SEBA - TERM
Contents
1. 36 Sih DExit PPO STAIN a Sa EE CR ee ar erit ed Sada ee aede a ie pa a e ee Ea d ee cde t 37 3 22l 2GCommaond mode AU EQWU REESE Sao Es Ls eS 37 nnDO 37 38 3 2 2 gt COMMON mode q d et Ee E pe t et a 38 ULO 38 3 4 MENU STANDARD FUNCTIONS esee eee eese enses teta atn tata 38 3 4 1 Standard functions Automatic measurement mode eee eese 38 3 4 2 Standard functions Dipper Mode 38 3 4 3 Standard funtionis 7 Single value set a OU E ER re tede gabe entero cake 38 3 4 4 Standard functions Permanent connection to probe eee eene entente trennen trennen ener 38 3 4 5 Standard functions Recorded values tne nnne tenente trente entes 39 40 DDT Device CHANGE 3 Eon ei eO GR rper Oe es 40 3 5 2 Device Selection of MPS D KLL Q Multiplexer eese eee retener nennt rennen teens 40 3 5 3 Device Prefetences icit D EE e REQUE EU RE iiber etn 40 3 48 SEBA HYDROMETRIE user manual 3 6 E 41 3 7 MENU OPERATOR2. M 22 Exit Progr mssis a ERR ORG ETE TERE 2 2 2 CHANGE a ee te Rn e ete pde dept e eai o eds 2 23 gt Me sWremehtsmiode uet ceto estan Coan veut erede ed ure eu 2 2 4 Command mode as tn HEU E deu en Er RR n 2 3 ULO 2 4 3 3 Newmeasuring valitex 4 o RU RN qp din Tad e E A es 2 4 4 Standard functions Permanent connection to probe eese eese nennen nennen trente entente ene A 2 9 FDeyice Change is te cede er tet e te e t eee pie det e eate te taste 2 5 2 Device Selection MPS D KLL Q Multiplexer cesses eene nre enne enne eten ene 2 9 3 DevVice7 Preferences o 2 6 MENU 2 6 1 File E0g1h nee pee p re i eite tie ia eg TATE DE Ee et eue ned E eid 2 0 2 File LLC BOUL euet eee eie 2 0 3 Filey Select language iei es ate ed iei n rt eee eee eoe red Reb rettet 2 64 File LEX ti i e e te e HRS EE REA DERE HEAR Ur erint eem eite M A ree e b eR 2 6 2 File SAVE icio tess teet e RE e E ERU aves dads RENE RENE btt ee EE CHER Pee E RARE 2 7 MENU OPERATOR FUNCTIONS cccscssssssrssssssssssssssssessessesensescensesscesensescesenesseesensesenessesseseesese
3. SEBA TERM Product No Revision File Author Last change SEBA HYDROMETRIE Gewerbestr 61a D 87600 Kaufbeuren Tel 49 0 8341 9648 0 HYDROM ETRIE Fax 49 0 8341 964848 SWE 370 2 2 from SW 1 10 and from MPS D SW 3 09 Arch Orig ma sp 24 02 2005 SEBA HYDROMETRIE user manual Contents 0 INTRODUCTION TO THE TERMINAL PROGRAM SEBATERM OD General functions iius ae tt i P terr RO e RR a iO Cade HR E HE e F e e Eee ue ER 0 2 Connection SEBATERM to the instruments eese eene hh rr erre nr terrere ene 0 3 Programi setup and first STEPS ic doe sees ete e P e RE ERR eas dens RES 0 4 Information to the operation manual eese UOPUn FA Installation under on t e eb 1 1 2 Installation under Win95 Win98 WinNT WinXP or 2000 IPAQUMUNOLUn LDA Selection Of the l nguage a ee Ud Ua HE HERE b taste ees te epe 1 2 2 Selection of the interface to MPS D KLL Q Multiplexer cessent nenne nennen nenne 2 TERMINAL PROGRAM IN MPS D totns ine tota sone tasa sene U
4. Entry Slope old 02 actual value Slope new 5 02 value Deviation T 19 23 a 126 Digit AMaluel0 0497 hPa Digit 0 00002 02 2 8 6 1 2 Alternatively the manual calibration with reference values can be used Here at first known oxygen concentration will be inserted as rated value With the button measure current value the actual measuring value will be accepted From these values the new slope will be calculated The new calibration data can be printed and accepted with OK With indication of the drift since the last calibration calibration intervals can be estimated and a linear drift correction of the recorded values within the measuring period can be effected A strong increase of the sensor slope indicates humidity resp a defect membrane fracture With the button digital values the digitized measuring values and the A and B values will be indicated which will be transmitted to the MPS D by acceptance of the calibration Evaluation of the sensor status Evaluation Criteria excellent slope 90 105 good slope 80 110 sufficient slope 70 120 bad slope 60 140 sensor out of range 60 gt slope gt 140 For measurements with high accuracy requirements the electrode should be estimated as good or excellent Generally in case the electrode is estimated as sufficient the accuracy is
5. Attention Use the negative sign by inserting the value After confirmation with OK the new values will be transferred into the probe Then for control purposes the water level to the defined reference point will be indicated b Probe is not installed The probe has to be held in vertical position outside the medium We recommend to shake slightly so 20 48 SEBA HYDROMETRIE user manual that also the remaining water drops will be removed from the supply tube of the pressure sensor After confirmation a window opens in which the actual zero point of the water level value continuously will be indicated If the indication is stable the status will be stored with ok The so received values will be taken for the zero point correction of the sensor At last insert the required hanging depth as rated value in the window offset calibration As a result the parameter will automatically be calculated that after installation of the probe the negative tapping value arises By installation in the field the probe will be lowered as far as the requested tapping value has been arrived which before had been measured with an electric contact meter 2 8 2 3 3 Water level above normal zero or other reference point The sensor will be adjusted that the outputted water level corresponds to the height of the water level above normal zero or another reference height zero point for example top of well 700m above sea level tapping
6. Eibsee Steg Partenkirchen Pune 5 Grainau Hohlentalklamm Farchant 10 Garmisch Loisach Oberau EM 15 Partenkirchen Partnachklamm Eibsee 7 20 Farchant Kuhflucht Grainau 1 25 berau Loisach 50 Pumpstation 1 Golfplatz 55 Pegel 1 Golfplatz _ 60 Wasserspeicher Kletterfels 100 Kaufbeuren Kaufbeuren 10 Baisweil Baisweil 3 add the marked station to the route plan 4 remove marked station 5 moving of the stations in the route plan from route plan for determination of the sequence pic 3 8 3 2 Handling of the route definition is as follows First of all insert a route name 2 into the input field route and add it with the button New Route 1 into the route list Additionally a comment can be inserted In the bottom window part the stations will be added or removed to the route list according to the horizontal arrows 3 4 The sequence of the planned measuring sites in the route plan can be changed with the vertical arrows 5 The marked measuring site can be moved with these arrows within the list The marked station is the starting point by transfer of the route With the button transfer route 6 the route plan will be transferred to the KLL Q By clarification of the starting point signifies yes that the marked station will be set and no the first station The memory of the KLL Q must be empty If this is not the case the measuring data should be saved see item 3 8 4 and then the memory should
7. ascilFomat E SEBA 2_SYS pic 3 4 5 2 pic 3 4 5 3 For further procedure the files be loaded into the SEBA programs MGMDS pic 3 4 5 4 and MLMDS resp in DEMAS At each new execution of the command Save all values the files will be written again So changes which are executed in the following programs go lost Therefore please take care that measuring values which are no more necessary will already be erased in the Sebaterm program MGMDS Win Version 1 50 1992 1995 SEBA Hydrometrie D Kaufbeuren em x Datei Darstellen Sonderfunktionen fili E RSA Eg 122 54 0 65 5 53 1 091 Dateiname Ordner 515 6 515 7 asc c seba sebaterm files LE 5 00 Abbrechen O E SEBATERM 1 000 FILES 3 TEST qu H 4 00 Dateityp Laufwerke 1 n ate Dateien c SEBA72 SYS z 0 00 Garmisch 0 900 fF 3 00 80 00 uini 70 00 Pc mws 100 INTU ens mail ms Garmisch Garmisch armisch 001 olco c LEICA Kc ERE een Garmisch Garmisch 0 800 Garmisch 60 00 50 00 100 7 00 302 40 00 0 00 200 30 00 0 03 0 600 20 00 F 1 00 10 00 6 01 5 97 6 00 0 04 278 181 0 514 19 07 89 23 02 53 Stunden 20 07 99 02 16 40 pic 3 4 5 4 40 48 SEBA HYDROMETRIE user manual 3 6 Menu File All options are identical to those in the MPS D see item 2 6 3 7 Menu O
8. 2 8 2 1 1 current value stability Konstanz 0 02 Current Value Values 0 007 mwS w Current Value Last Value 0 007 mwS pic 2 8 2 1 1 In the next window pic 2 8 2 1 2 the respective rated value will be inserted and the offset B value will be calculated new With OK the new calibration data will be accepted and in the following control window the new actual current value will be indicated Offset Calibration MPS D Nr 602 19 10 99 13 35 50 Old and B Values 0 01142 X Cancel 170 32655 Calibration value New and B Values B Value insertion rated value accuracy 0 05 in air Omwl lt X new offset pic 2 8 2 1 2 17 48 SEBA HYDROMETRIE user manual 2 8 2 2 Calibration water level 2 point For the 2 point calibration 2 exactly known reference values accuracy lt 0 05 of the measuring range end value must be available Therefor the zero point and the measuring range end value can be used If the measuring range is used partially only in practise the sensor calibration should be adjusted to this range in order to achieve the best accuracy The first current value will be recorded Opposite to the offset calibration it is not available as parameter unit but as digital value The A D converter presents values from 32768 up to
9. 9 48 SEBA HYDROMETRIE user manual The selectable options are 2 2 1 Exit Program This button serves for finishing the program in case of disconnection resp by exceeding the transmission times to the MPS D or return into the command mode and to restore the connection to the probe with Device Change 2 2 2 Change probe Change probe as described under item 2 1 2 2 2 3 gt Measurement mode The probe switches into the automatic measuring mode see item 2 1 2 2 4 gt Command mode The probe switches into the command mode see item 2 3 2 3 Command mode J Multifunctional Terminal Software for MPS D and KLL Q 1 08h File Standart functions Device Help Operator functions Calibration MPS DHE02 05 99 304 OK 2 2400 DTR ATS 0 105444 pic 2 3 The probe sends its configuration as standby message and then it waits for further commands In the bottom line the serial number 1 the software version 3 and the month of setting into operation 2 of the connected probe as well as the transmission status 4 and the active interface 5 will be displayed From this position the complete main menu pic 2 3 is available 10 48 SEBA HYDROMETRIE user manual 2 4 Menu standard functions Standard functions are functions which don t result in changes in the adjustment or calibration of the probe Therefore also unskilled personal can use them without restrictions 2 4 1 Standard functions
