EVITA® OXY
Contents
1. gt gt USC go Usc usc USC USC USC USC USC USC USC Settings Output Input Reset HR service Product HART Settings HU Operator menu Password Language E E mode mode I identity setup USC use USC USC USC USC USC lout 1 4 Digital input Set default 1Out 14 Type Change HART OXY setting USC5000 Trm Mode a 8 Relay 1 5 Relay 1 5 Code no Scan HART bus E x 3 Digital input Serial no x 5 Event log SW version h 2 HART comm error HW version Further info e gt TR 0 go TR o TR 0 TR 0 TR 0 Settings OXY Basic settings Advanced settings j Send command H Into Ser No SSSSVVNUUA I I 1 ES TR 0 TR 0 TR 0 TR 0 Oxygen unit Set transmitter Calibration Time since last p m address 00 e T calibr Value at4 mA Calibr type Start measuring Error pending Value at 20 mA After calibration Reset lifetime Event log Temp unit TILTCAL H Set factory settings TILTCAL Sensor type h Transmitter mode Salinity h Manufacturer Id Rel humidity Mfr device type Output when not measuring Output during error Time constant Univ cmd rev Transm cmd rev SW version HW version Device id USC 7000 multidrop system2. E See Advanced settings fig 48 p 37 USC 5000 6000 7000 alibration 3 e ronsmitter 0 calibration E z F 5 Automatic 2 Calibr is A q chosar 6 TR O 6 Begin automatic calibration TR 0 Manuel calibr at 200 2 RENE TR O gt TR O TR O Oxygen unit Manuel calibr Begin manual ppm at 20 ppm alibration x 10 30 ppm I Pem After Cal Umen _____ 2 secca Manual Start Gino TR 0 8 Manual calibr I Calibration Start at 20 mg l completed measuring 0 30 mg l After Cal Automatic Stort Fig 41 Maintenance Under normal conditions the OXY 1100 sensor will operate for 2 3 years and can be replaced in a few minutes General maintenance of the EVITA OXY sensor is limited to cleaning about every 2 3 months and calibration about every 6 months Cleaning OXY transmitter During cleaning the sensor must not be allowed to remain pointing upwards for more than 3 minutes at a time if the TILTCAL function is enabled otherwise a calibration cycle will start The TILTCAL function can be disabled according to fig 48 p 37 Fig 42 _ Lift the transmitter out of the medium 2 Clean the sensor with pure water to which a little cleaning agent washing up liquid can be added 3 Dry the sensor with a soft cloth 4 Immerse the transmitter into the medium to be measured Cleaning USC signal converter When considered necessary clean the USC sig
3. 29 30 USC 7000 relay output settings Setting of relay outputs 1 to 5 on USC 7000 Units selected in Transmitter basic setting fig 35 p 26 To allow the current output to stabilise after a cleaning the USC USC locks the current output during Cleaning time and Output additional 10 minutes I Ai 1 E gt E x USC ES USC USC USC USC USC E Iout1 FU Tv Relay 1 Relay 2 Relay3 Relay 4 NA Relay 5 I I I I I I Same as Relay 1 Same as Relay 1 Same as Relay 1 Same as Relay 1 RELAY 1 beal Relay at error Open 0 Open Closed RELAY 1 E Relay at warning Open 0 Open Closed RELAY 1 ES Function RELAY 1 6 RELAY 1 E RELAY 1 D RELAY 1 RELAY 1 3 RELAY 1 E off 0 Select indian Han e shen i e ok e em above 6 __ xygen 00 mg 005 00 mg imit Open oe transmitter no 00 e Error 0 Oxygen 0 999 99 O 999 99 Open Closed All Warnings ma Temperature Timer rv eli RELAY 1 RELAY 1 E Hi Limit A Off Lo Limit Setpoint Hysteresis Ga 035 00 C 6 005 00 C 6 ST 0 999 99 0 999 99 RELAY 1 Same as Hi Limit Relay below limit Open Open Closed RELAY
4. Changing transmitter address from default To allow the USC 7000 to recognise the transmitter To programme the address of a new transmitter Note If before scanning the HART bus a trans mitter with address higher than O was registered as interrupted the new transmitter will be assigned this on the HART bus the transmitter needs a unique connect the transmitter to the USC 7000 and press address between 1 and 15 The EVITA OXY Scan HART bus The transmitter will get the next transmitter is factory delivered with the address 0 available address between 1 and 15 address which is used for point to point installations USC 5000 6000 Password 0000 0 a o USC 60 x Settings gt 10 64 mg l x Oxygen Transmitter 0 toy gt Temperature gt Transmitter 0 Calibration Transmitter 0 TR 0 00 TR 0 TR 0 No of alarms Settings OXY Basic settings Advanced settings Transmitter 0 Ser No SSSSVVNUUA Rem lifetime Transmitter 0 gt 00 00 Reset lifetime Transmitter 0 E TR 0 Last calibration Set transmitter Transmitter 0 addressi00 0 00 Error pending Scan HART bus USC
5. C 104 F Accuracy reduced The accuracy might be reduced EO50 Calibration not possible Replace OXY 1100 OXY 1100 is worn or defective EO51 Output signal from OXY 1100 is too low Replace OXY 1100 OXY 1100 is worn or defective EO55 The OXY 1100 membrane has been damaged Replace OXY 1100 EO60 Error in EEPROM Replace transmitter EO61 Error in communication between the p controller and the A D Replace transmitter converter or error in the A D converter 43 44 USC E O UN 2 USC 5000 6000 7000 defective 2 Replace USC 5000 6000 7000 Flashing bell in display Undefined wU39 HART communication error Check cables WU41 A parameter is out of range Fixed at power up It could not be replaced by its default value WU43 Too many errors at the same time Power up USC Some errors are not registered correctly One or more CAN bus application does not respond 1 Power up USC current outputs This error is shown when the maximum number of 2 Replace USC 3 8 mA or 24 mA communication attempts is exceeded EU62 USC unable to read data required for OUT 2 Same as EU61 1 7 Same as EU61 EU63 USC unable to read data required for OUT 3 Same as EU61 1 7 Same as EU61 EU64 USC unable to read data required for OUT 4 Same as EU61 1 7 Same as EU61 Undefined EU61 USC unable to read data required for OUT 1 1 No reply from transmitter Check shielding and cable connections 2 Transmitter has got new address Power up
6. This may be useful when e g a control loop is to be adjusted or if an alarm signal should be checked Normal Forced OUT 1 Forced value 00 0 mA 00 0 24 0 mA USC Relay 5 USC Relay 2 USC Relay 1 The quality of the HART communication is displayed in the HART comm error submenu The quality is shown as Relay 3 Relay 4 VVVV XXXX YYY ZZ RELAY 1 Mode Normal 0 where Normal Open Closed VVVV is the number of received messages without any errors XXXX isthe number of received messages with errors USC USC USC YYY is the percentage of messages that Digital input Event log HART comm error High 0856 0007 00196 00 had errors mS igh Low ZZ is the number of messages that were eliminated i e max number of retries USE was reached Logado XXXXXXXXXXXXXXXX Fig 49 39 40 Troubleshooting Error system The EVITA OXY has an advanced self diagnostic The USC and the transmitter each has an event log To access the USC event log see fig 49 p 38 To system If there is an error or a warning a flashing that stores past errors information and warnings see the transmitter event log see fig 44 p 35 bell amp is displayed To view the pending error information press the key in the operator menu see below Operator menu sie EE SS EL c ER
