Quickstart Type 8619 8619 multiCELL WM AC 8619
Contents
1. 9 6 2 Conditions of use 8619 multiCELL WM DC mean 9 6 3 Conditions of use 8619 multiCELL WM AC unssesnensenseunaunaunnuunsennunnunnnnnnnnnnnunnnnnnnnnnnnnnnannnnnnsnnsunnnnnunnnnnnnnnnnnnnnnnne 10 E 6 4 Compliance to standards and directives 10 6 5 Mechanical dala 11 E 6 6 Specifications of the MO main board 8619 multiCELL u 12 z 6 7 Specifications of the MO main board 8619 multiCELL VIM 13 E 6 8 Specifications of the power supply board 8619 multiCELL WM 14 6 9 Specifications of the POWER OUT power distribution board 8619 multiCELL VVM 15 6 10 Specifications of the Input 5 u u uuu 15 6 11 Specifications of the memory card reader recorder 16 lt 6 12 Specifications of the outputs board u uu 16 6 13 Specifications of the pH redox module u u u 17 6 14 Specifications of the COND conductivity 5 u u u uu2. Repeat steps 4 to 6 to fit the remaining 3 fasteners Fig 6 Panel mounting of the 8619 on an enclosure or cabinet 7 2 2 Installing a 8619 multiCELL WM on a support NOTE Risk of material damage the cable glands are loosened The body of the cable glands are screwed into the housing at the factory with a torque of 5 5 Nm gt Before installing the wall mounting housing on its support check that the bodies of the cable glands are tight ened If the bodies of the cable glands are loose tighten them with a torque of 5 5 Nm 20 The 8619 multiCELL WM is installed on a support using the wall mounting fastening plate Choose a location such that The surface is plane The surface temperature of the support remains below 100 C The display is at eye level There is sufficient space to open the housing by 180 2 English burkert 275777 FLUID CONTROL SYSTEMS Installation and wiring Step 1 Removing the wall mounting fastening plate from the device 1 Press the tab to unlock the device 2 Lift the device Separate the device from the wall mounting fas tening plate Step 2 Installing the wall mounting fastening plate on the support The screws and washers are not provided Drill holes in the support according to the dimensions indicated on the diagram to the left Use 4 screws of 6 mm diameter which will support the weight of the device and are s
3. green orange MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 green 46 English burkert Spare parts and accessories FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 10 SPARE PARTS AND ACCESSORIES A CAUTION Risk of injury and or material damage caused by the use of unsuitable parts Incorrect accessories and unsuitable replacement parts may cause injuries and damage the device and the sur rounding area Use only original accessories and original replacement parts from B rkert 11 PACKAGING TRANSPORT ATTENTION Damage due to transport Transport may damage an insufficiently protected device gt Transport the device in shock resistant packaging and away from humidity and dirt gt Do not expose the device to temperatures that may exceed the admissible storage temperature range 12 STORAGE CAUTION Poor storage can damage the device gt Store the device in a dry place away from dust gt Storage temperature 20 70 C limited to 10 70 C if a memory card with order code 564072 is inserted 13 DISPOSAL OF THE DEVICE Dispose of the device and its packaging in an environmentally friendly way o Note Comply with the national and or local regulations which concern the area of waste disposal 47
4. English burkert 25777 FLUID CONTROL SYSTEMS Spare parts and accessories MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 48 English 9102 900 peiuud ueqeDeBreJj peseejaJ TH SnieIS 4 uolsien NI SP96EL0001 NVIN burkert FLUID CONTROL SYSTEMS LO e N 2 e e je o 2 c a c o Q o o o o o 2 www burkert com
5. Measurement range Measurement resolution Systematic variation in the measurement Temperature sensor type 25 C 130 C 0 1 C 1 C temperature probe error Pt100 or Pt1000 with 2 or 3 wires 17 English burkert FLUID CONTROL SYSTEMS Type 8619 Technical data MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 18 6 14 Specifications of the COND conductivity module Resistance measurement without 50 1 MO conductivity sensor connected Povver consumption 0 25VA Conductivity cell type With 2 or 4 electrodes the specifications of B rkert cells are described in the related operating instructions Conductivity measurement with connected conductivity sensor Measurement range Measurement resolution Systematic variation in the measurement 0 000 uS cm 2 S cm depends on the conductivity sensor 10 S cm 40 5 of the measured value conductivity sensor error Resistivity measurement with connected conductivity sensor Measurement range Measurement resolution Systematic variation in the measurement without sensor 0 500 100 MQ cm depends on the conductivity sensor 107 Q cm 0 5 of the measured value conductivity sensor error Temperature measurement Measurement range Measurement resolution Systematic variation in the measurement Temperature
6. o A02 re Dot poz re Removable screw ter minals 21 positions orange digital inputs analogue digital outputs outputs DI1 DI2 AO1 AO2 DO1 and DO2 designation in the configuration menus of the MO main board FE functional earth Fig 13 Wiring the inputs and outputs on the main board MO MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 28 1 6 Type 8619 N nx urkert Installation and wiring bi CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 3 9 Examples of the connection of flowmeters to a 8619 multiCELL 12 36 VDC Electrical power supply UM EE EE RM terminals 21 posi I mae tions orange FE functional earth oE tati PER ELE FE A01 Ao2 FE Doi DO2 FE Fig 14 Wiring the 2 type 8030 flow sensors N Pls Pls PE V V 4 20 S v8 L 12 36 VDC Electrical power supply LN r T 0000000000 terminals 21 posi tions orange FE functional earth Fig 15 Wiring a type 8071 flow senso
7. Mx Inputs Code incorrect AE Diag nostics code correct 1 MEAS OK Tests System T Simulate PV MO Outputs Mx Outputs incorrect AE ie correct MEAS lnformation Error FA Warning Maintenance Information Smiley System log MEAS Versions The code is not requested if the default code 0000 is used MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 AG This menu is available as an option 43 English L Type 8619 burkert Adjustment and commissioning 8 3 Calibrating the measuring sensors 8 3 1 Calibrating a flow sensor Enter the K factor in pulse liter unique to the fitting used Refer to the user manual of the fitting used Calibration gt MO Inputs 4 9 IK factor 4 IENTERING Mx Inputs 2 8 3 2 Calibrating a conductivity sensor Choose the reference solution used in the menu Parameters Mx Conductivity Buffer Calibrate the conductivity sensor by automatically determining its specific C constant Calibration M MxConductivity P Automatic calib P RESULT 7 8 3 3 Calibrating a pH sensor Hold The Hold mode is automatically deactivated when the mul