10. 3 and the active interface 4 are shown 8 48 SEBA HYDROMETRIE user manual The selectable options are 2 1 1 Exit program This button serves for finishing the program in case of disconnection resp by exceeding the transmission times to the MPS D or return into the command mode and to restore the connection to the sensor with Device Change 2 1 2 Change probe The PC adapter will automatically be switched off so that the probe can be changed in non supplied status The next switching on will be effected after confirmation Attention The probe must only be exchanged after activation of this option or after leaving the software This option is also available out of different other program positions for example main menu DEVICE CHANGE 2 1 3 gt Dipper mode The probe switches to the dipper KLL mode see item 2 2 2 1 4 gt Command mode The probe switches to the command mode see item 2 3 2 2 Dipper mode Multifunctional Terminal Software for MPS D and KLL Q 1 08h Bie Stendarbfurctions Device Help Gperetorfunctions Calibration No contact with surface Message 251 correctly received MPS D 602 05 99 3 04 OK 2 2400 DTR RTS 0 105317 pic 2 2 After switching on the sensor sends the actual contact meter status without any demand In the bottom line the serial number of the connected probe as well as the transmission status and the active interface are displayed
11. and B Values A Value 0 01142 B Value 1 70 32655 current value Measurement Correct Value an insert rated value 0 02 C N ew A and B Yalues new offset pic 2 8 1 1 2 In the final window the current value calculated with the new calibration data can be controlled with the rated value 16 48 SEBA HYDROMETRIE user manual 2 8 1 2 Calibration temperature 2 point The 2 point calibration is accessible for the manufacturer only 2 8 2 Calibration water level The pressure sensor has a low drift The offset drift amounts to approx 0 1 a the drift of the slope generally is lower so that a simple offset calibration for air pressure is sufficient in most cases There is the possibility to follow up the offset and to adjust the slope with a 2 point calibration The reference pressures resp the dipping depths should have an accuracy of 0 05 of the measuring range end value of the pressure sensor Additionally the reference point can be adjusted at the measuring site 2 8 2 1 Calibration water level offset Here the offset of the pressure sensor can be re adjusted with a reference pressure The simpliest method is to effect this in the air in installation position The execution is parallel to the offset calibration temperature First the rated pressure will be lead to the sensor and the current value will be accepted by stability pic
12. 32767 By stability the digital value 1 will be accepted In the window 2 point calibration the rated value 1 will be assigned This will be confirmed with Then the current value 2 will be recorded This will be assigned to the rated value 2 pic 2 8 2 2 The new calculated increase and offset will be indicated in the left bottom of the window transmits the new calibration data to the MPS D 2 Point Calibration current value 1 stability 0 05 in example approx 12 digit MPS D 602 19 10 99 16 12 12 Old A and B Values 2 B Value 0 02968 rated value 1 in mwl accuracy 0 05 inserted current value 2 stability 0 0596 in example approx rated value 2 in mwl accuracy 0 05 inserted 12 Digit B Value 0 03601 J new offset in new increase in mwl mwl digit pic 2 8 2 2 2 8 2 3 Operator functions Set reference This menu item is only available if a pressure sensor for water level measurements is installed With this option the set up of the measuring site and of the reference point for water level measurements will be adjusted Three different modes for indication of the water level are available gt positive elevation below top of well tapping with positive sign gt positive elevation below top of well tapping with negative sign gt water level above normal zero or other reference point
13. 4 Information to the operation manual In the SEBATERM operation manual the different program modes are systematically described in their own chapter In case of repeating descriptions of submenu items usually reference is made to the chapter in which they had been described at first The terminal program is subject to a steady further development and improvement of existing components New functions will be implemented in order to handle the instruments more flexible and more comfortable Also new instruments will be added which can be operated resp adjusted with this program The description of the terminal program SEBATERM is based on the software version 1 10 Former versions don t contain all functions described hereunder The functions 3 8 2 2 memory operation mode short term logger and 3 8 2 3 memory operation mode profile logger are not resp not completely implemented up to now The adjustment of the instrument Multiplexer see item 4 is not accessible for the user at present These items are in preparation and will be contained resp will be accessible for the user in one of the next versions We try to place our further developments to the customer s disposal as quick as possible In case you will not get automatically an Update version and you want to use the new functions please give notice to SEBA Hydrometrie with indication of your instrument identification number We will submit you the suitable version 6 48 SEB
14. Automatic measurement mode The MPS D switches into the automatic measuring mode as described under item 2 1 2 4 2 Standard functions Dipper mode The MPS D switches into the electric contact meter mode as described under item 2 2 2 4 3 Standard functions Single value set A single measuring value set will be called and displayed as in the automatic measuring mode At the same time the actual voltages of the lithium cells the MPS D of the parameters pH O2 and Redox if installed will be measured and stored Till the next activation of this function these values remain As the lithium voltages change very slowly it is sufficient to actualise them by each calibration or check of the probe The lithium cells have to be changed at 2 8V service technician or reconditioning at SEBA Two options are available 2 4 3 1 Exit programm By disconnection the program can be left see item 2 2 1 2 4 3 2 Command mode The probe switches into the command mode see item 2 3 2 4 3 3 New measuring value A new measuring value set will be called 2 4 4 Standard functions Permanent connection to probe This command is not available in the MPS D mode 11 48 SEBA HYDROMETRIE user manual 2 5 Menu device 2 5 1 Device Change Change probe as described in item 2 1 2 2 5 2 Device Selection MPS D KLL Q Multiplexer The terminal program switches between the operation modes MPS D KLL Q and Multiplexer 2 5 3
15. FUNCTIONS u cccscssssssrsssssssssessssssenscssensnsessenenssssessssscesssessesssesenssssseensesssesseenessesessessesessessesessers 41 3 7 1 Operator functions Switch off time edens 4I 3 7 2 Operator functions Display interval 4I 3 7 3 Operator functions Display time for info messages eese eene nennen trennen rennen netten trennen 41 3 7 4 Operator functions Count of e a e teen KE oE n eE 41 3 7 5 Operator functions Temperature compensation for conductivity measurement eene 42 3 7 6 Operator functions User management pisa eai icas sai evini e prep eb LE prets 42 RPnn 42 3 0 Memory Set times NUR RA gia e E ED E Coe or gue bleed 42 3 6 2 Memory Selection of the memory operation 42 3 6 2 1 Memory operation mode Notebook trennen 43 3 6 2 2 Memory operation mode short time logger eese eene eene nennen 43 3 6 2 3 Memory operation mode profile logger eese eee 43 3 8 3 Memory Route planning and station names 43 3 6 Del SIAM ONS ce a ee e PEU VR ERROR ED EP re E DOE e E e Dea eR oe DAD EU SE Ru Rp 43 3 60 32 IROULE PLANING HC 44 3 0 4 Memot
16. and erased Depending on the version of the KLL Q you can select between the memory operation modes of notebook short time logger and profile logger 42 48 SEBA HYDROMETRIE user manual 3 8 2 1 Memory operation mode Notebook By pressing a key the measured values will be stored with name of measuring site and date time Storage capacity up to approx 6 000 measuring values is available In case of exclusive use of a MPS D with 6 parameters this corresponds to approx 1 000 complete data sets 3 8 2 2 Memory operation mode short time logger Not yet implemented 3 8 2 3 Memory operation mode profile logger Not yet implemented 3 8 3 Memory Route planning and station names With this tool all measuring stations can be gathered in one list out of which any required measuring route can be planned The desired measuring route can be transferred into the KLL Q 3 8 3 1 Stations In this window measuring sites will be defined To each measuring site a number and a station name max 16 signs will be assigned to which additionally a comment can be inserted max 40 signs The handling will be supported by the menu bar in the bottom window line which is described in detail under item 2 7 6 amp Route and Station Planning Of x Stations if Fouts Station no Comment 0 Eibsee Eibsee Steg 5 Grainau H hlentalklamm b 10 Loisach 15 Partenkirchen Partnachklamm 20 Farchan
17. independently The uncompensated measuring value of the MPS D will be accepted in case it is constant and forms the new cell constant with the uncompensated rated value of the solution By stability the button will be switched active and the new cell constant can be accepted and printed Manual calibration with a reference value The MPS D will be dipped into a calibration medium together with the reference instrument if possible adjusted to the measuring problem By selection of the calibration method the recorded reference value will be inserted as rated value in the calibration window Then with the button actual value the actual measuring value will be called The new cell constant will be calculated from actual and rated value which can be accepted with the active switched button The requirement for this calibration is that the same temperature compensation has been adjusted at the MPS D and reference instrument and that the reference value has at least an accuracy of 0 5 96 22 48 SEBA HYDROMETRIE user manual Write cell constant After selection of Write cell constant you can write into the field New cell constant and accept the value with Mode write cell constant Actual adjusted temperature compensation Insertion of new cell constant Mode automatically T comp is deactivated Cell constant calibration selection mode Calibration cell constant for
18. info messages In the standard adjustment the info texts for the users will be displayed 3 seconds A user who will get acquainted to the instrument can extend this time and a skilled user can shorten it in order to save time The range from 1 29 seconds is available 3 7 4 Operator functions Count of decimals A table opens which determines the display of the numbers of places after the comma for each installed parameter Attention An increase of the number of places after the comma does not always lead to an increase of the accuracy The maximal possible accuracy depends on the sensor So for example the increase of the places after the comma for temperature from two to several places don t result in an increase of the accuracy as the sensor has an accuracy of 0 1 C only The remaining places have no expressiveness Display of more places after the comma than the indicated accuracy is sufficient to determine tendencies Moreover the limited place of the display has to be observed so that each parameter inclusive unit and sign can be displayed in max 8 digits The adjustment influences the display of the measuring values in the terminal program and the KLL Q 41 48 SEBA HYDROMETRIE user manual 3 7 5 Operator functions Temperature compensation for conductivity measurement This menu item is only available if the sensor connected to the KLL Q is equipped with a conductivity measurement There are four diffe