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8. 1 RELAY 1 RELAY 1 Cleaning interval Cleaning time Relay at 000 h 00 min cleaning Open e 1 999 h 1 59 min Open Closed RELAY 1 Relay at Error Open Open Closed RELAY 1 Relay at warning Open Open Closed RELAY 1 RELAY 1 RELAY 1 Timer interval Active time Relay at Fi 39 000 h 00 min active Open g 1 999 hours 1 59 min Open Closed Calibration EVITA OXY sensors must be calibrated in atmospheric air Calibration every 6 months is recommended Calibration can be initiated from the USC 5000 6000 7000 or by using the TILTCAL feature in the OXY transmitter During calibration the OXY 1100 sensor must not be exposed to direct sunlight TILTCAL Ii 20mA 4mA PMN W UN MAS WM NW VN Before calibration the OXY 1100 sensor must be cleaned see section Maintenance With fast calibration in atmospheric air a 1 system accuracy can be obtained Temperature and barometric pressure compensation is made automatically during calibration via an internal temperature and pressure sensor a amp Min 5 min e Using TILTCAL Hold the transmitter with the OXY 1100 sensor upwards to initiate calibration by activating the tilt switch After 5 min turn the transmitter with the OXY 1100 sensor downwards and the transmitter has
9. 16 Fig 17 Fig 18 Optional add on module USC 6000 7000 19 version Unpack the add on module and locate it in the bottom of the signal converter as shown in fig 19 o 5 a 2 lt Fig 19 Press the add on module forward as far as possible See fig 20 Avoid touching the pc board and the Sockets AB1B52 10 Fig 20 The add on module has now been installed and the signal converter is ready to be installed on the terminal box The menus related to the optional add on module will automatically become visible and electrical inputs and outputs are automatically established by power on A81853 10 Fig 21 13 Electrical installation OXY 4100 4150 3150 stand alone transmitter The transmitter is connected using the two wire shielded cable The two leads carry supply voltage a 4 20 mA current signal and HART communication Fig 22 EVITA OXY connected to loop powered display Shield OXY4100 4150 OXY3150 If the cable is extended the total length of the cable must not exceed 1000 m 3000 Always use two wire shielded cable for the extension min 2 x 0 2 mm 24 AWG A8561542 10 14 Examples of coupling to loop powered display and PLC SCADA system are shown in fig 22 fig 23 and fig 24 respectively A suitable power supply shall be considered in the end use application The power supply must be a Class 2
10. MEL e E er mec L 2 E 9 X ox je DCN e Oxygen Calibration No of alarms Rem lifetime Reset lifetime Lest calibration o Temperature Transmitter O Transmitter O Transmitter O Transmitter O Transmitter O Transmitter O Transmitter O Error pending 90 Error pending No errors 485G61570 11 10 02 Fig 50 EO55 The OXY 1100 diaphragm has been damaged Each event has an unambiguous identification consisting of 4 digits 1 digit 2 digit Category Information W Warning E Error Sensor type U for USC O for OXY for INSITU 4100 N for INSITU 5100 P for PHIREDOX S for TSS 3 and 4 digit Error number 00 99 The numbers are describing the following events 0 9 Information 10 49 Warning 50 99 Error Information The system will continue to measure as usual Relay and output signals will not be affected Warning The system will continue to measure but there has been an event which may cause malfunction of the system and which may require an operator The reason for the warning may disappear on its own Warning relay if defined will show warning in accordance with the setup Error The whole system or parts of it is malfunctioning and the output signal is not reliable anymore The errors require an operator Error relays if defined will show error in accordance with the setup The EVITA OXY transmitter error pending list shows the 5 latest occure
11. Scan HART bus Are you sure USC Scan HART bus Busy USC Trm address 0 changed to 05 Fig 34 5 25 26 Setting of oxygen temperature units and transmitter s current output If other settings are wanted the factory settings can Setting of the displays and current outputs units However the setting of current outputs range for be changed as shown below for oxygen and temperature can be done in Basic oxygen and temperature is done as shown in fig 36 settings Setting of the transmitter s measuring p 27 and fig 37 p 28 range for oxygen can be done by changing the value at 4 mA and the value at 20 mA TR O 9 Basic settings n gt K TR 0 TR 0 TR 0 rao J 5 Oxygen unit Value at 4 mA Value at 20 mA Temp unit p 2 mod 000 00 mg l 010 00 mg l o E ec ppm lr 19 12 el I Fig 35 USC 5000 6000 current output settings Setting of current output 1 on USC 5000 and current outputs 1 and 2 on USC 6000 Fig 36 USC Output lout 1 Same as out 1 Only USC 6000 L0 Z0 Z1 463J180 000 00 C 999 00 C 1 OUT 1 gt Function Off e 1 OUT 1 LOUT 1 tour pe tours rour tours On Value Value at 4 mA Value at 20 mA Output when not Output during T
12. USC 3 Another master conflicts on HART comm Disconnect the other master or set USC to another master see fig 51 p 52 4 Supply voltage for transmitter too low Check supply voltage at transmitter supply voltage must be at least 20 V 5 Too much noise on current loop Check shielding and cable connections 6 Transmitter defective Replace transmitter 7 USC defective 7 Replace USC 45 46 Flashing bell in display Undefined EU65 USC unable to read data required for relay 1 Same as EU61 dk 1 7 Same as EU61 EU66 USC unable to read data required for relay 2 Same as EU61 1 7 Same as EU61 EU67 USC unable to read data required for relay 3 Same as EU61 1 7 Same as EU61 EU68 USC unable to read data required for relay 4 Same as EU61 1 7 Same as EU61 EU69 USC unable to read data required for relay 5 Same as EU61 1 7 Same as EU61 47 Technical Data Transmitter Transmitter cable Two wire screened cable 2 x 0 75 mm 18 AWG cable length 10 m 33 Supply voltage Min 12 Vd c max 30 Vd c HART max ripple 47 Hz 125 Hz 0 2 V p p max noise 500 Hz 10 kHz 1 2 mV rms 10 300 s default 40 s HART communication superposed on current output On current output see section Trouble shooting Measuring range can be Transmitter configured OXY 3150 4 50 ppm or mg l 40 500 96 OXY 4100 4150 O 50 ppm or mg l O 500 Min span 1 ppm or mg l 10 Sensor recommended value
