USER MANUAL
Contents
1. E mail hvssystem hvssystem com Site web www hvssystem com Fourteen red LEDs located down the lower display DP DM TP CP SEC COF H2F LT Lit when the dew point value is shown on the lower display Lit when the sensor output in mV is shown on the lower display Lit when the sensor temperature is shown on the lower display Lit when the probe resistance value is shown on the lower display available if O2 is not selected as primary control variable Lit when the carbon potential value is shown on the lower display Lit when the sensor response time is shown on the lower display available if O2 is not selected as primary control variable Lit when the carbon monoxide factor value is shown on the lower display available if O2 is not selected as primary control variable Lit when hydrogen factor value is shown on the lower display available if O2 is not selected as primary control variable Lit when the probe temperature of the last probe test is shown on the lower display available if O2 is not selected as primary control variable PRECONISATEUR DE SOLUTIONS DEPUIS 1865 46 ST 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 Lit when OUT 1 is used as control output and it is in ON condition alam 1 is in alam state and acknowledged Flashes when alam 1 is in alam state and it is not acknowledged Lit when OUT 2 is used as control output and it2. Ec Es 1 47 5 where Ec is the sensor output in mV measured before the shunt connection E mail hvssystem hvssystem com Site web www hvssystem com Es is is the sensor output in mV measured after the shunt connection 4 It removes the 47 5 KQ shunt resistor 5 It displays the calculated value on the lower display and stores it in a memory location for later recall Probe response time The probe response time is the time which takes the mV measured value after the shunt is removed to retum to the original value before the shunt connection 4 mv The probe response time is stored in a memory location for later recall If the probe response time is greater than 60 seconds the probe response time calculation will be aborted NOTES a During the Probe test the control output the Adaptive algorithm and alarm status are frozen All functions will be automatically restored at the end of this procedure DIT a power down occurs the current probe test status and timings will be lost if automatic probe test was set the timer will start again from the value set by the Pb tr R HO4 parameter 53 PRECONISATEUR DE SOLUTIONS DEPUIS 19685 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 SERIAL LINK The device can be connected to a host computer by a serial link The host can put the device in LOCAL functions and parameters are controlled via keyboard or in REMOTE fu
3. Fig 12 RS 485 WIRING The cable length must not exceed 1 5 km at 9600 BAUD NOTES 1 This is an isolated RS 485 serial interface 2 The following report describes the signal sense of the voltage appearing across the interconnection cable as defined by EIA for RS 485 a The A terminal of the generator shall be negative with respect to the B terminal for a binary 1 MARK or OFF state 11 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com SS V Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com b The A terminal of the generator shall be positive with respect to the B terminal for a binary O SPACE or ON 3 The EIA standard establishes that by RS 485 interface itis possible to connect up to 30 devices with one remote master unit The serial interface of these instruments is based on High input impedance transceivers this solution allows you to connect up to 127 devices based on the same transceiver type with one remote master unit E POWER LINE WIRING 32 N L2 33 POWER LINE 100 V to 240 V A C 50 60Hz L L1 Line Neutral Fig 13 POWER LINE WIRING NOTES 1 Before connecting the instrument to the power line make sure that line voltage corresponds to the description on the identification label 2 To avoid electrical shock connect power line at the end of the wiring procedure 3
4. C E11 OUT 7 retransmission initial scale value This parameter is available only when Out 7 function C EO9 is configured as PV or SP Upper display CnF 2 Lower display O7 Lr Range From 1999 to 9999 NOTE The decimal point position will be the same as the CnF 1 PV SL C DO2 previously selected C E12 OUT 7 retransmission full scale value This parameter is available only when Out 7 function C EO9 is configured as PV rt or SP Upper display CnF 2 Lower display O7 Hr Range From 1999 to 9999 NOTE The decimal point position will be the same as the CnF 1 PV SL C DO2 previously selected 30 C E13 OUT 7 filter on the retransmitted value This parameter is available only when OUT 7 O7 Fn C EO9 is configured as Dr Upper display CnF 2 Lower display O7 FL Range From O no filter to 8 seconds NOTE this is a first order digital filter applied to the retransmit ted output value 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 General note on configuration group 2 Exiting from the configuration group 2 the instrument automati cally verifies the congruence of all parameters If a wrong setting is detected the device will show The parameter group 2 passes the congruence test when 1 No one of the 5 outputs is configu
5. R AO3 Set point 3 This parameter is available only when one of the logic inputs is configured for SP 3 SP4 selection Upper display Gr 1 Lower display SP3 Range from rL R E10 to rH R E 11 R AO4 Set point 4 This parameter is available only when one of the logic inputs is configured for SP SP2 selection and the other for SP3 SP4 selection Upper display Gr 1 Lower display SP4 Range from rL R E10 to rH R E 111 R AO5 Carbon monoxide factor setting Upper display Gr 1 Lower display COF Range from 1 to 1000 When a primary variable different from O2 is selected NOTES 1 COF is the keyboard selectable correction factor applied to the Carbon algorithm It is used to bring carbon potential as calculated by the 59 instrument into alignment with actual carbon potential as determined by shim stock analysis The default value of 200 corresponds to carbon potentials for plain carbon steel in an atmosphere containing 20 carbonmonoxide CO Gee COF and H2F adjustment diagram at pag 56 2 Changing the A In F C DO7 parameter from nonE to CO this parameter is forced to 200 R AO6 Hydrogen factor setting Upper display Gr 1 Lower display H2F Range from 1 to 1000 When a primary variable different from O2 is selected NOTE H2F is the keyboard selectable correction factor applied to the dew point algorithm It is used to bring dew point as calculated by the instrumen
6. and brG H C 104 the SP LED located on the base of the bargraph is lighted If the operative set point is out of the range scaled the first or the last LED s will flash the power output value the LED located on the top of the bargraph is lighted When the device has two process outputs the central LED which is a two colored LED becomes green It divides the bargraph into two parts the MAIN process output is shown on the upper part while the SECONDARY process output is shown on the lower part On the left bargraph with green LED s it is possible to show the process variable scaled as configured by brG L C 103 and brG H C 104 the PV LED located on the base of the bargraph is lighted The deviation error PV SP with resolution configured at brG d C IO51 the DEV LED located on the top of the bargraph is lighted 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z VU Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com When the deviation error indication is selected the central LED which is a two colored LED becomes orange It devides the bargraph in two parts the positive error is shown on the upper part while the negative error is shown on the lower part If the process variable or the deviation error are out of the range the first or the last LED s will flash NOTE The upper or lower bargraph LED
