ready these sondes can tell the sampler what values they have their order and units of measure Other sondes can still be used but require manual setup to identify proper data types for each data value reported Several remote communication options are available for the 6712 sampler These include both landline and cellular communi cation Remote phone communication enables alarms data retrieval and sampler control for remote sites Cellular modems allow the sampler to send and receive SMS text messages The 6712 controller can be ordered with a factory installed 2400 baud dialout modem Data retrieval is accomplished using Flowlink software 1 4 2 GSM Cellular Modem 1 4 3 CDMA Cellular Modem for CSD 1 4 4 6712Ci Modem 1 4 5 Software Compatibility Identifying Your Software Version Downloading 2 50 or later Software 6712 Portable Sampler Section 1 Introduction CSD service for GSM technology is only available in limited areas Contact Teledyne Isco before ordering the GSM modem Samplers using this modem must have software version 2 34 installed Refer to Section 1 4 5 for details The CDMA Anyda
255. s makes no warranties expressed or implied as to the accuracy or adequacy of the information contained herein or the results to be obtained from the use thereof This information is offered solely for the user s consideration investigation and verification Since the use and conditions of use of this information and the material described herein are not within the control of United Desiccants United Desiccants assumes no responsibility for injury to the user or third persons The material described herein is sold only pursuant to United Desiccants Terms and Conditions of Sale including those limiting warranties and remedies contained therein It is the responsibility of the user to determine whether any use of the data and information is in accordance with applicable federal state or local laws and regulations B 5 6712 Portable Sampler Appendix B Material Safety Data Sheets Indicating Silica Gel Material Safety Data Sheet s Identity Trade Name as Used on Label Manufacturer MULTISORB TECHNOLOGIES INC MSDS Number M75 formerly Multiform Desiccants Inc Address 325 Harlem Road CAS Number Buffalo NY 14224 Phone Number For Information 716 824 8900 Date Prepared July 6 2000 REN Phone 716 824 8900 Prepared McKedy umber Section 1 Material Identification and Information Components Chemical Name amp Common Names OSHA ACGIH OTHER LIMITS Hazardous Components 1
256. s shown below MO 6712 1D 2424741493 TI 35523 50000 STS 1 STI 35523 4187 5 BTL 2 SVO 100 SOR 0 CS xxxx lt CR gt Note that the sampler s response is a series of alphabetical and numerical pairs The alphabetical characters are headings that describe the following numerical value or code A complete description of each pair is listed below MO 6712 is the model number of the sampler ID 2424741493 is the sampler s unique identification number TI 35523 50000 is the sampler s current time STS 1 is the sampler s current status The possible states are 1 WAITING TO SAMPLE 4 POWER FAILED for short time after power is restored 5 PUMP JAMMED must be resolved before continuing 6 DISTRIBUTOR JAMMED must be resolved before con tinuing 9 SAMPLER OFF 12 SAMPLE IN PROGRESS 20 INVALID COMMAND identifier code is not supported bottle requested is not in current configuration sample volume requested is outside its range 10 9990 ml day Set Time must be 5 digits and more recent than 1977 21 CHECKSUM MISMATCH 22 INVALID BOTTLE bottle requested is not in the current configuration 23 VOLUME OUT OF RANGE the sample volume requested is outside its range 10 9990 ml T1 35523 41875 is the most recent sample time BTL 2 is the bottle receiving the most recent sample SVO 100 is the most recent sample s volume SOR 0 is the results of attempting the most recent sampl
257. s u suysu Goh aha Gone 5 32 5 17 7 Program u ous oaa nec Dee ae 5 34 5 18 Hardware Setup 2 c tend bu end Rees 5 36 5 18 1 501 12 Sonde 5 36 5 18 2 Rain Gauge Setup 5 36 5 18 3 I O Pin Programming 5 37 5 18 4 Dialout Alarms 5 39 5 18 5 Pager Numbers L u usata rige e p pid a as EL 5 40 5 18 6 Digital Modem Text Messaging 5 40 5 18 7 Refrigerator Temperature 5 41 5 18 8 Analog Output 5 41 HELO Memory a ded u hice Acta Bea Eie dead 5 42 5 20 Pressurized 5 44 5 21 Command Driven 5 44 5 21 1 Command Driven Sampler Responses 5 45 Section 6 SDI 12 Sondes 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 Teledyne Isco AQ700 6 1 SDI 12 Data Parameters uols ayay DEDERAT 6 2 Scanning For 6 8 Isco Ready 5 22252 qaa dag Cau aq USES us 6 4 Non Isco R
258. s volume collected The lowest possible SAMPLE VOLUME value is dependent upon the highest expected flow and the available bottle volume To cal culate the number of pulses or volume at this low end you should know e the greatest expected flow volume that will pass the flow measurement point e the flow volume interval between each flow pulse from an external flow meter e the available bottle volume for sample collection 5 21 6712 Portable Sampler Section 5 Extended Programming 5 10 3 Calculations when Using a 700 Series Flow Module SAMPLE VOLUME 10 ml FOR EVERY Gallons 5 22 These factors would be applied to the following equation Greatest Total Flow Vol Flow Pulse Vol Total Bottle Vol 10 ml per unit 10 for every pulses From the scenario we can apply the factors to the equation 666 667 gallons 100 gallons 9 400 ml 10 ml 10 ml for every 7 0 pulses At high flow rates a number below 7 would overfill the bottle At low flow rates a number greater than 16 would collect too little sample Therefore a value should be selected between 7 and 16 pulses The same principles discussed in Section 5 10 2 apply However the equations differ slightly because the flow module directly measures the stream s flow volumes The equation for the high end of the range is Least Total Flow Vol 10 ml Tor every units Minimum Required Vol 10 ml per unit Using the
259. same scenario the calculations would be 500 000 gallons 10 ml for every 1667 gallons 8 000 ml 10 mi per gallon The equation for the low end of the range is Greatest Total Flow Vol POLITE every units Total Bottle Vol 10 ml per unit The scenario would be applied as 666 667 gallons 9400 ml 10 ml per unit 10 ml for every 709 gallons Therefore a value should be selected between 709 and 1667 gallons for the given scenario 6712 Portable Sampler Section 5 Extended Programming 5 11 Sampler Enable Certain external instruments can enable start or disable stop a sampler by sending a signal to pin F of the sampler s flow meter connector Teledyne Isco flow meters flow loggers and the Model 1640 Liquid Level Actuator have a programmable sampler enable feature that lets them enable or disable the sampler You can define the condition such as level flow rate pH temperature percent rainfall and I O or combination of conditions that need to be true in order to enable the sampler Refer to Figure A 12 in Appendix A for details on programming sampler enables When the sampler detects that it is disabled at start time it sus pends the program until it is enabled Once enabled the sampler collects a sample only when programmed to take a sample at the enable time The diagram in Figure 5 4 shows the sampler s response when enabled or disabled at the start time Select RUN from the