13. current output 26 USC 5000 6000 current output settings 27 USC 7000 current output settings 28 USC 6000 relay output settings 29 USC 7000 relay output settings 30 Calibration cccecceeeeeeseeeeeeeeceeeeeeeeeeneeeeeneneees 31 Maintenance AAA retis 33 Other Settings esses 34 System information EEEEEEE EEE 35 Forced current and relay outputs 38 Troubleshooting eese 40 Error System eei uae tee Pedo W b e ea paura 40 Troubleshooting guide OXY 4100 3150 4150 stand alone transmitter 42 OXY 4100 3150 4150 transmitter 43 USC iiec lala lake bikn ke k n ba a ke we ka ake n Ver xwak n b n kn 44 Technical Data ecce 48 Transmitter LLLLL kk 48 cip EE 50 HART assita ad 52 AAP POM XL s aii enemies 53 Appendix lla 2 nerit 54 Appendix llb j j j jU UUU 55 Warranty liability and complaints 56 Contacts oh is 57 Introduction OXY 1100 sensor OXY 4100 transmitter OXY 4150 3150 transmitter EVITA OXY sensors are used for measuring the concentration of dissolved oxygen in water especially in controlling and monitoring aeration pro
14. glands Jacob GmbH cat no 50 013 PA PG13 5 Jacob GmbH cat no 50 013 PA PG13 5 Jacob GmbH cat no 50 013 PA PG13 5 6 12 mm cable diameter 6 12 mm cable diameter 6 12 mm cable diameter Blind plugs Jacob GmbH cat no 1013 PA Jacob GmbH cat no 1013 PA Jacob GmbH cat no 1013 PA Approvals CE and C tick approved CE and C tick approved CE and C tick approved Emission EN 50081 Emission EN 50081 Emission EN 50081 Immunity EN 50082 Immunity EN 50082 Immunity EN 50082 The insulation between mains supply and all input and output terminals of the USC signal converter were provided with double or reinforced insulation by a dielectric strength voltage of 2300 Va c Installation category II The worn USC 5000 6000 7000 must be disposed as ordinary electronic waste Important Before returning goods to HACH LANGE the products must be cleaned properly 51 HART The OXY 4100 4150 3150 offers additional features which can be accessed through the USC 5000 6000 7000 signal converter or HART communication To use HART communication it is necessary to use a PC or PLC with a HART9 modem and associated software All Universal Commands are fully implemented as are the necessary Common Practice Commands but to ensure complete utilisation of the transmitter special Device Specific Commands are used HART communication makes it possible to read off Oxygen concentration temperature remaining lifetime of the OXY 11
15. l min 0 mg l or ppm 096 System packages 1 and 2 max 50 mg l or ppm 50096 min 1 mg l or ppm 1096 Current output 2 min 10 C System package 1 max 70 C min 1 C USC 5000 6000 7000 ON o o o mM o o o oO kon e eo o LO O OXY 4100 4150 If factory settings are satisfactory proceed to p 31 21 Menu structure The menu of the signal converter is built up in two parts An operator menu and a setup menu Operator menu The operator menu is for daily use After the language has been selected the signal converter starts up in the operator menu showing the actual concentration of dissolved oxygen 22 The USC 5000 6000 is point to point installation while the USC 7000 is for a multidrop system In fig 32 menus marked with grey are only visible in the multidrop system It is possible to hide some of the menus in the operator menu see fig 43 p 34 Fig 32 12 31 mg l Oxygen Transmitter 0 7 09 mg l t2 Oxygen Transmitter 1 2 51 mg l D Oxygen Transmitter 2 E 6 22 mg l t2 Oxygen Transmitter 15 Error pending Scan HART bus Temperature Transmitter 0 18 5 C N ty E Temperature E Calibration E Transmitter 1 a Transmitter 1 JE 1 o gt gt 18 5 C KN De Temperature i Calibration i Transmitter 2 Transmitter 2 aa MI MERE MESS JE o gt gt 185 De e Temperature E Calibration E Transm
16. reach of the operator and it shall be marked as the disconnecting device for the Fig 27 equipment 17 18 Initial start up OXY 4100 4150 3150 stand alone transmitter 1 Apply voltage with the OXY 1100 sensor pointing 2 Place the transmitter so that the OXY 1100 3 Calibrate in accordance with the instructions in upwards in free air for 2 minutes This will zero sensor points downwards still in free air Leave the Calibration section p 31 the sensor life counter The life counter can be it in this position for 1 hour to allow the sensor to read via the signal converter USC or HART stabilise communication AB5G1538 10 AB561539 10 Fig 28 Fig 29 System with USC 5000 6000 7000 1 Place the transmitter in free air so that the OXY 2 Turn on the power to the signal converter USC 4 Check factory settings see p 21 Change if 1100 sensor points downwards see fig 30 5000 6000 7000 necessary 3 Leave the transmitter in this position for at least 5 Reset the lifetime counter see fig 32 p 22 1 hour to allow the sensor to stabilise before calibrating 6 Calibrate in accordance with the instructions in the Calibration section p 31 7 After calibration is completed place the transmitter in the measuring media AB5G1538 10 Fig 30 19 20 Programming USC 5000 6000 7000 Keypad and display layout TOP UP KEY This key hold for 2 sec is used to switch between the ESC operator menu and se
17. 00 sensor alarms indication of completed calibration When calibrating replacing an OXY 1100 sensor the following can be performed with HART9 communication initiation of calibration keying in of values for relative humidity air pressure and salinity for compensation purposes zero setting of life counter The USC 5000 6000 7000 can act as either a primary master or a secondary master This can be set as shown in fig 51 Fig 51 USC HART Settings 52 The following programming is possible with HART communication setting of measuring range deactivation of tilt switch for initiating an automatic calibration setting of current output signal during calibration for 4 mA 20 mA or last measuring value deactivation of alarms on current output measurement start after completed calibration change OXY 1100 sensor type USC Change HART Trm Mode USC is Primary Master USC Curr Trm mode Primary master USC USC restarts Set mode to Secondary master 1 USC is Secondary Master USC Curr Trm mode Secondary Master a e N o e USC ES Set mode to ll USC restarts x Primary Master T o USC USC USC USC Scan HART bus Scan HART bus Scan HART bus Trm address 0 Are you sure busy changed to 05 Appendix I Factory set values and the significance of deviations from t
