Quickstart Type 8619 multiCELL
Contents
1. Parameters gt Display gt PV names 4 gt I Pv Mo None 4 M0 MAIN M1 zx Mx Edit name 4 INPUT Contrast 4 x95 Brightness Pohx Functions 4 F1 F6 K PINone 4 p Type A B L p Name 4 gt INPUT A B Status ON A B LP OFF gt A B 9 h I PVA PV B _ gt Mo MAIN HA A B Mi B 1 96 A B 1 1 5 Mx o i Filter M None 2 East Slow o o o K o 9 S I PROP 4 type c Name 4 9 INPUT 8 Status gt ON o OFF S PPV 4 MOMAN 5 M1 1 Mx E a PV range M gt FYScale K PINPUT p PVScale INPUT pz S FV filter 4 None z fFast ES Slow g Lim gt INPUT rim 4 9 INPUT 5 gt CMDSafe Mode K ON L MOFF Value K RINPUT The choices offered depend on the modules fitted and or the options activated 392. Parameters MSystem 4 Date K IAAAA MM JJ Time K PIHHMMS Language English Francais Deutsch Code X 1o K MConfrm code 14 0 P Software options Available options amp L1 PID Datalogger O Dosing Flow Concentration Add new option INPUT Save settings M PIMOMAIN E Mx I MLoadsetings M PIMOMAIN 3 2 2 p Mx D 2 b Factory reset MO MAIN x a d E Mx Ks Display 4 User view 1 4 4 Type None S i line 3 2 lines e 4 lines 9 pI graph a itle INPUT 5 P Line1 4 Pv pz 5 2 gt z Ww 2 Unit gt 3 e 9 Filter it None lt Se 1 Period 4 DINPUT 4 Py min 4 INPUT 4 ly max It INPUT 4 The choices offered depend on the modules fitted and or the options activated 2 If Type 1 2 or 4 lines 9 The choices offered depend on the chosen PV 4 If Type graph 38 b avidi burkert Adjustment and functions FLUID CONTROL SYSTEMS
3. burkert pnm FLUID CONTROL SYSTEMS Adjustment and functions ONOFF Mee Name 4 gt INPUT Status lt gt ON M OFF PV MoMAIN M1 1 Mx ISP Value 4 gt DINPUT IPY range PPVScale gt INPUT IPVScale K gt INPUT gt PV filter None Fast Slow 5 hlHysteress INPUT Roi gt Inversion it ON D 2 _ OFF 3 MaxONtime _ Status K ON E OFF 2 p Value J INPUT amp 3 PreBleed 4 Status X oN K LOF a 1 S PB Limit ch1 amp NPUT e LPB Limit ch2 INPUT 8 3 _p CMDSafe 4 Mode K HON E OFF a i gt Value K PINPUT 2 gt PID 4 I Tee PID j Name 4 INPUT a Status 4 ON te i OFF o e o o o z lt The choices offered depend on the modules fitted and or the options activated 40 Type 8619 Adjustment and functions FLUID CONTROL SYSTEMS Parameters 4 Functions gt E F6 K gt PD Setup 4
4. Parameters 4 Sample time _ INPUT PVY filter 4 None Fast Slow SP Value INPUT Channel 1 2 M Deadband _ INPUT Kp gt INPUT In 4 9iNPUT MT 4 9 iNPUT Advanced Ko K gt INPUT Lim INPUT Lim INPUT State OFF INPUT FEL F6 4 gt ITIME DOSING K Type S Name 4 INPUT oO 8 Status 4 OFF E LION 3 plChannel Single S Dual g Channel 172 4 Mode oFF z 2 Period L MWeek E n Status I4 oFF 3 S ON co Start 4 INPUT e i 3 e o Period It INPUT oO E 3 a PIDuration E RINPUT 3 2 2 gt Waiting time 4 P NPUT S z Lp Monday Sunday M HlEvent1 2 LO Tt E g State t OFF e 9 L_ ON _p Start 4 gt INPUT g L MDuraton INPUT ON OFF Fx gt Fx ONOFF 1 M CMD Safe Mode aa OFF ON Channel 1 2 INPUT Ex represents the ONOFF function declared active 2 Channel2 is present if Channel Dual 9 These functions are present only if Mode Period These functions are present only if Mode Week 42 Type 8619 Adjustment and functions burkert FLUID CONTROL SYSTEMS Parameters K Funct
5. MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben USP Alam INPUT Temp calib amp Auto Manual Pc 4 INPUT if Temp calib Manual gt Calibration Buffer BUS I gt 15uS 110015 1413uS 100mS Calibration System t Hold Hold Disabled Hold Enabled gt Code 2b 4 Confirm code X o This menu is available as an option 47 burkert FLUID CONTROL SYSTEMS Adjustment and functions Calibration gt MO Outputs AO1 AO2 I4 4mA INPUT i p 20mA INPUT PIMcOutputs Reset Yes No DI1 Di2 Totalizer 4 Reset totalizer Al gt ResettotalizerB 4 J Reset Yes No E N INPUT gt LA DI1 DI2 Flow IK factor md Volume teaching 4 PV tA E Elo gt I tiga pllgal LyStart teaching M PlMeasin progr v Input Volume v Teaching result Flow teaching K Pv 1L unit 4 Start teaching 4K 9 Meas in progr v Flow teaching
6. MO MAIN None Warning Dn 1 gt D2 MAO1 1 gt A02 Boi 1602 t gt SysSwitch t Fx DIT Flow MDB E Dims Diga Diga Diz PIDI2 Flow gt D12 7 gt D12 m3 DI2 gal DI2 lgal DI2 Hz DIT Totalizer K MTotal 1 a Dita Dli a m Pit a gal only available as an option on the versions PiDita lgal with analysis modules Total 1 b Dit DI1b m PDITbgal DI1b lgal PIDI2 Totalizer 4 Total 2 a DI2agal gt Di2b L PIDIEbms I p Total 2 b 4 DI2b gal DI2b lgal Warning event generated by the multiCELL Dix digital input AOx analogue output DOx digital output System switch when the corresponding event is configured and activated Fx result of configured and activated functions DI1 Flow flow rate on digital input DIT DI2 Flow flow rate on digital input DI2 DI1 Totalizer totalizers a and b on digital input DI1 DI2 Totalizer totalizers a and b on digital input DI2 51 aul Type 8619 burkert FLUID CONTROL SYSTEMS Adjustment and functions 9 15 2 On the pH redox module pH mv ORP PC PF RID pH measured pH of the fluid MxpH ORP 4 votive mV measured pH of the fluid in mV ORP measured oxidation reduction potential of the fluid in mV
7. Enter name faw fi I abcdef ghi j kl mnopqrst uv wx yz0123456789 3 21 lt gt nok UPP ovr ABORT EL SAVE to delete the character preceding the character selected in the entered name place the cursor over and press the key E function SEL Enter name fi sak E abcdef ghi j kl mnopqrst uv wx yz0123456789 21 2 lt gt xf1 UPP ovr ABORT SEL SAVE Br MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 27 Type 8619 burkert FLUID CONTROL SYSTEMS Adjustment and functions 9 5 Entering a numerical value Access for example the manual calibration function for a conductivity sensor Refer to chap 9 8 to access Calibration menu Mx Conductivity Cond manual caib Cond calib After confirming the numerical value 2 4 294 S cm input by pressing OK modify the fi A 25 01 C Move the decimal point by unit selected by pressing or P pressing to the far EEN right of the numerical value and V Increment or decrement the figure selected by gt then on until the decimal point is in the desired place the decimal point moves pressing O or V in a loop Fig 17 Example of a numerical value entering Access for example the pH value simulation function Refer
8. MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben e EE Teaching result I Mx pH ORP K pH auto calib etus point PIPH manual calib v E NO 2nd point w YES Rinse v 2nd point v H Cal Result pH calibration data MD Zero 4 NPUT Slope K IANPUT Iso potential M hllso potential INPUT iso pH INPUT ORP calibration l st a ORP Cal Result ORP calib data 4 PlOffset 4 INPUT Calib interval Last calib K gt VALUE Interval K INPUT _ Calib log 4 READING 48 Adjustment Type 8619 and functions burkert FLUID CONTROL SYSTEMS Calibration Mx conductivityl4 Automatic calib amp RESULT p Vanua calibration M PIINPUT RESULT Cell const 9 INPUT IDS Factor INPUT PICalib inte
9. Fig 6 7 3 3 Wiring the OUT outputs module Two 4 20 mA analogue outputs marked AO1 and AO2 Two digital outputs marked DO1 and DO2 The outputs are galvanically insulated and therefore voltage free 12 36 VDC 0 VDC FE A01 Ao2 FE Doi Do2 FE Connection example for the 8619 with two flow sensors type 8030 Wiring the OUT outputs module c 0 VDC 12 36 VDC 12 36 VDC _ Analogue outputs Digital outputs Fig 7 Wiring the OUT outputs module FE functional earth Type 8619 mum burkert Installation and wiring FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 7 3 4 Wiring the pH ORP module Wire a pH redox sensor in symmetrical mode to obviate the influence of interference and in this case wire the equipotential electrode compulsory When the pH redox sensor is wired in asymmetrical mode measurement of the pH or the oxidation reduction potential may drift over time when the equipotential electrode is not wired Equipotential electrode black recommended Temperature Reference sensor electrode translucid brown 9 white 2 black pH measurement electrode
10. burkert FLUID CONTROL SYSTEMS Technical data Type 8619 pH measurement pH measurement range 2 00 16 00 Resolution of pH measurement 0 01pH Accuracy of pH measurement 0 02pH Potential difference measurement range 600 600mV Resolution of potential difference measurement 0 1mV Accuracy of potential difference measurement mV pH probe type Electrochemical Current consumption 0 1VA Temperature measurement Measurement range 25 C 130 C Measurement resolution 0 1 C Measurement accuracy 1 C Temperature sensor type Pt100 or Pt1000 with 2 or 3 wires Electrical connection Per detachable 9 point set screw connector grey Refer to chap 6 3 7 for the specifications of connection cables 6 3 5 Specifications of the COND conductivity module Conductivity measurement Measurement range 0 000 uS cm 2000 mS cm Measurement resolution 10 S cm Measurement error 0 5 of measured value sensor error Conductivity cell type With 2 or 4 electrodes the specifications of B rkert cells are described in the relevant manual Resistivity measurement MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Measurement range 0 500O0cm 2 000MO cm Measurement resolution 10 Qcm Measurement error without sensor 0 5 of measured value Current consumption 0 25VA Tempe