8. a type 8232 chlorine sensor order code 566051 or 566052 to the input module INPUT Electrical supply to the chlorine sensor 12 36 VDC D 4 z us 1 2 s 4 5 6 7 8 AH 12 DIT DI2 Removable screw terminals 9 positions orange INPUT module of the 8619 FE functional earth Fig 21 Connection of a type 8232 chlorine sensor order code 566051 or 566052 powered by an external voltage Source 7 3 14 An example of the connection of a type 8232 chlorine sensor order code 565164 to the input module INPUT NOTE The type 8232 chlorine sensor may be damaged by the electrical power supply gt Power the chlorine sensor with a voltage between 22 5 and 26 V DC gt f the chlorine sensor is powered via a type 8619 controller power the type 8619 controller 12 36 V DC ver sion with a power supply between 22 5 and 26 V DC Colour of the conductor for chlorine sensor order code 565164 Signal Negative voltage signal Positive voltage signal Positive supply English Negative suppl 33 ale Type 8619 burkert FLUID CONTROL SYSTEMS Installation and vv r ng 22 5 26 VDC 1 MO Removable screw terminal 21 positions orange T Electrical power supply of the 8619 Removable screw IU OO terminals 9 positions E orange lt
9. lt lt tos 1 2 3 4 s e 7 s 9 AM Al2 DIT DI2 INPUT module of the 8619 FE functional earth Fig 22 Connection of the type 8232 chlorine sensor order code 565164 powered via the 8619 multiCELL MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 34 1 Type 8619 pr urkert Installation and wiring bi IrKert MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 3 15 Wiring the output module OUT The OUT outputs module has Two 4 20 mA analogue outputs Two digital outputs The outputs are galvanically insulated and therefore floating 1st 4 20 mA 2nd 4 20 mA input at input at external external instrument instrument 2 Load 1 0 12 36 eti O VDC e __ 12 36 VDC b 12 36 VDC 12 36 VDC Removable screw termi nals 9 positions orange 1 2 3 4 5 6 7 8 9 designation in the configuration menus of the Mx AO1 AO2 DO1 DO2 tput module 2557 analogue outputs digital outputs FE functional earth Fig 23 Wiring the OUT output module 35 im aTe 1e burkert 2777 FLUID CONTROL SYSTEMS Installation and wiring 7 3 16 W
10. positions green FE functional earth Colour of the wires of the connection cables with order codes 554855 554856 and 554857 Fig 33 Wiring of a type 8221 conductivity sensor with Variopin connector English kl burkert Adjustment and commissioning FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 8 ADJUSTMENT AND COMMISSIONING 8 1 Safety instructions N WARNING Risk of injury due to non conforming adjustment Non conforming adjustment could lead to injuries and damage the device and its environment gt The operators in charge of adjustment must have read and understood the contents of this manual gt n particular observe the safety recommendations and intended use gt The device installation must only be adjusted by suitably trained staff A WARNING Danger due to non conforming commissioning Non conforming commissioning could lead to injuries and damage the device and its surroundings gt Before commissioning make sure that the staff in charge have read and fully understood the contents of the manual gt n particular observe the safety recommendations and intended use gt The device installation must only be commissioned by suitably trained staff o Before commissioning calibrate each measuring sensor connected to the device 8 2 Operating levels The device has 2 operating levels the Process level and the Config
11. safe and proper operation of the device are proper transport storage and installation as well as careful operation and maintenance gt Only use the device as intended gt Observe any existing restraints when the device is exported MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 English burkert 555775 FLUID CONTROL SYSTEMS Basic safety information 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 A Danger due to electrical voltage gt If a 12 36 V DC version is installed either in a wet environment or outdoors all the electrical voltages must be of max 35 V DC gt Disconnect the electrical power for all the conductors and isolate it before carrying out work on the system gt All equipment connected to the 8619 shall be double insulated with respect to the mains according to the standard IEC 61010 1 2010 gt Observe all applicable accident protection and safety regulations for electrical equipment A Various dangerous situations To avoid injury take care gt to prevent any unintentional power supply switch on gt to carry out the installation and maintenance work by qualified and
12. strap not shielding translucent Z delivered ui uj Q Li ul Srrgooronre Green yellow blue rhodium electrode green yellow cable shielding grey sensor body 12 8 4 5 6 7 8 9 Green Pt1000 Removable screw terminals White Pt1000 9 positions grey FE functional earth Fig 28 Wiring a B rkert 8201 type sensor with integrated Pt1000 temperature sensor in symmetrical mode using a Variopin connection cable with order code 554856 or 554857 7 3 18 Wiring the COND conductivity module Conductivity sensor Temperature sensor LUI Q 12 3 4 s e v 8 9 Removable screw terminals 9 positions green FE functional earth MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Fig 29 Wiring a resistive conductivity sensor with 2 electrodes and a Pt100 or Pt1000 temperature sensor in a conduc tivity module 38 English Type 8619 pr urkert Installation and wiring bi IrKert MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Temperature sensor OL 12 8 alslel7 8 9 Removable screw terminals 9 positions green FE functional earth Fig 30 Wiring a resistive conductivity cell with 4 electrodes and a Pt100 or Pt1000 tempe
13. 12 Wiring the input module INPUT The INPUT inputs module has Two analogue inputs Two digital inputs The inputs are galvanically insulated and therefore floating 1st 0 4 20 mA output at T external instrument onp VDC 2nd 0 4 20 mA output at external instrument 5 36 VDC 12 36 VDC 1st digital output at external instrument 2nd digital output at external instrument o a gt P N 5 36 Removable screw termi nals 9 positions orange 1 213 4l5l 6 7 s AM AI2 DI2 designation in the configuration menus of the Mx additional output module analogue digital inputs inputs FE functional earth Fig 18 Connecting the analogue inputs to a 2 wire current transmitter and connecting the digital inputs of the input module 31 are 1e ale Type 8619 burkert R FLUID CONTROL SYSTEMS Installation and vv r ng 1st 0 4 20 mA output 2nd 0 4 20 mA output at external instrument at external instrument 12 36 VDC u 12 36 VDC 0 VDC e 0 VDC 1st digital output at 0 VDC external instrument 12 36 VDC 12 36 VDC 2nd digital output at external instrument Rem