18. 26 To allow the current output to stabilise after a cleaning the USC locks the current output during Cleaning time and USC a Output additional 10 minutes a a I E B E E i USC USC USC USC louti NA Relay 1 gt Relay 2 3 Relay 3 EE I T T T Same as Relay 1 Same as Relay 1 RELAY 1 Relay at error Open RELAY 1 El Open Closed Function RELAY 1 i gt or e Function RELAY 1 Error Relay at On Lo 9 warning Open Timer Error Off Warning Open Closed Hi Limit RELAY 1 D RELAY 1 RELAY 1 Hysteresis Relay above 005 00 mg l limit Open 0 999 99 Open Closed Lo Limit RELAY 1 E Cleaning Value Setpoint Oxygen 050 00 mg l e Oxygen 0 999 99 Temperature RELAY 1 IR RELAY 1 Setpoint Hysteresis 035 00 C e 005 00 C 0 999 99 0 999 99 Same as Hi Limit RELAY 1 Relay below limit Open Open Closed RELAY 1 Relay at cleaning Open RELAY 1 Cleaning interval Cleaning time 000 h 00 min o 1 999 h 1 59 min Open Closed RELAY 1 Timer interval 000 h RELAY 1 RELAY 1 Active time Relay at 00 min active Open 1 999 hours 1 59 min Open Closed
19. 5000 6000 7000 and the serial number Fig 45 N q GIS 3 e lt TR O R O TR O R 0 5 TILTCAL Transm mode Manufacture id Mfr device type Not tilted Measuring xxx xxx g Not Tilted Measurin 2 ICalibrafing pi mDonfons lt Ae ees End of calibr un tiqlising 2 _ TR 0 A TR 0 TR 0 TR 0 Log xxxxdxxh Transm cmd rev SW version HW version Device Id XXXXXXXXX fe XXX xxx xxx XXXXXXX N 2 o 5 USC usc usc usc usc usc 1 Type Code no Serial no SW version HW version Further info o USC5000 XXXXXXXX XXXXXXXXXX XXXXXXX XXX XXXXXXXXXXX o lt 4 35 Reset mode The factory settings can be re established as shown in fig 46 Send command In the Send command menu it is possible to start calibration to start measuring after calibration to reset lifetime and to set factory settings usc Reset mode usc Set default settings USC Destroy own Settings Fig 46 TR O A85G1565 10 10 02 Send command TR O Calibration See fig 41 p 32 Fig 47 Destroy own settings A85G1575 10 10 02 36 Advanced settings In the Advanced settings menu it is possible to choose which calibration type to be used and which type of start after calibration Furthermore factors for be keyed in Automatic calibration means calibration in atmospheric air and Manual cal
20. 7000 self cleaning ball float simple sensor replacement after 2 3 years High reliability self diagnosing membrane leakage detection fault indication on transmitter current output Flexible communication HART communication as standard gives added features Setting of measuring range and units from a distance display of dissolved oxygen and temperature remaining OXY 1100 sensor life and specific event codes Option module can be fitted in the USC 6000 7000 without the need for tools Mechanical installation Transmitter Mounting on a handrail The mounting bracket for OXY 4100 and 4150 can In case of strong sideways forces the PVC pipe be mounted directly on a handrail using the supplied should be mounted with supporting wires This takes hose clips Retighten the hose clips after a few up some of the sideways mechanical forces on the days use to ensure a tight mounting of the mounting pipe and avoids cracking of the mounting bracket bracket Vmin 0 05 m s 2 sec Fig 1 Fig 2 A8561339 13 Mounting on a concrete wall The mounting bracket for OXY 4100 and 4150 can be mounted directly on to a concrete wall using 2 screws AISI 316 diameter max 10 mm or 3 8 UN Pipe mounting The OXY 4150 transmitter can be mounted in a PVC pipe as shown in fig 4 Fig 4 Mounting of OXY 4150 transmitter using cable bracket The strength of the trans
21. Fig 7 OXY 4150 3150 Mounting and replacement of OXY 1100 sensor Mount the sensor on the probe as shown in fig 8 At mark 5 Turn until a click is heard CP A85G1546 10 Fig 8 USC 5000 6000 7000 Mounting on a handrail Mount the bracket on a vertical or horizontal pipe using the two stainless steel hose clips AB561559 10 Fig 9 Fig 10 Fig 11 ABSG1560 10 10 Mounting on a concrete wall Mount the bracket on to a wall using four screws diameter max 8 mm or 5 16 UN Fig 12 USC 6000 7000 19 version Mounting in panel First mount the terminal board in the front panel IP 65 NEMA 4X enclosure figs 13 and 14 or the back of the panel bracket fig 15 Plug in the 19 USC 6000 7000 signal converter in the enclosure or bracket using the four small screws to tigthen it Fig 13 Fig 14 Fig 15 11 12 Optional add on module USC 6000 7000 Unpack the add on module and locate it in the bot Press the add on module forward as far as possible The add on module has now been installed and tom of the signal converter as shown in fig 16 See fig 17 Avoid touching the pc board and the the signal converter is ready to be installed on the sockets terminal box The menus related to the optional add on module will automatically become visible and electrical inputs and outputs are automatically established by power on AB1B54 10 AB1B55 10 AB1B56 10 Fig
22. TV q DOC023 52 00076 Jun05 EVITA OXY User Manual CD LANGE UNITED FOR WATER QUALITY HACH LANGE GmbH 2005 All rights reserved Printed in Germany DOC023 52 00076 Contents l1 tr OQUCt OD uL ussa kk kk nnn 2 Mechanical installation 4 Transmitter eeessseeeeee n 4 Assembly zit etin i gia a o doa asd anda 6 OXY up PE 8 OXY 4150 93150 iie tiet s d ena nina 9 USC 5000 6000 7000 eeeeeeeeeesss 10 USC 6000 7000 19 version 11 Optional add on module USC 6000 7000 12 Optional add on module USC 6000 7000 19 version eeeeeeeee enne 13 Electrical installation 14 OXY 4100 4150 3150 stand alone transmitter 14 USC 5000 6000 and OXY 4100 4150 polrit t POME soises ssoi e yek ye kerik 16 USC 7000 and OXY 4100 4150 multidrop 17 Initial start up eeeeeeeeee 18 OXY 4100 4150 3150 stand alone transmitter 18 System with USC 5000 6000 7000 19 Programming USC 5000 6000 7000 20 Keypad and display layout jj 20 Factory settings a 21 Menu structure EEE EEE Eke 22 USC 7000 multidrop system 25 Setting of oxygen temperature units and transmitter s
23. able the function of the digital input used for wire shielded cable for the extension min 2 x 0 2 calibration control on the EVITA INSITU 4100 mm 24 AWG transmitter Depending on the USC version the power supply Note The digital input is available on both USC should be connected to terminals L N and PE when 5000 USC 6000 and USC 7000 using 100 240 V a c or to terminals 1 and 2 when using 24 V a c d c see fig 25 and fig 26 USC 6000 19 version Fig 26 3 2 24v 14 0 3 Shield 24V gt 8 Mis TJ so azin m ABlack 53D go r Red AE q v ER USC DIG IN anjo igital i i out 1 Y solo Digital input Function nas On ur asln I out 2 f ln 35 0 36 0 081R9433 02 01 37 n 38 0 Fig 25a Digital input USC 7000 and OXY 4100 4150 multidrop The USC 7000 is able to communicate with up to Note Components like motors pumps and Important The below mentioned warnings concern 15 EVITA OXY transmitters using HART multidrop computers may cause high voltage potential both USC 5000 USC 6000 and USC 7000 protocol on only two wires differences between the protective earth ground wire and the water in the tank that Each transmitter should be connected in parallel results in unstable readings If this problem outside the USC connection box and only two wires occurs mount an earthing electrode in the The HART communication ter