7. 200 ppnV C when the range is O to 1500 mV Input impedance gt 100 MQ Sampling time 125 ms typical Display updating time 375 ms Insulation voltage 500 VAC Probe resistance up to 100 KQ Accuracy on probe resistance measurement 2 f s v B TEMPERATURE INPUT Thermocouple type K S R B Input type not isolated from others measuring inputs and digital inputs Sampling time 1125 ms if carbon monoxide remote set point input is used 750 ms otherwise Accuracy 0 2 f s v 1 digit 25 C and nominal power supply voltage Temperature drift lt 200 ppn7 C of full span Source impedance 100 2 max Current for TC open detection 100 nA Cold junction automatic compensation from O to 50 C Cold junction accuracy 0 1 C C E mail hvssystem hvssystem com Site web www hvssystem com Input impedance gt 1 MQ The span is fixed from O upto 100 for Carbone Monoxide or Calibration according to IEC 584 1 p up S as per Main input for Remote Set point STANDARD RANGES TABLE 0 0 to 2 00 for carbon potential O to 100 F or 18 to 40 C for Dew point T C Ranges O to 1500 for mV type K 11 100 1370 IEC 584 1 1995 09 s 2 1760 IEC 584 1 1995 09 STANDARD RANGES TABLE B 4 O 1820 C IEC 584 1 1995 09 O 20MA K 5 150 2500 F IEC 584 1 1995 09 4 20MA 50 S 6 60 3200 F IEC 584 1 1995 09 0 57
8. ALr 2 Upper display Gr 3 Lower display HSA2 Range from 1 to 200 digits 63 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com ZE Z W S20 ss Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Run time group 4 R Dxx CONTROL PARAMETERS Fs LU LIT I Ti LIT NOTE when SMART function is activated all the parameters calculated by SMART Pb Ti Td and RCG cannot be modified R DO1 Proportional band This parameter is available when at least one control output is configured Upper display Gr 4 Lower display Pb Range from 0 5 to 999 0 of the input span Set 0 0 for On OFF control action NOTES 1 The Pb resolution is 0 1 up to 10 0 1 from 10 up to 999 0 2 When the instrument is working with SMART algorithm the Pb value will be limited as selected by Pb Hi R MO2 and Pb Lo R MO1 parameters if the value is out of limits the E 140 indication will be shown on the middle display for details see Error messages at page 83 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 64 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 R DO2 Hysteresis for ON OFF control This parameter is available when Pb r d01 0 On OFF control action Upper display Gr 4 Lower display HYS Range from 0 1 to 10 0 of the input span R DO3 Integral time This parameter is avai
9. COF is the Carbon monoxide factor setting see RA02 parameter P is the partial pressure of hydrogen in atmosphere and it is equal to H2F 1000 Tk is the temperature in degree Kelvin NOTE H2F is the RAO3 parameter CALIBRATION PROCEDURE The calibration procedure is enabled by intemal dip switch V101 2 Off and V101 4 On Perform calibration procedure in accordance with jumpers position otherwise the stored calibration value may be altered All calibration parameters are logically divided in groups of two initial and final scale followed by a calibration check in which the input is measured and displayed in counts 30000 at fsv for all inputs The upper display shows the calibration step Table A the lower display shows the action step Table B the middle display shows the selection On Off or value for Out6 Out7 Use FUNC key to scroll up calibration steps MAN key to scroll down Use A W keys to select on off E mail hvssystem hvssystem com Site web www hvssystem com To enable calibration and go to the next action step push FUNC when on is displayed For CJ calibration use A W keys to set a temperature value in 1 10 C read with appropriate instrument between 1 3 rear terminal No timeout is applied in the calibration mode The last step is for loading default calibration data The display will show CAL on upper display OFF ON on middle display and dFLt on lower display Use the A W key to select
10. Gr 3 Lower display AL2 Range in engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm NOTE The span limits are related to the controlled variable set by the PVSL C DO2 parameter 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com SS V Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com R CO6 Low threshold used when the alarm 2 is a band alarm This parameter is available only when the alarm 2 is configured as band alarm A2 tP RF 05 bAnd Upper display Gr 3 Lower display bA2 L Range from O to 1000 digits R CO7 high threshold used when the alarm 2 is a band alarm This parameter is available only when the alarm 2 is configured as band alarm A2 tP RF 05 bAnd Upper display Gr 3 Lower display bA2 h Range from O to 1000 digits NOTE The bA2 L and bA2 h values are algebraically added to the operative set point in order to obtain the band limits PRECONISATEUR DE SOLUTIONS DEPUIS 1865 R CO8 Alarm 3 threshold This parameter is available when alam 3 is configured as process or deviation output alarm A 3 tP RF 09 Proc or dEV Upper display Gr 3 Lower display AL3 Range in engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm NOTE The span limits are related to the controlled variable set by the
11. Secondary control output max rate of rise see r E08 Control output display value for more details see Display function paragraph at pag 43 and C FO8 C FO9 C F 10 C F11 parameters The control output value displayed by bargraph PRECONISATEUR DE SOLUTIONS DEPUIS 1865 34 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 CONFIGURATION GROUP 4 C Gxx AUXILIARY CONTROL PARAMETER CONFIGURATION TC Lire S IT IC LI C G01 Smart function This parameter is available only when at least one control output is configured Upper display CnF 4 Lower display S Fn Range dlS Smart function disabled Eno Smart function may be enabled C G02 Control action type This parameter will be available only when at least one control output is configured Upper display CnF 4 Lower display Cn tP Range Pid The process is controlled by PID actions Pi The process is controlled by PI actions E mail hvssystem hvssystem com Site web www hvssystem com NOTE if the control action type is changed the control parameter values P I D are updated with values calculated by the last TUNE function first part of SMART algorithm If these values are wrong they are not updated and the E 120 error is displayed for details see Error messages at pag 83 When run time is activated it will be necessary to enable a new TUNE procedure C G03 Manual function T
12. Site web www hvssystem com C HO4 Digital input 2 contact status This parameter will be available only when d2 Fn C HO3 is different from nonE Upper display CnF 5 Lower display d2 St Range CLSd The input is at logic level 1 when contact is closed OPEn The input is at logic level 1 when contact is open C HO5 Digital input 3 contact status Used to carry out the Bum Off procedure See on page 50 for details Upper display CnF 5 Lower display d3 St Range CLSd The input is at logic level 1 when contact is closed OPEn The input is at logic level 1 when contact is open 39 As Z Wf a MA TT m m w S60 Fax032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France General notes on configuration group 5 1 Digital input function selection should be consistent with other configuration parameters otherwise this digital input will remain unused 2 Changing menu the device will check that the same function is not assigned to more than one digital input otherwise the display will show Upper display CnF 5 Middle display Err Lower display d InP E mail hvssystem hvssystem com Site web www hvssystem com CONFIGURATION GROUP 6 C Ixx OTHERS CONFIGURATION PARAMETERS 1 LI Lees LI C 101 Green bargraph function Upper display CnF 6 Lower display G brG Range Pr Ur the green bargraph will show