11. Enter an appropriate volume check the K factor MO W Pulse x 1 1 In Pulse mode the volume entered for a pulse is incorrect Enter an appropriate volume check the K factor 10 3 5 Maintenance events related to calibration Right orange LED and icons 4 and displayed When a maintenance event related to calibration is generated The 4 20 mA output s operate normally The transistor outputs configured in warning mode switch Message displayed in the Information menu Meaning What to do MxM Time to cal A calibration is due on the sensor in the Mx module The periodicity of calibrations is set in the INTERVAL function in the CALIB INTERVAL menu Calibrate the sensor Type 8619 Maintenance and troubleshooting burkert FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 10 3 6 Error messages during data saving The following error messages may be displayed when saving data Message displayed Meaning What to do Missing memory card No memory card has been inserted into the device or the memory card has not been formatted Insert a memory card into the device Format the memory card Datalogger is enabled The memory card is already used by the datalogger Deactivate the datalogger File open
12. 7 d 5 1 Area of application AO aN N a Doo Re IE N N 7 E 5 2 General descrpLiOI uuvuttaa ve ee ese ecco oe EKKE ee RON bua aa mu o ORDER se o 7 E 5 3 Functional description uuu ss ona ua aan Aa a enn a KR Anaan REED n kon be kk ouni A Ehen 8 g 6 TECHNICAL DATA 9 W 5 6 1 Conditions of USE 9 E 6 2 Compliance to standards and directives e saunaan naa uu aan au anu au annan nua toos ua uu auma una 9 8 6 31 General technical data aedis ded adden ee arua ei 9 2 z 7 INSTALLATION AND WIRING tectis maama a v m i m o a mo anne 14 i Tl Safety instructions com eS ue LLLI cities fccit cU MMC Dem EDU 14 B 7 2 Building the device into a housing or cabinet eee rer eek aa una ee RR Roe Re Ke Beek ee uu uu unu annan 14 z Z3 Electrical ie OE EE AE EE en A uu ak 16 8 ier i c T Y 22 8 1 Safeivinstruclions et ehe hei ersehen Eri i M 22 9 ADJUSTMENT AND FUNCTIONG ccsssssssssssssesscssssessssssesessssseessssssuesessnseserssseessssuseeeseaueessesnsesessnneresssaneeesesusesessenuesessnuneseeeanenesesnueeeseenneneseeans 23 9 1 Safety instr cti ns 23 PEE YT Te Ee nenn E E 23 9 3 Using the navigation button and the dynamic key sesse EER AE Beek Ke ee
13. Channel Single Dual DF 4 MOMAN 6 N Mx EP Type 4 lintemal external t pISP PV t M0 MAIN 2 NS Mx E HPV range MPVRange E RINPUT c EEE NNNM i I YPVRange 4 gt INPUT o Oo 2 Reg type 4 1 Mode 4 linear 2 non linear 8 3 Low I INPUT E High 4 gt INPUT D a PCMD Direction K Channel 1 2 9 Rise N L Fat Ks n o Advanced o N co z p SPlimit it Mode K HON 2 9 _ OFF E _ p SPlimits INPUT __ SPlimits 4 NPUT 5 1 gt CutOff 4 Mode Jt OF E Cut icut LU PCuCutr te i put 4 gt INPUT e Cut K RINPUT o S PICMD Safe M PMode K N E OFF Channel 172 14 iNPUT Inversion K MChanmel 1 2 ON _ OFF The choices offered depend on the modules fitted and or the options activated 2 This function is present if SP Type external 9 These functions are present if Reg Type Mode non linear 41 E Type 8619 burkert FLUID CONTROL SYSTEMS Adjustment and functions Parameters gt Functions FA FB K ED
14. Mx Outputs Th Information kK gt Error 4 ON OFF NJ Nj Temperature 4 READING Warn hi j 4 iNPUT Warn lo INPUT Er hi 4 gt INPUT Err lo 4 IINPUT Monitor 4 READING Tests M System Code 91o HMConfrm code M F Ta TE N i oO Q N 9 SinustePv M PV E PMOMAIN eo E T HE I 9 n 8 D LPM 2 z Value 4 INPUT Ks I gt Mo Outputs MAOT INPUT S TA AO 4 INPUT g Do1 4 MOFE ON LO o 1202 4 IOFF ON 3 eo E a E S o eo gt z LL LO tT O O co o eo o z lt 4 MESSAGE G Warning M MESSAGE Maintenance 4 MESSAGE Smiley 4 MESSAGE System log READING gt Versions it Mo K4 READING M1 K READING Me K READING The choices offered depend on the modules fitted and or the options activated 50 bv burkert Adjustment and functions FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 9 15 Process inputs or values 9 15 1 On the MO MAIN board
15. 36 bv burkert Adjustment and functions FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 9 12 Example for configuring the AO1 analogue output of the MO MAIN board Associate the analogue output to the M2 module and to the conductivity range of O to 500 uS cm Refer to chap 9 8 to access Parameters menu Parameters 4 J9 Mo Outputs MAOI M F 4 gt M2 Conductivity HluS cm Lpl4mA 4 0 000 uS cm t gt 20mA 4 500 0 uS cm fFiltre none 9 13 Example for configuring the DO1 digital output of the MO MAIN board The function is available on devices with an analysis module if the FLOW software option is activated Associate the digital output to the flow input DI2 in pulse mode Enter a pulse value equal to 0 2 litres Refer to chap 9 8 to access Parameters menu Parameters 4 M0 Outputs K MDOI 4 Mode 4 Pulse Mode Pulse A Input K IDE Pulse gt 0 2 C modify the unit L pulse with V and O DA 37 E Type 8619 burkert FLUID CONTROL SYSTEMS Adjustment and functions 9 14 Structure of the configuring menus Refer to chap 9 8 to access Configuring mode
16. LI 1 2 3 4 5 6 7 8 9 FE functional earth 0 Colour of the wires in Burkert connection cables for order codes 561904 561905 or 561906 O Colour of the wires in the Pt1000 sensor for order code 427023 and its B rkert connection cable for order code 427113 Fig 8 Wiring a B rkert 8200 type sensor and a Pt1000 temperature sensor in symmetrical mode Temperature sensor Reference electrode translucid Equipotential electrode pH measurement electrode LI LI O W nee 12 8 4 s e 7 8 9 FE functional earth Colour of the wires in B rkert connection cables for order codes 561904 561905 or 561906 Fig 9 Wiring a pH sensor and a Pt100 or Pt1000 temperature sensor in asymmetrical mode to a pH ORP module 19 ae Type 8619 burkert E FLUID CONTROL SYSTEMS Installation and WIFING MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Wire colour translucid pH sensor red coax cable shielding reference electrode blue rhodium electrode strap not translucid delivered reen yellow green yellow cable shielding grey mu D00D00000 green Pt1000 Lu a white Pt1000 sebvoortsee 12 3 4 s e 7 8 9 FE functional earth Fig 10 Wiring a Burkert 8201 type sensor with integrated Pt1000 temperature sensor in symmetr
17. 9 11 1 Customising the User view 3 to display both measured conductivity and temperature values Refer to chap 9 8 to access Parameters menu Parameters 4 Display 4 lUserview3 Mype 2 lines i Titel 4 PURE WATER example of a title for the view L plLine1 It PV 4 9M2 Conductivity 9 uS em Unit gt uS cm Filtre 4 none plLine2 M F M2 Conductivity PC Unit I Pc Filtre none Fk 2010 06 29 13 40 The title of the view is displayed here 1 003 HS cm Indicates the number of the board or module from which 22 6 C the process value originates eti Fig 23 Display of the conductivity and temperature values for the cola in the customized view U2 9 11 2 Configuring the conductivity cell and the temperature sensor Refer to chap 9 8 to access Parameters menu Parameters 4 9 V2 ConductivityK Cell 4 2 electrodes L RTD K PETi000 9 11 3 Entering the constant of the conductivity cell MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Refer to chap 9 8 to access Calibration menu Calibration 4 V2 Conductivity Cell ENTER
18. The file cannot be created Format the memory card Memory card write Write problem of the file Check that the memory card is not write protected Check that there is enough free space on the memory card 10 3 7 Error messages during data loading The following error messages may be displayed when loading data Message displayed Meaning What to do Missing memory card Datalogger is enabled No memory card has been inserted into the device or the memory card has not been formatted The memory card is already used by the datalogger Insert a memory card into the device Format the memory card Deactivate the datalogger Memory card read The file with the saved data cannot be read gt Check on a PC that the file with the saved data named MxUSER BIN is present on the memory card module to a conductivity module File open The file with the saved data is corrupted Use another file Incompatible You are trying to transfer data saved from a module toa Load data to a module of the same module module of different type e g the data saved from a pH type 57 burkert kb diti FLUID CONTROL SYSTEMS Spare parts and accessories 11 SPARE PARTS AND ACCESSORIES CAUTION Risk of injury and or material damage caused by the use of unsuitable parts Incorrect accessories and unsuitable r