19. inserted into the measuring data table pic 2 8 7 1 1 For a new calibration of the sensor the voltage values can be determined by inserting the rated turbidity values of the calibration solution and the respective voltage values of the sensors 33 48 SEBA HYDROMETRIE user manual Insertion of the rated Insertion or measurement of turbidity values the sensor voltage 2 point calibration turbidity Data table turbidity for probe Nr 200 04 11 2003 11 48 56 Measure range 1 Sensor voltage CAL value 1 mV Measure CAL value2 800 1950 Measure aa 2 8 7 1 1 With the measuring data will be accepted and the new calibration data calculated In the following window they will be indicated pic 2 8 7 1 2 The calibration data can be printed and accepted with OK deviation drift to last New sensor new calibration Deviation offset to last slope offset calibration amp Calibration data table turbidity Calibration data table turbidity tar p UU am UA 11 2UU3 11 51 cas range 1 Slope Al Ofisct 01 w x Prinl Help NTU pic 2 8 7 1 2 2 8 7 2 Calibration Turbidity TSS With this menu item the TSS factor can be inserted with which the turbidity can be calculated into the share with suspended matters mg l or ppm Either the factor is known and can be inserted directly or it can b
20. on and the infrared interface connection must be built up This function will be used if the measuring data from the KLL Q should be rejected or the measuring data are already stored in the databank and have not been erased after read out 45 48 SEBA HYDROMETRIE user manual 4 Terminal Programm in the Multiplexer Mode Via the Multiplexer up to 8 MPS D probes can be connected to a receiver instrument which has one MPS D input channel only For steering up the Multiplexer to the terminal program SEBATERM its output will be connected with the PC adapter installation see item 1 at the connection sensor After starting the software SEBATERM in the menu item Device the operation mode Multiplexer must be activated In the left bottom corner of the status line the abbreviation Mul with the serial number of the Multiplexer appears In the Multiplexer mode the same standard functions see items 2 1 2 3 2 6 are available as in the MPS D mode except the KLL mode The operation functions contain all functions which are necessary for adjustment of the Multiplexer These are write configuration word and restore original configuration out of the EEprom With these available functions the Multiplexer can be configurated and the measuring values of the MPS D probes which are connected at the Multiplexer can be called 4 1 Adjustment of the Multiplexer 4 1 1 Write configuration word In the menu item OPERATOR FUNCTI
21. sonde 602 19 10 99 13 58 58 actual Manual Automatic write cell constant measuring Reference value 0 01 mol l KCL value MPS D mode manual reference value Temperature compensation Groundwater 1 150 1 154 Temperature 19 95 E Old cell constant Actual value insertion of rated value New cell constant value final actual value measurement pic 2 8 3 1 2 8 3 2 Operator functions temperature compensation This menu item is only active if the probe is equipped with a conductivity measurement The following adjustments does not influence the determination of the salinity if installed so that the conductivity measurement can be configurated completely independent from the salinity measurement Four different compensation modes can be selected 2 8 3 2 1 Deactivate compensation The measured conductivity will be outputted directly without temperature compensation 2 8 3 2 2 Temperature compensation for groundwater The temperature compensation will be effected according to the non linear function for compensation of natural waters nLF acc to EN27888 1994 23 48 SEBA HYDROMETRIE user manual 2 8 3 2 3 Temperature compensation for standard seawater The temperature compensation will be effected according to the non linear function for compensation of seawater nLF to OT1971 Standard seawater Kopenhagener water 2 8 3 2 4 User specific tem
22. sufficient but a change of the electrode will be necessary within short time In order to guarantee a high quality of the measurement the electrode should be changed in case it s estimated as 92 48 SEBA HYDROMETRIE user manual 2 8 6 2 Calibration Oxygen Zeropoint With this menu item the zero point will be adjusted from the manufacturer The user has the possibility to check the zero point and if necessary to re adjust it This calibration will be effected as the automatic 1 point calibration As rated value zero will be indicated This function can also be used for identification of errors In case the stability criteria cannot be kept with pulled off sensor this may be caused by humidity or a defect at the measuring amplifier In zero solution the sensor must reach nearly the same zero point as by measurement with pulled off sensor If this is not the case humidity may be in the sensor plug the sensor is consumed or the membrane has a fracture 2 8 6 3 Calibration Oxygen Air pressure In this position the air pressure value will be adjusted which is necessary for calculation of the oxygen contents and concentration The mean value of the measuring site depending air pressure will be inserted as default air pressure and actual air pressure 2 8 6 3 1 Default value This value serves for determination of the Oz contents with the MPS D As the MPS D cannot measure the existing air pressure a middle
23. the measuring period can be determined and the status of the electrode can be estimated The calibration intervals can be effected according to the accuracy requirements of the user The measuring values can be compensated nearly linear for this time formula 2 8 4 1 For quality securing the calibration data can be printed and put into the archives Attention Observe the safety instructions for use with buffer solutions The buffer solutions have to be handled carefully as chemicals pH 2 Point Calibration Ea Selection Automatic Manual Calibration solution 1 pH Actual 1 pH Conect 1 Message 14 corectly received End of phase 1 pic 2 8 4 1 1 26 48 SEBA HYDROMETRIE user manual pH 2 Point Calibration x Data for Calibration Sere nia ofa ov Selection Automatic Manual Results pH 2 Point Calibration for Probe Nr 602 19 10 99 15 37 16 Deviation Slopf21 Deviation 0159005 pH pic 2 8 4 1 2 Evaluation of the electrode status Evaluation Criteria excellent S 58 59 5 mV pH and U offset 15 415 mV good S 57 60 mV pH and offset 30 30 mV sufficient S 55 61 mV pH and offset 40 40 mV bad S 50 62 mV pH and U offset 50 50 mV sensor out of 50 mV pH lt S lt 62 mV pH or specification 50 mV gt U offset gt 50 mV For me
24. water level for example 20m a entry sebaterm 680m probe installed XE water level depth of MPS D displayed for example 30m value 680m b entry sebaterm 670m probe not installed iN installation position Y probe 670m above s pic 2 8 2 3 3 Its different whether the probe is in installation position or not The installed probe would be the ideal status for an automatic set up Nevertheless this is only possible if the connection cable of the probe ends freely at the top and therefore can be connected to the PC adapter for set up in installed condition 8 Probe is in installation position For set up o the pressure measurement the water level above normal zero must be known resp must be measured and has to be inserted into the window offset calibration After confirmation with OK the new values will be transferred to the probe For control purposes the water level above normal zero will be indicated b Probe is not installed The probe has to be held in vertical position outside the medium We recommend to shake slightly so that also the remaining water drops will be removed from the supply tube of the pressure sensor After confirmation a window opens in which the actual zero point of the water level value continuously will be displayed If the indication is stable the status will be stored with ok The so received values will be taken for the zero poi
25. 26 2 0 4 2 C libr tion Z pH offset sies e o OB a d T emet p ee UR Rb 26 2 0 29 Calibration Redox s s o ep e a oed RT ena ne E dM 29 2 8 5 1 Calibration Redox offset esses esee eee 29 2 6 5 2 Calibration Redox 2 point eter tette pe 31 2 8 5 3 C libration Redox Set reference esae eee tke e pr Rte reete 31 2 8 6 Calibration OXygen ii oen ata ee eara t ndo e pedet Eire 31 2 0 0 1 Calibr tion 7 Oxygen I point iu saa REED Ue ce ap acted os eI Re be dee teen 31 2 6 6 2 C libr tion Oxygen Zeropoint a i de Ree ede b te ebd 33 2 6 6 3 Calibration Oxygen Air pressure esses 33 2 60 31 Default value itt RUD DRIN ERREUR 33 2 8 0 3 2 iu ai d e a ERU PUR E EE MH EN ERG QUEUE e Pe ER 33 2 0 7 Calibration s Turbidityss ie epe e e eg ete a ces pete dette trt egt 33 2 8 7 1 Calibration Turbidity 2 point from MPS D software 3 08 eese eene ener nennen 33 2 6 7 2 Calibration Turbidity7 TSS cso e a EUR Re ou AER EE ELE SPI 34 2 8 7 3 CALIBRATION TURBIDITY WIPING INTERVAL creen eee entente tatu atn tatu atn tatu sons tatu sons 35 3 TERMINAL PROGRAM IN THE KLL Q 36 3 1 AUTOMATIC MEASUREMENT MODE reete eerte totns
26. 99 14 15 56 Entry calibration data Factor TDS Zeropoint TDS Calculate calibration data TDS Conductivity 240000 0 ppm Calibration value ppm Calibration value pic 2 8 3 3 1 Insertion rated insertion or measurement of values the conductivity amp Calibration data table lolx Calibration data table TDS Nr 6020n19 10 99 14 16 48 ew DS factor OLD NEW SlopeA A 1650 0 47 j ppm mS Offset B ppm Zeropoint 0 050 mS new offset TDS pic 2 8 3 3 2 25 48 SEBA HYDROMETRIE user manual 2 8 4 Calibration pH 2 8 4 1 Calibration pH 2 point The pH electrode will be adjusted with two buffer solutions An automatic and a manual mode can be selected The calibration will be effected in two phases In phase1 the pH electrode will be dipped into buffer 1 together with the temperature sensor After the first measurement pic 2 8 4 1 1 the sensors will be cleaned and then the electrode voltage will be measured in buffer 2 In case of an error code phase 2 can be repeated After finishing phase 2 the calibration result pic 2 8 4 1 2 will be indicated The slope of the electrodes will be determined in mV pH and their drift since the last calibration Moreover the offset voltage at the isothermal point of intersection generally at pH7 in mV and the offset drift since the last calibration in pH units will be indicated With these data the drift in
27. A HYDROMETRIE user manual 1 Installation The software will be delivered on 2 disks It can be operated under Win3 11 Win95 Win98 WinNT WinXP and Win2000 The actual SEBATERM version can also be down loaded from Internet Under www seba de download 1 1 1 Installation under Win3 11 Insert disk 1 into your disk drive normally A or B and select FILE EXECUTE out of the program manager Write A setup or B setup resp for A or B the used letter for the disk drive on your system The installation will be managed menu driven 1 1 2 Installation under Win95 Win98 WinNT WinXP or Win2000 Insert disk 1 into your disk drive normally A or B start with OPTIONS SYSTEM STEERING activate the icon SOFTWARE and install the program menu driven Alternatively in the EXPLORER the file Setup exe under the respective disk drive can be started directly 1 2 Set Up of the Program ji Start the program by pressing the icon KLL Q MPS D Sebaterm exe 1 2 1 Selection of the language Chose File SELECT LANGUAGE A menu opens in which the requested language can be selected In case the language has been changed the program will automatically be finished The change is valid from the next start 1 2 2 Selection of the interface to MPS D KLL Q Multiplexer Select Device Preferences A card index opens with one register card each for the adjustments of MPS D Multiplexer and KLL Q Indicate each time the used interface Norm