13. are calculated after to apply the action selected by AC Cn Main control output conditioning C FO11 parameter Note A Main control output limiters for more details see r EO2 and E mail hvssystem hvssystem com Site web www hvssystem com r EO3 parameters Main control output max rate of rise see r E04 Control output display value for more details see Display function paragraph at pag 43 and C FO2 C FO3 C FO4 C FO5 parameters The control output value displayed by bargraph C FO7 Secondary control output conditioning This parameter is available only when secondary control output is configured Upper display CnF 3 Lower display SC Cn Range nom The control output is as calculated by the PID CnPL The control output is complemented 100 PID calculated value C FO8 Secondary control output in engineering unit This parameter is available only when secondary control output is configured Upper display CnF 3 Lower display S SCL Range nO Scalable is not required YES Scalable is required NOTE This scaling allows to display the output value in engineering units instead of in percent PRECONISATEUR DE SOLUTIONS DEPUIS 1865 33 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 C FO9 Secondary control output decimal point position This parameter is available only when S SCL Secondary control output in engineering units C FO
14. b the operative set point will be aligned to the measured value 3 The alignment is not performed if measure is in error condition 4 The selected local set point will be changed even if it is software protected C G06 Device status at start up This parameter will be available only when at least one control output is configured and manual function is enabled An F C G03 Enb Upper display CnF 4 Lower display St Fn Range Auto lt starts always in auto mode Nan lt starts always in manual mode with power output set to O Cnd A It starts in the same way it was left prior to power shut down if in manual mode the power output is set to 0 36 Z e 2 rue Ren Laennec 51500 Taissy France Z E W BS Fax 0326835 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 lt starts in the same way it was left prior to power shut down if in manual mode the power output will be egual to the last value prior to power shut down E mail hvssystem hvssystem com Site web www hvssystem com CONFIGURATION GROUP 5 C Hxx DIGITAL INPUT CONFIGURATION r eg Lor 1 11 II LI rc C HO1 Digital input 1 function Upper display CnF 5 Lower display d1 Fn Range mort Input contact not used SP1 2 Input contact used for SP SP2 set point selection SP3 4 Input contact used for SP3 SP4 set point selection Au A Input contact used for Auto Manual selection Manual when logic level
15. 0 lt 0 5 V D C Out 3 Function programmable as Control output Alam output Type Relay Relay type SPST Contact rating 2 A 250 V on resistive load Out 4 Function Bum off function Type Relay Relay type SPST Contact rating 2 A 250 V on resistive load Out 5 Function Purge function Type Relay Relay type SPST Contact rating 1 A 250 V on resistive load 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 ANALOG OUTPUTS Out 6 and 7 Function Programmable as Linear control output Analog retransmission of the measured value Analog retransmission of the operative set point Output type Isolated output programmable as 0 20 mA 4 20 MA Scaling from 1999 to 9999 when used as signal retransmission Maximum load 600 Accuracy 01 when it is used as control output 0 05 when it is used as analog retransmission Filter It is possible to apply a first order digital filter on the retransmitted value The time constant of the filter may be programmed within O and 8 s a Ee me T PRECONISATEUR DE SOLUTIONS DEPUIS 1865 92 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 OPTIONAL OUTPUTS The instrument may be equipped with 10 optional relay outputs Type Relay Relay type
16. 1 L L B 3 By A or W pushbuttons select the On indication on the central display wl 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com ZE Z W S20 ss Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 The following is a list of the default run time parameters loaded during the above procedure Run time group 1 R Axx PARAMETER DEFAULT VALUE SP Set point low limit rL R E10 SP2 Set point low limit rL R E10 SP3 Set point low limit rL R E10 SP4 Set point low limit rL R E10 COF 200 H2F 400 Run time group 3 R Cxx PARAMETER DEFAULT VALUE rSt OFF AL1 Initial range value for process alarm 0 for deviation alarm bA1 L 10 bA1 h 10 AL2 Initial range value for process alarm 0 for deviation alarm bA2 L 10 bA2 h 10 AL3 Initial range value for process alarm 0 for deviation alarm LSZ RS ee 99 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 bA3 L 10 bA3 h 10 HSA1 1 HSA2 1 HSA3 1 Run time group 4 R Dxx PARAMETER DEFAULT VALUE Pb 10 0 if PID control is configured 15 0 if PI control is configured HYS 0 5 ti 1 50 mm ss if PID control is configured 2 45 mm ss if PI control is configured td 1 00 mm ss IP 50 0 If only one control output is configured 0 0 If two control outputs are configured r Gn 1 00 OLAP O Run time g
17. 400 KQ for 10 V input Fig ZA LOGIC INPUTS DIG 1 TO DIG 3 AND IN1 TO IN4 WIRING Z e 2 rue Ren Laennec 51500 Taissy France Z E S Win Fax 032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1965 8 lg TV DIG 2 ole e DIG 3 10 e 11 IN 1 57 ge IN 2 IN3 59 ev IN 4 56 E mail hvssystem hvssystem com Site web www hvssystem com IN5 C 1 RELAY OUTPUTS 461 Wm D I IN 6 23 47 __e e A IN 7 OUT 1 24 gt L NO IN 8 25 49 977 jE TE C 26 45 OUT 2 L no Fig 7 B LOGIC INPUTS IN5 TO IN8 WIRING 27 Logic inputs from IN1 to In8 are optional NI C NOTES OUT 3 28 1 Do not run logic input wiring together with power cables 2 Use an extemal dry contact capable of switching 0 5 MA 2 NO 29 5 V DC 3 The instrument needs 110 ms to recognize a contact status variation 4 The logic inputs are NOT isolated from measuring inputs Fig 8 A RELAY OUTPUTS 1 2 3 WIRING aaa Ges l l 2 rue Ren Laennec 51500 Taissy France mail 2 aw SS y E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 OUT 4 OUT 5 OUT 10 OUT 11 OUT 12
18. Lower display tP In Ranges 1 TC K From 100 to 1370 C 2 TC S From 50to 1760 C 3 TC R From 50to 1760 C 4 TC K From 150 to 2500 F 5 TC S From 60 to 3200 F 6 TC R From 60 to 3200 F 7 TC B From O to 1820 C 8 TC B Fom 32 to 3300 F NOTE When the controlled variable selected is dP the span limits of the following parameters CnF 6 brG L C 103 and CnF 6 brG H C 104 Bargraph initial and full scale values CnF 2 O6 Lr C E06 and CnF 2 O6 Hr C E07 Out 6 retransmission initial and full scale values CnF 2 O7 Lr C E11 and CnF 2 O7 Hr C E12 Out 7 retransmission initial and full scale values Gr 5 rL R E10 and Gr 5 rH R E11 set point low and high limits will be forced to 100 to 100 F if the temperature input has been changed from a C to a F type 75 to 40 C if the temperature input has been changed from a F to a C type E mail hvssystem hvssystem com Site web www hvssystem com C DO5 Temperature input offset adjustment Upper display CnF 1 Lower display OFSt Range from 500 to 500 NOTE The offset value is algebraically added to temperature input value Read out Realcurve a Adjusted curve Input C DO6 Filter on temperature input value Upper display CnF 1 Lower display tP FL Ranges from O no filter to 8 seconds 2 When dP or CP or O2 are selected as the controlled variable this filter can affect the control acti
19. OUT 13 OUT 14 e a c L 0 is L 14 ae 61 NO OUT 10 62 NO OUT 11 63 NO OUT 12 64 NO OUT 13 65 NO OUT 14 66 C OUT 10 to 14 Fig 8B RELAY OUTPUTS A 5 and 10 TO 14 WIRING PRECONISATEUR DE SOLUTIONS DEPUIS 1865 NO OUT 15 OUT 15 NO OUT 16 OUT 16 NO OUT 17 OUT 17 NO OUT 18 OUT 18 NO OUT 19 OUT 19 C OUT 15 to 19 Fig 8 C RELAY OUTPUTS 15 TO 19 WIRING Outputs from OUT 10 to OUT 19 are optional The contact rating from OUT 1 and OUT 2 is 3A 250V AC on resistive load The contact rating from OUT 3 and OUT 4 is 2A 250V AC on resistive load The contact rating of OUT 5 is 1A 250V AC on resistive load The contact rating from OUT 10 to OUT 19 is 0 5 A 250V AC on resistive load The number of operations is 1 x 10 at specified rating 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Fax 03 26 85 1908 Tel 03 26824929 Siteweb www hvssystem com NOTES 1 To avoid electrical shock connect power line at the end of the wiring procedure 2 For power connections use No 16 AWG or larger wires rated for at last 75 C 3 Use copper conductors only 4 Don t run input wires together with power cables 5 When a relay output is used to drive a low power signal PLC inp