260. scharge Tubes 8 Bottle Kit 1 8 liter Glass 1 68 6700 011 Includes Insert Bottles Retaining Ring and 2 Discharge Tubes 4 Bottle Kit 3 7 liter Polyethylene Bottles 68 6700 012 Includes Bottles Rack and 2 Discharge Tubes 4 Bottle Kit 3 7 liter Glass Bottles 68 6700 013 Includes Bottles Rack and 2 Discharge Tubes 1 Bottle Kit 9 4 liter Polyethylene 68 6700 014 Includes Bottle and 2 Discharge Tubes 1 Bottle Kit 9 4 liter Glass Bottle 68 6700 015 Includes Bottle and 2 Discharge Tubes 4 15 Liter Gallon Bottle Configuration 68 6700 080 Includes Jumbo Base Polyethylene Bottle Cap Two Discharge Tubes and Composite Tube Guide 5 Gallon 19 Liter Bottle Configuration 68 6700 078 Includes Jumbo Base Glass Bottle Cap PTFE Cap Liner Two Discharge Tubes and Composite Tube Guide 5 5 Gallon 20 8 Liter Bottle Configuration Includes Jumbo Base Polyethylene Bottle Cap Two Discharge Tubes and Composite Tube Guide ProPak Starter Kit cR eL RR ERE Pree eek E V EERC EE 68 6700 112 Includes 24 holders with caps 100 liners retaining ring instruction video instruction sheet ProPak Configura
261. screens from the main menu select Other Functions Hardware Advance to SDI 12 DATA NO SDI 12 SONDE SETUP KNOWN SONDES SCAN SDI 12 SONDES Select SETUP KNOWN SONDES and DONE The screen will list the parameters you can calibrate similar to the example below The sonde s address will appear after the parameter such as pHO and pH5 SELECT PARAMETER TO CALIBRATE pH5 DO5 ORP5 DONE The parameter selected will determine the content of the cali bration screens Level Enter the current measured level The sampler will use this value to offset the level reading of the sonde pH Choose from three different pH solutions 4 00 7 00 and 10 00 Next rinse the probe and place it in the pH buffer If the reading is off by more than 0 5 pH units you will be asked to verify the reading DO Choose between two methods DO Standard and Saturation Both require calibration standards but the 6 7 6712 Portable Sampler Section 6 SDI 12 Sondes 6 7 2 Validation Procedure 6 8 Disconnecting Sondes 6 8 saturation method also requires a temperature reading between 0 0 and 47 0 C as well as the altitude and barometric pressure ORP Enter the value of your calibration standard When calibration is complete select DONE to proceed to the val idation screen If you do not want to validate any parameters select DONE again to return to the Hardware option screens The validation sc
262. ses the suction line before drawing a sample Sampling Retries Program setting for the number of times 0 to 3 that the 6712 attempts to sample if it fails to deliver the entire sample volume Three Flexible Start Time Settings Option for a Continuous Run ning Program Run Immediately Starts the sampling program immediately Delayed Start Starts the sampling program after a user definable delay of 1 to 999 minutes Clock Time Starts the sampling program at a user definable time on one or more days of the week Continuous Sampling When sample bottles are regularly replaced the sample distribution can restart with the first bottle set after the last bottle set is filled with out interrupting the running program 1 8 Sampler Construction and Specifications Table 1 2 6712 Standard and Compact Sampler Construction Materials Item Top Cover Center Section Tubs Bottle Inserts Plastic Retaining Rings Bottle Carriers Material ABS Acrylonitrile Butadiene Styrene plastic Connector Labels Bottle Rack Powder coated steel Controller Case Noryl Distributor Arm Distributor Arm Nut Delrin Pump Rollers Control Panel Polyester 6712 Portable Sampler Section 1 Introduction Table 1 2 6712 Standard and Compact Sampler Construction Materials Continued Distributor Shaft Stainless steel Pump Shaft Pump Paddles Pump Band Bulkhead Fitting Latches H
263. sory Kit includes tube coupling clamp and instructions 68 3700 007 38 inch Standard weighted polypropylene strainer 60 9004 367 CPVC Plastic coated Weighted 60 3704 066 3 inch Stainless Steel Low Flow Strainer 69 2903 138 9 8 inch Suction Line Tubing Coupler 2 ll uw dde de edad nis 69 4703 106 6712 Portable Sampler Appendix Accessories List E 10 Data Collection Devices and Cables 581 Rapid Transfer Device RTD 60 9004 027 Power Cable 581 Rapid Transfer Device RTD 60 9004 077 Flowlink 5 1 for Windows Software New License call factory Flowlink 5 1 for Windows Software Upgrade call factory Computer Connect Cable 25 pin 60 2544 040 Computer Connect Cable 9 2 60 2544 044 Connector to Attach Non Teledyne Isco Flow Meter to Customer Supplied Cable 68 1680 060 Serial Output Connect Cable for use with the periodic serial output feature 60 9004 263 External 12 volt DC Power Cable 60 1394 023 Flow Meter to Two Sample
264. st power If the controller is powered by an external battery this fuel gauge can help you estimate the condition of the battery Keep in mind that the sampler has no idea as to how much charge was originally stored in the battery or even if a battery is being used and therefore has no idea as to the remaining capacity of its power source In Standard Programming the Other Functions menu screen includes options for e Maintenance see Section 8 Manual Functions see below e Programming Style see Section 3 The manual functions programming screens let you e Take grab samples Calibrate sample volumes Operate the pump manually e Move the distributor arm 6712 Portable Sampler Section 4 Standard Programming 4 11 Grab Samples Grab samples let you take a single sample on demand collecting the sample in an external container Figure 4 4 Keep in mind When the sampler delivers a grab sample it runs through a com plete sampling cycle using the current settings for volume and for line rinses or retries If it is a two part program the sampler Taking a Grab Sample GRAB SAMPLE CALIBRATE VOLUME uses the settings for part A 1 OPERATE PUMP i MOVE DISTRIBUTOR To take a grab sample while the sampler is running a program you must interrupt the program by pressing the Stop key Peeler eee el Restart the program by running it again SAMPLE VOLUME To take a grab sample 2 ml