24. cesses in wastewater treatment plants but also in applications such as fish frarms EVITA OXY consists of an OXY 1100 sensor an OXY 4100 transmitter and a USC Universal Signal Converter There are two versions of the transmitter a ball float version OXY 4100 and a probe version OXY 4150 3150 The operating principle is identical for both versions There are three versions of the USC a USC 5000 basic version and a USC 6000 with added features both point to point A USC 7000 with HART multidrop functionality enabling up to 15 transmitters on only two wires The EVITA OXY 1100 sensor is the heart of the oxygen meter The transmitter converts the measurements by the sensor into a current signal and at the same time also performs the necessary calculations corrections The signal converter is the display and programming unit and offers additional outputs A Documentation needs to be consulted The user shall be made aware of that if the A equipment is used in a manner not specified by the manufacturer the protection provided by the equipment may be impaired o la ben amp USC 5000 IP 67 NEMA 4X n USC 6000 7000 IP 67 NEMA 4X n emi USC 6000 7000 19 The EVITA OXY system offers several advantages 2 wire transmitter simple and fast installation Easy maintenance simple automatic calibration in atmospheric air initiated by using the TILTCAL or the USC 5000 6000
25. completed the calibration routine During calibration the current output signal is factory set to 4 mA Optional 20 mA or the last measured value Hold can be chosen via the USC 5000 6000 7000 A8561537 11 FW n A h IA NA N f WA V V VV Wu V Wy A J VS La M N Ze Fig 40 Tilted Not tilted 31 32 If during the 5 minutes calibration period the Using the USC 5000 6000 7000 The set values and the significance of deviations transmitter is turned with the OXY 1100 sensor In operator menu use the key to select the from them are given in appendix I downwards calibration stops and measurements Calibration menu and press the go key to initiate a A system accuracy of 0 5 can be achieved by continue with the previous calibration value calibration lifting the transmitter out of the medium and placing Temperature compensation is made automatically Compensations for relative humidity and salinity can it with the OXY 1100 sensor downwards for 1 hour during calibration via an internal temperature sensor be made by entering these values using the USC to make sure the sensor is completely stabilised In addition using factory settings compensation 5000 6000 7000 see fig 48 p 37 Calibration can then be initiated is also made for air pressure relative humidity and salinity These factory set values can be changed via the USC signal converter or via HART9 communication
26. could result from defects and or delayed delivery of products sold irrespective of the cause including faulty manufacture design and materials Furthermore the warranty does not include Wearing parts and consumables If the product is damaged because it was not operated maintained in accordance with the manual If the product is damaged due to incorrect instal lation or operation Damage caused by electrical failure or lightning overvoltage Defects resulting from failure to clean prior to storage Defects due to use outside the specifications for the transmitter 56 The following points are to be undertaken even without a system care contract by the customer Attention EVITA INSITU 4100 EVITA INSITU 2100 EVITA INLINE 4150 o The transmitter is to be cleaned with a clean ing cartridge prior to every chemical change Documentation of the cleaning and maintenance work performed The replacement of a transmitter supplied The cleaning packaging and organisation of the return of the faulty transmitter to HACH LANGE for repair and or troubleshooting HACH LANGE GmbH process instruments are of proven reliability in many applications and are therefore often used in automatic control loops to provide the most economical possible operation of the related process To avoid or limit consequential damage it is there fore recommended to design the control loop such that a malfunction in an instrument res
27. d errors that are still pending and the event log shows the 25 latest events i e informations warnings and errors The USC signal converter error pending list can show up to 14 pending errors and warnings displayed with the USC errors first and then the transmitter errors If there are more than 14 pending errors the message Additional errors cannot be viewed will show in the display The USC event log shows the 9 latest events 41 Troubleshooting guide OXY 4100 3150 4150 stand alone transmitter Constant current signal varying oxygen concentration Error in measuring value Check wiring and make the necessary corrections Undervoltage Check the supply voltage at transmitter Supply voltage must be at least 12 V Initialisation fault 1 Switch off transmitter for min 5 seconds 2 Switch on again while sensor points downwards Transmitter defective Replace transmitter 2 3 80 mA or Initialisation fault 1 Switch off transmitter for min 5 seconds 24 0 mA 2 Switch on again while sensor points downwards Transmitter defective Replace transmitter 3 85 mA or Membrane leakage Replace OXY 1100 sensor 23 5 mA Moisture behind OXY 1100 sensor Fully dry the terminals at transmitter A hair dryer might be of assistance 3 90 mA or Calibration not possible worn OXY 1100 sensor Replace OXY 1100 sensor 23 0 mA 3 95 mA Oxygen under set measuring range Set the lower measuring limit to a lower value 22 00 mA Ox