20. PRECONISATEUR DE SOLUTIONS DEPUIS 1965 Configuration group 4 C Gxx Configuration group 6 IC Io PARAM VALUE NOTES PARAM s Fn Enb G brG Cn tP PId O brG PAn F Enb brG L An UL bun brG H P A LL bun brG d SL En Cnd b SP dS LL Ac tout Configuration group 5 C H xx PARAM VALUE NOTES d1 Fn nonE d1 St CLSd d2 Fn nonE d2 St CLSd d3 St CLSd gat sa m 2 rue Ren Laennec 51500 Taissy France Z E S Win Fax 032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1965 VALUE NOTES Pr Ur OP SP 0 00 2 00 10 digits OP SP YES t 30 E mail hvssystem hvssystem com Site web www hvssystem com ALGORITHMS The following tempirical derived from experiment equations are included into the instrument finnware and are applied when the probe sensor voltage is within 1000 and 1300 mV range For oxygen potential exp 2 3 E 0 0496 Tk For carbon potential Z 3 792 ee 6486000 Z He CO e COF For dew point 4238 7 D P ine F oA 460 E 1267 8 9 55731 log P 10 H2 0 05512 T E 820 7 Where Z _ 0 0239 e qT E is the sensor input in mV A M V mama as M85 B Z WE e PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 T is the absolute value in degrees Rankine F 459 67 CO is the carbon monoxide partial pressure measured on Carbon monoxide input
21. PVSL C DO2 parameter R CO9 Low threshold used when the alarm 3 is a band alarm This parameter is available only when the alarm 3 is configured as band alarm A3 tP RF 09 bAnd Upper display Gr 3 Lower display bA3 L Range from O to 1000 digits 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com SS V Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com R C10 High threshold used when the R C13 Alarm 3 hysteresis alarm 3 is a band alarm This parameter is available only when Out 3 is configured as This parameter is available only when the alarm 3 is configured alarm output O3 Fn C EO3 ALr 3 as band alarm A3 tP RF 09 bAnd Upper display Gr 3 Upper display Gr 3 Lower display HSA3 Lower display bA3 h Range from 1 to 200 digits Range from O to 1000 digits NOTE The bA3 L and bA3 h values are algebraically added to the operative set point in order to obtain the band limits R C11 Alarm 1 hysteresis This parameter is available only when Out 1 is configured as R C14 Group 3 default data loading alarm output O1 Fn C EO1 ALr 1 Upper display Gr 3 Upper display Gr 3 Lower display dFLt Lower display HSA1 Range OFF No loading data Range from 1 to 200 digits ON lt Loading data R C12 Alarm 2 hysteresis This parameter is available only when Out 2 is configured as alarm output O2 Fn C EO2
22. W BS Fax 0326835 1908 Tel 03 26 82 49 29 R HO5 Burnoff This is a reading parameter only and it is available when bF tr is different from no tr Upper display Gr 8 Lower display bF An Range from 1 00 to 24 00 hh mm When a primary variable different from O2 is selected NOTE if a power down occurs this information will be lost when power is restored the countdown will restart from the bF tr R HO3 value Time remaining to the next automatic R HO6 Probe test This is a reading parameter only and it is available when pb tr is different from no tr Upper display Gr 8 Lower display Pb n Range from 1 00 to 24 00 hh mm When a primary variable different from O2 is selected NOTE if a power down occurs this information will be lost when power is restored the countdown will restart from the Pb tr R HO4 value Time remaining to the next automatic E mail hvssystem hvssystem com Site web www hvssystem com R HO7 Group 8 default data loading Upper display Gr 8 Lower display dFLt Range OFF No loading data On loading data 79 Run time group 9 R Ixx OPTIONAL OUTPUT SETTING bad L R IO1 OUT 10 setting This parameter is available when optional output circuitry is fitted Upper display Gr 9 Lower display Ou 10 Range OFF Relay deenergized On Relay energized For OUT 11 up to OUT 19 the instrument will show on the lower display the related
23. activated no one of the configuration parameter can be modified 3 All the others switch combinations are reserved PRECONISATEUR DE SOLUTIONS DEPUIS 1865 16 Fig 16 Z 2 rue Ren Laennec 51500 Taissy France m E m U45 A Fax 032685 1908 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com SECURITY CODE SETTING MODE General notes The instrument parameters are divided in two families and each family is divided in groups The first family encompasses all the run time parameters The second family comprises all the configuration parameters A specific security code enables the parameter modification of each family For run time parameters it is possible to select which groups of them will be protected by the security code and in this case it is necessary to set the run time security code before to modify one or more parameters of a protected group The configuration security code protects all configuration parameters and it will be necessary to set the configuration secunity code before to start the configuration parameters modification For configuration parameters an hardware lock is also available Ee me T PRECONISATEUR DE SOLUTIONS DEPUIS 1865 17 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 Security code setting 1 Remove the instrument from its case 2 Set the intemal dip switch V101 as follows V101 1 OFF V101 2
24. is 1 O LI Input contact used for output limiter activation Output limited when logic level is 1 rst lnput contact used to reset acknowledge alarm Reset when logic level is 1 SP L r Input contact used for Local Remote set point selection Remote when logic level is 1 NOTE When one logic input is set to SP 1 2 and no other logic input is set to sP 3 4 the relation between the logic level and the selected set point is the following Logic level 0 SP Logic level 1 SP2 When one logic input is set to SP 1 2 and a second logic input is set to SP 3 4 the relation between the logic levels j set poin SOP HN NE TOVOWING When one logic input is set to SP 3 4 and no other logic input is set to SP 1 2 the relation between the logic level and the selected set point is the following Logic level O SP Logic level 1 SP3 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 C HO2 Digital input 1 contact status This parameter is available only when d1 Fn C HO1 is different from none Upper display CnF 5 Lower display d1 St Range CLSd The input is at logic level 1 when contact is closed OPEn The input is at logic level 1 when contact is open C HO3 Digital input 2 fun
25. on and then push FUNC key to load data No action otherwise Note The default calibration data allows the verification of device functioning though they should not be taken as final calibration values After the default calibration data loading it is necessary to perform the proper input calibration Table A Calibration Steps Mnemonic code shown in upper display Pb 1 Main probe input O to 1 5 V Pb 2 Main probe input 0 to 1 3 V tP In Thermocouple input O to 60 mV Clin CJ input A L A Carbon Monoxide auxiliary input O to 20 mA A 1 5 Carbon Monoxide auxiliary input O to 5 V A 10 Carbon Monoxide auxiliary input O to 10 V O6 A OUL 6 Oto 20 MA PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 O7 A CAL Out 7 0 to 20 MA Default data loading Table B Action Steps Mnemonic code shown on the middle display Lr Low range calibration Hr High range calibration U Input calibration verify Note During CJ input verify the temperature is displayed in 1 10 For OUT6 OUT7 calibration proceed as follows a Low range calibration Lr action Set by using A W pushbuttons a value from 0 to 5000 to read on rear terminal a O JA SUA current b High range calibration Hr action Set by using A W pushbuttons a value from 0 to 5000 to read on rear terminal a 20 mA 5 A current c Input calibration