19. freigegeben m burkert Basic safety information FLUID CONTROL SYSTEMS 3 BASIC SAFETY INFORMATION This safety information does not take into account any contingencies or occurrences that may arise during assembly use and maintenance of the device the local safety regulations that the operator must ensure the staff in charge of installation and maintenance observe N Danger due to electrical voltage Shut down and isolate the electrical power source before carrying out work on the system Observe all applicable accident protection and safety regulations for electrical equipment Various dangerous situations To avoid injury take care to prevent any power supply switch on carry out the installation and maintenance work by qualified and skilled staff with the appropriate tools guarantee a set or controlled restarting of the process after a power supply interruption use the device only if in perfect working order and in compliance with the instructions provided in the user manual observe the general technical rules during the planning and use of the device MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben NOTE Elements Components sensitive to electrostatic discharges This device contains electronic components sensitive to electrostatic discharges They may be damaged if they are touched by an electrostatically charged person or objec
20. imped This message is displayed if monitoring of the impedance of the reference electrode is activated depending on the ERROR LOW and ERROR HIGH thresholds defined Go to the Diagnostics menu to read the impedance value of the reference electrode gt if necessary clean the probe then recalibrate the measurement sensor or replace the probe 53 burkert FLUID CONTROL SYSTEMS Type 8619 Maintenance and troubleshooting Message displayed in the Information menu Meaning What to do Mx E Conductivity The fluid conductivity is out of range This message is displayed if monitoring of the fluid conductivity is activated depending on the ERROR LOW and ERROR HIGH thresholds defined Go to the Diagnostics menu to read the fluid conductivity value if necessary clean the cell then recalibrate the measurement sensor Mx E Temperature The fluid temperature is out of range This message is displayed if monitoring of the fluid temperature is activated for the Mx module depending on the ERR LO and ERR HI thresholds defined Go to the Diagnostics menu to read the value of the temperature measured If necessary check whether the temperature sensor is working correctly by measuring a fluid with a known temperature gt If the temperature sensor is faulty return it to the manufacturer if the temperature sensor is not the cause
21. C measured temperature of the fluid in C F measured temperature of the fluid in F RTD resistance of the temperature input in Q 9 15 3 On the conductivity module uS cm cm Pc 11 ES 4 RTD ms USP uS cm measured conductivity of the fluid Mx Conductivity 3 RE EE ER Q cm resistivity C measured temperature of the fluid in C F measured temperature of the fluid in F RTD input resistance of the temperature stage in Q TDS quantity of dissolved solids in the fluid in ppm 0o mass concentration of the fluid software option USP state of the USP function 9 15 4 On the additional outputs module Mx Outputs 01 1 LMAO2 1 Loi 1 bo2 AOx analogue output MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben DOx digital output 52 Type 8619 Maintenance and troubleshooting burkert FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 10 10 1 DANGER Safety instructions MAINTENANCE AND TROUBLESHOOTING Risk of injury due to electrical discharge Shut down and isolate the electrical power source before carrying out work on the system Observe all applicable accident protection and safety regulations for electrical equipment WARNING Risk of injury due to non
22. FE functional earth Fig 14 Connection example for a 8220 conductivity sensor Temperature sensor GO ow LU otro ee 12 8 alslel7 8 9 FE functional earth Fig 15 Wiring a resistive conductivity cell with 4 electrodes and a Pt100 or PT100 temperature sensor in a conductivity module 21 burkert FLUID CONTROL SYSTEMS Commissioning Type 8619 8 COMMISSIONING 8 1 Safety instructions WARNING Danger due to non conforming commissioning Non conforming commissioning could lead to injuries and damage the device and its surroundings Before commissioning make sure that the staff in charge have read and fully understood the contents of the manual In particular observe the safety recommendations and intended use The device installation must only be commissioned by suitably trained staff Protect this device against electromagnetic interference ultraviolet rays and when installed outdoors the effects of the climatic conditions MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 22 bv burkert Adjustment and functions FLUID CONTROL SYSTEMS 9 ADJUSTMENT AND FUNCTIONS 9 1 Safety instructions WARNING Risk of injury due to non conforming adjustment Non conforming adjustment could lead to injuries and damage the device and its environment The operators in charge of adjustment mu
23. Version printed 05 08 2010 Status RL released freigegeben 56 Message displayed in the Information menu Meaning What to do Mx W Temperature The fluid temperature is out of range This message is displayed if monitoring of the fluid temperature is activated on the Mx module depending on the WARNING LOW and WARNING HIGH thresholds defined Go to the Diagnostics menu to read the value of the temperature measured If necessary check whether the temperature sensor is working correctly by measuring a fluid with a known temperature gt If the temperature sensor is faulty return it to the manufacturer if the temperature sensor is not the cause of the problem check the process 10 3 4 Warning events related to a problem with the device Left orange LED and icons and displayed When a warning event related to a problem with the device is generated The 4 20 mA output s operate normally The transistor outputs configured in warning mode switch Message displayed in the Information menu Meaning What to do exceeded MO W Time lost The date and time are lost Set the date and time again MO W ON OFF The duration defined in the parameter Max Deactivate then reactivate the ON OFF time ONtime in the ON OFF function has been function MO W Pulse x lim In Pulse mode the volume entered for a pulse is incorrect
24. and functions 9 10 Example for configuring a pH sensor Example of a pH sensor and a Pt1000 temperature sensor both connected to the M1 module of the multiCELL 8619 9 10 1 Customising the User view 2 to display both measured pH and temperature values Refer to chap 9 8 to access Parameters menu Parameters 4 Display User view 2 type It LZ lines Titel I4 coLA example of a title for the view plLine1 M F K M1 H ORP_ pH runt WX 9 bH Filtre none LP Line2 4 lPv X 9M1 pH ORP PC Unit Tc fFiltre it none 2010 06 29 13 40 The title of the view is displayed here 3 5 pH Indicates the number of the board or module from which 22 6 C the process value originates ETES Fig 22 Display of the pH and temperature values for the cola in the customized view U2 9 10 2 Configuring the temperature sensor Refer to chap 9 8 to access Parameters menu Parameters M1 pH ORP__ RTD K PIPT1000 9 10 3 Calibrating the pH sensor Refer to chap 9 8 to access Calibration menu MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 34 b avi burkert Adjus
25. of the problem check the process Mx E RTD open The temperature sensor is not connected to the Mx module This message may only be displayed if the meas urement mode of the temperature for module Mx is set to automatic Connect a temperature sensor to the Mx module or set the temperature value used in the process to Manual mode When an error event related to a problem with the device is generated The transistor outputs operate normally 10 3 2 Error events related to a problem with the device Left red LED and icons and displayed The 4 20 mA output s on the MO MAIN board generate a current of 22 mA Message displayed Meaning What to do in the Information menu Mx E ORP sat The pH and or redox value is not being correctly Check the correct wiring of the earth points i i measured due to the saturation of the input stage of MxE pH sat the measuring board check the eguipotential surfaces of the installation MO E Mx com The link to the measurement module s is Switch the power supply off then on again interrupted if the error persists return the device to B rkert MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Mx E Memory FR Mx E Memory IR 54 Factory data is lost The process continues but the accuracy of the device is modified Switch the power supply off then on a