28. D connection so connect an adapter 25 pol sleeve 9 pol pins standard PC accessories or available at SEBA The IrDa interface must be positioned in a small distance approx 1 m with free sight to the front plate of the KLL Q After starting the program the connection to the KLL Q sensor will be built up in case the actual operation mode of the terminal program is KLL Q Under Device KLL Q you can change to the KLL Q operation mode The terminal program always starts in the operation mode in which it has been finished For set up of the connection the KLL Q must be switched on and no menu must be activated at the KLL Q The set up of the connection will be effected out of the measuring or KLL mode Depending in which operation mode the KLL Q is one of the following indications appear 3 1 Automatic measurement mode amp Multifunctional Terminal Software for MPS D and KLL Q 1 08h lef x Ble Standarbfhinctons Device Operator functions Help Automatic Measurement Mode gt a 3627 mV 2 d fr Total Suspended So displayed value To Total Dissolved Solid get the current value choose Single value set No contact with surface Last message Message 10 correctly received Kamo 10 99 511 OK COMI S600 RTS 0 15516 pic 3 1 36 48 SEBA HYDROMETRIE user manual If the KLL Q is in one of the indication modes for the quality measurement it sends continuously the measured
29. Device Preferences Here you can adjust the interface parameters see item 1 2 2 2 6 Menu data 2 6 1 File Login The program disposes of a programmable password protection for all functions which influence the conduct of the probe operator functions and calibration This password protection is programmable by skilled users In this menu item the legitimation for access to these functions will be inserted The password can be programmed by the system operator For the first call of the operator functions insert Operator as user name and SysAdmin as password observe the capitalisation After the individual input of user names and passwords this basic data can be erased from the operator see 2 7 7 By marking the field automatic registration logging in for the next starts is no more necessary This is valid as long as this function is active 2 6 2 File Logout Switches off the specific functions and return the program to the level without password 2 6 3 File Select language Selection of the language as described in item 1 2 1 2 6 4 File Exit The program will be finished 2 6 5 File Save as The measuring channels can be stored in a file in ASCII format 12 48 SEBA HYDROMETRIE user manual 2 7 Menu operator functions Attention These functions change the conduct or the calibration of the MPS D Therefore they are password protected and should only be used from skilled staff Login see it
30. Directly after selection of the menu item Operator functions adjustment of pressure measurement the desired mode will be selected The program changes into the window for pick up of the rated value This value can be accepted in case the indication remains stable 0 05 of the end value of the measuring range of the pressure sensor and no pressure fluctuations have effects to the sensor The program changes to the window offset calibration pic 2 7 3 automatically Here the rated value corresponding to the selected indication mode for the tapping and installation status of the probe have to be inserted The following items will show the calculation of this value 18 48 SEBA HYDROMETRIE user manual increase of pressure sensor old in mwi digit offset old in mwl Offset Calibration 5 Nr 602 19 10 99 13 54 09 Ok 01 and B Sf son A Value accepted B Value actual Calibration measuring value Measurement Correct Value New and B Values insertion of the rated value in mwl n A V alue 0 00035 30_03668 B Value pic 2 8 2 3 offset new in mwl increase pressure sensor new in mwl digit 2 8 2 3 1 Tapping with positive sign The probe will be adjusted that the outputted water level value is positive and corresponds directly to the value which was measured with an electric contact meter by the tapping me
31. NCTIONS AUTOMATIC MEASURING MODE all channels of the MPS D probe sampled from the Multiplexer will be displayed according to the configuration word pic 4 2 1 The measuring value will periodically be actualised The period length depends on the number of connected probes and amounts to approx 3 30 seconds Automatic Measurement Mode Drive C 47 1MB All Values 4 Exit program channels MPS D1 probe 1 is disconnected channels MPS D2 Change probe channels MPS D3 3563 mV Attention Current lithium value can be different from displayed value To get the current value choose Single value No contact with surface set rLast message Message 20 correctly received adjustment of the Muliplexer as in example 4 1 1 pic 4 2 1 4 2 2 Standard functions Single measuring value A single call of the measuring values will be effected and transferred in the configurated sequence Confirmation with the button NEW MEASURING VALUE repeats the procedure with the command mode or Close the window will be left see also item 2 4 3 1 Historie 48 48
32. ONS WRITE CONFIGURATION WORD the Multiplexer will be adjusted to the connected MPS D probe The occupied MPS D places MPS D1 to MPS D8 at the Multiplexer with the respective channel number will be inserted see pic 4 1 1 The channel number corresponds to the number of parameters which a MPS D probe transfers For acceptance of the configuration word the Multiplexer must be new started This can be effected with the button Change instrument in the measuring value window or in the menu Device Change instrument Edit configuration configuration sensor 1 channel v OK sensor 2 channel X cancel sensor 3 channel sensor 4 channel sensor 5 channel sensor 6 channel sensor 7 channel sensor 8 channel pic 4 1 1 With this configuration the number of channels and the channel sequence will be fixed To each channel a fixed channel number is classified under which it will be registered at the receiver instrument i e SEBATERM or datalogger In case a MPS D probe which is connected to the Multiplexer is not ready for operation due to a disturbance or due to the fact that the probe is not connected correctly this will be recognised Those channels will be marked as not defined In any case the channel places will be kept 46 48 SEBA HYDROMETRIE user manual Example Three MPS D will be connected to a receiver instrument via the Multiplexe
33. alibration The user has the possibility to adjust the offset only A defect sensor can be exchanged from the manufacturer only and new adjusted with a 2 point calibration The temperature sensor has a central position in the MPS D For calibration of other parameters it becomes automatically the rated value guideline and is used for temperature compensation of different sensors or also for measuring media compensation for conductivity This parameter can not be switched off at the indication and storing instruments 2 8 1 1 Calibration temperature offset By selecting this menu item the temperature offset can be re adjusted Therefore a reference instrument with an accuracy of 0 02 C and a respective calibration basin are necessary After request for dipping the sensor into the calibration medium a continuous current value measurement starts By stability it will be stored with the button accept pic 2 8 1 1 1 current value stability 0 02 C Current Value Values Current Value Cancel pic 2 8 1 1 1 This is already stored in the following window Offset calibration pic 2 8 1 1 2 The respective rated value from the reference instrument will be assigned in C The new offset B value will be calculated and indicated in the left bottom corner of the window The increase A value remains unchanged Offset Calibration MPS D 602 19 10 99 13 35 50 Ok Old A
34. ally COM or COM2 if the other one is already used by the mouse It is also possible to indicate the same interface for both instruments In this case the interface cable has to be exchanged for change of the instruments PC adapter for MPS D and Multiplexer IrDA adapter for KLL Q In case the PC has an internal IrDA interface select this for the operation mode of the KLL Q The baud rate for both instruments must not be changed These are 2400 baud for MPS D and Multiplexer as well as 9600 baud for KLL Q 7 48 SEBA HYDROMETRIE user manual 2 Terminal Program in MPS D Mode All connection works must be ready before starting the Terminalprogram The PC adapter will be connected with the delivered interface cable 9 pol Sub D plug 9 pol Sub D sleeve to the chosen port of the PC In case the port has a 25 pol Sub D connection connect at first an adapter 25 pol sleeve 9 pol plug standard PC accessory or available at SEBA The mainspart of the plug will be connected to the 12VDC sleeve of the PC adapter Attention At the first time of setting into operation the accumulators integrated into the PC adapter are not loaded So the first setting into operation has only to be effected by using external power supply mainspart of the plug or automobile connection cable The accumulators are loaded after 8h Then an operation time independent from mains supply for approx 3 h is available The sensor will be connected via t
35. asurement zero point for example top of well 700m above sea level 7 tapping water level for example 20m displayed a entry sebaterm 20m probe installed value 20m water level depth of MPS D for example 30m b entry sebaterm 30m probe not installed pic 2 8 2 3 1 It s different whether the sensor is in installation position or not The installed probe would be the ideal status for an automatic set up Nevertheless this is only possible if the connection cable of the probe ends freely at the top and therefore can be connected to the PC adapter for set up in installed condition 19 48 SEBA HYDROMETRIE user manual a Probe is in installation position For set up of the water level the tapping value has to be known and must be inserted into the window Offset calibration After confirmation with OK the new values will be transferred into the probe Then for control purposes the water level to the defined reference point will be indicated b Probe is not installed The Probe has to be held in vertical position outside the medium We recommend to shake slightly so that also the remaining water drops will be removed from the supply tube of the pressure sensor After confirmation a window opens in which the zero point of the water level value continuously will be actualised If the indication is stable the status will be stored with ok The so received values wil