26. output and it is possible to perform the same setting as above described R 102 All relays deenergization This parameter is available when optional output circuitry is fitted Upper display Gr 9 Lower display dEEn Range OFF No action On All relays will be deenergized 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Run time group dF R Lxx DEFAULT RUN TIME PARAMETER LOADING R LO1 Default run time parameter loading This parameter is not available when SMART function is activated Upper display Gr dF Lower display dFLt Range OFF No loading data On the run time parameters of all groups exception made for group 9 will be forced to their default values Run time group Hd R Mxx HIDDEN PARAMETERS SMART LIMITS r T PT E l LIT JIL LU d II D NOTE This group is accessible from every group by keeping depressed the MENU key for 8 seconds R MO1 Minimum value of proportional band calculated by SMART algorithm This parameter is available only when smart function is configured Sn Fn C GO01 Enb Upper display Gr Hd Lower display Pb Lo Range From 2 0 to Pb Hi R MO2 NOTE The resolution on Pb Lo value is 0 1 up to 10 0 1 up to 999 0 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssyste
27. push buttons are kept depressed for more than 5 s and the instrument is in normal display mode memorize the new value of the selected parameter and go to the next parameter increasing order LJ When the instrument is in normal display mode pushing MAN push button for more than 1 s it is A HUNC org UNC possible to enable or disable tne manual function During parameter modification they allow you to J During parameter modification it allows you to scroll increase decrease the value under modification with back the parameters and groups without memorizing higher rate the new setting A MAN or W MAN During parameter modification they allow you to jump to the max or min programmable value _ During parameter modification it allows you to increase the value of the selected parameter J During MANUAL mode it allows you to increase the output value During parameter modification it allows you to decrease the value of the selected parameter _ During MANUAL mode it allows to decrease the output value 20 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com E Z W SAO Fax 0326851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 NOTES 1 All the actions explained above which requires two or more push buttons must follow exactly the push button sequence shown 2 A 10 or 30 seconds time out see CnF 6 tout C 108 can be selected for parameter m
28. side of the instrument see fig 14 a Fig 14 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 4 Push gently the lock C on the left 5 While the lock C is maintained out slide out the instrument see fig 14 b Fig 14 b D 14 E mail hvssystem hvssystem com Site web www hvssystem com J103 SETTING J 103 see fig 15 must be set as follows J 103 1 2 open 3 4 open 5 6 open 7 8 open 5 7 close 6 8 close AUXILIARY INPUT SELECTION Set J 102 See fig 15 according to the desired input type as shown in the following table E mail hvssystem hvssystem com J 102 INPUTTYPE 20 MA 1 2 open 3 4 open 5 6 close 7 8 close 2 7 open 6 8 open Fig 15 15 ZE FC 2 rue Ren Laennec 51500 Taissy France ZE W we Fax 03 26 85 1908 Tel 03 26 82 49 29 v RECONISATEUR DE SOLUTIONS DEPUIS 1985 Site web www hvssystem com Operative mode and Hardware lock 1 By V101 See fig 16 it is possible to select one of the following operative modes a run time mode without configuration mode b run time and configuration modes c security code setting mode Set V101 according to the following table 2 When run time mode is selected mode a or b V101 3 allows you to activate deactivate the hardware lock for configuration parameters If V101 3 is ON the lock is activated If V101 3 is OFF the lock is deactivated When the lock is
29. the process vanable value DEV the green bargraph will show the deviation process value minus set point C 102 Orange bargraph function Upper display CnF 6 Lower display O brG Range OP SP The orange bargraph will show the operative set point value P Out The orange bargraph will show the process output value PRECONISATEUR DE SOLUTIONS DEPUIS 1865 40 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 C IO3 Bargraph initial scale value This parameter is available when G brG C I01 is equal to Pr Ur and or O brG C I02 is equal to OP SP Upper display CnF 6 Lower display brG L Range span limits of CnF 1 PV SL C D02 C 104 Bargraph full scale value This parameter is available when G brG C I01 is equal to Pr Ur and or O brG C I02 is equal to OP SP Upper display CnF 6 Lower display brG H Range span limits of CnF 1 PV SL C D02 C IO5 Resolution of the deviation bargraph This parameter is available when G brG C 101 is equal to DEV Upper display CnF 6 Lower display brG d Range 1 2 5 10 20 or 50 Digits per segment E mail hvssystem hvssystem com Site web www hvssystem com C 106 Set point display type Upper display CnF 6 Lower display SP dS Range Fn SP When device is in normal display mode and it is performing a set point ramp the middle display will show the final set point
30. value OP SP When device is in normal display mode and it is performing a set point ramp the middle display will show the operative set point value C 107 Burn Off and Purge activation threshold Upper display CnF 6 Lower display t LAc Range the instrument will start the Bum Off and the Purge procedure according with the following selection No without testing the temperature limit 1000 F YES if the temperature test is satisfy Available When mV is selected as primary control variable C IO8 Time out selection Upper display CnF 6 Lower display t out Range t 10 10 s time out t 30 30 s time out PRECONISATEUR DE SOLUTIONS DEPUIS 1865 41 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 CONFIGURATION GROUP C Lxx INPUT OUTPUT TEST This group is displayed only when configuration modify mode is enabled This group allows you to verify the correct working of the relay outputs OUT 1 up to OUT5 digital inputs diG 1 up to diG 3 the inputs from In1 up to In8 and the relays of the outputs from OUT10 up to OUT1Y if the optional I O card is fitted When an output is in On status the related LED will light up for OUT 5 is used the ST LED C LO1 OUT 1 status Upper display VErF Lower display OU 1 Range On Output enabled relay energized OFF oOutput disabled relay deenergized E mail hvssystem hvssystem com Site web www hvs
31. 08 Tel 03 26 82 49 29 Site web www hvssystem com OUTLINE AND CUT OUT DIMENSIONS 0 6 15mm max i Ed a cds Es Holl 3 62 92mm 7 a N0OG0000000000000000 00 g HOODOO m 2s H J UU 2 F HHHH e Be mm T REENEN 2 8 5 WE lo A ale PABA Sa lt aa II NU E be V wro A ay Bie A S D go EE orn E L u UUUUU aa D Zu 4 92 lei oe m Tu we e OA Seen ANO gt 125 mm 1 w Sec o we See cH ee Bes J 2 ouris 3 d o vC C04 mr H H H UU U c or 5 S A H x U N s H NANANNNOAAAANAA A NN z Ma lee a E w 000000000000000000000 o MENU FUNC d at TO C dT 3 78 96 mm 5 128 mm Kat 0 63 16 mm Fig 2 OUTLINE AND CUT OUT DIMENSIONS 2 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com E Z W nr Fax 0326851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965 CONNECTION DIAGRAMS F
32. 2 ROZLECTRON C 170 IUO MCC OB1 J USER MANUAL PN 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 CONISATEUR DE SOLUTIONS DEPUIS 1965 E mail hvssystem hvssystem com Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com INDEX GB MOUNTING REQUIREMENTS E 1 OUTLINE AND CUT OUT DIMENSIONS xxx eee eee ee 2 CONNECTION DIAGRAM SS sse 3 PRELIMINARY HARDWARE SETTINGS ooo 14 SECURITY CODE SETTING MODE ss xxe eee 17 RUN TIME ANDCONFIGURATION MODES sexx exe eee ee 19 General notes about graphic symbols esse eee eee ee eee 19 Keyboard description se ees eee 20 CONFIGURATION MODE E 21 RUNTIME MODE E 43 Display fUNCHON Zeeakeeg ege Skh ginge egene 43 WNC EE 45 Bargraphdescrhption E 47 Direct access to the Set point eee eee eee 48 Manual functor WEE 48 Special output features ss eee eee eee 49 Biri Oil PROC E 50 Probe test procedure sss sese eee eee 52 senal INK T 53 Lamp tES E aeee pea a EE E ERT 54 CAR e e EE 54 COF and H2F adjustment diagram ek 56 Parameter protection E 57 BR ES Sea Mii m A U BS were mm lid PRECONISATEUR DE SOLUTIONS DEPUIS 1965 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 RUN TIME PARAMETER MODIFICATION teen nn 57 ERROR MESSAGES RRR ra stano usd pao au oa ran 83 GENE