26. 1 pH 13 40 mS cm Ez OFF DO2 MO MAIN en an 830 je an Rot d Lee aan De 12 00 A52 OFF D OFF DO 30 00 Di 25 2 C MENU CHEZ s OFF D2 OFFDO 4 999 bis n mA L 6 000 AO1 33 00 Di2 73 j 20 00 A02 F MENU 1193 Views of the modules connected to the device cannot be modified E E MO MAIN view displays the values of inputs and outputs on the main e board the second MO view is available on the devices with analysis e i modules if the software option FLOW is activated E M1 to M6 views display the data for modules 1 to 6 S i g i 4 PROCESS1 Er M nen User defined views U1 to U4 are 2 6 53 pH each used to display 1 2 or 4 data or o MB 25 mS cm a graph Only the effectively defined o 3 x Ut PH COND 2010 06 29 13 40 Ig 25 2 c views are Shown S eH 95 BEN 205 min 8 MENU ea a 3 m POM 6 53 p p 5 e E ns F6 ONOFF 2010 06 29 13 40 n do Po fuer 1 250 0 Pv 9 uS cm Tt mu 500 0 SP 5 F2 PROP 2010 06 29 13 40 0 0 00 Cubs n m ERIS Off F3 Dos st FA 250 2 HS cm MENU SETP ett CMD1 F1 A B luvan 13340 aa us Views of active functions which 9 148 uni 00 Quent cannot be modified F1 to F6 are m EX MANU ae used to display one function each An 57 Um et qe Only the views of functions declared un d gt active are shown Limi lt E 9 205 FlowProcess S MENU etl d 31 burkert FLUID CONTROL SYSTEMS Type 8619 Adjustment and f
27. Building the device into a housing or cabinet Follow the instructions below to build the multiCELL delivered fully assembled into a housing or cabinet 92 0 5 0 Stage l Check that the thickness of the door of the housing or cabinet is 4 mm max gt gt Cut out the hole in the door of the electrical housing or cabinet in accordance with the standard IEC 61554 1999 DIN 43700 allowing the space required around the cut out and inside the cabinet to easily handle the 4 locking systems delivered with the multiCELL 92 0 5 0 le MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Stage 2 Prepare the 4 locking systems gt Insert a screw into each device Tighten the screw until the end of the shaft of the screw is flush with the device 14 Type 8619 a m urkert Installation and wiring bi Irkert Stage 3 gt Slide the housing into the cut out with the connectors to the back until it can go no further Stage 4 Insert 1 the hooks on the first locking system into the slots on the housing Pull the locking system 2 until you hear a click The click may be heared when tightening the locking system at stage 6 Stage 5 Place the locking system flush against the multiCELL by hand so that the hooks remain in place Stage 6 Fully tighten th
28. N Period NPUT Max lines 4 INPUT I MBV1 PV8 gt Mo MAIN N M1 LMPV9 PV16 D 1 Mx gt MO Outputs AO1 402 _ PPV E PIMOMAIN M1 P Mx Outputs 1 Mx L p 4mA It INPUT omA I4 INPUT Filter I4 None Fast Slow gt Diag events it None Lp 22mA The choices offered depend on the modules fitted and or the options activated MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 44 Type 8619 Adjustment and functions burkert FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Parameters 4 M0 Outputs DO1 DO2 4 Mode On Off 4 Mode On Off Pv K IMOMAIN gt Mx Outputs Mi b 1 Mx Invert se No Yes LA Delay INPUT Mode Hyst Win Hysteresis b PV MO MAIN Window MT 1 Mx Low INPUT High K gt INPUT Invert L No Yes PIDelay INPUT FastPWM gt Mode FastPWM IPV K gt M0 MAIN M1 1 Mx Low INPUT Hah W gt INPUT Invert kt No Yes Frequ
29. Version printed 05 08 2010 Status RL released freigegeben 60 uagafaBiey peseejeJ JY snie1s 0107 80 S0 PAUA uoIS18A NI GF96ELOOOI NVIN burkert FLUID CONTROL SYSTEMS o Q o Oo o D o o n G o o a 9 2 KS www burkert com
30. What to do Mx W Ref imped The impedance of the reference electrode on the Mx module is out of range This message is displayed if monitoring of the impedance of the reference electrode is activated on the Mx module depending on the WARNING LOW and WARNING HIGH thresholds defined Go to the Diagnostics menu to read the impedance value of the reference electrode if necessary clean the probe then recalibrate the measurement sensor or replace the probe This message is displayed if monitoring of the fluid conductivity is activated on the Mx module depending on the WARNING LOW and WARNING HIGH thresholds defined Mx W Glass The impedance of the measurement electrode on Go to the Diagnostics menu to read imped the Mx module is out of range the impedance value of the measurement This message is displayed if monitoring of the an impedance of the ES EED electrode is if necessary clean the probe then recalibrate activated on the Mx module depending on the measurement sensor or replace the probe the WARNING LOW and WARNING HIGH thresholds defined Mx W Conductivity The fluid conductivity is out of range Go to the Diagnostics menu to read the fluid conductivity value if necessary clean the cell then recalibrate the measurement sensor 55 burkert FLUID CONTROL SYSTEMS Type 8619 Maintenance and troubleshooting MAN 1000139645 EN
31. able below Wire specifications Dimensions of the max clamping area Single core H05 07 V U OD ES Im Flexible wire HO5 07 V K 0 2 1 5 mm With non insulated end connection 0 2 1 5 mm With insulated end connection 0 2 0 75 mm Table 1 Specifications of the wires making up the connection cables 13 burkert FLUID CONTROL SYSTEMS Installation and wiring Type 8619 7 INSTALLATION AND WIRING 7 1 Safety instructions DANGER Risk of injury due to electrical discharge Shut down and isolate the electrical power source before carrying out work on the system Observe all applicable accident protection and safety regulations for electrical equipment WARNING Risk of injury due to non conforming installation Electrical installation can only be carried out by qualified and authorised personnel with the appropriate tools Install appropriate safety devices correctly rated fuse and or circuit breaker The use of probes sensors sold by B rkert is preferable Follow the instructions on installation and wiring of remote sensors connected to the multiCELL Risk of injury due to unintentional switch on of power supply or uncontrolled restarting of the installation Take appropriate measures to avoid unintentional activation of the installation Guarantee a set or controlled restart of the process subsequent to the installation of the device 7 2
32. after accessing the function in the Parameters menu function 3 O reduce the percentage increase the percentage modify a numerical value or the units C O increment the figure V selected or modify the units decrement the figure selected or modify the units select the previous figure select the next on allocate the or sign to a numerical value move the decimal point in a numerical value to the extreme left of the numerical value then until the desired sign is displayed to the extreme right of the numerical value then D until the decimal point is in the desired place MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 9 4 Modifying a name This chap describes how to use the keyboard displayed to modify the name of a process variable 13 characters max a function 12 characters max or the title of a view 12 characters max To retrieve the original name even after modification and saving edit the new name delete all the characters using one of the methods described on p 27 25 burkert FLUID CONTROL SYSTEMS Type 8619 Adjustment and functions Example rename a variable choose one of the variables suggested Refer to chap 9 8 to access Parameters menu Place the cursor over the desired letter using the navigation butto
33. ample for configuring a flow sensor The Flow function is available on devices with an analysis module if the FLOW software option is activated Example of a flow sensor type 8030 fitted with a DN15 PVC S030 fitting connected to the DI1 input of the multiCELL 8619 9 9 1 Customising the User view 1 to display the measured flow rate Refer to chap 9 8 to access Parameters menu Parameters Display 4 Userviev1 Mye Mi line Mie M MFLOW 8030 example of a title for the view plLine1 M F K PIMOMAIN gt DI1 Flow DIT E Unit K L mn fFilter 4 fast U FLOW 8030 2010 06 29 13 40 i iew is di indicatesthe numberstthe Forms The title of the view is displayed here board or module from which u the process value originates F7 2 5 0 0 a L h MENU eti Fig 21 Display of the flow rate measured by the flow sensor 8030 in the customized view U1 9 9 2 Entering the K factor of the fitting used Refer to chap 9 8 to access Calibration menu Calibration K Mo npus M DI Flow KK factor 4 gt 106 7 Always enter the K factor in pulse litre refer to the instruction manual of the fitting used 33 burkert R FLUID CONTROL SYSTEMS Adjustment