265. start up menu x E Start Time Delay to Start LM Sampler enabled at i i gt start time A sample event at the start time always occurs for time paced programs except for random For flow paced programs it occurs when the program requires a sample at start time Sampler enabled 4224 Sampler disabled at Sampler Disabled i gt start time by signal from pin F A sample event at enable time occurs only when the program requires a sample at enable Figure 5 4 Start Time Diagram for Sampler Enable Settings 5 23 6712 Portable Sampler Section 5 Extended Programming 5 11 1 Sampler Enable This example uses a sampler with an attached 730 Bubbler Flow Module Rain Gauge and an SDI 12 sonde at address 5 with four parameters Table 5 4 Sampler Enable ENABLE NONE PROGRAMMED ENABLE RAIN LEVEL FLOW TEMP5 5 SP CO5 DO5 NONE ENABLE RAIN AND OR DONE ENABLE RAIN AND LEVEL FLOW 5 pH5 SP 5 DO5 DONE RAIN SET POINT 5 INCHES PER HOURS _ MINUTES ENABLED WHEN ABOVE SET POINT BELOW SET POINT RESET RAIN HISTORY YES NO LEVEL CONDITION SET POINT RANGE RATE OF CHANGE LEVEL SET POINT 1 ft 0 001 30 00 10 ENABLED WHEN ABOVE SET POINT BELOW SET POINT 11 ENABLE RAIN 20 50 2 00 AND LEVEL 21 000 ft 5 24 In this example you will be enabling the sampler if it rains
266. stomer Service Display Test Screen 3 shows you the display test You should see the test pattern illustrated in the screen If the pattern does not match the illustration the display or its circuitry require repair Pump Test Screen 4 lets you start the pump test by selecting YES As the sampler runs the test it first runs the pump forward for a short period Next it displays an ON OFF ratio number After displaying the forward pumping ratio the sampler reverses the pump to obtain a purge ratio The acceptable range is between 0 80 and 1 25 If either ratio is outside the acceptable range the pump requires repair You do not need to pump liquid while running the test and you can run the test with or without a tube in the pump 8 4 Replacing the Pump Tube 6712 Portable Sampler Section 8 Maintenance N CAUTION Tests indicate that the pump produces sound levels in excess of 85db at one meter Prolonged exposure to this sound level could result in hearing loss and requires the use of protective ear plugs Distributor Test The distributor test is provided for factory personnel to verify the distributor s position as it rotates through the 24 positions screens 9 through 11 The distributor arm flexes slightly when it contacts the stop and the sampler mea sures this flexure The sampler uses this measurement to position the arm accurately over each bottle Reinitialize Controller The sampler allows you to reset all
267. system Next place the strainer in clean water and pump it through the delivery system to rinse it If these items are severely contaminated replace them For application specific requirements consult with your labo ratory to establish cleaning or replacement protocols M Note For critical sampling applications consider replacing the suc tion line pump tube and discharge tube Replacement elimi nates the possibility of any cross contamination from previous sampling sites When you select OTHER FUNCTIONS from the main menu and then select Maintenance the following screen will be displayed SET CLOCK PUMP TUBE ALARM INTERNAL BATTERY DIAGNOSTICS Using these options you can set the sampler s time and date set the number of pump counts for the pump tube warning reset the battery warning for the internal battery and run a set of diag nostic tests for troubleshooting purposes Teledyne Isco ships samplers from the factory with the clocks set to the correct Central Standard Time Reset the clock when installing the sampler in a different time zone for daylight savings time or when needed When setting the clock and calendar use a 24 hour clock for times and the day month year format for dates The illustration at the left shows blanks for each position that accepts an entry The positions are called fields When this screen appears on your sampler the fields will contain the sampler s current settings for the tim
268. t AC connected power pack the AC line cord is the Disconnect Device Always install the sampler with the line cord and plug visible and readily accessible so that power can be disconnected easily You can also power the sampler with an external 12 volt DC source such as an automotive battery Connect the sampler to the battery with the External 12 Volt DC Power Cable N CAUTION Be sure to attach the positive and negative clips to the correct battery terminals If polarity is reversed the sampler may be permanently damaged 2 9 6712 Portable Sampler Section 2 Installation Preparation 2 6 Suction Line The suction line is the tubing from the sampling point to the pump intake The 6712 uses a 8 inch ID suction line of lengths 3 to 99 feet Teledyne Isco offers vinyl or PTFE suction lines The PTFE tubing has a polyethylene jacket to protect it from kinks and abrasions Guidelines for Measuring and Cutting the Suction Line Cutthe line to the desired length but use the shortest length feasible for the installation e Cut the line in 1 foot increments For instance 4 feet not 31 2 If using metric units of measure cut the line in increments of 0 1 meter Do not include the length of the strainer in the measurement The vinyl line contains a very low parts per million level of phenols If phenol content affects your sample analysis use the PTFE suction line When installing the sampler be sure the vertical distance
269. t an unconscious man out of a manhole The persons stationed at the surface should also function as guards to keep people and vehicles away from the manhole opening To avoid a serious injury a person should not be lifted out of a manhole by his arm unless it is a dire emer gency When more than one person must enter a manhole the first person should reach the bottom and step off the ladder before the next one starts down When two men climb at the same time the upper one can cause the lower one to fall by slipping or stepping on his fingers In addition to traffic cones markers warning signs and barri cades a vehicle or a heavy piece of equipment should be placed between the working area and oncoming traffic Flashing warning signals should be used to alert drivers and pedestrians Orange safety vests should be worn by personnel stationed at the surface when the manhole is located in a vehicular traffic area All loose items should be kept away from the manhole opening This applies to hand tools as well as stones gravel and other objects Manhole covers should be removed with a properly designed hook Use of a pick ax screwdriver or small pry bar may result in injury A suitable tool can be made from 4 inch round or hex stock Two inches of one end should be bent at a right angle and the other end should be formed into a D handle wide enough to accommodate both hands Even with this tool care must be exer cised to prevent t