28. hem Parameter Factory setting Significance 96 of actual value Relative humidity 100 approx 0 3 Salinity Og tal 53 Appendix lla Temperature Solubility of oxygen in water in equilibrium with air 100 at 101 325 kPa F 0 32 0 14 62 1 33 8 14 22 6 42 8 12 45 11 51 8 11 03 13 55 4 10 54 15 59 0 10 08 Temperature Solubility of oxygen in water in equilibrium with air 100 at 101 325 kPa F TES 38 20 68 0 22171 6 8 74 27 80 6 7 97 29 84 2 7 69 Source DS EN 25814 54 Appendix IIb Zero point check 1 g of sodium sulphite Na SO and 1 mg cobalt Il salt Cobalt II chloride hexahydrate CoCl 6H 0 is added to 1 litre of water to remove oxygen from the water The water is then stirred and oxygen concentration measured in order to check the zero point Source DS EN 25814 99 Warranty liability and complaints HACH LANGE GmbH warrants that the product sup plied is free of material and manufacturing defects and undertakes the obligation to repair or replace any defective parts at zero cost no guarantee of quality or durability At variance with our general terms and conditions the warranty period for the EVITA series instruments is 12 months EVITA INSITU EVITA INLINE On the conclusion of a system care contract within 6 months of purchase the warranty period is extended based on the terms in the system care contract HACH LANGE GmbH offers various sy
29. ibration means calibration in a standard solution where the concentration of oxygen is keyed in see fig 41 p Transmitter address has to be 0 for current output to function in a point to point installation using USC 5000 or 6000 When operating in multidrop system using USC 7000 the transmitter must have a compensation for salinity and relative humidity can 32 unique address between 1 and 15 TR 0 TR 0 TR 0 TR 0 gt TR 0 gt TR 0 gt TR 0 gt Advanced settings Set transmitter Calibr type After calibration TILTCAL Mem leakage detect Sensor type T address 00 Manual Automatic start 0 Enabled Enabled 0 50 um 0 Manual Manual start Enabled Enabled Automatic Automatic start Disabled Disabled 50 125 um Fig 48 TR 0 Output when not measuring Low TR 0 Salinity 040 g l 0 Rel humidity 060 TR 0 Time const 040 s 0 TR 0 Output during error Low 0 40 g l High 10 300 s Low Normal 37 38 Forced current and relay outputs USC USC gt usc usc usc A Service 1 Out 1 Out 2 1 Out 3 Out 4 q Bn I I I I I g 8 1 OUT 1 5 Mode Normal Service mode In the service mode it is possible to control the relay and the current outputs directly
30. ime const Off pH 0 000 00 mg l 999 00 mg l measuring 20 mA 0 error Normal 040 s H Range 0 999 Range 0 999 20 mA 23 mA 030 300s P 4mA 3 8 mA Temperature Hold Normal I OUT 1 I OUT 1 Normal Value at 4 mA Value at 20 mA Units selected in Transmitter basic settings see fig 35 p 26 27 USC 7000 current output settings Setting of current outputs 1 to 4 on USC 7000 USC Output e USC out 1 Fm USC lout 2 a OUT 1 Function Off LO CO LVOHLISO Same as I out 1 Same as out 1 28 Units selected in Transmitter basic settings see fig 35 p 26 lt E Bj OUT 1 I OUT 1 OUT 1 B tout 1 gt OUT 1 OUT 1 OUT 1 Select Value Value at 4 mA Value at 20 mA Output when not Output during Time const transmitter 00 Oxygen 00 00 mg l 6 999 00 mg l measuring 20 mA error Normal 040 s 00 15 Range 0 999 Range 0 999 20 mA 23 mA 030 300s azan Oxygen 4mA 3 8 mA Temperature Hold Normal Normal I OUT 1 p rouT 41 Value at 4 mA Value at 20 mA 000 00 C 999 00 C Range 10 999 Range 10 999 Fig 37 USC 6000 relay output settings Setting of relay outputs 1 to 3 on USC 6000 Fig 38 Units selected in Transmitter basic settings fig 35 p
31. in the password press the key Setup mode is a read and write mode The pre selected settings can be scanned and changed The setup menu is accessed by pressing the key for 2 seconds and entering the password The factory set password is 1000 but can be changed to any value between 1000 and 9999 The factory setting of the password can be re established as follows Switch off the power supply Press the key and switch on the power supply Release the fr key after 10 seconds The password is now reset to 1000 23 Fig 33 10 64 mg l Oxygen Transmitter 0 D Transmitter 1 Temperature Calibration Transmitter 0 lo of alarms Transmitter 0 Rem lifetime Transmitter 0 0 eset lifetime ransmitter 0 ast calibration Transmitter 0 10 64 mg l Oxygen Transmitter 0 No of E Temperature Transmitter 0 Calibration Transmitter 0 Transmitter 0 Transmitter 0 Reset lifetime alarms ransmitter 0 I Last calibration Transmitter 0 Error pending Scan HART bus Password 0000
32. itter 15 Transmitter 15 I 0 y gt O y No of alarms E i Transmitter 1 SEERE En 1 0 t i No of alarms i Transmitter 2 PRP RPE IPPO gt o e No of alarms E Transmitter 15 gt gt gt 50 to to 72 d t Rem Lifetime H Reset lifetime Last calibration B Transmitter O Transmitter 0 Jg pue gt i 85 t tW 26d t Rem Lifetime 3 Reset lifetime H Last calibration 3 Transmitter 1 Transmitter 1 JE Transmitter 1 A e gt 70 Y 84 d E Rem Lifetime 3 Reset lifetimes Last calibration i Transmitter 2 95 96 Rem Lifetime Transmitter 15 Transmitter 2 gt gt 71 d t Reset lifetime E Last calibration 3 Transmitter 15 T Transmitter 15 5 N e 5 e eo x o Transmitter 2 Setup menu The setup menu is shown in an overview diagram fig 33 on page 24 The setup menu consists of two parts USC setup menu for USC settings Transmitter setup menu for transmitter settings The setup menu is for commissioning and service and for changing the settings Access to the setup menu is gained by pressing the IR key for 2 seconds The setup menu will operate in two modes View mode is a read only mode The preselected settings can only be scanned The view mode is accessed by pressing the key for 2 seconds Instead of keying
33. minals 84 85 with shield mounted on the terminals in the USC tank to equalise the electrical potential of the and the Digital Input terminals 77 78 of 7000 water to PE V GOD the Universal Signal Converter must not be If the flow velocity n the tank is high it may connected to external voltage level above 30 cause a static potential locally Is this the V d c case mount the earthing electrode close to the transmitter The Relay terminals 40 49 of the Universal Signal Converter must not be connected to O U O external voltage level exceeding 48 V d c 30 V rms or 42 V peak 856 1536 13 000000000000000000000000000 O nnoaaocaaaaoaaoaoaaaoaaaoaopoaungn o D0OD000000000000000000000000 us eS Protective conductor terminal Required cable elay min AWG16 or 1 5 mm Cu 7 Relay 4 s Relay 3 Field wiring installation of the Universal Signal Converter must be in accordance with the National Electrical Code Shield r Al Black Relay 2 Relay 1 lout 1 4X NA Mains supply 100 to 240 V a c from building A installation Overvoltage category Il A switch lout2 4Y NX 34 lae N or circuit breaker max 15 A shall be included pours l in the building installation The switch circuit Iout4 aT breaker shall comply with relevant require ments of IEC 947 1 and 947 3 It must be in close proximity to the equipment and within Digital input easy