34. conforming maintenance Maintenance must only be carried out by qualified and skilled staff with the appropriate tools Guarantee a set or controlled restarting of the process after a power supply interruption 10 2 Maintenance of the multiCELL The multiCELL can be cleaned with a duster slightly moistened with water with possible addition of a detergent compatible with the materials it is made of Please feel free to contact your B rkert supplier for any additional information 10 3 If you encounter problems 10 3 1 Error events related to the monitoring of process parameters Right red LED and icons and 9 displayed When an error event related to the monitoring of the process parameters is generated The 4 20 mA output s on the MO MAIN board generate a current of 22 mA if Diag events is configured as 22 mA The transistor outputs operate normally Message displayed in the Information menu Meaning What to do Mx E Glass imped The impedance of the measurement electrode on the Mx module is out of range This message is displayed if monitoring of the impedance of the measurement electrode on the Mx module is activated depending on the ERROR LOW and ERROR HIGH thresholds defined Go to the Diagnostics menu to read the impedance value of the pH electrode if necessary clean the probe then recali brate the measurement sensor or replace the probe Mx E Ref
35. e EK RE e ee ee eek ee aamen 24 burkert pede FLUID CONTROL SYSTEMS 94 Modilvina name ss DE EE ELM edd Pe NRE RRS SS DD A re UD cre 25 95 Entering a n umericalvalue nenne uia 28 9 6 Description of the display anna KERR ek ERG d n 29 9 73 C Dalee RR 31 9 8 Configuringimodeaccess ivvusvssivassssasidavissa tana i ankan a ea a daa n Anaa nu vaan 32 9 9 Example for configuring a flow sensor eee rer ua namu nu AAR RR uu nuunuu uu nuunuu nun unu unu uu unu unu uu unu unu uu uu DUE 33 9 10 Example for configuring a pH sensori sssssasaaees vaavin see Reg ERGER anne Taava av vana mana Rae eke aN aan 34 9 11 Example for configuring a conductivity sensor eee auma annua annan naan nua nuunuu uu uu aan uu Ke ee eek Ee ee 36 9 12 Example for configuring the AO1 analogue output of the MO MAIN bOard s sssssssssssssssesssssesssseessssesssseesssseessases 37 9 13 Example for configuring the DO1 digital output of the MO MAIN DOard sssssssssssssssssssssssssssessaeesssseessseesssseesssees 37 T 2 9 14 Structure of the configuring MENUS anuneenneenneennnnunnennnnnunnnennnnnnnennnnunnnnnnnnunnennnnnunnnnnnnnnnnnunnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnennnnnnnnnunnnnnnennnnee 38 D o 9 15 Process inputs or values eesesessnnnnssessessssseeneeneesssnsnnnnnsssssssssssseneeenesssnnnnnnnsssssssssnsn
36. e screws using an appropriate screwdriver Repeat stages 4 to 6 to fit the other 3 locking systems MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Fig 4 Insertion of the 8619 into a housing or cabinet 15 burkert FLUID CONTROL SYSTEMS Installation and wiring Type 8619 7 3 Electrical wiring DANGER Risk of injury due to electrical discharge Shut down and isolate the electrical power source before carrying out work on the system Observe all applicable accident protection and safety regulations for electrical equipment 1 Use a high quality electrical power supply filtered and regulated Connect the functional earth on the installation to the ground screw on the device see Fig 7 Connect the shielding on each wire to an FE functional earth terminal to guarantee the equipotentiality of the installation Use shielded cables that respect the specifications described in Table 1 Specifications of the wires making up the connection cables 7 3 1 Electrical connections For all versions of the multiCELL the electrical connection is made by set screw connectors 7 3 2 Wiring the MO MAIN board The MO MAIN board is used to connect the multiCELL s electrical power source It has 2 digital inputs marked DI1 and DI2 for connecting a flow sensor for example Two 4 20 mA analogue outputs marked AO1 and AO2 2 digital ou
37. els A B A B A B Arithmetic procedure between 2 values with the same unit A or B may be the result of another function PASS Standard on all models A B x 100 Calculation of the passage rate REJECT Standard on all models 1 A B x 100 Calculation of the rejection rate DEVIAT Standard on all models A B 1 x 100 Calculation of the deviation rate PROP proportional Standard on all models process parameter scal scal Calculation of an output proportionally to bounded input ON OFF Standard on all models ON OFF control For all input types Flow rate measurement Standard on models 560205 or 560213 Optional on all the other models Each of the 2 digital inputs can be used to measure the flow rate PID Optional Continuous regulation For all input types with internal or external setpoint Time dosing Optional In a cooling tower for example used to dose 2 products at fixed intervals or for twice daily dosing scheduled over one week The time dosing function can be combined with an ON OFF function on a conductivity measurement only in order to ensure prebleed of the system The ON OFF function must be configured and activated before the time dosing function Volume dosing Optional Dedicated to cooling towers Metering of a specific volume of water and activation of an actuator during a specific pe
38. ency M PINPUT PWM K P Mode PWM Pv 4 M0 MAIN M1 1 Mx I Low gt INPUT High 9 INPUT Invert K gt No Yes gt Period INPUT b Min ON time 4 lINPUT The choices offered depend on the modules fitted and or the options activated 45 burkert Ee FLUID CONTROL SYSTEMS Adjustment and functions Parameters gt MO Outputs DO1 DO2 4 gt Mode gt PFM 4 Mode PFM b i PPV PIMOMAIN PIMcOutputs M1 1 Mx I Low INPUT High INPUT Invert it No Yes Max freq K INPUT Pulse width 4 INPUT gt Pulse K Mode Pulse 2 Input It Di L_ pi2 5 D gt Pulse INPUT Oo D o MxpH ORP gt RTD gt INone 3 MPT100 S L_y PT1000 9 z Temperature M Auto Mana 3 Ks a Temp Adjust__ INPUT if Temperature Auto o Ex EG gt mrur if Temperature Manual o Z Temp calib W Auto 2 3 Manual EC 4 INPUT if Temp calib Manual a gt Buffer Hamilton 6 D DIN19267
39. entified by DI digital input two 4 20 mA current outputs identified by AO analogue output and 2 digital outputs identified by DO digital output C 1 to 6 slots for placing the following modules light grey module for connection of a pH or oxidation reduction potential sensor and or a temperature sensor green module for connection of a conductivity sensor and or a temperature sensor black module with two 4 20 mA current outputs and 2 digital outputs D functional ground screw connected internally to all FE terminals on the main board and additional modules E memory card SD type reader recorder F display with backlight G navigation button 4 directions MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben H 4 dynamic keys function keys with dynamic changing assignment J 2 LEDs Fig 1 Design of an 8619 burkert FLUID CONTROL SYSTEMS Type 8619 Description MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 5 3 Functional description The multiCELL is used to link each input to a function dosing for example which can be fully configured by the user Depending on the selected model the following functions are offered as standard or as options Function Availability Formula Example for usage Arithmetic Standard on all mod
40. eplacement parts may cause injuries and damage the device and the surrounding area Use only original accessories and original replacement parts from Burkert 12 PACKAGING TRANSPORT ATTENTION Damage due to transport Transport may damage an insufficiently protected device Transport the device in shock resistant packaging and away from humidity and dirt Do not expose the device to temperatures that may exceed the admissible storage temperature range 13 STORAGE CAUTION Poor storage can damage the device Store the device in a dry place away from dust Storage temperature 20 60 C restricted to 0 60 C if a memory card is inserted 14 DISPOSAL OF THE DEVICE gt Dispose of the device and its packaging in an environmentally friendly way CAUTION Damage to the environment caused by products contaminated by fluids Keep to the existing provisions on the subject of waste disposal and environmental protection o Note Comply with the national and or local regulations which concern the area of waste disposal MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 58 Type 8619 Spare parts and accessories burkert FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben english 59 burkert Pe FLUID CONTROL SYSTEMS Spare parts and accessories MAN 1000139645 EN