270. t mark timing diagrams Bottle Number Concurrent with the event mark the sampler also sends a bottle number signal The bottle number signal is a series of pulses The number of pulses sent represents the bottle currently accepting a sample see Figure 5 5 Presample Purge Rinse Cycle Pump Volume 1 PumpVolume2 Pump Volume 3 Postsample Purge Pulse at Beginning of Presample Purge Event Mark Bottle Number Pulse at Beginning of Forward Pumping i E 1 Event Mark Bottle Number Event Mark Variable Duration Pulse TuEEEEEELZ C000 000000 i During Entire Pump Bottle Number Variable Duration Pulse During Forward I E Pumping E MEN EventMark Bottle Number This diagram shows the pulses sent for a bottles per sample distribution scheme Figure 5 5 Event Mark Timing Diagram 5 17 5 Pre sample and Post sample Purge Counts The pre sample purge is when the pump runs in reverse clearing the strainer of any debris before taking a sample The pre sample PRE SAMPLE PURGE COUNTS 10 9999 POST SAMPLE PURGE DEPENDENT ON HEAD FIXED COUNT POST SAMPLE PURGE COUNTS 10 9999 purge is set at 200 pump counts After the sample is taken a post sample purge occurs to clear the liquid from the suction line The duration of the post sample purge is determined by the length of the suction line to maximize the battery life The pr
271. t runs a program An example is shown below PROGRAM WILL START AT 06 00 TU 20 FEB 05 56 22 TU 20 FEB Selecting a menu option will take you to a number entry screen or another menu screen The screens are organized in a branching structure that resembles a tree Refer to Figure 3 1 for a simple chart of the menu tree for standard programming The standard programming structure is different much simpler than the extended programming structure Charts that show you most of the sampler s screens appear in Appendix A Flowcharts The entire structure changes a little when a module is attached because the sampler adds a set of screens for a module as soon as it detects the module s presence The manuals for each module contain menu trees for its programming screens 6712 Portable Sampler Section 3 Programming Introduction RUN See Running Programs on page 4 10 PROGRAM VIEW REPORT OTHER FUNCTIONS See the screen charts in Appendix A VIEW DATA PRINT DATA See Reports on page 4 19 SYSTEM IDs CONFIGURE REPORTS MAINTENANCE SET CLOCK MANUAL FUNCTIONS SET PUMP TUBE ALARM PROGRAMMING STYLE INTERNAL BATTERY DIAGNOSTICS See Figure A 8 Manual Functions Screens PROGRAMMING STYLE NORMAL QUICK VIEW CHANGE Figure 3 1 Menu Tree for Standard Programming 6712 Portable Sampler Wu nr tFn Section 4 Standard Programming 4 1 Switching Between S
272. t to 1 500 000 enter 15 Press STOP to return to the main menu 8 3 3 Internal Battery Warning RUN PROGRAM VIEW REPORT OTHER FUNCTIONS MAINTENANCE MANUAL FUNCTIONS PROGRAMMING STYLE HARDWARE SET CLOCK PUMP TUBE ALARM INTERNAL BATTERY DIAGNOSTICS WARNING REPLACE INTERNAL BATTERY BEFORE 17 OCT 97 DID YOU REPLACE THE INTERNAL BATTERY YES N SET CLOCK PUMP TUBE ALARM INTERNAL BATTERY DIAGNOSTICS 8 3 4 Diagnostics 6712 Portable Sampler Section 8 Maintenance The internal lithium battery preserves the sampler s memory when power is removed For an explanation of how to replace the lithium battery go to Section 8 7 Table 8 3 Checking and Replacing the Internal Battery Select OTHER FUNCTIONS Select MAINTENANCE Select INTERNAL BATTERY The sampler displays this screen briefly to show you the expiration date After replacing the battery select YES Select NO only if checking the expiration date Resetting the alarm directs the sampler to calculate a new expiration date five years in the future If you reset the alarm without replacing the battery the sampler will not be able to alert you to the battery s impending expiration Press STOP to return to the main menu The sampler has several self diagnostic tests that check the memory both the RAM and ROM pump and the distributor arm position It also contains screens that let you reset the sampler s
273. t up menu E Start Time Delay to Start Sampler enabled at j gt start time A sample event at the start time occurs for time paced programs Sampler enabled P Sampler disabled at Sampler Disabled gt start time by Dd signal from pin F Figure 4 2 Start Time Diagram 4 7 Running Programs 4 7 1 Run Time Screens 4 10 A sample is not taken at start time If the sampler is disabled No samples are taken while disabled To run a program select RUN from the main menu You may also select YES at the RUN THIS PROGRAM NOW screen at the end of the programming screens While running a sampling program the sampler displays a variety of messages that report the program s status For example if the sampler has not yet reached the programmed start time it displays the scheduled start time as well as the current time Once the program reaches the start time you can determine the time of the next sample the next bottle to receive a sample sample distribution and other information Other messages appear while the sampler runs through a sampling cycle and takes a sample When the sampler needs to report multiple mes sages it alternates them displaying each for one to three seconds PROGRAMMING COMPLETE RUN THIS PROGRAM NOW Multiple Bottles YES NO OR RUN PROGRAM VIEW REPORT OTHER FUNCTIONS Single Bottle RUN DISPLAYS Figure 4 3 Running a Program 4 7 2 Module R
274. ta Cell Phone modem for Circuit Switched Data CSD communication is no longer available from Teledyne Isco Samplers still using this modem must have software version 2 34 installed Refer to Section 1 4 5 for details The 6712Ci is a CDMA cellular modem for serial communication via the internet This modem requires a customer supplied static IP address service contract with Verizon Refer to Section 1 4 5 for details The 6712Ci cellular modem and 2105Ci cellular modem module work with 6700 Series Avalanche samplers running software version 2 50 or later The RTD Rapid Transfer Device GSM modem and CDMA Anydata modem work with 6700 Series Avalanche samplers running software version 2 34 Software versions later than 2 50 will be compatible with the 6712Ci modem 2105Ci Module and RTD The following instructions detail the steps for identifying your sampler s software version downloading the required software and installing it in the sampler controller N CAUTION Version 2 50 software should be installed only in samplers using the 6712Ci modem or pushing data with a 2105 modem module This software disables the sampler s ability to commu nicate with the RTD Rapid Transfer Device GSM modem and Anydata CSD modem To determine if your sampler has the correct software installed for your application 1 Turn the sampler on From the home screen select VIEW REPORT 2 Select SYSTEM IDs The software version wil