34. mitter cable is such that the transmitter can be allowed to hang from it Bracket A is available as accessory supplied by HACH LANGE However B is not A85G1545 10 Fig 5 Assembiy Ball float assembly Mount the single parts as shown in fig 6 AB5G1191 14 Q A OXY 4100 1 pipe thread B is supplied with transmitter C 45 PVC or ABS elbow inside diameter 50 mm or 1 supplied by customer D PVC or ABS tube 50 mm or 1 supplied by customer E 90 PVC or ABS elbow inside diameter 50 mm or 1 supplied by customer Q PVC or ABS adhesive supplied by customer Fig 6 Probe assembly Mount the single parts as shown in fig 6a A85G 1623 10 D A OXY 4150 3150 diameter 50 mm B adaptor with 1 pipe thread 085G3325 or union with diameter 50 mm 081B0028 is C supplied with system packages 1A and 2A C adaptor with 172 and 50 mm outside diameter B 081B0027 is supplied with system packages 1A and 2A A D PVC or ABS socket inside diameter 50 mm or 1 supplied by customer E PVC or ABS tube 50 mm or 1 supplied by customer F 90 PVC or ABS elbow inside diameter 50 mm Fig 6a or 1 supplied by customer Q PVC or ABS adhesive supplied by customer 7 OXY 4100 Mounting and replacement of OXY 1100 sensor Mount the sensor on the ball float as shown in fig 7 At mark 5 Turn until a click is heard AB5G1541 10
35. nal converter using a soft moist cloth Replacement of sensor 1 Remove the defective worn sensor 2 Insert new sensor see fig 7 p 8 or fig 8 p 9 3 Reset the lifetime counter see p 18 or fig 32 p 22 4 Place the transmitter so that the OXY 1100 sensor points downwards Keep it in this position for at least 1 hour to allow the new sensor to stabilise see fig 29 p 18 5 Perform calibration see section Calibration p 31 32 AB36 1540 11 33 Other Settings In the Operator menu setup it is possible to hide all menus except Oxygen in the operator menu USC Operator menu setu OXY OXY OXY Oxygen Temperature Calibration OXY OXY No of alarms Rem lifetime OXY Reset lifetime OXY Last calibration A in the operator menu setup means that this reading is shown in the operator menu Fig 43 A in the operator menu setup means that this reading is not available when viewing the operator menu AB5G1569 10 10 02 34 System information Transmitter information In the menu Info it is possible to view various information about the transmitter e g time since last calibration transmitter mode and software and hardware versions 071000 days TR 0 Error pending XXXXXXXXX Fig 44 p USC information In the menu Product identity it is possibel to read the USC type
36. phanumeric LCD display Back lit alphanumeric LCD display Enclosure IP 67 according to IEC 529 NEMA 4X IP 67 IP 20 according to IEC 529 NEMA 4X IP 67 IP 20 according to IEC 529 NEMA 4X Ambient Storage 40 C to 70 C 40 F to 158 F Storage 40 C to 70 C 40 F to 158 F Storage 40 C to 70 C 40 F to 158 F temperature Operation 40 C to 60 C 40 F to 140 F Operation 40 C to 60 C 40 F to 140 F Operation 40 C to 50 C 40 F to 122 F Environment Indoor use altitude up to 2000 m Indoor use altitude up to 2000 m Indoor use altitude up to 2000 m Pollution Degree Il Pollution Degree II Pollution Degree II Relative humidity 80 up to 31 C 87 8 F Relative humidity 80 up to 31 C 87 8 F Relative humidity 80 up to 31 C 87 8 F decreasing linearly to 50 at 40 C 104 F decreasing linearly to 50 at 40 C 104 F decreasing linearly to 50 at 40 C 104 F Power supply 100 240 Vac 10 15 100 240 Vac 10 15 100 240 Vac 10 15 50 60 Hz 5 20VA 50 60 Hz 5 20VA 50 60 Hz 5 20VA Fuse T500mA 250V Not to be changed by user Fuse T500mA 250V Not to be changed by user Fuse T500mA 250V Not to be changed by user 11 30 Va c d c 5 20 W 11 30 Va c d c 5 20 W Automatic Compensating for temperature barometric Compensating for temperature barometric Compensating for temperature barometric calibration pressure humidity and salinity pressure humidity and salinity pressure humidity and salinity Cable
37. power source limited circuit according to the National Electrical Code NEC and provided double reinforced insulation between mains and the 12 30 V d c supply for the oxygen transmitter Components like motors pumps and computers may cause high voltage potential differences between the protective earth ground wire and the water in the tank that results in unstable readings If this problem occurs mount an earthing electrode in the tank to equalise the electrical potential of the water to PE If the flow velocity in the tank is high it may cause a static potential locally Is this the case mount the earthing electrode close to the transmitter PLC SCADA Red Shield AB561543 10 0XY4100 4150 0XY3150 EVITA OXY supplied from PLC SCADA system Fig 23 PLC SCADA A85G1544 10 Black Shield 0XY4100 4150 OXY3150 EVITA OXY connected to a PLC SCADA system with external power supply Fig 24 15 16 USC 5000 6000 and OXY 4100 4150 point to point The transmitter is connected using the two wire shielded cable The two leads carry supply voltage a 4 20 mA current signal and HART communication USC 5000 6000 IP 67 version Digital input Fig 25 Only USC 6000 Relay 3 Ma Relay 2 Relay 1 85G1577 13 If the cable is extended the total length of the cable On the USC signal converter it is possible to must not exceed 1000 m 3000 Always use two dis
38. s to maintain operating life OXY 1100 25 um 0 002 2 ppm OXY 1100 50 um 0 1 10 ppm OXY 1100 125 um 2 50 ppm Temperature range Transmitter Operation 40 C 60 C 40 F to 140 F Storage transport 40 C 70 C 40 F to 158 F Sensor Operation 0 C 50 C 32 F to 122 F Storage transport 0 C 70 C 32 F to 158 F Measured media 0 C 40 C 32 F to 104 F System accuracy Digital output of FSO at calibrating temperature Analogue output of FSO at calibrating temperature Digital analogue output of FSO at 0 40 C 32 F to 104 F Reaction time OXY 1100 25 um 50 um 125 um Diaphragm leakage monitoring Measurement between anode and a terminal in contact with the measured medium Enclosure OXY 4100 IEC 529 IP 68 1 m NEMA 6P 3 OXY 3150 4150 IEC 529 IP 68 10 m NEMA 6P 30 Dimensions and weight OXY 4100 d 240 mm 9 6 2 7 kg 6 Ib OXY 3150 4150 d 50 mm 180 mm d 2 0 1 7 2 1 kg 2 2 Ib EMC Emission IEC EN 61000 6 3 Immunity IEC EN 61000 6 2 The worn OXY 1100 sensor must be disposed as ordinary industrial waste and the worn OXY 4100 4150 transmitter must be disposed as electronic waste Before disposing the OXY 4100 4150 the cable must be cut off and disposed as metallic waste Disposal in accordance with EU directive 2002 96 EC In compliance with EU directive 2002 96 EC HACH LANGE the local subsidiary will accept back and dispose of