41. gain if the error persists return the device to B rkert Type 8619 Maintenance and troubleshooting burkert FLUID CONTROL SYSTEMS Message displayed in the Information menu Meaning What to do Mx E Memory UR Mx E Memory UW User data for the sensor is lost Switch the power supply off then on again check the parameters of all the sensors then save them again if the error persists return the device to B rkert Mx E Memory CR Mx E Memory CW The calibration parameters of the Mx module are lost Switch the power supply off then on again if the error originates in the MO MAIN board perform a new teach in if the error originates in an Mx module cali brate the sensor connected to this module again if the error persists return the device to B rkert MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Mx E RTClock The clock is faulty The process continues gt Return the device to B rkert 10 3 3 Warning events related to the monitoring of process parameters Right orange LED and icons A and displayed When a warning event related to the monitoring of the process parameters is generated The 4 20 mA output s operate normally The transistor outputs configured in warning mode switch Message displayed in the Information menu Meaning
42. gt gt Calibration limits pH zero M Warning high INPUT a Warning low INPUT 1o Error high KM PINPUT 2 Error low INPUT S pH slope M Warning high K iNPUT Z Warning low INPUT _p Error high INPUT Error low K RINPUT ORP Offset Warning high INPUT Warning low K INPUT Error high INPUT Error low 4X iNPUT The choices offered depend on the modules fitted and or the options activated 2 Function possible only for the DOT and DO outputs on the MO MAIN board 46 b avid burkert Adjustment and functions FLUID CONTROL SYSTEMS Parameters Mx Conductivity Cell K P electrodes 4 electrodes RID M None _ PT100 p Pr1000 Temperature Auto Manual Temp adjust INPUT if Temperature Auto PC INPUT if Temperature Manual gt Temp Comp M PINone Linear EN 27888 gt POPW gt L UPW NaCI Concentrtable 1 Hoef K PINPUT if Temp Comp Linear Concentration K PINone 1 _ H2S040 30 ME2SO482840 H2SO4 92 9996 PHNO3 0 30 I P HNO3 B5 96 PHCI 0 18 1 gt HCI22 39 t p NaOH 0 14 PINaOH 8 50 p NaCK0 26
43. he information mentioned especially at chapters ntended use and Basic safety instructions can lead to hazardous situations This Quickstart must be read and understood The Quickstart describes the main steps to be carried out when installing commissioning and programming the device Refer to the corresponding instruction manual to get a complete description of the device The instruction manual for type 8619 can be found on the CD provided with the device or on internet under www burkert com gt Documentation Datasheets or Manuals Approvals gt Type 8619 1 1 Symbols used DANGER Warns you against an imminent danger Failure to observe this warning can result in death or in serious injury WARNING Warns you against a potentially dangerous situation Failure to observe this warning can result in serious injury or even death CAUTION Warns you against a possible risk Failure to observe this warning can result in substantial or minor injuries NOTE Warns you against material damage Failure to observe this warning may result in damage to the device or system o Indicates additional information advice or important recommendations for your safety and for the correct operation of the device aa AE Refers to information contained in this manual or in other documents gt Indicates a procedure to be carried out zn Type 8619 burkert FLUID CONTROL SYSTEMS Intended
44. his position are HI flashing HOLD mode activated T flashing running check that an output is working and behaving correctly Maintenance event see chap 10 3 Warning event see chap 10 3 Error event see chap 70 3 Memory card inserted The alternative to this position is the icon indicating a memory card error 29 burkert FLUID CONTROL SYSTEMS Type 8619 Adjustment and functions 9 6 2 Switching on the device for the first time When switching on the device for the first time the display shows the first view in READ mode MO MAIN OFF Du OFF pie 2010 06 29 13 40 OFF po OFF po 6 000 36 20 00 X62 EET Fig 20 Display when switching on for the first time views in Read mode D MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 30 N When switched on subseguently the last active view in the Read menu is displayed See chap 9 7 to browse in all Type 8619 Adjustment and functions burke rt FLUID CONTROL SYSTEMS 9 7 Read mode ra M6 Outputs 2010 06 29 3 40 pU M2 Conductivity 2010 06 293 40 OFF DO1 M
45. ical mode using a Var iopin connection cable with order code 554856 or 554857 J Temperature sensor Reference electrode Oxidation reduction potential measurement electrode 2 ala slel7 8 9 FE functional earth Fig 11 Wiring an oxidation reduction potential sensor and a Pt100 or Pt1000 temperature sensor in a pH ORP module Oxidation reduction potential measurement electrode Temperature l sensor Reference electrode b pH measurement electrode LU 2 ala s e v 8 9 FE functional earth Fig 12 Wiring a pH sensor an oxidation reduction potential sensor and a Pt100 or Pt1000 temperature sensor in a pH ORP module ie de burkert Installation and wiring FLUID CONTROL SYSTEMS printed 05 08 2010 Status RL released freigegeben MAN 1000139645 EN Version 7 3 5 Wiring the COND conductivity module Conductivity sensor Temperature sensor FI 12 3 alslel7 8 o FE functional earth Fig 13 Wiring a resistive conductivity cell with 2 electrodes and a Pt100 or PT100 temperature sensor in a conductivity module GO O w ul Pup 12 8 4 s e v 8 9
46. ions Fi F6 MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben The choices offered depend on the modules fitted and or the options activated 2 These functions are present if Mode On Off VOLDOSNG gt Type Name E RINPUT Status 4 OFF ON Pv KM MOMAN 4 None DI1 Pulse PIDI2 Pulse PIDIT Flow t p DI2 Flow L p DI1 Totalizer PIDI2 Totalizer Mx gt None Unit tL ims lagal gt ligal Volume E PINPUT Dosing time _ INPUT _p CMD Safe 4 Mode KM OFF ON Value K RINPUT System switch Mode t gt On Off Hysteresis Window PV E PIMOMAIN MT 1 Mx Low K INPUT 2 High INPUT 2 Invert K gt No Yes Delay INPUT 43 burkert FLUID CONTROL SYSTEMS Adjustment and functions Parameters K Datalogger it Status 4 OFF Ly O
47. n Select the highlighted letter by pressing the key function SEL SEL over ovr then press the key MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 26 Fi Parameters Display X PV names 4 M0 MAIN DI Flow i Enter name f abcdefighi j kl mnopqrst uv wx yz0123456789 2 lt gt vo wx UPP ovr ABORT Enter name f 7 ABCDEFGHI JKL MNO PQRS TU VWX YZ LIES amp Ay ge ax ovr ABORT function SEL Enter name f A abcdefghi jkl mnopqrst uvwx yz0123456789 2 21 lt gt x ABORT Display the capital letters and different signs by placing the cursor over UPP then pressing the key iz function gt By default the character insertion Ins mode is activated to activate the character overwrite mode place the cursor bei burkert Adjustment and functions FLUID CONTROL SYSTEMS to select a character in the entered name place the cursor over the arrows or and press the key E function SEL Enter name fiw ei abcdef ghi j kl mnopqrst uv wx yz0123456789 21 2 lt gt Kex2 UPP ovr ABORT SED SAVE ER gt to delete the character selected in the entered name place the cursor over X and press the key function SEL
48. nce 3kQ Galvanically insulated Protected against polarity reversal and voltage spikes Frequency 0 5 to 2500Hz All analogue outputs AO 4 20mA current Any connection mode in sink or source mode Galvanically insulated Protected against polarity reversal Max loop impedance 11000 at 36VDC 6100 at 24VDC 1000 at 12VDC All digital outputs DO Transistor Connection mode unimportant in NPN or PNP mode Galvanically insulated Protected against short circuits Max voltage 36VDC max 700mA if one transistor is connected but max 1A for both tran sistors connected Max frequency 2000Hz Electrical connection Per detachable 21 point set screw connector orange Refer to chap 6 3 7 for the specifications of the connection cables Flow rate measurement software option Refer to the user manual for the flow sensor connected to the 8619 6 3 3 Specifications of the memory card reader recorder Memory card type SD Secure Digital Do not use SDHC cards Capacity 2 Go max File system FAT16 6 3 4 Specifications of the pH redox module Measurement of the oxidation reduction potential Oxidation reduction potential measurement range 2000 2000mV Resolution of the potential difference 0 1mV measurement Accuracy of potential difference measurement mV Oxidation reduction potential probe type Electrochemical 11