33. 6835 1908 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com DEFAULT PARAMETERS The default parameter loading procedure for the selected group is ended DEFAULT RUN TIME PARAMETERS B Mien it is desired to load the default value of all the run A complete and consistent set of run time parameters is stored time parameters proceed as follows in the instrument These data are the typical values loaded in SE ano lv the instrument prior to shipment from factory N T ti Bea f This instrument allows you to load the default value of a single a SN eee SEU run time parameter group or to load all the run time parameters code set the assigned value by A and W pushbuttons B 2 Push the FUNC pushbutton The middle and lower displays will show A When it is desired to load the default parameter of a single group proceed as follows A 1 By MENU pushbutton select the desired run time parameter group NOTE if the selected group is protected by security code set the assigned value by A and W pushbuttons A 2 By FUNC pushbutton select the last parameter of the B 4 Push ihe FUNC pushbutton selected group The central display will show The middle and lower displays will show A E H d T C C f L The default parameter loading procedure of all run time HI LL parameters is ended A 3 By A or W pushbuttons select the On indication on the central display A 4 Push the FUNC pushbutton mm a l L
34. 8 is set to YES Upper display CnF 3 Lower display SC dP Range No decimal figure One decimal figure Two decimal figures C F10 Secondary control output initial scale value This parameter will be available only when S SCL Secondary control output in engineering units C FO8 is set to YES Upper display CnF 3 Lower display SC E L Range from 199 to 999 C F11 Secondary control output full scale value This parameter will be available only when S SCL Secondary control output in engineering units C F08 is set to YES Upper display CnF 3 Lower display SC E H Range From 199 to 999 E mail hvssystem hvssystem com Site web www hvssystem com C F12 Secondary control output auxiliary condition ing This parameter will be available only when secondary control output is configured and SC Cn Secondary control output conditioning C FO7 is different from nom Upper display CnF 3 Lower display SC A C Range bEFr lt The functions listed at Note B are calculated before to apply the action selected by SC Cn Secondary control output conditioning C FO7 parameter AFtr The functions listed at Note B are calculated after to apply the action selected by SC Cn Secondary control output conditioning C FO7 parameter Note B Secondary control output limiters for more details see r EO6 and r E07 parameters
35. 824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 C 2 VOLTAGE OUTPUTS FOR SSR DRIVE NOTE These outputs are not insulated A double or reinforced insulation between instrument output and 24 N 2 D power supply must be assured by the extemal solid state relay OUT 1 MNG 35 C 3 ANALOG OUTPUTS SOLIDSTATE RELAY 26 2 O OUT 6 OUT 2 NY 27 Q SOLIDSTATE RELAY Fig 10 SSR DRIVE OUTPUT WIRING OUT 6 Logic level 0 Vout lt 0 5 V DC Logic level 1 14 V 20 20 MA 24V 20 1 MA Maximum current 20 mA 10 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1965 E mail hvssystem hvssystem com Site web www hvssystem com 18 OUT 7 19 18 OUT 7 19 Fig 11 B OUTPUT 7 WIRING NOTES 1 Do not run analog output wires together with AC power cables 2 Out 6 and 7 are isolated outputs 3 The maximum load is equal to 600 Q PRECONISATEUR DE SOLUTIONS DEPUIS 1965 D SERIAL INTERFACE RS 485 interface allows you to connect up to 30 devices with one remote master unit N A A A A S 22 M F A R B B B B S U 21 T M E E COMMON R N 20 T l
36. C E L 0 brG d SC E H 100 SP dS SC A C bEFr t t Ac tout Configuration group 4 C Gxx PARAM VALUE NOTES s Fn Enb Cn tP PId PAn F Enb An UL bun A t t bu St Fn Cnd b Configuration group 5 C Hxx PARAM VALUE NOTES d1 Fn nonE d1 St CLSd d2 Fn nonE d2 St CLSd d3 St CLSd M V a m 2 rue Ren Laennec 51500 Taissy France Z E S Win Fax 032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1965 VALUE NOTES Pr Ur OP SP 0 00 2 00 10 digits OP SP YES t 30 E mail hvssystem hvssystem com Site web www hvssystem com TABLE 2 AMERICAN O6 FL O No filter O7 Fn nonE Configuration group 1 C Dxx O7 m 4 20 4 20 mA PARAM VALUE NOTES O7 Lr 0 00 Ln Fr 60 Hz O7 Hr 2 00 PV SL CP O7 FL O No filter Pb FL O No filter tP In 5 Tc S Configuration group 3 C Fxx OFSt 0 F PARAM VALUE NOTES DP EL O No filter nc Cn norm A 1n F nonE N SCL nO A In t 4 20 4 20 mA DC dp No decimal figure A I FL O No filter C E L 0 A L A nom NC E H 100 L r On n ALG DC AC bEFr SC Cn nom S SCL nO Configuration group 2 C Exx SC dP No decimal figure PARAM VALUE NOTES SC E L O O1 Fn Ain St ER 100 O2 Fn SECn SC A C bEFr O3 Fn ALr 3 O6 Fn PV rt O6 m 4 20 4 20 mA O6 Lr 0 00 O6 Hr 2 00 A 7 aaa Za l l SS 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z Z W Sr Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com
37. EMOTE SETPOINT ACTIVITY MODE Cn F 1 Lower display A L A Range nom The remote set point is activated by extemal contact or is always activated if none contacts are configured for this feature and the value is limited at its min max value when out of range Cnd A The remote set point activation is controlled by status of auxiliary input The device works with local set point when auxiliary input is out of range while it works with remote set point when auxiliary input is in range Available When auxiliary input is used as remote set point PRECONISATEUR DE SOLUTIONS DEPUIS 1965 C D11 LOCAL REMOTE SETPOINT OPERATING MODE CnF 1 Lower display L r On Range ALG The local setpoint will be aligned to last remote setpoint value when transfer from remote to local setpoint action is performed through external contact n ALG The local setpoint will be not be changed when transfer from remote to local setpoint action is performed The programmed ramp Grd1 Grd2 may be activated Available When auxiliary input is used as remote set point and A I AN nom Note H transfer from remote to local setpoint is due to auxiliary input status A 1 AA Cnd A the local setpoint will never been aligned 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z W Won Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com CONFIGURATION GROUP 2 C Exx C EO3 OUT 3 function OUTPUTS CONFIG
38. For supply connections use No 16 AWG or larger wires rated for at last 75 C 12 A ZE E La 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com ZE W S fax 03 26851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 4 Use copper conductors only 5 Don t run input wires together with power cables 6 The power supply input is fuse protected by a sub miniature fuse rated T 1A 250 V When fuse is damaged it is advisable to verify the power supply circuit so that it is necessary to send back the instrument to your supplier 7 The safety requirements for Permanently Connected Equipmentsay a switch or circuit breaker shall be included in the building installation it shall be in close proximity to the equipment and within easy reach of the operator it shall be marked as the disconnecting device for the equipment NOTE a single switch or circuit breaker can drive more than one instrument 8 When a neutral line is present please connect it to the 32 terminal 13 Z e 2 rue Ren Laennec 51500 Taissy France Z E W BS Fax 0326835 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 E mail hvssystem hvssystem com Site web www hvssystem com PRELIMINARY HARDWARE SETTINGS How to remove the instrument from its case 1 Switch off the instrument 2 Push gently the lock A on the right 3 While the lock A is maintained out slide out the right