36. asurements with high accuracy requirements the electrode should be estimated as good resp but a change of the electrodes will be necessary in short time In order to guarantee a high quality of the measurement the electrode excellent In case of sufficient generally the accuracy is sufficient should be changed at least at the estimation bad With the following formula a linear drift compensation of the measuring values during the measuring period at stationary operation can be effected MW comp MW 7 MW S Drift 1 00 Offset Drift tmw tka1 tkaiz tka1 MWhomp compensated measuring value MW recorded measuring value at time lan date of the last calibration lai date of the actual calibration tuw date of the recorded measuring value S Drift drift slope since the last calibration Offset drift pH displacement since the last calibration 27 48 formula 2 8 4 1 SEBA HYDROMETRIE user manual Automatic calibration By automatic calibration two of the technical buffer solutions pH 4 7 and 10 have to be used The buffer will be recognised automatically and the pH rated value will already be given temperature compensated The electrode voltage will be accepted automatically by stability In case the electrode will be estimates as sensor out of specification the calibration cannot be accepted Following error codes can be indicated at the calibration Error code Reason Remed
37. aused from the deviation of the reference system By offset compensation please note that the deviation could also be caused from diffusion potentials electrode contaminations or oxidation at the platinum electrode They could be different in the control medium as in the measuring medium and can cause a measurement failures Evaluation of the electrode condition Evaluation Criteria excellent Uoffset 15 10 mV good Uoffset 30 20 mV sufficient Uoffset 50 430 mV bad Uoffset 80 40 mV sensor out of 80 mV gt Uoffset gt 40 mV specification For measurements with high accuracy requirements the electrode should be estimated as good or excellent Generally in case the electrode is estimated as sufficient the accuracy is sufficient but a change of the electrode will be necessary within short time In order to guarantee a high quality of the measurement the electrode should be changed in case it s estimated as 29 48 SEBA HYDROMETRIE user manual Redox Offset Calibration for Probe Nr Reference standard hydrogen electrode Redox Offset Calibration Ed 602 07 10 99 15 26 35 Adjusted reference on the measurement mode Check Temperature U Actual U Correct U Offset 55 25 55 less ssse et enssos mM Ag AgCl mV Ag AgCl Measured ORP voltage from MPS D Correct value of the
38. be cleared see item 3 8 5 Later on you have still the possibility to effect the measurements with the KLL Q in another sequence and to store them It s also possible to add further measuring stations They will be called USERO USER1 etc and can be named by read out or the data can be added to an existing station Already defined routes remain stored if they are not erased with the button erase route 8 At any time they can be selected again 7 resp can be edited 3 8 4 Memory Read memory With this function the measuring values stored in the KLL Q will be transferred to the PC and 44 48 SEBA HYDROMETRIE user manual will be stored Therefore the KLL Q must be switched on and the infrared interface connection must be built up The measuring values transferred from the KLL Q will automatically be added to the SEBATERM databank One data set consists of the station number station name and a measuring channel with unit i e station 25 Oberau measuring channel 2 conductivity in mS In the data set the measuring values are stored with measuring date and time If the data set doesn t exist it can be picked up pic 3 8 4 In case the data set exists from previous measurements so it will be supplemented by the actual measuring values The data sets can be displayed in the menu item STANDARD FUNCTIONS STORED MEASURING VALUES see 3 4 5 can be edited and changed into ASCII files for further procedure Inpu
39. device for connecting several MPS D as well as for indication of actual measuring values of the quality parameters With the terminal program additionally measuring routes can be planned and transferred to a KLL Q with memory Moreover it serves for read out of the measuring data of a KLL Q with memory 0 2 Connection SEBATERM to the instruments There are two possibilities to establish a connection between the terminal program 9 EBATERM resp PC and to the operating instruments Either with the PC adapter see item 2 for the MPS D and the Multiplexer Here in the program in menu item device preferences a transmission velocity of 2400 Baud and the used serial interface have to be inserted see 1 2 2 Or with infrared interface item 3 for the KLL Q and for the MPS D if connected to a KLL Q In order to built up the connection between KLL Q and PC the KLL Q must be switched to the KLL mode or measuring mode and the infrared adapter must be adjusted to the infrared window at the KLL Q In the other version connection to MPS D via KLL Q at first the KLL Q must be selected under menu item device and connection to the KLL Q must be built up In the program mode KLL Q in menu item Standard functions Permanent connection to probe item 3 4 4 the program mode MPS D has to be selected At the infrared interface the transmission velocity of 9 600 Baud and the used interface have to be inserted see item 1 2 2 0 3 Program set up a
40. e determined with a turbidity measurement and a determination of suspended matters in the laboratory By selection of Entry calibration data in the window TSS calibration the calibration factor and the offset will be inserted pic 2 8 7 2 1 This will be confirmed with OK and in the following window the calibration data will be indicated They can be printed and accepted with By selection of Calculate calibration data the TSS factor will be determined with a 2 point calibration pic 2 8 7 2 1 From the water the suspended matters and the conductivity will be determined The turbidity can be measured with the MPS D directly for calibration and also inserted As second measuring point a dilution with distilled water can be used The suspended matters will be calculated of the dilution factor and the corresponding turbidity If necessary the zero point can be taken as second point 84 48 SEBA HYDROMETRIE user manual insertion factor and zero point Selection mode ground turbidity amp TSS calibration Data table TSS for probe Nr 602 19 70 99 14 25 59 Entry calibration data Factor TSS Concentration 27 jppm NTU Zerapoint T8S Concentration Calculate calibration data TSS Tubridity Calibration valud0 0 L1 0 Measure pic 2 8 7 2 1 Insertion rated value insertion or measurement of turbidity 2 8 7 3 Calibration Turbidity Wip
41. e numbers of places after the comma for each installed parameter Attention An increase of the number of places after the comma does not always lead to an increase of the accuracy The maximal possible accuracy depends on the sensor So for example the increase of the places after the comma for temperature from two to several places don t result in an increase of the accuracy as the sensor has an accuracy of 0 1 C only The remaining places have no expressiveness Display of more places after the comma than the indicated accuracy is sufficient to determine tendencies The adjustment exclusively influences the display of the measuring values in the terminal program 13 48 SEBA HYDROMETRIE user manual 2 7 3 Operator functions Display configuration With the display configuration it is possible to switch off separate parameters resp channels from the sensor configuration except the master channel temperature The MPS D doesn t transmit the deactivated channels So the measuring value display is more clear and not used parameters will not be stored For example picture 2 7 3 there is a probe with the parameters temperature water level conductivity and the derived parameters salinity and TDS The TDS value should be logged only for the conductivity value The parameters conductivity and salinity will be deactivated on the display configuration For data recording a logger with the three channels temperature TDS and water leve
42. em 2 6 1 2 7 1 Operator functions Startup mode This function determines in which mode the MPS D works after switching on The MPS D will be adjusted to the interface requirements of the peripheral equipment 2 7 1 1 Automatic measurement mode After switch on the measuring values will be send automatically see item 2 1 The interval between two data files amounts to max 3 sec in case of full installed MPS D In this operation mode a pure Simplex transmission for transferring the data is sufficient i e the connected instrument needs a receiver only This operation mode is for use in connection with the SEBA dataloggers 2 7 1 2 Dipper mode After switching on the status of the electric contact meter function will be send automatically The time between two messages amounts to 0 5 sec see also item2 2 2 7 1 3 Communication mode After switching on the MPS D sends a standby message and then it waits for further commands see also item 2 3 Operation in this mode requires a bi directional connection and observance of the used transmission protocol A documentation of this protocol is available from SEBA Preferably this operation mode will be used if the sensor will be operated at the KLL Q This adjustment saves several seconds by each switching on of the KLL Q as the sensor must not be set into the communication mode at first 2 7 2 Operator functions Count of decimals A table opens which determines the display of th
43. h the conductivity can be calculated into the share of dissolved matters mg l or ppm Either the factor is known and can be inserted directly or it can be determined with a conductivity measurement and a determination of the dissolved contents in a laboratory By selection of Entry calibration data in the window TDS calibration pic 2 8 3 3 1 the calibration factor and the offset will be inserted directly Confirm this with and in the following window pic 2 8 3 3 2 the calibration data will be indicated They can be printed and accepted with By selection of Calculate calibration data pic 2 8 3 3 1 the TDS factor will be determined with a 2 point calibration From the water the contents of dissolved matters and the conductivity will be determined The conductivity can be measured directly with the MPS D for calibration or also inserted As second measuring point a dilution with distilled water can be used The contents of dissolved matters will be calculated out of the dilution factor and the respective conductivity In case of a zero point line the zero point will be taken as second point For a correct calibration and measurement the temperature compensation of the conductivity must be adjusted correctly 24 48 SEBA HYDROMETRIE user manual insertion factor and zero point selection mode ground conductivity TDS calibration Data table TDS for probe Nr 0
44. he delivered calibration cable to the connection sensor After starting the program the connection to the sensor will be built up in case the actual operation mode of the terminal program is MPS D Under menu item Device MPS Digi you can change to the MPS D operation mode The terminal program starts always with the operation mode in which it has been terminated Depending which Start up Mode is activated in the MPS D see 2 7 1 one of the following indications appear 2 1 Automatic measurement mode Multifunctional Terminal Software for MPS D and KLL Q 1 08h Bie Standartf rictions Device Hels OUperatorfunctions Calibration Automatic Measurement Mode Exit Program V ade 3621 mv Dipper mode 3568 mV gt Command mode 3640 mV New value Attention Current A lithium value can be 02 Saturation different from Total Suspended So displayed value To Sais Total Dissolved Soli Gi Value set Last message Message 9 correctly received MPS D 602 05 99 304 OK COM2 2400 RTS 0 105115 pic 2 1 After switching on the sensor sends immediately the recorded measuring values The tensions of the lithium cells exist from the last executed update In text form directly below this the status of the surface measurement 1 is indicated In the bottom line the serial number 2 of the connected sensor as well as the transmission status