49. nction OK save modifications Dynamic function SAVE go back to the parent menu Dynamic function BACK cancel the current operation Dynamic function ABORT set a setpoint value Dynamic function SETP activate manual mode in a configured and activated function Dynamic function MANU manually set the percentage of the function Dynamic function CMD force the result of a function to 0 Dynamic function 0 force the result of a function to 100 Dynamic function 100 activate automatic mode in a configured and activated function Dynamic function AUTO Start teach in end teach in Dynamic function START Dynamic function END answer the question asked in the affirmative Dynamic function YES answer the question asked in the negative Dynamic function NO select the highlighted character or mode Dynamic function SEL Type 8619 Adjustment and functions burkert FLUID CONTROL SYSTEMS You want to Press browse in Read mode O Q next view previous view Q next level O browse in the Configuring mode menus previous level C i V display the next O display the previous menu menu browse in the menu functions O C highlight the previous V highlight the next function set the contrast or brightness percentage for the display
50. neeeeennnnnnnnnnnssssssssssnenneneennnnnnnnnnnnessssnsssneneeeeeenennn 51 3 S 10 MAINTENANCE AND TROUBLESHOOTING J cnncssossccsossssssssesosneesssiesssssescneeresnsssscssesbunesssanessositesnisssonsesonsesecbesssianessoneouaietsuniseconeesonsesouiesesbaae 53 D z 10 1 Safety instructions Ee ee i nw 53 E 10 2 Maintenance of the mult CELL 2 tetas m nenne 53 RA 10 3 If you encounter problems see maa aan maa tadaa Ann n ka and vad ae ke RR v n maa kuda mua ia ee ee 53 i 11 SPARE PARTS AND ACCESSORIES ccssssssssssssssssssssssssssssseessnseessssesssscessaseessacessseessaseessuesssseessaneessaeessaneessaseessasessaueessaueessauesssseessaneessaseets 58 5 2 12 PACKAGING TRANSPORT 2nsenanaunnannenanaunnannennnannnnnanenanannnnnnenanannnannennnnnennnnnnnnanennnanenanannannnennnnnenannennnnnennannannnnnennannnnnanenansennnnnenannennanaennannanan 58 Mi STORAGE a ER EE EE En Ee 58 D gt amp 14 DISPOSAL OF THE DEVICE m seke ages eke ei sesse see abo es ee ee erge ee atn ees ee Eg van henkisen takt bna 58 LO 3 o S z lt 2 odi burkert About the Quickstart FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 1 ABOUT THE QUICKSTART The Quickstart describes the entire life cycle of the device Please keep it in a safe place accessible to all users and any new owners Important safety information Failure to comply with t
51. opper alloy Ground screw spring washer Stainless steel 316 A4 burkert FLUID CONTROL SYSTEMS Technical data Type 8619 Silicone OO multiCELL PBT contacts in gold plated copper alloy Stainless steel 304 Stainless steel 316 A4 Silicone Fig 2 Materials used for the multiCELL b rkert 000 multic u 4 max 4 mm wall thickness Fig 3 Dimensions of the multiCELL mm MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 6 3 2 Specifications of the MO MAIN board Power supply 12 36 VDC filtered and regulated Specifications of the power source not Limited power source in accordance with chap 9 3 of the UL 61010 1 provided of UL recognised devices with standard variable key PE72 or class 2 type power source according to the 1310 1585 and 60950 1 standards Max power consumption without additional 1 5VA module outputs not connected 10 Type 8619 Pas papa Technical data burkert MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Power distribution PWR OUT 12 36 VDC 1 8A max All digital inputs DI Voltage 5 36VDC Input impeda
52. printed 05 08 2010 Status RL released freigegeben MAN 1000139645 EN Version Type 8619 multiCELL Modular transmitter controller Modularer Transmitter Controller Transmetteur contr leur modulaire Quickstart burkert FLUID CONTROL SYSTEMS printed 05 08 2010 Status RL released freigegeben MAN 1000139645 EN Version We reserve the right to make technical changes without notice Technische Anderungen vorbehalten Sous r serve de modifications techniques 2010 B rkert SAS Operating Instructions 1006 00_EU ML_00561095_Original_FR eer burkert FLUID CONTROL SYSTEMS Contents 1 ABOUT THE QUICKSTART cssssiecosssscccisssssccictnneensnssesstossnieconinneestonsueesicissnestonssiecsuunnaticonuus citsuiiisihjaisestuuestessusceiesnanvenechannecthtsasuciiussiiieniniebdbciautesecvane 3 ki Symbols US eR E ES 3 2 INTENDED USE se recta ccc cece cautum eg n BR er E IM Ge ua 4 AMEN Cruci bane 4 P HEEMIOCUCIILIICNGQUGS 4 3 hWles adieu 5 4 GENERAL INFORMATION N lk 6 S 4 1 Contents of the delivery uiers KERR EENKEER nanna mannna RARR eke pena aUa sauman H k nua vana nean kaava kanan aa EER 6 a P 4 2 Warranty conditions sssusa tua AE AR Aa Re ee Ee isses Us cies leere P ee ge 6 e 3 5 DESCRIPTION
53. rature measurement Measurement range 40 C 200 C Measurement resolution OIE Measurement error 3 RG Temperature sensor type Pt100 or Pt1000 with 2 or 3 wires Electrical connection Per detachable 9 point set screw connector green Refer to chap 6 3 7 for the specifications of the connection cables 12 Type 8619 Technical data burkert FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 6 3 6 Specifications of the additional OUT outputs board Current consumption 0 1VA All digital outputs DOx Transistor Any connection mode in NPN or PNP mode Galvanically insulated Protected against short circuits Max voltage 36VDC max 700mA per transistor but max 1A if both transistors are connected Max frequency 2000Hz All analogue outputs AOx 4 20mA current Any connection mode in sink or source mode Galvanically insulated Protected against polarity reversal Max loop impedance 11000 at 36VDC 6100 at 24VDC 1000 at 12VDC Electrical connection Per detachable 9 point set screw connector black Refer to chap 6 3 7 for the specifications of the connection cables 6 3 7 Specifications of the connection cables o Use shielded cables for the electrical connection Be sure to use cables in which the wires present the specifications described in the t
54. riod in order to add a product and finally reset the water volume to zero Concentration Datalogger on memory card Optional Optional The concentration graphs for certain compounds such as NaCl and H SO are memorised for use over the entire concentration range Option to memorise the variations in 1 to 16 values in a given time interval Type 8619 _ os _o Technical data burkert MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 6 TECHNICAL DATA 6 1 Conditions of use Ambient temperature 10 60 C operating restricted to O 60 C if a memory card is used Air humidity 8596 non condensated Protection rating IP65 and NEMAAX on front once built in housing closed IP20 non front parts inside the housing 6 2 Compliance to standards and directives EMC EN 61000 6 2 2005 EN 61000 6 3 2001 Vibration EN 60068 2 6 Shock EN 60068 2 27 UL recognised devices Ads for the United States of America and Canada with variable key PE72 also comply to the following standards UL 61010 1 CAN CSA C22 2 n 61010 1 6 3 General technical data 6 3 1 Mechanical data Mechanical data Material Built in and locking system seal PPO silicone Front cover upper layer and keys front cover Silicone PC sublayer and display Rear plate Stainless steel 304 Terminal blocks PBT contacts in gold plated c
55. rval K Last It IREADING Interval INPUT Calib log DREADING Diagnostics I System 4 3 Code 4 o 4 Confirm code 4 o L MMxpH ORP X Glass electrode PIStatus kt On off Nj _ Impedance READING plimpiempconal K PINPUT 1 A Maning high 4 INPUT gt Warning low M RINPUT Error high E RINPUT Error low 4 gt DINPUT n 8 YRef electrode _ gt Status On off Ollmpedance 1 READING E Warning high INPUT 8 Warning low INPUT I gt Error high M PINPUT E Error low K PINPUT S Temperature 4 6tatus On off E Temperature 4 gt READING 6 II warning high K INPUT E Warning low M PINPUT E L MErorhigh INPUT gt Error low INPUT 3 Monitor PIREADING o 2 E G z _p Mx Conductivity Conductivity M 7 lStatus kt On off N H Conductivity 4 READING Warning high INPUT Warning low INPUT Error high 4 gt DINPUT Error low INPUT 49 burkert FLUID CONTROL SYSTEMS Adjustment and functions Diagnostics It p MixConductivity gt Temperature 4 State
56. st have read and understood the contents of this manual n particular observe the safety recommendations and intended use The device installation must only be adjusted by suitably trained staff 9 2 Functions The device has 2 modes of use Read mode See chap 9 7 for the description of Read mode Configuring Mode This mode comprises 5 menus Menu title Relevant icon Parameters Calibration Diagnostics Tests Information MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 23 burkert FLUID CONTROL SYSTEMS Type 8619 Adjustment and functions MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 24 9 3 Using the navigation button and the dynamic keys b rkert oo00 multic The arrows displayed show function to the far left press FI Pass system status See chap 10 Fig 16 Using the navigation button and the dynamic keys You want to the directions in which you can browse in this view E wei status See chap 10 Press access the Configuring mode go back to Read mode Dynamic function MENU from any view in Read mode Dynamic function MEAS access the menu displayed Dynamic function OK access the highlighted function confirm the enter Dynamic function OK Dynamic fu