39. stem care contracts with different services and warranty period extensions With the exclusion of the further claims the supplier is liable for defects including the lack of assured properties as follows all those parts that within the warranty period calculated from the day of the transfer of risk can be demonstrated to have become unusable or that can only be used with significant limitations due to a situation present prior to the transfer of risk in particular due to incorrect design poor materials or inadequate finish will be improved or replaced at the supplier s discretion The identification of such defects must be notified to the supplier in writing without delay however at the latest 14 days after the identification of the fault If the customer fails to notify the supplier the product is considered approved despite the defect Further liability for any direct or indirect damages is not ac cepted If instrument specific maintenance and servicing work defined by the supplier is to be performed within the warranty period by the customer main tenance or by the supplier servicing and these requirements are not met claims for damages due to the failure to comply with the requirements are rendered void HACH LANGE is not responsible for any indirect or consequential damages e g injuries or damage to property failure in operation including loss of production loss of profits loss of goods in stock or similar that
40. the old instrument at no cost ATTENTION It is not allowed to dispose of the instrument using municipal waste disposal services Please talk to your local HACH LANGE contact Important Before returning goods to HACH LANGE the products must be cleaned properly 49 50 USC Type USC 5000 USC 6000 USC 7000 No of transmitters 1 point to point installation 1 point to point installation 15 multidrop Measuring Dissolved oxygen Oto 10 500 Dissolved oxygen 0 to 10 500 Dissolved oxygen 0 to 10 500 range O to 0 1 50mg l or ppm 0 to 0 1 50mg l or ppm O to 0 1 50mg l or ppm Temperature 0 70 C 32 F 158 F Temperature 0 70 C 32 F 158 F Temperature 0 70 C 32 F 158 F Measuring Oxygen 0 5 Oxygen 0 5 96 Oxygen 0 5 96 uncertainty Temperature 0 5 C 0 9 F Temperature 0 5 C 0 9 F Temperature 0 5 C 0 9 F Current outputs One 4 20 mA scaleable Two 4 20 mA scaleable Four 4 20 mA scaleable isolated 24V active galvanic isolated 24V active galvanic isolated 24V active galvanic Max load 800 ohm Max load 800 ohm Max load 800 ohm Relay outputs None 3 relay outputs SPST max 48 Va c or 30 Vrms 4 A 5 relay outputs SPST max 48 Va c or 30 Vrms 4 A Digital input Min 12 to max 30 V d c 6 KOhm Min 12 to max 30 V d c 6 KOhm Min 12 to max 30 V d c 6 KOhm Display Back lit alphanumeric LCD display Back lit al
41. tup menu A short press will cause a return to the overlying menu l 8 36 FORWARD KEY This key is used to step forward through the menus in the setup menu Oxygen Transmitter O BACKWARD KEY This key is used to step backward through the menus CHANGE KEY This key changes the settings or numerical values in the setup menu In the operator menu it is used to step through the menues SELECT KEY This key selects which digits to be changed AB561565 10 Fig 31 LOCK UNLOCK KEY This key allows the operator to change settings and gives ENTER access to submenus Various display symbols y Ready for change The factory setting of the language can be IMPORTANT reestablished as follows Value locked The USC starts up showing the menu Language in English Press the key until the wanted ed language appears in t isplay and press the Switch off the power supply Access to submenu O key Confirmation of choice After the language is chosen the USC will show Bk the key and switch on the power Concentration in the operator menu see p 22 SUDP y The keypad is used to set the EVITA OXY and to Release the key after 10 seconds step through the menus The function of the keys are as follows The language is now reset to English Factory settings The EVITA OXY system is supplied with the following factory settings Current output 1 0 20 mg
42. ults in an au tomatic change over to the backup control system this is the safest operating state for the environment and the process If not otherwise agreed the general terms and con ditions of HACH LANGE GmbH also apply Contacts Please find below the extract of HACH LANGE companies Other company locations www hach lange com HACH LANGE GmbH WillstatterstraRe 11 D 40549 D sseldorf Tel 49 0 211 52 88 0 Fax 49 0 211 52 88 143 info hach lange de www hach lange de HACH LANGE LTD Pacific Way Salford Manchester M50 1DL Tel 44 0 161 8 72 14 87 Fax 44 0 161 8 48 73 24 info hach lange co uk www hach lange co uk HACH LANGE HACH SAS 33 Rue du Ballon F 93165 Noisy Le Grand T l 33 0 1 48 15 8080 Fax 33 0 1 48 15 80 00 info hach lange fr www hach lange fr DR BRUNO LANGE GES MBH IndustriestraRe 12 A 3200 Obergrafendorf Tel 43 0 2747 74 12 Fax 43 0 2747 42 18 info hach lange at www hach lange de DR BRUNO LANGE AG Juchstrasse 1 CH 8604 Hegnau Tel 41 0 44 9 45 66 10 Fax 41 0 44 9 45 66 76 info hach lange ch www hach lange ch HACH LANGE SA Motstraat 54 B 2800 Mechelen T l 32 0 15 42 35 00 Fax 32 0 15 41 61 20 info hach lange be www hach lange be DR LANGE NEDERLAND B V Laan van Westroijen 2a NL 4003 AZ Tiel Tel 31 0 3 44 63 11 30 Fax 31 0 3 44 63 11 50 info hach lange nl www hach lange nl HACH LANGE AB Vinthundsv gen159A S 128 62 Sk
43. ygen level higher than set measuring range Set the upper measuring limit to a higher value Variable Calibration value incorrect Check FSO in atmospheric air Hold the transmitter up in the air with the sensor downwards Check value against DS EN 25814 see appendix Ila Check zero point see appendix IIb In the case of large reading error recalibrate 42 OXY 4100 3150 4150 transmitter Symptom Current output Event Cause Remedy signal code 1 Error in measuring Variable Calibration value incorrect Check FSO in atmospheric air Hold the transmitter up value in the air with the sensor downwards Check the value against DS EN 25814 see appendix lla 2 Check zero point see appendix IIb 3 In the case of large reading error recalibrate Display switching End of calibration phase Go to Send command menu and start measuring see fig between Oxygen and 47 p 36 End of calibration Flashing bell in display Depending on WO10 The measured value has exceeded the transmitter output setting Change upper range in Basic settings see fig 35 p 26 the settings WO11 The measured value is below the transmitter output setting Change lower range in Basic settings see fig 35 p 26 WO15 Life time expired OXY 1100 should be replaced as soon as Replace OXY 1100 possible WO20 The temperature of OXY 1100 is below 0 C 32 F Accuracy reduced The accuracy might be reduced WO21 The temperature of OXY 1100 is above 40
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