275. ta label for the SDI 12 parameter The checksum does not include the checksum carriage return and linefeed e The string is terminated with lt CR gt lt LF gt 5 17 7 Program Lock The specialized software option Program Lock P N 60 9003 532 may be purchased from Teledyne Isco Once activated the purchased option is always available even if the software is upgraded at a later time The option must be installed at the factory Consult the factory for further details To view which software options have been activated select VIEW REPORT gt SYSTEM IDs A Software Options screen will list a code for each active option The code for Program Lock is 1108 PROGRAM LOCK DISABLED The Program Lock adds password security to the 6712 sampling programs With this option activated a user selected password up to five digits must be entered before any program changes or run time modifications can be made Run time modifications ENABLE PROGRAM LOCK include accessing the Manual Pause menu options and shutting YES off the sampler You will still be able to run the current program vlew reports and interrogate the sampler without the knowledge of the password If three consecutive attempts to enter the password fail a five DT 4 s minute time out will follow which most keys are deactivated The user selected password defaults to 6712 and may be changed in the Software
276. tandard and Extended Modes 4 2 Language Selection Units of Length The 6712 Sampler has two sets of programming screens The first set called standard programming screens lets you set up typical sampling programs easily and efficiently The second set extended programming screens lets you create sophisticated pro grams for complex sampling applications All of the sampling features available within the standard pro gramming screens are available in extended programming However extended programming provides several additional fea tures which are discussed in the next section Menu flowcharts for both sets of programming screens are in Appendix A Factory default settings cause the sampler to begin in standard programming mode the first time you turn it on The start up screen tells you which programming mode the sampler is cur rently using You can switch between programming modes by entering a numerical command at the main menu e At the main menu type 6712 1 to enter standard programming mode e At the main menu type 6712 2 to enter extended programming mode RUN PROGRAM VIEW REPORT OTHER FUNCTIONS Main Menu You have the option of displaying screens in English or Spanish or possibly another language The default is English At the main menu type 6712 8 to display ENGLISH SPANISH Use the arrow key to move between the two choices When the desired choice is blinking press 4 If you se
277. the USA where Teledyne Isco has an authorized dealer should contact their Teledyne Isco dealer for warranty service Before returning any instrument for repair please call fax or e mail the Teledyne Isco Service Department for instructions Many problems can often be diagnosed and corrected over the phone or by e mail without returning the instrument to the factory Instruments needing factory repair should be packed carefully and shipped to the attention of the service department Small non fragile items can be sent by insured parcel post PLEASE BE SURE TO ENCLOSE A NOTE EXPLAINING THE PROBLEM Shipping Address Teledyne Isco Attention Repair Service 4700 Superior Street Lincoln NE 68504 USA Mailing Address Teledyne Isco PO Box 82531 Lincoln NE 68501 USA 800 775 2965 lab instruments 866 298 6174 samplers amp flow meters Sales amp General Information 800 228 4373 USA amp Canada Phone Repair service Fax 402 465 3001 Email October 11 2013 P N 60 1002 040 Rev H IscoService teledyne com 2g TELEDYNE ISCO Everywhereyoulook
278. the distributor shaft DO NOT ROTATE THE DISTRIBUTOR ARM MANUALLY THIS WILL SEVERELY DAMAGE THE DISTRIBUTOR DRIVE GEARS 3 Remove the controller from the center section 4 Open the case by removing the 11 screws that attach the case bottom to the case top M Note The case top and bottom fit together with a sealed tongue and groove joint Any damage nicks or cuts to the tongue groove or sealing gasket prevent the case from seal ing completely when you close it Use extreme care when opening the case to avoid damaging the joining surfaces Refer to Figure 8 3 for the location of the desiccant box To gain access to the main circuit board and battery remove the two dis tributor connectors and the EMI shield A humidity indicator labeled INTERNAL CASE HUMIDITY is located to the right of the keypad It indicates the amount of moisture present inside the control box The paper indicator is blue when the control box is dry The control box is a completely sealed unit You do not need to open the control box during normal operation The 6712 Sam plers use a desiccant bag inside the controller case to prevent moisture damage to its electronic components Thus the humidity indicator should remain blue under normal conditions If moisture does accumulate the numbered areas on the indi cator will turn light pink or white starting with the area num bered 20 This indicates that the relative humidity inside the cont
279. the next section SELECT ADDRESS OF SONDE TO SETUP 1 DONE e Make your selection and press 4 e Select the address of the sonde you want to set up DATA FROM SONDE __ lt 1 TEMPERATURE C 1 2 OTHER Company Model 3 OTHER gt Optional Information 2 pus E i oes e Repeat the process until you have defined all the data lt e You wait few seconds Press DONE when finished or press to advance to the DATA FROM SONDE next screen lt 4 pH 2 5 LEVEL DATA FROM SONDE __ DONE 1 OTHER 2 OTHER You will then be asked if you SOME 25 want to store the parameter data Refer to SONDE SETUP STORING PARAMETER DATA in the following paragraphs e Press an arrow key until the cursor is on the data you want to identify Then press l A scrolling screen listing possible parameters will appear SONDE DATAt lt pH 4 TEMPERATURE C TEMPERATURE F gt 6 5 6712 Portable Sampler Section 6 SDI 12 Sondes 6 6 Sonde Setup Storing Whether you are using an Isco Ready sonde or other SDI 12 com Parameter Data patible sonde you will need to tell the 6712 if you want to store all of the parameter data or data from selected parameters Data is stored in memory partitions A fixed amount of memory is available to store data If you are using some parameters to simply trigger an event or enable co
280. ting a Running 4 12 4 8 1 Stop Program Lu ed Mata ea eee 4 12 4 8 2 Resume Program 4 13 4 8 3 View Data usuyasa ad ach seta tn uu re gates 4 13 4 8 4 Grab Sample serar ea apus Pusa pasu ua RE RES 4 13 4 8 5 Pump Tube Alarm 4 13 4 8 6 Calibrate Volume 4 13 4 8 7 Cal Adj Parameters 4 13 4 8 8 Adjust Pacing i i hv ster Ein UA hee 4 13 4 8 9 Adjust Volume 4 14 4 8 10Powertgsed yuyu Gee 4 14 4 9 Other Functions y usu usuku u u Ca ES 4 14 4 10 Manual 4 14 4 11 Grab Samples nie ERR EORR Shae A hes Se ee ES ee 4 15 4 12 Volume 1 4 16 4 12 1 Standard Calibration Procedure 4 16 4 12 2 Calibration for Sampling at Fixed High Head 4 17 4 12 3 Calibration Tips spresti See Eee eas 4 18 6712 Portable Sampler Table of Contents 4 13 Operating the Pump 4 18 4 14 Moving the Distributor