57. t In the worst case scenario these components are instantly destroyed or go out of order as soon as they are activated To minimise or even avoid all damage due to an electrostatic discharge take all the precautions described in the EN 100 015 1 norm Also ensure that you do not touch any of the live electrical components 1 This device was developed with due consideration given to accepted safety rules and is state of the art However risks may arise Failure to observe these instructions as well as any unauthorised work on the device excludes us from any liability and also nullifies the warranty which covers the device and its accessories burkert FLUID CONTROL SYSTEMS General information Type 8619 4 GENERAL INFORMATION 4 1 Contents of the delivery When you receive the merchandise make sure that the contents of the delivery have not been damaged in any way and ensure that they correspond exactly with the delivery note or packing list If this is not the case contact your retailer immediately The addresses of our international branches can be found on the last pages of this manual They can also be found on the Internet under www burkert com gt Burkert gt Company gt Locations 4 2 Warranty conditions The condition governing the legal warranty is the conforming use of the 8619 type multiCELL in observance of the operating conditions specified in this manual The terms and conditions of an
58. tment and functions FLUID CONTROL SYSTEMS Calibration 4 9 Mt pH ORP W pH manual calib Immerse the clean probe in the first buffer solution the multiCELL displays the measured pH of the solution gt Enter the pH of the buffer solution indicated on the bottle Wait until the measured pH stabilises Rinse 7 001 pH pH Calibr result 59 6 mV Eie a 2nd Zero 7 000 pH 25 00 C Slope 59 15mV pH Rinse the probe 1 The multiCELL displays the confirm rinsing by OK when the pH reaches calibration result the desired value E multiCELL displays the measured pH of the solution gt Enter the pH of the second buffer solution indicated on the bottle Wait until the measured pH stabilises OK pH Calibr result Zero 7 000 pH Slope 59 15mV pH MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben The multiCELL displays the calibration result a possible warning message indicates either an error in the buffer solution or the ageing of the probe a possible error message indicates that the probe must be replaced 35 burkert R FLUID CONTROL SYSTEMS Adjustment and functions 9 11 Example for configuring a conductivity sensor Example of a conductivity sensor and a Pt1000 temperature sensor both connected to the M2 module of the multiCELL 8619
59. to chap 9 8 to access Tests menu Tests K SmuaiePV M F M hMxpH ORP M iH sd T Ti Value 4 DINPUT Ti Simulation value T Select the character to the far left by pressing 4 1 pH C and then allocate the or sign by A j 000 lt pressing MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben To exit the Tests menu press the dynamic key ABORT Fig 18 Changing the sign of a numerical value 28 bv burkert Adjustment and functions FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 9 6 9 6 1 Description of the display Description of the icons MO MAIN 2010 06 29 13 40 OFF pn OFF po p OFF n2 OFF Do2 A 6 000 26 20 00 119 Fig 19 Position of the icons Meaning and alternatives Default icon when process monitoring is not activated via the Diagnostics menu if monitoring is activated this icon indicates that the parameters monitored are not out of range If monitoring of the electrodes and or the fluid temperature and or the fluid conductivity are activated the alter native icons in this position are O combined with A see chap 10 3 amp combined with O see chap 10 3 Device currently measuring The alternative icons in t
60. tputs marked DO1 and DO2 The inputs and outputs are galvanically insulated and therefore voltage free MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 16 Type 8619 a m urkert Installation and wiring bi Irkert 1st digital 1st 4 20 mA output 2nd digital output 2nd 4 20 mA 12 36 E 12 36 VDC E 0 VDC 12 36 VDC 5 36 VDC e 12 36 VDC e 12 36 VDC Power supply OOOUDDOOOI DOOD ik EiaAAa LEE HOHE D SUPPLY PWR our Di1 Di2 FE o1 Ao2 FE po Do2 Electrical Power Digital inputs Analogue Digital outputs power supply distribution outputs printed 05 08 2010 Status RL released freigegeben FE functional earth Fig 5 Wiring of the MO MAIN board MAN 1000139645 EN Version burkert FLUID CONTROL SYSTEMS Type 8619 Installation and wiring printed 05 08 2010 Status RL released freigegeben MAN 1000139645 EN Version 18 Power supply OUUU Jo 1 ay rede N re tetek FE functional earth SUPPLY PWR OUT Dit DI
61. unctions 9 8 AG On any view in Read mode press MENU At Parameters m O Calibration MEAS 0K V 3 J Diagnostics MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Information MEAS Code incorrect Code incorrect Code incorrect The code is not requested if the default code 0000 is used 2 This menu is available as an option 32 See chap 9 14 for details of the functions per menu Code incorrect Configuring mode access Para meters code correct Cali bration code correct Diagnostics code correct 1 Tests code correct 1 EParameters System FA Display Functions Datalogger MO Outputs Mx pH ORP Mx Conductivity Mx Outputs Calibration System MO Outputs MO Inputs Mx pH ORP Mx Conductivity Mx Outputs MDiagnostics System Mx pH ORP Mx Conductivity mMilests System T Simulate PV MO Outputs Mx Outputs INformation Error FA Warning Maintenance Smiley System log Versions bv burkert Adjustment and functions FLUID CONTROL SYSTEMS MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben 9 9 Ex
62. use 2 INTENDED USE j sdsssdssds1111d31 Use of this device that does not comply with the instructions could present risks to people nearby installations and the environment The device is intended depending on the modules fitted and the measurement sensors connected for the acguisition processing transmission and regulation of physical parameters such as pH conductivity temperature or flow rate This device must be protected against electromagnetic interference ultraviolet rays and when installed outdoors the effects of climatic conditions This device must be used in compliance with the characteristics and commissioning and use conditions specified in the contractual documents and in the user manual Requirements for the safe and proper operation of the device are proper transport storage and installation as well as careful operation and maintenance Only use the device as intended 2 1 Restraints Observe any existing restraints when the device is exported 2 2 Foreseeable misuse Do not use this device in explosive atmospheres Do not use this device in an environment incompatible with the materials from which it is made Do not make any external modifications to the device such as for instance painting or varnishing any part of the device Do not power the device with an AC voltage or a DC voltage higher than 36VDC MAN 1000139645 EN Version printed 05 08 2010 Status RL released
63. y warranty are governed by our general terms and conditions of sale o The legal warranty only covers possible defects in the 8619 type multiCELL and its components B rkert cannot be held responsible for any losses or damage related to the product the service this warranty or other including financial or intangible losses the price paid for the product a loss of profits revenues data enjoyment or use of the product or of any related product or indirect or fortuitous loss or damage In the event of differences in interpretation and understanding of this chap 4 2 the French version alone shall prevail MAN 1000139645 EN Version printed 05 08 2010 Status RL released freigegeben Type 8619 Th TER Description burkert 5 DESCRIPTION 5 1 Area of application The 8619 multiCELL is a multifunction device intended to display transmit and regulate various physical parameters It can be used for example to manage a water treatment system a boiler a cooling tower or a reverse osmosis system 5 2 General description 5 2 1 Construction A standardised 1 4 DIN housing 92x92 mm with seal to be built into and attached to the door of the electrical switch housing or cabinet using 4 locking systems B a main board identified by MO MAIN on the rear plate used to connect the electrical power source of the multiCELL used to power another device e g a flow rate sensor offering 2 digital inputs id
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