45. ignore changes insert new 0 0 forward datafile edit marked datafile erase marked datafile We recommend to insert the names of the users into the column User Your also can assign same or no passwords After the first setting into operation of the program the operator should effect his own insertion and should erase the default insertion Operator SysAdmin in order to avoid unqualified access to the adjustments The procedure is as follows install a new data file with the button Now the edit mode is active the User field of the new insertion is automatically active input of the new User name and if requested a password change between the fields with tab or mouse finish editing with the hook button mark the default insertion Operator erase this insertion with the button finish the user administration with OK 15 48 SEBA HYDROMETRIE user manual 2 8 Menu Calibration MPS D from serial number 600 In this menu item all calibrations and adjustments which are necessary for the single parameters are contained Only menu items for parameters are active which are implemented in the sensor For execution of the calibrations please observe also the instructions in the MPS D manual Access for calibration is possible with the operator pass word only 2 8 1 Calibration temperature The parameter temperature is long term stable especially the sensor slope and generally it needs not re c
46. ing Interval With this menu item the wiping interval of the turbidity sensor can be adjusted from 10 up to 3600 seconds provided the MPS D is permanently power supplied This is the case at the KLL Q or in the automatic measuring mode at the PC In interval operation as it is the case at the datalogger this wiping interval is not valid Here by every switching on of the power supply before a measurement the optical windows will be wiped Set wiping interval of x Wiping interval nova vo Interval adjustable from 10 to X Cancel 3600s for MPS D with permanent power supply e g KLL Q pic 2 8 7 3 35 48 SEBA HYDROMETRIE user manual 3 Terminal program in the KLL Q mode All connection works have to be done before starting the terminal program In case the commands are identical to the MPS D mode please refer to the description in main item 2 terminal program in MPS D Mode The connection to the KLL Q will be produced via a wireless IrDA connection In case in the used PC no IrDA interface or no interface according to the international IrDA standard should be installed so a separate IrDA adapter is available which enables the connection to each RS 232 interface The IrDA adapter will be connected with the attached interface extension 9 pol Sub D plug 9 pol Sub D sleeve to the serial interface which had been adjusted in the program see 1 2 2 In case the port has a 25 pole Sub
47. l be taken for the zero point correction of the sensor At last insert the required hanging depth as rated value in the window offset calibration As a result the parameter will automatically be calculated that after installation of the probe the tapping value arises By installation in the field the probe will be lowered as far as the requested tapping value has been arrived which before had been measured with an electric contact meter 2 8 2 3 2 Tapping with negative sign The probe will be adjusted that the outputted water level value is negative and corresponds directly to the value which was measured with an electric contact meter by the tapping measurement zero point for example top of well 700m above sea level tapping water level for example 20m displayed a entry sebaterm 20m probe installed value 20m water level com depth of MPS D for example 30m b entry sebaterm 30m probe not installed pic 2 8 2 3 2 It s different whether the probe is in installation position or not The installed probe would be the ideal status for an automatic set up Nevertheless this is only possible if the connection cable of the probe ends freely at the top and therefore can be connected to the PC adapter for set up in installed condition a Probe is in installation position For set up of the water level the tapping value has to be known and must be inserted into the window Offset calibration
48. l is required Display configuration x Configuration _ Uk 02 Concentration 02 Saturation X Water level Turbidity NTU Eis pic 2 7 3 2 7 4 Operator functions Restore factory settings from EEprom After a further security query all effected changes made by the user will be overwritten by the original adjustment made by the manufacturer Sensors which had been drifted since the adjustment from the manufacturer have to be calibrated again 2 7 5 Operator functions Load factory settings from file The original configuration can also be stored as a file With this function the file can be read and the original configuration be restored This function is very useful if a sensor cannot be calibrated from the user or by exchange of the sensor software adjustments have to be effected SEBA will effect the adjustment resp the calibration and can change the original configuration in the file accordingly 14 48 SEBA HYDROMETRIE user manual 2 7 6 Operator functions User management Here the operator has the possibility to release access rights of operator functions for himself and other persons User Management User User Password B Operator SysAdmin Pass1 Pass2 mark for to go 1 zZ i immi pic 2 7 6 on mark to get to the finish mark to go last datafile accept changes Finish editing one datafile
49. lti ite e t e ee e th e hem e eee ee pt de tius 18 2 8 2 3 Operator functions 7 Set reference id tede he e ei e t eR e d pde Roe 18 2 6 2131 Lapping with positive sigh ia Re iq REFERRE HE EV SAT EIER Ie Peer EES 19 2 8 2 32 Tapping WIN NEBALIVE SIM i i ee See ee ee eee ee pere PE ee Eee beer ra 20 2 8 2 3 3 Water level above normal zero or other reference point eese eee ennt etre eene enne 2l 2 8 3 Calibration conductivity ei b e a e ea d e naher ee eir te desde Fe uasa Fe 22 2 8 3 1 Calibration conductivity cell constant eese eee enne entente trennen trente entren eren 22 2 8 3 2 Operator functions temperature compensation 23 2 0 3 2 1 Deactivate compensation s ie et eer E OR RU OR Pe E EI Pee e edere 23 2 8 3 2 2 Temperature compensation for 23 2 8 3 2 3 Temperature compensation for standard 24 2 8 3 2 4 User specific temperature compensation eese eene teens enne enne nette tete tnee tree tren teen en rennen en 24 2 8 3 2 5 Reference temperature for conductivity 5 24 2 6 3 3 Calibrations Cond ctivity ge RERUM POM EE rye 24 26 4 Calibration DH s ee inet OR ET OD e re RUE EIE POENI Ure Er DOT eren 26 2 6 4 1 Calibration pH 2 point sc iae
50. manual calibration the user must is not bound to the indicated buffer solutions The pH rated values must be inserted for each single phase according to the temperature table Then the actual measuring value will be called until the measuring signal is stable If necessary the rated value has to be corrected again due to strong temperature change The result indication will be effected according to the automatic calibration but no limit value for the offset and the slope are given 2 8 4 2 Calibration pH offset Not implemented 28 48 SEBA HYDROMETRIE user manual 2 8 5 Calibration Redox 2 8 5 1 Calibration Redox offset In this menu mode the ORP electrode can be tested and the calculated offset can be compensated Therefore the ORP electrode will be dipped into a 220mV or 465mV buffer together with the temperature sensor The temperature dependence of the buffers is stored The buffers are recognised automatically in the range 80 40 mV from the U correct The electrode voltage will be accepted automatically by stability Attention The security data sheets by using the buffer solutions must be observed The buffer solutions are to handle with caution as chemicals The actual value is shown on the test without offset compensation The offset voltage is always new calculated from the actual and correct value This can be balanced with the button offset compensation for the ORP measurement The offset is often c
51. n case of disconnection resp by exceeding the transmission times to the MPS D or return into the command mode and to restore the connection to the probe with Device Change 3 2 2 gt Command mode The KLL Q will be switched into the command mode see item 3 3 3 3 Command mode In the bottom line the serial number software version and month of setting the connected KLL Q into operation as well as transmission status and active interface will be displayed From here the complete main menu is available 3 4 Menu Standard functions Standard functions are functions which cause no change in the set up or calibration of the probe or KLL Q Therefore also unskilled personal can use them without restrictions 3 4 1 Standard functions Automatic measurement mode The KLL Q will be switched back into the operation mode in which it had been before contact via the IrDA interface This can be the measuring mode or the KLL mode 3 4 2 Standard functions Dipper Mode This function is not available in the KLL Q operation mode 3 4 3 Standard funtions Single value set This option is identical to that in the MPS D mode see item 2 4 3 3 4 4 Standard functions Permanent connection to probe If the terminal program is in KLL Q mode by built up IrDA connection to a KLL Q so with this command a direct connection from the terminal program to probe connected at the KLL Q can be produced This enables that all commands which conce
52. n electrode SHE can be adjusted The SEBATERM program indicates the set reference system additionally to the Redox measuring value 2 8 6 Calibration Oxygen In this menu the oxygen sensor can be calibrated with one point the sensor zero point can be checked and if required it can be re adjusted The air pressure necessary for the measurement and calibration can also be adjusted 2 8 6 1 Calibration Oxygen 1 point The zero current free sensor will be calibrated at one point Therefore 3 possibilities are available Two automatic calibrations at 10096 oxygen saturated water or in steam saturated air One manual calibration in which a reference value has to be inserted Selection of the Insertion as replacement for actual air pressure of calibration mode configuration of measuring site Sondennr 602 19 10 99 15 49 07 Luft wasserdamfgesattigt Wasser 100 gesattigt Kalibrieren mit Referenzwe automatisch automatisch manuell Voreinstellungen Eingabe des aktuellen Luftdrucks Ortshohe Erstkalibrierung Defaultluftdruck 328 000 hPa Press at first calibration of new sensor slope Insertion of actual air pressure will be set to 100 for the calibration After selection of the calibration mode the actual air pressure has to be inserted pic 2 8 6 1 1 Also the default value for the measuring site can be inserted see also 2 8 6 3 A new changed sensor marked with the optio