14. 1310 1585 and 60950 1 standards Electrical supply 110 240 V AC Frequency 50 60Hz Max current 500 mA delayed 3 15 A fuse 250 V AC breaking capacity 1500 A 250 V AC 125 V AC 10 kA certified EIC60127 UL listed and recognized Own consumption without connection 2 VA module outputs not connected integrated protection English pe burkert Technical data FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 6 9 Specifications of the POWER OUT power distribution board 8619 multiCELL WM Observe the maximum permissible load as a function of the ambient temperature See the derating curves Fig 4 Maximum current of the load A 1 8 8619 multiCELL WM AC without connection module 8619 multiCELL WM AC with connection module 10 0 10 20 30 40 50 60 70 80 C Ambient temperature Fig 4 Derating curves of the maximum permissible current depending on the ambient temperature Maximum current 0 of the load us certified A 1 8 8619 multiCELL WM AC without connection module 8619 multiCELL WM AC with connection module 10 0 10 20 30 40 50 60 70 80 PC Ambient temperature Fig 5 Derating curves of the maximum permissible current depe
15. 2 36 V DC version is installed either in a wet environment or outdoors all the electrical voltages must be of max 35 V DC gt Disconnect the electrical power for all the conductors and isolate it before carrying out work on the system gt All equipment connected to the 8619 shall be double insulated with respect to the mains according to the standard IEC 61010 1 2010 gt Observe all applicable accident protection and safety regulations for electrical equipment N WARNING Risk of injury due to non conforming maintenance gt Maintenance must only be carried out by qualified and skilled staff with the appropriate tools gt Guarantee a set or controlled restarting of the process after a power supply interruption 9 2 If you encounter problems The following table gives the association between the LEDs the icons and the types of events generated by the device lt The messages generated in the system log are detailled in the complete instruction manual Displayed icons Type of event and possible right Smile Error Warning Maintenance cause Normal operating and default icon if no diagnostic function is active on the device Error event linked to the diagnostic Error event linked to the device Warning event linked to the diagnostic Warning event linked to the device green A Maintenance event linked to the calibration any colour any colour Problem linked to the datalogger red
16. J 6 53 pH v 4 gt MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 H F6 0NOFF 2010 06 29 13 40 0 25007 uS ZAL 500 0 SP F2 PROP 2010 06 29 13 40 0 0 00 Cup1 1 2 Off r3 Dos st 250 2 uS cm MENU SETP T 3 gt F1 A48 200906291340 221 Views of active functions which 148 Lmin 00 7 cannot be modified F1 to F6 Tr MANU m are used to display one function 0 57 L min Pi gt each Only the views of functions 4 declared active are shown 9 205 Flowpiocess qu MENU Fri 42 English 7777 burkert Adi ustment and commissioning FLUID CONTROL SYSTEMS 8 2 2 Configuration level access EjParameters System vi Display Functions Datalogger MO Outputs Mx pH ORP Mx Conductivity Mx Outputs Mx Inputs Code incorrect On any view in Process level press P i Parameters MEAS OK Param eters code correct HIE PCalibration System MO Outputs MO Inputs Mx pH ORP Mx Conductivity Mx Outputs Mx Inputs Cali bration code correct AG incorrect Calibration Diagnostics System Mx pH ORP Mx Conductivity
17. MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 burkert FLUID CONTROL SYSTEMS Type 8619 8619 multiCELL WM AC 8619 multiCELL WM DC 8619 multiCELL Modular transmitter controller Modularer Transmitter Controller Transmetteur contr leur modulaire Quickstart MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 We reserve the right to make technical changes without notice Technische Anderungen vorbehalten Sous r serve de modifications techniques B rkert SAS 2010 2015 Operating Instructions 1506 6 EU ML 00561096 Original FR burkert FLUID CONTROL SYSTEMS 1 ABOUT THE QUICKSTART EE EE EE N 3 1 1 Symbols used EER Re se GR ee u ee eene EE eke nas ee Ee AR n ae za ak a r eS 3 1 2 Definition of the word device lulu uuu 4 2 INTENDED OE N EE EE OE EE EN 5 3 BASIC SAFETY INFORMATION ee ees ae 6 4 1 EE ENE Rau aacra ann 7 4 1 Manufacturer s address and international contacts ns 7 42 Warranty Conditions ee ske ee a Re ke ee ek eek Re se aa ss 7 43 Information on the Internet 7 S 5 DESCRIPTION OF THE DEVICE NAME o U U U U U uuu 8 E 6 TECF N CALIDATA ME ennemies s 9 6 1 Conditions of use of the 8619 multiCELL
18. S MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Temperature sensor Reference electrode Equipotential electrode Translucent pH measurement electrode Strap not delivered 1 2 3 4 5 6 7 8 9 Removable screw terminals 9 positions grey FE functional earth Colour of the wires in B rkert connection cables with order codes 561904 561905 or 561906 Fig 26 Wiring a pH sensor and a Pt100 or Pt1000 temperature sensor in asymmetrical mode to a pH ORP module 7 3 17 Examples of connection to be pH ORP module Black Equipotential electrode Temperature sensor Reference electrode I Translucent pH measurement electrode 1 2 3 4 51617 8 9 Removable screw terminals 9 positions grey FE functional earth Colour of the wires in Burkert connection cables with order codes 561904 561905 or 561906 O Colour of the wires of the Pt1000 sensor with order code 427023 and its B rkert connection cable with order code 427113 Fig 27 Wiring a Burkert 8200 type sensor and a Pt1000 temperature sensor in symmetrical mode 37 English a Type 8619 burkert FLUID CONTROL SYSTEMS Installation and WIrINg wire colour signal translucent pH sensor red coax cable reference electrode ss Doe
19. STEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 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 the information mentioned especially at chapters ntended use and Basic safety instructions can lead to hazardous situations When the symbol N is marked inside or outside the device carefully read the Operating Instructions s Whatever the version of the device this Ouickstart must be read and understood The Ouickstart 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 Operating Instructions for type 8619 can be found on the CD provided with the device or on internet under www burkert com Type 8619 1 1 Symbols used DANGER Warns against an imminent danger gt Failure to observe this warning can result in death or in serious injury WARNING Warns against a potentially dangerous situation gt Failure to observe this warning can result in serious injury or even death CAUTION Warns against a possible risk gt Failure to observe this warning can result in substantial or minor injuries NOTE Warns against material damage g