281. tion Kit for 6700 Full size Samplers 68 6700 105 Includes 25 holders 1 000 liners retaining ring instruction video instruction sheet ProPak holders with caps and standard liners 24 68 6700 087 ProPak disposable liners 1 liter polyethylene 100 68 6700 113 ProPak disposable liners 1 liter polyethylene 500 68 6700 114 ProPak disposable liners 1 liter polyethylene 1000 68 6700 096 ProPak labels 1000 E Gee RR RU aged tga 68 6700 100 ProPak retaining ring for 24 holders 60 9003 475 E 2 6712 Portable Sampler Appendix Accessories List E 6 Bottle Carriers Retaining Rings and Racks Bottle Inserts Discharge Tubes Bottle Carrier for Compact 12 Bottle 60 9004 131 Bottle Carrier for Compact 24 Bottle Kits 60 9004 132 Retaining Ring for Compact 12 Bottle Kits 60 2904 062 Retaining Ring for Compact 24 Bottle Kits 60 9003 235 Retaining Ring for Standard 24 Bottle Kit 1000 milliliter Polypropylene Bottles 60 9003 242 Retaining Ring for Standard 24 Bottle Kit 350 milliliter Glass Bottles 60 2703 011 Retainin
282. tle Composite Bottle Composite Bottle Figure 2 8 Composite Bottles 2 8 2 5 Installing a Power Source 2 5 1 Connecting an External 12 Volt DC Source 6712 Portable Sampler Section 2 Installation Preparation The 6712 Sampler requires 12 volt DC power Power sources available from Teledyne Isco are listed below 946 Lead Acid Battery 934 Nickel Cadmium Battery 913 High Capacity Power Pack 120 volts AC 50 60 Hz 923 High Capacity Power Pack 240 volts AC 50 60 Hz 914 Battery Backed Power Pack 120 volts AC 50 60 Hz 924 Battery Backed Power Pack 240 volts AC 50 60 Hz the 924 is not certified for use in Europe 948 45 Amp Hr Battery Power Source Connector Icon 7 Connect the power source to the sampler connector that is labeled with this icon To install the smaller batteries or power packs on the sampler 1 Place the power source in the sampler s battery recess 2 Secure the power source with the black rubber draw catches 3 Attach the power source cable to the power source connec tor on the controller N CAUTION Use only Teledyne Isco made power packs If using a power pack with the 6712 Teledyne Isco recommends you use the new 913 or 923 power pack Older model power packs may not provide sufficient power Refer to the Teledyne Isco Power Products Guide shipped with your sampler for more information on Teledyne Isco s power sources If you use a 120 or 240 vol
283. topped You pressed the Stop key during the sample event 4 24 6712 Portable Sampler Section 4 Standard Programming Figures 4 5 4 6 4 7 4 8 and 4 9 show examples of reports con figured to show program settings sampling results combined results and a summary report SAMPLER ID 3687447734 06 32 19 DEC 02 Hardware 0 Software 1 02 kkkk kkkk PROGRAM SETTINGS SITE DESCRIPTION FACTORY051 UNITS SELECTED FLOW RATE cfs FLOW VOLUME Mgal BUBBLER MODULE WEIR 90 V NOTCH 24 1000 ml BTLS 10 ft SUCTION LINE PACING TIME EVERY 0 HOURS 15 MINUTES DISTRIBUTION SEQUENTIAL 5 MINUTE DELAY FIRST SAMPLE 4 25 6712 Portable Sampler Section 4 Standard Programming Figure 4 5 Report Program Settings SAMPLER ID 3687447734 06 32 19 DEC 02 Hardware AO Software 1 02 k SAMPLING RESULTS SITE 051 Program Started at 15 03 WE 18 DEC 02 Nominal Sample Volume 200 ml COUNT TO SAMPLE BOTTLE TIME SOURCE ERROR LIQUID 15 03 ENABLED 122 1 15 03 5 250 1 1 2 15 18 T 247 1 1 3 15 33 T 247 15 3 4 15 48 T 249 121 5 16 03 T 247 tyl 6 16 18 T 247 1 2 7 64253 247 12 8 16 48 248 1 1 9 17 03 T 237 1 10 17 18 T 236 14 11 17 33 al 237 Tx 12 17 48 T 241 1 1 13 18 03 T 238 1 14 18 18 T 236 1 15 18 33 T 237 11 16 18 48 T 236 La 17 19 03 T 242 45 4 18 19 18 d 237 1 27 19 9 33 T 235 1 4 20 19 48 T 238 121 21 20
284. ts 4 27 6712 Portable Sampler Section 4 Standard Programming SAMPLER ID 3687447734 06 32 19 DEC 02 Hardware 0 Software 1 02 kkkkkkkkkkk COMBINED RESULTS KEKKKEKKKEKEE SITE FACTORYO51 Program Started at 15 03 WE 18 DEC 02 Nominal Sample Volume 200 ml FR TEMP SAMPLE BOTTLE TIME C NO FR TEMPERATURE SAMPLER ID 3687447734 06 32 19 DEC 02 Hardware 0 Software 0 01 0127 kkkkkkkkkkk COMBINED RESULTS kkkkkkkkkkk SITE FACTORY051 Program Started at 15 03 WE 18 DEC 02 Nominal Sample Volume 200 ml SAMPLE BOTTLE TIME SAMPLER ID 3687447734 06 32 19 DEC 02 Hardware A0 Software 0 01 0127 SDI 12 DATA KKKKKKKKKKK COMBINED RESULTS KKKKKKKKKKK SITE FACTORY051 Program Started at 15 03 WE 18 DEC 02 Nominal Sample Volume 200 ml NO SDI 12 SONDE Figure 4 8 Report Combined Results continued 4 28 6712 Portable Sampler Section 4 Standard Programming SAMPLER ID 3687447734 16 41 20 DEC 02 Hardware AO Software 1 02 BUBBLER MODULE 2215419583 Hardware AOOOOO Software 1 07 SITE FACTORYOS51 Summary Report for 19 DEC 02 TH Day s Flow 000000 054 Mgal Average Flow Rate 0 4437 cfs 07 20 Minimum Flow Rate 0 0237 cfs 13 25 Maximum Flow Rate 7 0207 cfs Hourly Average Flow Rate 00 00 01 00 NO DATA 01 00 02 00 NO DATA 02 00 03 00 NO DATA 03 00 04 00 NO DATA 04 00 05 00 NO DATA 05 00 06 00 NO DATA 06 00 07 00 NO DATA 07 00 08 00 NO DATA 08 00 09 00 2 519 QES 09 00 10 00 2 747 c
285. u an example of what screens you might see while pro gramming the sampler and module Refer to Table 4 1 which does not have a module attached at the beginning of this section to compare the sequence of screen displays MODULE INSERTED DOWNLOAD DATA NOW OR LOSE ALL DATA DONE 6712 SAMPLER STANDARD PROGRAMMING For HELP at any screen press key RUN PROGRAM VIEW REPORT OTHER FUNCTIONS SITE DESCRIPTION FACTORY051 CHANGE YES NO SELECT UNITS FOR FLOW RATE cfs gps gpm Mgd Ips m3s m3h m3d SELECT UNITS FOR FLOW VOLUME cf gal Mgal m3 lit PROGRAM MODULE YES NO 6712 Portable Sampler Section 4 Standard Programming N CAUTION Most Teledyne Isco accessories and interfacing equipment are not certified for us in hazardous locations as defined by the National Electrical Code Check applicable guidelines codes and regulations of federal state city and county agencies Refer to Appendix C in the back of this manual for more safety information Table 4 4 Programming Example With 730 Module Installed With the sampler off insert the module in the bay on the controller Turn the sampler by pressing the On Off key Press J Download stored data if you want to keep it Pressing DONE erases it and advances to the next screen This screen will now appear for 8 seconds The option PROGRAM will be blinking Press J The option NO will be blinking Pres
286. u of dangerous voltage inside the product Pinch point These symbols warn you that your fingers or hands will be seri ously injured if you place them between the moving parts of the mechanism near these symbols Symboles de s curit symbole signale d instructions importantes relatives au produit dans ce manuel Ce symbole signale la pr sence d un danger d lectocution ANA Risque de pincement Ces symboles vous avertit que les mains ou les doigts seront bless s s rieusement si vous les mettez entre les l ments en mouvement du m canisme pr s de ces symboles Warnungen und Vorsichtshinweise Das Ausrufezeichen in Dreieck ist ein Warnzeichen das Sie darauf aufmerksam macht daB wichtige Anleitungen zu diesem Handbuch geh ren Der gepfeilte Blitz im Dreieck ist ein Warnzeichen das Sei vor gefahrlichen Spannungen im Inneren des Produkts warnt Vorsicht Quetschgefahr Dieses Symbol warnt vor einer unmittelbar drohen den Verletzungsgefahr f r Finger und Hande wenn diese zwischen die beweglichen Teile des gekennzeichneten Ger tes geraten 6712 Portable Sampler Table of Contents Section 1 Introduction 1 1 About this 0 1 1 1 2 About 700 Series 1 2 13 SDL12Sondes Yabba le