53. n first calibration pic 2 8 6 1 1 will be set to a slope of 100 after finishing of the calibration The adjustments will be confirmed with This is also start of the automatic calibrations By calibrations in water the oxygen sensor will be dipped in oxygen saturated water together with the temperature sensor For calibration in air at first the 31 48 SEBA HYDROMETRIE user manual calibration whistle will be fixed at the oxygen sensor and then it will be dipped into the water bath 15 25 C together with the temperature sensor for temperature compensation The rated and the current values continuously will be actualised and the new slope will be calculated The transient time in water amounts to approx 3 minutes in air approx 4 7 minutes By reaching the stability criteria the button will be activated and the new calibration data can be printed and accepted In case stability cannot be reached within the pre selected time an information appears and the calibration has to be interrupted Reasons for this can be unstable measuring conditions a consumed polluted or defect sensor or also humidity in the plug see manual MPS D t ai new sensor slope Insertion at calibration measuring a the acceptance stability reference value or values MPS D 0 15 automatic indication amp Oxygen point calibration Oxygen 1 point calibration for probe nr 602 19 10 99 15 42 12
54. nd first steps The respective instrument will be selected after starting the program under function device The terminal program SEBATERM adjusts its functions to the selected instrument After building up contact the program also adjusts itself to the configuration of the connected instrument Functions which are not applicable are marked grey and cannot be selected A successful contact will be confirmed by display of the abbreviation of the instrument with serial number at the right bottom side Moreover the program disposes of a password protection item 2 6 for the main menu items operator functions and calibration resp memory with which adjustments and calibrations at the instruments can be changed For the first access insert Operator as user name and SysAdmin as password With the generally accessible standard functions basic adjustments and indication functions can be effected 5 48 SEBA HYDROMETRIE user manual The calibrations see item 2 8 and adjustments see item 2 7 for the quality parameters can be effected with the SEBATERM program in MPS D mode with released operator function only In case an MPS D will be prepared with the SEBATERM program for operation with a datalogger or Multiplexer so automatic measurement mode in the menu item operator functions start up mode has to be selected see item 2 7 1 1 For operation at the KLL Q the communication mode see item 2 7 1 3 should be preferred 0
55. nt correction of the sensor At last insert the zero point above normal zero or any other reference of the intended probe position height in m unit as rated value in the window offset 21 48 SEBA HYDROMETRIE user manual calibration As a result the parameter will automatically be calculated that after installation of the sensor the position of the water level above normal zero or the reference height arises By installation in the field the probe will be lowered as far as the requested value has been arrived which before had been measured and calculated with an electric contact meter 2 8 3 Calibration conductivity 2 8 3 1 Calibration conductivity cell constant For determination of the cell constant three possibilities pic 2 8 3 1 are available The cell constant can be inserted directly or it can be determined with an automatic calibration with a 0 01 molar KCl solution or manually with a reference value The standard cell constant amounts to 0 475 1 cm for the 4 pole measuring cell The new cell constant can only be accepted in case it deviates less than 0 025 1 cm For quality securing i e according to GLP the calibration data can be printed and can be put into the archive Automatic calibration with a 0 01 molar KCl solution The conductivity sensor will be dipped into the 0 01 molar KCl solution together with the temperature sensor After selection of automatic calibration this mode will be effected
56. perator functions Attention These functions change the conduct of the KLL Q or of the sensor Therefore they are password protected and should only be used by qualified staff 3 7 1 Operator functions Switch off time For saving the internal accumulators the KLL Q has a protection function which switches the instrument off after a certain time since the last key has been pressed In this option this time can be programmed in minute steps in the range of 0 59 minutes In standard version 20 minutes are adjusted But in some applications a longer time is desired In case 0 minutes will be inserted this protection function is deactivated Attention The instrument switches off automatically only when the minimum battery voltage will fall below the respective limit 3 7 2 Operator functions Display interval If the KLL Q is connected to a MPS D with more than 4 parameters so in the operation mode quality measurement not all measuring values can be indicated on the display at the same time Therefore 2 indication modes are available either switching to the 2 displayed page must be effected manually by pressing a key measuring mode static indication or an automatic switching in cycle sequence alternating measuring mode The time for indication of one display page can be programmed with this option The standard adjustment amounts to 5 sec and can be selected from 1 sec to 29 seconds 3 7 3 Operator functions Display time for
57. perature compensation A correction factor in can be inserted according to which the output value related to the reference temperature of 25 will be corrected The calculation is based on following fit TKuser 76 Cond en 100 cond comp compensated conductivity value cond n comp not compensated conductivity value Ttkt actual medium temperature in TRef reference temperature see 2 7 2 5 TKUser user specific correction factor in cond conductivity The correction factor remains stored in the sensor also another compensation is selected For activation resp for change of the factor the user specific temperature compensation must be switched on 2 8 3 2 5 Reference temperature for conductivity compensation In case of activated temperature compensation the really measured conductivity value will be calculated as value which would prevail at the reference temperature This reference temperature is adjusted to 25 in standard version It can be inserted in the range from 1 C to 40 in full degree steps Usually 25 and 20 will be inserted The adjusted reference temperature remains valid also after switching off of the temperature compensation But it only can be changed if one of the compensation modes is active The adjustment has an effect to all compensation modes 2 8 3 3 Calibration Conductivity TDS In this menu item the TDS factor can be inserted with whic
58. r Configurationen 1 MPS D temperature pH 2 MPS D temperature conductivity 3 MPS D temperature conductivity pH water level The probe should be connected in this sequence to the inputs 1 3 In the configuration word of the Multiplexer following adjustments must be effected MPS D 1 2channels MPS D2 2 channels MPS D 3 4 channels The measuring values appear in the following sequence at the receiver instrument MPS D No parameter channel at the receiver instrument MPS D 1 temperature channel 1 MPS D 1 pH channel 2 MPS D 2 temperature channel 3 MPS D 2 conductivity channel 4 MPS D 3 temperature channel 5 MPS D 3 conductivity channel 6 MPS D 3 pH channel 7 MPS D 3 water level channel 8 In case of disturbances of a probe at this place an error code will be fitted in So the position of the measuring values of all other channels remain in case of correct adjustment of the Multiplexer Attention If in the configuration word of a MPS D sensor more or less channel places will be inserted as actually will be transferred so the really transferred channels will be recorded If a probe fails so the channels will be displaced 4 1 2 Restore original configuration out of the EEProm With this function all basic manufacturer s adjustments for the Multiplexer will be restored 47148 SEBA HYDROMETRIE user manual 4 2 Call of the measuring channels 4 2 1 Automatic measuring mode With the menu item STANDARD FU
59. rent compensation modes possible Deactivated temperature compensation The measured conductivity will be directly outputted without temperature compensation Temperature compensation for groundwater The temperature compensation will be effected according to non linear function for compensation of natural waters nLF according to EN27888 1994 Temperature compensation for standard seawater The temperature compensation will be effected according to non linear function for compensation of seawater nLF according to IOT1971 Standardmeerwasser Kopenhagener Wasser User specific temperature compensation The sensor will be switched to use of the programmed user specific correction factor Programing of the factor can only be adjusted in the MPS D mode see 2 8 3 2 and 3 4 4 3 7 6 Operator functions User management The option is idential to that in the MPS D mode see item 2 7 6 3 8 Menu memory This menu is only available if the connected KLL Q disposes of a memory It is only for the operator s disposal 3 8 1 Memory Set time A menu opens in which the actual time of the KLL Q will be displayed Thereunder is an input field in which the actual time can be inserted By confirmation with OK this time will be transferred into the KLL Q For setting the time the memory of the KLL Q must be empty 3 8 2 Memory Selection of the memory operation mode This option is only available if the memory has been read out
60. rn the probe inclusively the complete calibration can be executed via the KLL Q in the same manner as if the MPS D probe would be directly connected to a PC via a PC adapter After activation of this option all functions which refer to the MPS D described in article 2 are available The functions which refer to the KLL Q itself will be switched inactive This status can be finished by deactivation of the function Permanent connection to probe 38 48 SEBA HYDROMETRIE user manual 3 4 5 Standard functions Recorded values This function serves for indication of the measuring values and for erasing of single measuring values Moreover the measuring data can be stored in ASCII files for further procedure in other programs The measuring values are stored in data channels These are defined via the measuring stations and the parameter The installation of stations and the data transfer with the KLL Q will be effected in menu item storage function and is described in item 3 8 Values E3 1 storage of data sets in ASCII files Kaufbeuren B 24 11 1997 07 50 42 15 572 Baisweil Marktoberdorf Neue Station 11 24 Reichertsried 1 25 2 stored measuring Hsusedhol Ee 28 valued under selected data Munsterhausen 25 set Hagenried Jettingen User gt 3 selection dataset Conductivity mS 9 57 pH pH 24 11 1997 21 43 37 U2 Concentratit mg l 24 11 1997 21 44 44 18 Redox Val