20. cteristics of the connection modules 10 Software options 11 Order code 12 Properties of the main MO board DESCRIPTION OF THE DEVICE NAME PLATE burkert Made in France 2xDI 2xAO 2xDO SD CARD pH ORP PT100 1000 RES COND 2 4 POLES PT100 1000 2xAO 2xDO Softw 00560204 14 English Type 8619 Technical data FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 6 TECHNICAL DATA 6 1 Conditions of use of the 8619 multiCELL Ambient temperature without connection module with connection module 10 to 70 C 10 to 60 C Air humidity Height above sea level 85 96 not condensing max 2000 m Protection rating Pollution degree P65 NEMA4X on front once mounted and electrical enclosure closed P20 for the parts inside the electrical enclosure Degree 2 according to UL 61010 1 Category of installation Category 1 according to UL 61010 1 with a memory card available as an accessory order reference 564072 If a different memory card is used observe the operating temperatures given by the manufacturer of the memory card 6 2 Conditions of use 8619 multiCELL WM DC Ambient temperature without connection module with connection module 10 to 75 C 10 to 60 C Air humidity lt 85 not condensing Height above sea level Pr
21. d or circuit breaker For a version powered by 110 240 V AC insert an overload device between the live and the neutral gt Do not power the 24 V DC version of the device with an AC voltage or with a DC voltage higher than 36V DC gt Do not power the 100 240 V AC version with an DC voltage or with a AC voltage higher than 240 V DC gt Observe standard NF C 15 100 IEC 60634 gt The use of probes sensors sold by B rkert is preferable gt Follow the instructions for installation and wiring of remote sensors connected to the multiCELL gt On a 8619 multiCELL WM only authorized personnel is allowed to insert in or remove the memory card from the reader recorder Risk of injury due to unintentional switch on of power supply or uncontrolled restarting of the installation gt Avoid unintentional activation of the installation gt Guarantee a set or controlled restart of the process subsequent to the installation of the device Protect this device against electromagnetic interference ultraviolet rays and when installed out doors the effects of the climatic conditions 19 English MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 20 L Type 8619 burkert R FLUID CONTROL SYSTEMS Installation and vv r ng 7 2 Installation procedure 1 To carry out mechanical installation Depending on the version follow the instructions in section 7 2 1 or 7 2 2 2 T
22. degree Degree 3 according to UL 61010 1 if the following conditions are met Housing closed The 4 screws for the cover are tightened crosswise with a torque of 1 4 Nm 20 96 Category of installation Category Il according to UL 61010 1 with a memory card available as an accessory order reference 564072 If a different memory card is used observe the operating temperatures given by the manufacturer of the memory card 6 4 Compliance to standards and directives The device conforms to the EC directives through the following standards EMC EN 61000 6 2 EN 61000 6 3 Resistance to vibrations EN 60068 2 6 Resistance to shocks EN 60068 2 27 MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 For the 8619 multiCELL WM AC Low voltage directive The UL devices with command key PE72 identified by the logo Ns and the UL devices with command Measuring US Equipment key PUO identified by the logo Q 23777 for the United States and Canada comply with the following standards UL 61010 1 CRN CSA C22 2 n 61010 1 10 English Type 8619 Technical data FLUID CONTROL SYSTEMS 6 5 Mechanical data Tab 1 Materials in contact with the ambient air Material Component 8619 multiCELL WM AC or Sou GEM 8619 multiCELL WM DC 8619 multiCELL housing and fastener PPO Wall mounting housing wall mounting fastening plate cable glands
23. ectrical power supply cable Wire the 110 240 V AC 110 240 V power supply for a 8619 multiCELL WM AC on a terminal block marked 110 240 V AC Connect the protective earth of the installation to the earth screw of the device using a lug with an eyelet suitable for the M4 earth screw and earth conductor Tighten with a torque of 1 Nm 20 L Live conductor N Neutral conductor gt Put in place and screw on the protective cover Fig 10 Wiring the 110 240 V AC electrical supply for a 8619 multiCELL WM AC 7 3 6 Supplying an external instrument via a 8619 multiCELL The device can be used to supply an external instrument for example a flow sensor with a voltage identical to the supply voltage of the 8619 The power supply is available on the MO terminal block of a 8619 multiCELL 12 36 VDC Power supply available for an external instrument T pasa 679000000000020000202 MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Removable screw terminals 21 positions orange Fig 11 Supplying an external instrument via a 8619 multiCELL 26 English Type 8619 Installation and wiring FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 3 7 Supplying an external instrument via a 8619 multiCELL WM The device can be used to supply power
24. ed against short circuits Max voltage 36 V DC Max 700 mA per transistor total of max 1A if both transistors are connected Max frequency 2000 Hz 16 English Type 8619 Technical data burkert FLUID CONTROL SYSTEMS All analogue outputs AOx 4 20 mA current Any connection mode in sink or source mode Galvanically isolated Protected against polarity reversal Max loop impedance 1100 to 36 V DC 610 Q to 24 V DC 100 Q to 12 V DC 6 13 Specifications of the pH redox module pH measurement pH measurement range Resolution of pH measurement Systematic variation in the pH measurement Potential difference measurement range Resolution of the potential difference measurement Systematic variation in the potential dif ference measurement pH probe type 2 00 16 00 pH 0 01pH 0 02 pH pH probe error 600 600 mV 0 1 mV 1 mV pH probe error Electrochemical Power consumption Measurement of the oxidation reduction potential Oxidation reduction potential measurement range Resolution of the potential difference measurement Systematic variation in the potential dif ference measurement Oxidation reduction potential probe type 0 1 VA 2000 2000 mV 0 1 mV 1 mV ORP probe error Electrochemical Temperature measurement MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015
25. iring the pH ORP module To avoid the influence of disturbances wire the pH redox sensor in symmetric mode In this case it is compulsory to wire the equipotential electrode 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 Temperature sensor Oxidation reduction potential measurement electrode Reference electrode Strap not delivered WOU ul Li Q O u FE functional earth m m 5 12 ala 516 78 9 Removable screw terminals 9 positions grey Fig 24 Wiring an oxidation reduction potential sensor and a Pt100 or Pt1000 temperature sensor in a pH ORP module Oxidation reduction potential meas urement electrode Temperature sensor Reference electrode pH measurement electrode 1 1 1 ul ua LLI w O i 0 P 12 ala slel7 8 9 Removable screw terminals 9 positions grey MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 FE functional earth Fig 25 Wiring a pH sensor an oxidation reduction potential sensor and a Pt100 or Pt1000 temperature sensor in a pH ORP module 36 English Type 8619 mum n n mwa burkert Installation and wiring FLUID CONTROL SYSTEM