287. ube distributor arm distributor arm nut and dis charge tube for the 24 bottle configuration Dry Weight With 24 plastic bottles insert hold down no caps 35 lbs 16 kg 12 plastic bottles insert expander ring no caps 35 lbs 16 kg 12 glass bottles insert expander ring no caps 43 lbs 20 kg 1 plastic bottle and composite tube guide no cap arm or nut 33 lbs 15 kg 1 glass bottle and composite tube guide no cap arm or nut 37 lbs 17 kg 6712 Portable Sampler Section 1 Introduction Table 1 3 Technical Specifications for the 6712C and Standard Samplers Continued Filled Bottle Weight 24 plastic bottles 70 lbs 32 kg 12 plastic bottles 62 lbs 28 kg 12 glass bottles 66 lbs 30 kg 1 plastic bottle 66 lbs 30 kg 1 glass bottle 73 lbs 33 kg This includes everything in the Dry Weight Dry Weight With and Ice Capacity specifications and the bottles are filled to the capacities listed in Sampler Tub Configurations This weight does not include a power source Ice Capacity 24 plastic bottles 8 lbs 3 6 kg 12 plastic bottles 13 Ibs 5 9 kg 12 glass bottles 13 lbs 5 9 kg 1 plastic bottle 12 lbs 5 4 kg 1 glass bottle 15 lbs 6 8 kg 3 4 x 34 x 1 4 approximate cube size Ice capacity may vary with the size of the cubes Cooling Capacity Configuration Sample Size Cooling Water Last Sample Last Sample Temp 24 plastic bottles 250 ml Sample 41 F 5 C Sample 24 55 F
288. uctions without notice Contact Information Customer Service Phone 800 228 4373 USA Canada Mexico 402 464 0231 Outside North America Fax 402 465 3022 Email IscoCSR G teledyne com Technical Support Phone Toll Free 866 298 6174 Samplers Flow Meters and Multi parameter Probes Toll Free 800 775 2965 Syringe Pumps and Liquid Chromatography Email IscoService teledyne com Return equipment to 4700 Superior Street Lincoln NE 68504 1398 Other Correspondence Mail to P O Box 82531 Lincoln NE 68501 2531 Email IscoInfo teledyne com Revised April 2014 General Warnings Hazard Severity Levels 6712 Portable Sampler Safety Before installing operating or maintaining this equipment it is imperative that all hazards and preventive measures are fully understood While specific hazards may vary according to location and application take heed in the following general warnings WARNING This instrument has not been certified for use in hazardous locations as defined by the National Electrical Code WARNING Avoid hazardous practices If you use this instrument in any way not specified in this manual the protection provided by the instrument may be impaired this will increase your risk of injury AVERTISSEMENT Eviter les usages p rilleux Si vous utilisez cet instrument d une autre que celles qui sont specifi es dans ce manuel la protection fournie de l inst
289. unter See example in table 8 2 9 Take a dry grab sample to test the tube installation Note To extend the pump tube life e Always use Teledyne Isco pump tubes Install the tube properly aligning the blue collars correctly in the liquid detectors grooves Follow the natural curve of the tube when wrapping the tube around the pump rollers Minimize the line rinses and sampling retries in the sampling programs Use the shortest possible suction line Conditions that shorten tube life Improper installation Abrasive materials suspended in sample liquid Frequent line rinses Long purge cycles such as those used with long suction lines 8 8 6712 Portable Sampler Section 8 Maintenance Figure 8 1 Removing and Replacing the Pump Tube 8 9 6712 Portable Sampler Section 8 Maintenance 8 5 Opening the Controller Case 8 6 Replacing the 8 10 Desiccant You will need to open the controller case to gain access to The desiccant bag that dries the controller s interior e The battery that provides backup power to the controller N CAUTION The circuit boards can be damaged from a discharge of static electricity Always use an antistatic mat when opening the con troller to protect the circuit boards To open the case 1 Pull the discharge tube and pump tube away from the bulkhead fitting 2 Remove the distributor arm by unscrewing the nut that attaches the arm to
290. uperior Lincoln Nebraska 68504 USA Mailing Address P O Box 82531 Lincoln NE 68501 Phone 1 402 464 0231 FAX 1 402 465 3799 Laboratory Equipment for Light Industrial Commercial Environments 6712 Sampler 6712 Sampler with AQ700 sensor 2014 EN 61326 2006 EMC Requirements for Electrical Equipment for Measurement Control and Laboratory Use EN61010 1 2010 Safety Requirements for Electrical Equipment for Measurement Control and Laboratory Use Standard Description Severity Applied Performance Criteria EN61000 4 2 2008 Electrostatic Discharge Level 2 4kV contact discharge A Level 3 8kV air discharge EN61000 4 3 2006 Radiated RF Immunity 80 mHz to 2 7gHz 80 AM at 1 kHz A1 2007 A2 2010 Level 2 3V m A EN61000 4 4 2004 Electrical Fast Transient EFT on Level 2 1KV on AC lines A A1 2010 Mains and I O EN61000 4 5 2005 Surge on AC Lines Level 2 1kV Line Common Mode A Level 2 0 5kV Differential Mode EN61000 4 6 2008 Conducted RF Immunity on Mains and 150 kHz to 80 mHz A Level 1 1V rms 80 Modulated EN61000 4 11 2004 Voltage Dips 0 during1 cycle and full cycle A 70 at 25 cycles CISPR11 RF Emissions Radiated below 1GHz Group 1 Class A Industrial Scientific and PASS EN 55011 2009 and Conducted AC Mains Medical Equipment A1 1020 EN61000 3 2 2005 AC Harmonics Flicker PASS A1 2008 A2 2009 EN61000 3 3 2008 1 the undersigned hereby d
291. ure to collect the readings before the partition fills or rolls over to avoid gaps in the data 5 43 6712 Portable Sampler Section 5 Extended Programming 5 20 Pressurized Lines The sampler can obtain samples from pressurized lines as long as the line pressure remains below 15 PSI pounds per square inch Pressures greater than 15 PSI may prevent the sampler from purging the suction line moreover extreme pressures can force liquid past the pump even when the pump is not running For more consistent sample volumes from lines under constant pressure calibrate the samples For information about sampling with line pressures greater than 15 PSI contact Teledyne Isco 5 21 Command Driven The 6712 controller can be used as a slave to an external con Operation troller The external controller is responsible for determining when to take a sample how much volume to pump and where to put the sample The external controller directly interfaces to the sampler via an RS 232 communications port at 2 400 19 200 baud 8 data bits no parity and 1 stop bit A comma sepa rated value protocol is used by the external controller to make requests and by the sampler to report results Use a standard computer connect cable see Appendix E to connect the sampler s interrogator port and the external controller For information on serial data codes and their meanings refer to Table 5 5 Serial Data Codes in this section The 6712 Sampler will res