61. sesenessesesnessesessessesesners 27 1 Operator functioris 7 Startup mode tai epe e cus ente pe e ede apre tte e E Wades eene sve e E 2 7 1 2 Dipper mode ae m Roe pe OR ei e a epe n ERN HEAT RET REPRE n Ep eU EEG 21 3 Commuric tton mode eis 2 7 2 Operator functions Count of decimals eese nennen 2 7 3 Operator functions Display configuration eese eese enne tnnt nennen een eene ente trennen trennen 2 7 4 Operator functions Restore factory settings from EEprom eese ener ener nee 2 7 5 Operator functions Load factory settings from 2 7 6 Operator functions User eene trennen eene nee nette tree tene teet tree trente enne VEERE 5 12 SEBA HYDROMETRIE user manual 2 8 MENU CALIBRATION MPS D FROM SERIAL NUMBER 600 cscscsssssssssssscescsssesssssnessesnescessessesssssessessnseneses 16 2 6 T Calibr tion temperature eoa Be loss ah eed e a Bae Ah en aL epe us 16 2 0 1 1 Calibration temperature offset ge eter t rte etit ti be ees rb OPE TR a XR E Yea 16 2 8 1 2 Calibration temperature 2 poirit eee 17 2 0 2 Calibration 7 water level RR Rte te Re Date tiq eate teles 17 2 6 2 1 Calibration water level offset sia eda eei iib te e e E aerei io peteret 17 2 8 2 2 Calibration water level 7 2 DOW
62. t Kuhflucht 25 Oberau Loisach 50 Pumpstation 1 Golfplatz 55 Pegel 1 Golfplatz 60 Wasserspeicher Kletterfels 100 Kaufbeuren Kaufbeuren 101 Baisweil Baisweil 102 Marktoberdorf Marktoberdorf 103 Neue Station Neue Station 110 Reichertsried Weiher 111 H userhof Teich 130 M nsterhausen Kaiserweiher 140 Hagenried Beckweiher I pic 3 8 3 1 mark for the 1 dataset data i finish editin edit marked 9 4 set forwards BOGTION dataset dataset N ignore changes mark to rotenone finish editi erase marke dataset mark to go to the accept changes last dataset All measuring values will be stored under the station numbers resp station names which had been registered from the KLL Q under this name Attention By erasing a station also their measuring values will be erased 43 48 SEBA HYDROMETRIE user manual 3 8 3 2 Route planning The respective stations for a measuring route can be gathered in this window and transferred to a KLL Q With the KLL Q see KLL Q manual the measurements will be picked up and read out with the SEBATERM program _ 6 transfer of the route stations 2 input of route name 1 ee for definition from the defined route to KLL Q and comment of new routes operation mode notebook functio 3 7 selection of already 8 erase the defined routes marked routes 4 Route and Station Planning Garmisch Partenkirchen Comment
63. t fields for new dataset Selection of an existing dataset Add unknown station Unknown station There was found a station wic to a existing station or define a Station Nr Comment pic 3 8 4 transfer of the selected measuring sites into the input field If new stations have been added into the KLL Q during a measuring route standard names USERO USER1 etc immediatelly after the transfer the user has the possibility to assign names pic 3 8 4 or to add them to an existing dataset This will be effected by overwriting the automatically given descriptions with the new ones or an existing dataset will be selected and with the button lt lt transferred into the input fields OK accepts the input A successfull data transfer will be confirmed by the program At the same time the user will be asked whether the KLL Q memory should be erased We recommend to erase the memory if a new route should be transferred to the KLL Q If the data should also be transferred to another PC or the route should be kept in case sufficient free storage capacity is available this query must be negated Read out of the KLL Q is finished after this window The function stored measuring values see item 3 4 5 with the window measuring values is automatically active after read out 3 8 5 Memory Delete memory This function serves to erase the memory of the KLL Q Therefore the KLL Q has to be switched
64. temperature compensated Calculated offset Activation offset compensation Message 18 correctly received Follow error messages may appear on the test routine pic 2 8 5 1 Error code Reason Remedy Buffer not realize gt other buffer used as 220 Use correct buffer mV or 465 mV Electrode voltage not in the gt buffer is consumed Use fresh buffer defined range for the gt electrode is contaminated Clean diaphragm and buffers 220 mV and 465 mV platinum electrode Sensor instabil gt humidity in the plug v dry plug connection temperature sensor and v dip sensors into buffer Electrode don t reaches or electrode not dipped stability in the defined time gt electrode consumed change electrode defect No offset gt measuring amplifier defect v repair at SEBA possible if offset out of gt humidity in the probe repair at SEBA range 80 40mV 30 48 SEBA HYDROMETRIE user manual 2 8 5 2 Calibration Redox 2 point The option 2 point calibration is accessible for the manufacturer only 2 8 5 3 Calibration Redox Set reference In this menu mode the actually used reference system of the electrode the silver silver chloride chloride electrode KCI 3 mol l or the calculation to the reference usually valid in science and technology the standard hydroge
65. ue mV 27 08 1999 11 56 31 4 erasing of the mwS marked measuring value 5 marking KLL Qtt10 10 99 5 11 OK COMI 9600 RTS 0 12 01 36 pic 3 4 5 1 For display of the measuring values a data file can be selected by marking the requested station and selection of the measuring parameter with unit 3 pic 3 4 5 1 and pic 3 4 5 2 The measuring values will be indicated as tables with storage date and time Single measuring values can be erased out of the table The measuring value which should be erased will be marked with the bar in the field measuring data and erased with the button 4 and 5 pic 3 4 5 1 With the button Save all values 1 3 4 5 1 each data file will be changed into an ASCII file and stored in the selected file pic 3 4 5 2 The data description pic 3 4 5 4 contains at first the station number and the channel number which defines the parameter For example the data name S10 2 asc indicates that here measuring values of station 10 Garmisch with the measuring channel 2 conductivity are stored Single data files can be stored in ASCII format under menu item FILE STORE UNDER see pic 3 4 5 3 39 48 SEBA HYDROMETRIE user manual X A Save all values Save measured data 21x Dateiname Ordner 5_00 5 c seba sebaterm files c SEBA Netzwerk E SEBATERM E gt FILES TEST Abbrechen 25 sebaterm x files dii Dateityp Laufwerke
66. value has to be inserted Normally this corresponds to the standard pressure of 1013hPa calculated to the measuring height The air pressure can directly be inserted into the field standard air pressure in hPa or automatically calculated with the barometric height formula by insertion of the measuring height in the field measuring height in m above normal zero The default value will be stored in the sensor and after each switching on it will be used for calculation of the measuring values Above all this refers to operation with the SEBA dataloggers The air pressure fluctuation due to weather conditions causes here a slight measuring error As general formula an air pressure fluctuation of 10 hPa causes at a standard air pressure an error of 1 percent 2 8 6 3 2 Actual With this option the actual given air pressure value for calculation of the oxygen contents will be given This menu item shall observe the air pressure value corrected to the weather condition which has been recorded with PC The actual air pressure can be inserted directly at the KLL Q from software version 5 08 at site This value will go lost after switching off of the MPS D 2 8 7 Calibration Turbidity 2 8 7 1 Calibration Turbidity 2 point from MPS D software 3 08 The turbidity sensor will be adjusted with a 2 point calibration The manufacturer s calibration data of the sensors consisting of the turbidity values and the respective voltage values can directly be
67. values They also appear in the terminal program Directly thereunder the status of the surface measurement is indicated as text In the bottom line the serial number of the connected KLL Q as well as transmission status and active interface will be displayed The selectable options are 3 1 1 Exit program This button serves for finishing the program in case of disconnection resp by exceeding the transmission times to the MPS D or return into the command mode and to restore the connection to the sensor with Device Change 3 1 2 gt Command mode The KLL Q will be switched into the command mode see item 3 3 3 2 Dipper Mode lt Multifunctional Terminal Software for MPS D and KLL Q 1 085 ile Standertfurctions Device Operator functions Menon Help Dipper mode Current i LV Exit Programm No contact with surface mua a KLOND O0R COME SB0ORTS 0 ENSEM pic 32 If the KLL Q is in the electric dipper mode it sends continuously the actual status of the contact with the water surface This will be displayed as text In the bottom line the serial number of the connected KLL Q as well as the transmission status and the active interface will be displayed 37 48 SEBA HYDROMETRIE user manual The selectable options are 3 2 1 Exit program This button serves for finishing the program i
68. y buffer not realize gt other buffer than pH 4 7 or v Use correct buffer 10 are used Y electrode voltage is not in buffer is consumed use fresh buffer the recognition range of the gt electrode is dirty clean diaphragm and permissible technical pH membrane buffer 4 7 or 10 gt electrode is consumed exchange electrode defect humidity in the plug v dry plug connection measuring amplifier defect v repair at SEBA humidity in the probe Y repair at SEBA wrong buffer gt same buffer in phase 2 as v use other permissible in phase 1 buffer buffer is in phase 2 in the buffer is consumed use fresh buffer same recognition range as use other buffer than pH 4 use correct buffer in phase 1 7 or 10 electrode is consumed VN exchange electrode lt lt lt lt lt Sensor instabil electrode dirty clean diaphragm and membrane electrode is consumed exchange electrode humidity in the plug dip in the sensors into the temperature sensor and or buffer solution electrode not dipped electrode does not reach stability criteria in the pre selected time VVVVV V lt lt gt measuring amplifier defect v repair at SEBA humidity in the probe Y repair at SEBA Sensor out of gt electrode is consumed exchange electrode specification defect slope is not within the permissible range of 50 mV pH up to 62 mV pH Manual calibration In case of
69. y Read memoty s Rede eet Re apre rte egeret pepe aoctor eem 44 3 8 3 Memory Delete memory a itt ter e deri ea e EYE Nee eq toe de ete eo ERR et eese De eee t 45 4 TERMINAL PROGRAMM IN THE MULTIPLEXER MODE eee eee entente sons ta enata statuant 46 4 1 ADJUSTMENT OF THE MULTIPLENXENR eere ener tatu 46 4D ST Write configuration wrd s ouest eee 46 4 1 2 Restore original configuration out of the 47 4 2 CALL OF THE MEASURING CHANNELS e eese eee esent teta atn tata sons tatu tasas en sene en sn aene 48 4 2 1 Automatic measuring mode eese eene teen etnt ttn tn tnn etnt tton 48 4 2 2 Standard functions Single measuring value 48 4 48 SEBA HYDROMETRIE user manual Terminal Program SEBATERM for KLL Q Terminal MPS D Terminal Multiplexer Terminal 0 Introduction to the Terminal Program SEBATERM 0 1 General functions The Terminal program SEBATERM is a program for adjustment and calibration of the instruments KLL Q dipper device with water quality parameters MPS D multi parameter sonde digital and Multiplexer
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