26. nding on the ambient temperature UL certified Power distribution Protected against polarity reversal 12 36 V DC version 12 36 V DC 1 8 A max 110 240 V AC version 24 V DC filtered and regulated 1 2 A max see the curves in Fig 4 SELV circuit at a non hazardous energy level 15 English TEN Type 8619 burkert Technical data 6 10 Specifications of the Input board Power consumption 0 1 VA Digital inputs DI Switching threshold V 5 to 32 V DC Switching threshold V lt 2 V DC Input impedance 3 kQ Galvanically isolated Protected against polarity reversal and voltage spikes Frequency 0 5 to 2500 Hz Any connection mode in sink or source mode Analogue inputs Al Galvanically isolated Precision 0 25 Current O 22 mA or 3 5 22 mA Max voltage 36 V DC Impedance 50 Q Resolution 1 5 HA Voltage 5 V DC or 10 V DC Max voltage 36 V DC Impedance 110 kQ Resolution 1 mV 6 11 Specifications of the memory card reader recorder Memory card type SD Secure Digital or SDHC Secure Digital High Capacity Capacity 8 GB max File system FAT32 6 12 Specifications of the outputs board OUT Power consumption 0 1VA All digital outputs DOx Transistor Any connection mode in NPN or PNP mode Galvanically isolated MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Protect
27. o wire the device Depending on the version follow the instructions in section 7 3 7 2 1 Installing a 8619 multiCELL on an enclosure or electrical cabinet Follow the instructions below to mount the multiCELL delivered fully assembled onto an enclosure or cabinet 92 0 5 0 Step 1 Check that the thickness of the door of the enclosure or cabinet is no more than 4 mm gt Ensure there will be sufficient space around the cut out hole and on the inside of the cabinet to easily accommodate the 4 fasteners 92 0 5 0 Cut a hole in the door of the enclosure or electrical cabinet according to standard CEI 61554 1999 DIN 43700 Step 2 Prepare the 4 fasteners Insert a screw into each device Tighten the screw until the end of the shaft of the screw is flush with the device Step 3 Slide the housing into the cut out with the connectors to the back until it can go no further Step 4 Insert 1 the hooks on the first fastener into the slots on the housing Pull the fastener 2 English Type 8619 Installation and wiring FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Step 5 Place the fastener flush against the multiCELL by hand so that the hooks remain in place Step 6 Fully tighten the screws using an appropriate screwdriver
28. otection rating max 2000 m IP65 IP67 if the following conditions are met Body of the cable glands tightened with a torque of 5 5 Nm 20 at the factory Cable glands blanked off or wired Screws of the cable glands tightened with a torque of 4 5 Nm 20 Housing closed The 4 screws for the cover are tightened crosswise with a torque of 1 4 Nm 20 90 Pollution degree Degree 2 according to UL 61010 1 Category of installation Category according to UL 61010 1 with a memory card available as an accessory order reference 564072 If a different memory card is used observe the operating temperatures given by the manufacturer of the memory card English burkert ern FLUID CONTROL SYSTEMS Technical data 6 3 Conditions of use 8619 multiCELL WM AC Observe the maximum permissible load as a function of the ambient temperature See the derating curves Fig 4 section 6 9 Ambient temperature 10 to 70 C Air humidity lt 85 96 not condensing Height above sea level max 2000 m Protection rating 8619 multiCELL IP65 and IP67 if the following conditions are met Bogy of the cable glands tightened with a torque of 5 5 Nm 20 at the factory Cable glands blanked off or wired Screws of the cable glands tightened with a torque of 4 5 Nm 20 90 Housing closed The 4 screws for the cover are tightened crosswise with a torque of 1 4 Nm 20 90 Pollution
29. out connection module outputs not connected Limited power source in accordance with section 9 3 of the UL 61010 1 standard or class 2 type power source according to the 1310 1585 and 60950 1 standards 5 VA Power distribution PWR OUT 12 36 V DC 1 8 A max Protected against polarity reversal All digital inputs DI Switching threshold V 5 to 32 V DC Switching threshold V lt 2 V DC Input impedance 3 kQ Galvanically isolated Protected against polarity reversal and voltage spikes Frequency 0 5 to 2500 Hz English Type 8619 Technical data FLUID CONTROL SYSTEMS 4 20 mA current All analogue outputs AO Any connection mode in sink or source mode Galvanically isolated Protected against polarity reversal Max loop impedance 1100 O to 36 V DC 610 O to 24 V DC 100 Q to 12V DC Transistor All digital outputs DO Any connection mode in NPN or PNP mode Galvanically isolated Protected against short circuits Max voltage 36 V DC Max 700 mA per transistor total of max 1A if both transistors are connected Max frequency 2000 Hz Flow rate measurement Refer to the user manual for the flow sensor connected to the 8619 6 7 Specifications of the MO main board 8619 multiCELL WM All digital inputs DI Switching threshold V 5 to 32 V DC Switching threshold V lt 2 V DC Input impedance 3 kO Galvanically i
30. ovable screw termi nals 9 positions orange 1 213 41516 78 9 designation in the configuration menus of the Mx AM AI2 DI1 DI2 additional output module analogue digital inputs inputs FE functional earth Fig 19 Connecting the analogue input in source mode and the analogue input Al2 in sinking mode to a 3 wire current transmitter for example type 8025 with relay outputs and connecting the digital inputs of the input module 1st 0 5 10 V DC output m 1 1st digital output at external instrument 0 VDC external instrument T 12 36 VDC 4 0 VDC 12 36 VDC 2nd digital output at external instrument e 12 36 VDC Removable screw termi nals 9 positions orange MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 1 ola 41516 718 9 AI2 DI1 DI2 x additional output module analogue digital inputs inputs designation in the configuration menus of the Mx FE functional earth Fig 20 Connecting the analogue inputs to a voltage transmitter and connecting the digital inputs of the input module 32 English Type 8619 Installation and wiring FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 3 13 An example of the connection of