292. urn the instrument to Teledyne Isco and Teledyne Isco will pay surface transportation to return the repaired instrument to the customer Teledyne Isco will not pay air freight or customer s packing and crating charges This warranty does not cover loss damage or defects resulting from transportation between the customer s facility and the repair facility Teledyne Isco limited warranty The warranty for any instrument is the one in effect on date of shipment The warranty period begins on the shipping date unless Teledyne Isco agrees in writing to a different date Excluded from this warranty are normal wear expendable items such as pH sensors charts ribbon lamps tubing and glassware fittings and wetted parts of valves and damage due to corrosion misuse accident or lack of proper maintenance This warranty does not cover products not sold under the Teledyne Isco trademark or for which any other warranty is specifically stated No item may be returned for warranty service without a return authorization number issued by Teledyne Isco This warranty is expressly in lieu of all other warranties and obligations and Teledyne Isco specifically disclaims any warranty of merchantability or fitness for a particular purpose The warrantor is Teledyne Isco 4700 Superior Lincoln NE 68504 U S A This warranty applies to the USA and countries where Teledyne Isco does not have an authorized dealer Customers in countries outside
293. urn to the technique to see help notes for programming screen other screens See Installing un Suction Line in your manual more Press or Down Right to see the next screen Press Up Left to see the previous screen Press Stop to return to the programming screen Press the red STOP key to exit HELP Press Up Right to see the previous notes Press Stop to return to the programming screen 3 6 3 Warning Messages Warning messages appear when the sampler determines some thing is out of the ordinary For example the following warning appears when you type a number that is larger than the standard bottle volume BOTTLE VOLUME IS 3500 ml 300 30000 WARNING STANDARD BOTTLE VOLUME EXCEEDED The 6712 does accept nonstandard volumes because you might use a nonstandard container occasionally For a list of recom mended volumes for Teledyne Isco bottles press the Help key at the Bottle Volume Is screen or refer to the Technical Specifi cations 3 10 3 6 4 Operation Messages 3 7 Menu Trees 6712 Portable Sampler Section Programming Introduction The 6712 uses the bottle and sample volume settings to determine the maximum number of samples that can be deposited without overfilling the bottles Entering a volume that exceeds the standard volume may cause the sampler to overfill the bottle An operation message reports the sampler s status as i
294. ut Interface 2 11 Locking the Sampler 2 12 Servicing the Sampler 2 16 Teledyne Isco offers stainless steel cables to lock the sampler standard size use P N 68 6700 134 compact use 68 6710 111 To lock the sampler place the hook through the center section latch Repeat this for the other two latches and then pull the ends of the cables together over the top of the sampler Lock the loops with the padlock You can also lock each latch individually using three padlocks one for each of the latches Servicing the sampler includes e Recovering the sampler from the monitoring site Collecting the filled sample bottles and replacing them with clean bottles e Replacing a battery if required e Collecting the data recorded by the sampler during the program 2 13 Recovering the Sampler 2 14 Collecting Sample Bottles 2 14 1 Compact Sampler Bottle Collection 6712 Portable Sampler Section 2 Installation Preparation Samplers are usually serviced after they complete a sampling program When working up a service schedule you will need to estimate the program completion time You should also be familiar with the program s settings for the start time or if the sampler is programmed for continuous sampling Continuous sampling is controlled by the distribution setting entered at the RUN CONTINUOUSLY screen A YES response directs the sampler to reset the distribution sequence and continue the countd
295. ut and Dialout Quick View Screens A 22 A 24 SDI 12 Sonde A 23 6712 Portable Sampler Table of Contents List of Tables 1 1 6712 Standard and Compact Sampler Features 1 6 1 2 6712 Standard and Compact Sampler Construction Materials 1 9 1 3 Technical Specifications for the 6712C and Standard Samplers 1 10 1 4 Connector Specifications 1 18 2 1 Distributor Arm Adjustments and Discharge Tube Lengths for Bottle Kits 2 2 2 2 Discharge Tubes for Composite Sampling 2 8 2 3 Selecting the Right Strainer 2 11 2 4 Connecting Teledyne Isco Instruments to the Sampler 2 16 3 1 About the 3 2 4 1 Standard Program Sample Every 15 Minutes One Sample Per Bottle 4 2 4 2 Standard Program Flow Paced Sampling Two Bottles Per Sample 4 3 4 3 Reports Program Events Source Codes and Error Codes 4 23 4 4 Programming Example With 730 Module Installed 4 31 4 5 Programming Example With 750 Module Installed 4 34 5 1 Selecting a Stored Extended Program 5 3 5 2 Storm Water Runoff Sampling
296. you first turn the sampler on You can switch between programming modes by typing in a numerical command at the main menu Atthe main menu type 6712 2 to show the extended programming screens e At the main menu type 6712 1 to show the standard programming screens You have the option of having screens display in English or another language The default is English At the main menu type 6712 8 ENGLISH SPANISH Use the arrow keys to move between the choices languages other than those shown above could appear on your unit When the language choice you want is blinking press Enter The J Enter key always accepts the blinking option menu is a list of options The main menu has four options RUN PROGRAM VIEW REPORT OTHER FUNCTIONS The options identify the operations that can be performed from the menu For example to run the sampling program select RUN to modify the program select PROGRAM In menu screens one menu option always blinks e Press when the blinking option is the one you want it will accept your choice and go to the next screen Select a different option by pressing an arrow key until the option you want blinks Then press J Number entry screens prompt you to enter a value An example is shown to the left To enter a number Press the number keys to type the number Then press J As soon as you press the sampler saves your number and moves to the next
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