31. play to the electronic board can be damaged gt Open and close the cover of the housing with care gt Do not pinch the ribbon cable gt Do not pull the ribbon cable gt Manipulate the ribbon cable with care gt f the ribbon cable is disconnected reconnect it with care NOTE An unsealed 8619 multiCELL WM of the device may become damaged gt Make sure the nuts of the unused cable glands are tightened at the factory a stopper gasket has been inserted in each cable gland gt When the mechanical installation and wiring are completed tighten the cable gland screws with a torque of 4 5 Nm 20 96 gt When the mechanical installation and wiring are completed tighten the 4 screws of the cover in a crosswise manner with a torque of 1 4 Nm 20 Before wiring the device install it according to the instructions in section 7 2 1 or section 7 2 2 7 3 2 Specifications of the connection cables The electrical connections are carried out via terminal blocks Directly on a 8619 multiCELL Via the cable glands on a 8619 multiCELL WM Use shielded cables not provided with a maximum operating temperature greater than 80 C Use cables and electric wires with dimensions that adhere to the specifications described in Tab 2 23 English L Type 8619 burkert R FLUID CONTROL SYSTEMS Installation and vv r ng Tab 2 Specifications of the cables and conductors External diame
32. protective cap PA66 for LCD display hinge stiffener Protective blank for a slot without connection terminal nee Seal Silicone Front panel and keys PC silicone Terminal support plate Stainless steel 304 Terminal blocks PBT contacts in gold plated copper alloy Ground screw spring washer Stainless steel 316 A4 Protective cap for the 110 240 V AC power Stainless steel 304 supply terminal board 4 cover screws PVC Silicone burkert ant multicELL PBT contacts in gold plated copper alloy Silicone Stainless steel 316 A4 MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Fig 2 Component materials of the 8619 multiCELL 11 English burkert FLUID CONTROL SYSTEMS Type 8619 Technical data MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 12 SN ITU Silicone Stainless steel 316 A4 Stainless steel 304 PBT contacts in gold plated copper alloy Fig 3 Component materials of the 8619 multiCELL WM 6 6 Specifications of the MO main board 8619 multiCELL Electrical supply 12 36 V DC filtered and regulated SELV circuit at a non hazardous energy level Tolerance 10 96 Specifications of the 12 36 V DC power source not provided of the UL devices with variable key PE72 Own consumption with
33. r and a type 8041 flow sensor 29 English burkert FLUID CONTROL SYSTEMS Installation and wiring 7 3 10 Examples of the connection of a solenoid valve to a 8619 multiCELL WM The solenoid valve can be connected to the 8619 via board MO or via the outputs module OUT If a solenoid valve is connected to the 8619 connect a flyback diode in parallel to the solenoid valve If the solenoid valve is connected via a type 2508 connector this connector is available with an integrated flyback diode Solenoid valve o a gt P N r Removable screw terminals 21 positions orange SBESA AL LIFE ER EED DI2 FE 1 2 FE DO1 Fig 16 Wiring a solenoid valve to the MO board of the 8619 7 3 11 Identifying the pins on the connection modules If you use terminal blocks other than those supplied with the device these terminal blocks will not be marked Fig 17 enables labelling of the terminals MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 peremen Terminal No 1 Terminal No 9 Fig 17 Identifying the pins on the connection modules 30 English Type 8619 pr urkert Installation and wiring bi IrKert MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 3
34. rature sensor in a conductivity module 7 3 19 Examples of connection to the COND conductivity module LI FE functional earth 12 3 als s 8 9 Connector terminal block 2508 Removable screw terminals for the 8220 conductivity sensor 9 positions green Fig 31 Wiring an 8220 conductivity sensor 39 16 burkert FLUID CONTROL SYSTEMS Type 8619 Installation and wiring MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 40 wire colour Pink Green Brown Yellow Grey White Blue signal current injection conductivity measurement conductivity measurement current injection Pt1000 Pt1000 Pt1000 Temperature sensor 12 3 4 s e v 8 9 Removable screw terminals 9 positions green FE functional earth Fig 32 Wiring a type 8221 conductivity sensor with cable gland and connection cable wire colour Red translucent Grey Blue Green yellow White Green signal current injection conductivity measurement conductivity measurement current injection functional earth Pt1000 Pt1000 Temperature sensor strap not delivered IK i Q Li Li adootoP p Translucent Green yellow 1 2 3 4 s e 7 8 9 Removable screw terminals 9
35. sensor type 40 C 200 C 0 1 C 1 C temperature probe error Pt100 or Pt1000 with 2 or 3 wires English adde burkert Installation and wiring FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 INSTALLATION AND WIRING 7 1 Safety instructions DANGER Risk of injury due to electrical voltage gt fa 12 36 V DC version is installed either in a wet environment or outdoors all the electrical voltages must be of max 35 V DC gt Disconnect the electrical power for all the conductors and isolate it before carrying out work on the system gt All equipment connected to the 8619 must be double insulated with respect to the mains according to the standard IEC 61010 1 2010 gt Observe all applicable accident protection and safety regulations for electrical equipment WARNING Risk of injury due to nonconforming installation gt Electrical installation can only be carried out by qualified and authorised personnel with the appropriate tools gt Fita circuit breaker or switch to the electrical installation of the building in which the device is installed gt Install the circuit breaker or switch in an easily accessible place gt Identify the circuit breaker or switch as the disconnecting component for the electrical power supply to the device gt Install appropriate safety devices correctly rated fuse an
36. skilled staff with the appropriate tools gt to guarantee a set or controlled restarting of the process after a power supply interruption gt to use the device only if in perfect working order and in compliance with the instructions provided in the user manual gt to observe the general technical rules during the planning and use of the device gt not to use this device in explosive atmospheres gt not to use this device in an environment incompatible with the materials from which it is made gt not to subject the device to any mechanical stresses for example by placing objects on top of it or using it as a step gt not to make any external modifications to the device such as for instance painting or varnishing any part of the device NOTE Elements components sensitive to electrostatic discharges MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 gt This device contains electronic components sensitive to electrostatic discharges They may be damaged if they are touched by an electrostatically charged person or object In the worst case scenario these compo nents are instantly destroyed or go out of order as soon as they are activated gt To minimise or even avoid all damage due to an electrostatic discharge take all the precautions described in standards EN 61340 5 1 and 5 2 gt Also ensure that you do not touch any of the live electrical components English T
37. solated Protected against polarity reversal and voltage spikes Frequency 0 5 to 2500 Hz 4 20 mA current All analogue outputs AO Any connection mode in sink or source mode MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Galvanically isolated Protected against polarity reversal Max loop impedance 1100 to 36 V DC 610 O to 24 V DC 100 Q to 12 V DC 13 English burkert 2507777 FLUID CONTROL SYSTEMS Technical data MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 14 All digital outputs DO Transistor Any connection mode in NPN or PNP mode Galvanically isolated Protected against short circuits Max voltage 36 V DC Max 700 mA per transistor total of max 1A if both transistors are connected Max frequency 2000 Hz Flow rate measurement software option Refer to the user manual for the flow sensor connected to the 8619 6 8 Specifications of the power supply board 8619 multiCELL WM Electrical supply 12 36 V DC filtered and regulated SELV circuit at a non hazardous energy level Tolerance 10 96 Maximal consumption 1 8 A Specifications of the 12 36 V DC power Limited power source in accordance with section 9 3 of the UL source not provided of the UL devices 61010 1 standard with variable key PUO2 or class 2 type power source according to the
38. t Failure to observe this warning may result in damage to the device or system o Indicates additional information advice or important recommendations a5 Refers to information contained in this manual or in other documents Indicates a procedure to be carried out English p s EE DERE Type 8619 burkert About the Quickstart 1 2 Definition of the word device The word device used within this manual refers to the 8619 multiCELL the 8619 multiCELL WM AC and or the 8619 multiCELL WM DC MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Type 8619 Eo u vay Intended use burkert 2 INTENDED USE mz R s s s s Use of this device that does not comply with the instructions could present risks to people nearby installations and the environment gt The device is intended depending on the modules fitted and the measurement sensors connected for the acquisition processing transmission and regulation of physical parameters such as pH conductivity tem perature or flow rate gt This device must be protected against electromagnetic interference ultraviolet rays and when installed out doors the effects of climatic conditions gt 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 gt Requirements for the
39. ter of the cable 8619 multiCELL WM 6 to 12 mm 4 mm if using multiply drilled seals Cross section of the local earth connection conductor 0 75 1 5 mm 12 36 V DC versions Cross section of the protective earth connection 1 5 mm min conductor 110 240 V AC versions Flexible conductor cross section H05 07 V K 0 2 1 5 mm stripped over 7 mm Cross section of a conductor with a non insulated lug 0 2 1 5 mm stripped over 7 mm Cross section of a conductor with an insulated lug 0 2 0 75 mm stripped over 7 mm 7 3 3 Wiring the 12 36 V DC electrical supply for a 8619 multiCELL Use a filtered and regulated 12 36 V DC electrical power supply Wire the 12 36 V DC power supply on the MO terminal board of a 8619 multiCELL Connect the functional earth of the installation to the earth screw of the device using a lug with an eyelet suitable for the M4 earth screw and earth conductor Tighten with a torque of 1 Nm 20 Connect the shielding on each wire to an FE functional earth terminal to guarantee the equipotentiality of the installation 12 36 VDC SUPPLY PVVR OUT Dit Diz re Aor Aoz re Do1 DO2 re Removable screw terminals 21 positions orange Fig 8 Wiring the 12 36 V DC electrical supply for a 8619 multiCELL MAN 1000139645 EN Version F Sta
40. ti CELL restarts after a power interruption o In order not to interrupt the process activate the HOLD function in the menu Calibration gt System gt if the Hold mode was activated at the moment of the power cut off Before each calibration correctly clean the electrode with a suitable product Choose the buffer solution used in the menu Parameters gt Mx pH ORP gt Buffer The multiCELL auto matically recognizes the pH of the buffer used Automatically calibrate the pH sensor Calibration 4 14 lpH auto calib 4 1st point 7 e 2nd point m NON YES Rinse 4 2nd point 4 H Cal Result MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 o The calibration may fail 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 44 English 52777 burkert Adjustment and commissioning FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 8 3 4 Calibrating a redox sensor Modify the default calibration limits before calibrating your sensor in the menu Parameters gt Mx pH ORP gt Calibration limits Offset ORP In order not to interrupt the process activate the HOLD func
41. tion in the menu Calibration gt System gt Hold The Hold mode is automatically deactivated when the multi CELL restarts after a power interruption if the Hold mode was activated at the moment of the power cut off Before each calibration correctly clean the electrode with a suitable product Calibrate the redox sensor using a 1 point procedure The calibration may fail 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 The 1 point calibration procedure is used for a quick calibration by adjusting the zero of the measurement graph with a buffer solution with a known oxidation reduction potential Calibration 14 lVx pH ORP 4 calibration 4 1st point Immerse the clean probe in the redox solution the multiCELL displays the measured potential difference of the solution l 1st point n N Te on o 3 lt T Enter the potential difference of the redox solution indicated on the bottle OK ORP Calibr result Offset 55 60 mV The multiCELL displays the calibration result 45 English burkert 1777 FLUID CONTROL SYSTEMS Maintenance and troubleshooting 9 MAINTENANCE AND TROUBLESHOOTING 9 1 Safety instructions N DANGER Danger due to electrical voltage gt If a 1
42. to several external instruments such as flow sensors or conductivity sensors for example To supply power to an external instrument connect it to a positive and negative terminal on the POWER OUT terminal block The voltage available on the POWER OUT terminal block of a 8619 multiCELL WM is equal to the supply voltage of the 12 36 V DC version of the 8619 is equal to a voltage of 24 V DC on a version of the 8619 which is supplied with a voltage of 110 240 V AC POWER OUT EE EE E E E E E Ea Removable screw terminals 12 positions green Fig 12 Supplying external instruments via a 8619 multiCELL WM 7 3 8 Wire the inputs and outputs on the main board MO The MO board 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 outputs marked DO1 and DO2 The inputs and outputs are galvanically insulated and therefore floating 27 English alie Type 8619 burkert R FLUID CONTROL SYSTEMS Installation and vv r ng 1st 4 20 mA input at external instrument 2nd digital output at 2nd 4 20 mA input at external instrument external instrument 12 36 VDC 0 VDC 1st digital output at exter nal instrument 5 36 VDC 12 36 VDC 12 36 VDC 12 36 VDC COCOON oi FE
43. tus RL released freigegeben printed 30 06 2015 24 English 7777 burkert Installation and wiring FLUID CONTROL SYSTEMS MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 7 3 4 Wiring the 12 36 V DC electrical supply for a 8619 multiCELL WM DC Use a filtered and regulated 12 36 V DC electrical power supply Use the rightmost cable gland for the electrical power supply cable Wire the 12 36 V DC power supply for a 8619 multiCELL WM on a terminal block marked 12 36 V DC Connect the functional earth of the installation to the earth screw of the device using a lug with an eyelet suitable for the M4 earth screw and earth conductor Tighten with a torque of 1 Nm 20 Connect the shielding on each wire to an FE functional earth terminal to guarantee the equipotentiality of the installation Removable screw terminals 2 positions 12 36 VDC dL Electrical power supply Fig 9 Wiring the 12 36 V DC electrical supply for a 8619 multiCELL WM 7 3 5 Wiring the 110 240 V AC electrical supply for a 8619 multiCELL WM AC Unscrew and remove the protective cover of the power supply connection terminal block Protective cover 25 English burkert FLUID CONTROL SYSTEMS Installation and wiring Removable screw Use the rightmost cable terminals 2 positions gland for the el
44. u 17 7 INSTALLATION AND WIRING 19 7 1 Safety instruchons ee 19 7 2 Installation procedure nanenneunneennnunnennnnnnnunnnunnennnnennunnnnnnnunnnunnnunnnnnnnennunnnnnnnnnnnennnunnnnnnunnnnnnnunnnnnnnennnnnnnnnnunnnennnunnnnnnnnnnnnn 20 7 3 ae ele a EE tomes 23 English burkert FLUID CONTROL SYSTEMS 8 ADJUSTMENT AND COMMISSIONING u UU UU U U U U U u 41 8 1 Satety instr ctions OE OE RE AO N EE EE 41 82 Operating levels L nennen ee er 41 8 3 Calibrating the measuring sensors u u u uuu u uuu uuu uu uuu 44 9 MAINTENANCE AND TROUBLESHOOTING 46 9 1 Safety INStrUCHONS uu t ul I a en ee Reede 46 92 lfyou encounter problems lq aaa aaa niet te nee 46 10 SPARE PARTS AND 55 1 5 5 2 2 uuu u uu uu u uu 47 11 PACKAGING TRANSPOR AE N EE EE cad 47 12 STORAGE EE EA EE OE EE OE EE ON 47 13 DISPOSAL OF THE DEVICE ME a aa EE Dad 47 MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 English 7777 burkert About the Quickstart FLUID CONTROL SY
45. uitable for the support Insert a washer for each screw Insert the 4 screws in the wall mounting fastening plate and in the holes drilled in the support Tighten the 4 screws in a crosswise manner with a maximum torque of 5 3 Nm Step 3 Installing the device on the fastening plate Align the base of the slides with the height of the runners runners Insert the 4 slides into the 4 runners until you hear a click MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Fig 7 Installation of a 8619 multiCELL WM on a support 22 English MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 Type 8619 ult Installation and wiring burkert 7 3 Electrical wiring DANGER Risk of injury due to electrical voltage gt Ifa 12 36 V DC version is installed either in a wet environment or outdoors all the electrical voltages must be of max 35 V DC gt Disconnect the electrical power for all the conductors and isolate it before carrying out work on the system gt All equipment connected to the 8619 must be double insulated with respect to the mains according to the standard IEC 61010 1 2010 gt Observe all applicable accident protection and safety regulations for electrical equipment 7 3 1 Recommendations for wiring a 8619 multiCELL WM NOTE On a 8619 multiCELL WM the ribbon cable which connects the dis
46. uration level which is made of the following 5 menus Parameters Calibration Diagnostics Tests and Information 41 English burkert 1077777 FLUID CONTROL SYSTEMS Adiustment and comm issioning 8 2 1 Process level When switching on the device for the first time the display shows the first view in Process level an When switched on subsequently the last active view in the Process leve is displayed See chap 8 2 1 to browse in all views in Process level M6 0utputs 2010 06 243 40 M2 Conductivity 2010 06 2913 40 OFF DO1 M1 pH 13405 mS cm 7 OFF DO2 I 2010 06 293 40 653pH 5 000 X8 E H T E MO MAIN 06 0 500 DIT 39 99 mv D C 12 00 Ke OFF DIt OFF DO1 30 00 bi 25 2 C MENU etis OFF D OFFDO2 1 000 H 6 000 A01 33 00 bio res 20 00 Mar MENU tti Views of the modules connected to the device cannot be modified MO MAIN view displays the values of inputs and outputs on the main board the second MO view is available if the software option FLOW is activated M1 to M6 views display the data for modules 1 to 6 HO 6535 137 User defined views U1 to U4 are pH each used to display 1 2 or 4 data mB 25 mS cm or a graph Only the effectively A UIPHOCOND 2010062 1340 5 25 2 c defined views are shown 2 oR 205 min DELL U
47. ype 8619 n General information burkert MAN 1000139645 EN Version F Status RL released 1 freigegeben printed 30 06 2015 4 GENERAL INFORMATION 4 1 Manufacturer s address and international contacts To contact the manufacturer of the device use following address B rkert SAS Rue du Giessen BP 21 F 67220 TRIEMBACH AU VAL You may also contact your local B rkert sales office The addresses of our international sales offices are available on the internet at www burkert com 4 2 Warranty conditions The condition governing the legal warranty is the conforming use of the multiCELL 8619 in observance of the operating conditions specified in this manual 4 3 Information on the Internet You can find the Operating instructions and technical data sheets regarding the type 8619 at www burkert com English burkert FLUID CONTROL SYSTEMS Type 8619 Description of the device name plate MAN 1000139645 EN Version F Status RL released freigegeben printed 30 06 2015 5 8619 multiCELL Supply 12 36V DC 1 8A Temp 10 60 C IP65 PANEL FRONT IP20 REAR S N 1110 burkert Made in France 00560204 Fig 1 Example of a name plate 1 o a m 8 9 Type of device Electrical power supply Ambient temperature range Protection rating Serial number Conformity logo Construction code Device fitted with a memory card reader Chara
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