39. K PARAMETER Tr LI I ay ae JL R G01 Serial interface protocol Upper display Gr 7 Lower display S L Pr Range OFF NO serial interface AbUS Modbus jbUS J bus R GO2 Serial link device address This parameter is available only when S L Pr R GO1 is different from OFF Upper display Gr 7 Lower display S L Ad Range from 1 to 255 R GO3 Serial link baud rate This parameter is available only when S L Pr R GO1 is different from OFF Upper display Gr 7 Lower display S L bd Range from 600 to 19200 baud 19200 baud is shown on display as 19 20 R GO4 Serial link byte format This parameter is available only when S L Pr R GO1 is different from OFF Upper display Gr 7 Lower display S L bF Range 8 8 bits without parity 8E 8 bits even parity 80 8 bits odd parity 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 R GO5 Group 7 default data loading Run time group 8 R Hxx Upper display Gr 7 TIMERS SETTING Lower display dFLt pr r Range OFF No loading data LIT of ON lt Loading data LH L LI JIL R HO1 Burnoff duration Upper display Gr 8 Lower display t bOF Range from 1 00 to 15 00 mm ss When a primary variable different from O2 is selected NOTE the time setting may be modified any time but it wi
40. L Alarm Threshold Alarm_ Hysteresis Measured Value OFF Relay out ON ON LED 1 2 3 OFF A A D B C E A alam condition detection B the alarm remains in alarm status even if the measured value is under the threshold until a manual reset is performed C E if a manual reset is performed when the alarm condition still exist the LED gets steady lit the alarm remains in the alarm Ee me T PRECONISATEUR DE SOLUTIONS DEPUIS 1965 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 status until the process variable reaches the alarm threshold minus hysteresis D NOTES 1 The alarm status is present when the relay is energized A1 Ac A2 Ac or A3 Ac dir the relay is deenergized AL AC A2 Ac or A3 Ac rEV 2 The manual reset acknowlwdgement may be performed by the rSt R CO1 parameter or by logic input or by serial link R FO3 Alarm 1 action This parameter is available only when OUT 1 is configured as alarm 1 output O1 Fn C EO1 ALr 1 Upper display Gr 6 Lower display A1 Ac Range dir direct action Relay energized or SSr 1 in alarm condition EV Reverse action Relay energized or SSr 1 in non alarm condition E mail hvssystem hvssystem com Site web www hvssystem com R FO4 Alarm 1 stand by mask function This parameter is available only when OUT 1 is configured as alarm 1 output O1 Fn C E
41. O1 S ALr 1 Upper display Gr 6 Lower display A1 St Range OFF Stand by function disabled On Stand by function enabled NOTES 1 If the alarm is programmed as band or deviation alarm this function masks the alarm condition after a set point change or at the instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed as a process alarm this function masks the alarm condition at instrument start up until process variable reaches the alarm threshold plus or minus hysteresis 2 The change from On to OFF has immediate effect while the change from OFF to On has effect at the next start up or set point change 73 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 R FO5 Alarm 2 type This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C EO2 ALr 2 Upper display Gr 6 Lower display A2 tP Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared R FO6 Alarm 2 configuration This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C EO2 ALr 2 Upper display Gr 6 Lower display A2 Cn Range H A L A Low a
42. RAL INFORMATIONS cnie d eos ov Blood 85 WAIN IAIN a TT 94 DEFAULT PARAMETERS s e dedisnnasl sneh dE eege A 1 L Ee e n TEE B 1 E mail hvssystem hvssystem com Site web www hvssystem com MOUNTING REQUIREMENTS This instrument is intended for permanent installation for indoor use only in an electrical panel which encloses the rear housing exposed terminals and wiring on the back Select a location for instrument mounting where minimum vibrations are present and the ambient temperature is within O and 50 C 32 and 122 F The instrument can be mounted on a panel up to 15 mm thick with a cutout 92 x 92 For outline and cutout dimensions refer to Fig 2 The surface texture of the panel must be better than 6 3 um The instrument is shipped with rubber panel gasket 50 to 60 Sh To assure the IP65 and NEMA 4X protection insert the panel gasket between the instrument and the panel as shown in fig 1 While holding the instrument against the panel proceed as follows 1 insert the gasket in the instrument case 2 insert the instrument in the panel cutout 3 pushing the instrument against the panel 4 insert the mounting brackets as shown in fig 1 5 with a screwdriver tum the screws with a torque between 0 3 and 0 4 Nm PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Bracket Screws Fig 1 Panel 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z E U War Fax 03268519
43. SON V101 3 OFF V101 4 OFF Re insert the instrument Switch on the instrument The display will show r JET C 3 4 k Zi 11 U L l I I The upper display shows that the security code setting mode is selected while the lower display shows the firmware version 5 Push the FUNC pushbutton E mail hvssystem hvssystem com Site web www hvssystem com Run time security code The display will show LI L Ee LU Note the middle display shows the current status of the run time security code OO 1 or On By A and W push button set S run parameter as follows O No protection it is always possible to modify all run time parameters 1 always protected it is never possible to modify a run time parameter from 2 to 250 security code for run time parameter protection NOTES 1 The selected value of a security code cannot be displayed anymore and coming backto the S run parameter the display will show On when S run is different from O or 1 O when S run is equal to 0 1 when S run is equal to 1 When the security code is forgotten a new value can be set 2 When S run is different from 0 or 1 the run time default and the run time hidden groups are always protected by secunty code Ee me T PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 Run time groups protected by securi
44. SPST Contact rating 0 5 A 250 V on resistive load The status of the optional outputs can be set by keys and by seral link ALARMS Alarm action direct or reverse function programmable Alarm functions each alarm can be configured as process alarm band alarm deviation alarm Alarm reset acknowledge automatic or manual reset programmable on each alarm Alarm masking each alarm can be configured as masked alarm or standard alarm This function allows you to delete false indication at instrument start up and after a set point change Process alarm Operative mode Minimum or maximum programmable Threshold programmable in engineering unit within the input range Hysteresis programmable in engineering units from 1 to 200 digits E mail hvssystem hvssystem com Site web www hvssystem com Band alarm Operative mode Inside or outside programmable Threshold two thresholds programmable Low from O to 1000 digits High from O to 1000 digits Hysteresis programmable in engineering units from 1 to 200 digits Deviation alarm Operative mode high or low programmable Threshold programmable from 1000 to 1000 digits Hysteresis programmable in engineering units from 1 to 200 digits SERIAL INTERFACE Types Optoisolated RS 485 Protocol type MODBUS J BUS RTU mode Baud rate programmable from 600 to 19200 BAUD Byte format 8 bit Parity even odd or none programmable Stop bit one Add
45. URATION I l Lei E C EO1 OUT 1 function Upper display CnF 2 Lower display O1 Fn Range mont Output not used Ain Time proportional main control output SECn Time proportional secondary control output ALr 1 Alarm 1 output C EO2 OUT 2 function Upper display CnF 2 Lower display O2 Fn Range mont Output not used Ain Time proportional main control output SECn Time proportional secondary control output ALr 2 Alarm 2 output PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Upper display CnF 2 Lower display O3 Fn Range nonE Output not used D n Time proportional main control output SECn Time proportional secondary control output ALr 3 Alarm 3 output C EO4 OUT 6 function Upper display CnF 2 Lower display O6 Fn Range nonE Output not used Ain Main control output linear SECn Secondary control output linear PV rt Process variable retransmission SP rt Operative set point retransmission C EO5 OUT 6 range This parameter is available only when OUT 6 O6 Fn C EO4 is different from none Upper display CnF 2 Lower display O6 m Range 0 20 0 20 MA 4 20 4 20 MA 28 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Fax 03 26 85 1908 Tel 03 26824929 Siteweb www hvssystem com C EO6 OUT 6 retransmission initial scale value This parameter is available only when Out 6 function C E04 is configured as PV rt or SP rt Uppe
46. UTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France E E w Fax 032685 1908 Tel 03 26 82 4929 R DO6 Relative secondary output gain This parameter is available when two control outputs are configured Upper display Gr 4 Lower display r Gn Range from 0 20 to 2 00 R DO7 Overlap dead band between main and secondary outputs This parameter is available when two control outputs are configured Upper display Gr 4 Lower display OLAP Range from 20 to 50 NOTE A negative value means a dead band while a positive value means an ovenap 65 E mail hvssystem hvssystem com Site web www hvssystem com R DO8 Group 4 default data loading This parameter is not available when SMART function is activated parameters related to SMART function cannot be modified Upper display Gr 4 Lower display dFLt Range OFF No loading data ON Loading data 66 Run time group 5 R Exx AUXILIARY CONTROL PARAMETER R EO1 Anti reset wind up This parameter is available when at least one control output is configured and Pb R DO1 is different from O Upper display Gr 5 Lower display AMW Range from 10 to 200 of the input span R EO2 Main control output low limit This parameter is available when one control output is configured as main output Upper display Gr 5 Lower display DOLL Range from 0 0 of the output span to OLH R E03 a 2 rue Ren Laennec 51500 Taissy France E mail h
47. V R 7 60 3200 F IEC584 1 1995 09 1 5 V 200 KO 0 2 1 digit B 8 32 3300 F IEC 584 1 1995 09 0 10 V 25 C 2 10 V gt 400 kQ C AUXILIARY INPUT CARBON MONOXIDE Input range 0 4 20 mA 0 1 5 V or 0 2 10 V Input type not isolated from others measuring inputs and digital inputs Sampling time 1125 ms Temperature drift lt 300 ppny C of full span Input span from O up to 100 Note The type of inputs are keyboard and jumper selectable All type of inputs are factory calibrated 87 gat sa l 2 rue Ren Laennec 51500 Taissy France mail 2 aw SS y E mail hvssystem hvssystem com Z Z W Sr Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965 D LOGIC INPUTS SET POINTS The instrument is equipped with 3 logic inputs This instrument allows to use up to 4 set points SP SP2 SP3 and Input type Contact closure voltage free SP4 Input function The set point selection is possible only by logic input DIG 1 and DIG 2 can be programmed as Set point transfer Set point selection SP SP2 The transfer between one set point to another or between two Set point selection SP3 SP4 different set point values may be realized by a step transfer or by Auto manual selection a ramp with two different programmable rates of change ramp Output limiter activation up and ramp down Manual reset of the alarms acknowledge Slope value 1 200 eng unit min or step Loca
48. an limits within 100 to 100 F or 75 to 40 C AV Sensor output in mV Span limits within O to 1500 nM 02 Oxygen value as primary control variable The span limits are 0 0 to 25 0 E mail hvssystem hvssystem com Site web www hvssystem com NOTES 1 Changing the controlled variable the following parameters CnF 6 brG L C 103 and CnF 6 brG H C 104 Bargraph initial and full scale values CnF 2 O6 Lr C EO6 and CnF 2 O6 Hr C EO7 Out 6 retransmission initial and full scale values CnF 2 O7 Lr C E11 and CnF 2 O7 Hr C E12 Out 7 retransmission initial and full scale values Gr 5 rL R E10 and Gr 5 rH R E11 set point low and high limits will be forced to the span limits of the new selected variable 2 SP SP2 SP3 SP4 values and alarm thresholds if out of the limits for the new selected variable will be forced to the low limit value C DO3 Filter on probe sensor input Main input Upper display CnF 1 Lower display Pb FL Ranges from O no filter to 8 seconds NOTES 1 This is a first order digital filter applied on probe sensor input value 2 This filter can affect the control action the alarms the SMART algorithm and the process variable retransmission PRECONISATEUR DE SOLUTIONS DEPUIS 1865 25 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 C DO4 Temperature input TC type selection Upper display CnF 1
49. arameters NOTE this selection is available only if a scaled MAIN output is selected o Pushing FUNC push button again the display will show S followed by the SECONDARY control output value with a range scaled as configured by CnF 3 S C EL C F10 and CnF 3 S C EH C F11 parameters NOTE this selection is available only if two outputs are set and a scaled SECONDARY control output is configured Pushing FUNC push button again the control output value is displayed All the visualization types described exception made for mV and TP are bound by time out see t out C 108 parameter at the end of the time out the display will retum to show the control output value 45 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 NOTES 1 The previous information will be displaved only if the relative function has previously been configured 2 After parameter modification or monitoring the instrument comes back to the normal display mode with on the lower display the indication previously selected INDICATORS Two green LEDs located on the left of the middle display CP Lit when the carbon potential is the controlled variable DP Lit when the dew point is the controlled variable Two red LEDs located on the left of the lower display DM Lit when the sensor output in mV is the controlled variable MAN Lit when device is in manual mode
50. as a process alarm this function masks the alarm condition at instrument start up until process variable reaches the alarm threshold plus or minus hysteresis 2 The change from On to OFF has immediate effect while the change from OFF to On has effect at the next start up or set point change R FO9 Alarm 3 type This parameter is available only when OUT 3 is configured as alarm 3 output O3 Fn C E03 ALr 3 Upper display Gr 6 Lower display A3 tP Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared E mail hvssystem hvssystem com Site web www hvssystem com R F10 Alarm 3 configuration This parameter is available only when OUT 3 is configured as alarm 3 output O3 Fn C E03 ALr 3 Upper display Gr 6 Lower display A3 Cn Range HA High alarm outside band with automatic reset L A Low alam inside band with automatic reset H A Ac High alarm outside band with automatic reset and acknowledge L A Ac Low alam inside band with automatic reset and acknowledge H L High alarm outside band with manual reset L L zs Low alam inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared R F11 Alarm 3 action This parameter is available o
51. ature value will not be taken into account if MV is the selected controlled variable and t tAc parameter C IO7 is equal to nO 4 the probe output is less than 1000 mV 5 the probe output is unstable drift more than 10 mV minute If one or more conditions previously described still exist the automatic Probe test will be frozen the state of these conditions are checked by the instrument every minute During this time the instrument operates as previously set before the Bum off request 52 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 When the checking will be successful these conditions no longer exist and the automatic Probe test will be immediately performed The timer programmed to perform the next Probe test will start only at the end of the previous Probe test If the Probe test is requested by keys and it cannot be started the following information is displayed for 2 seconds Upper display Prob Middle display inh Lower display Number of the first not complied condition 1 up to 5 previously described During the Probe test the instrument will operate as follows 1 it shows on the upper display Prob on the middle display tESt 2 It connects a 47 5 KQ shunt across the probe terminals and waits for 15 seconds in order to stabilize the measure 3 It calculates the probe resistance Rp by applying the following formula Rp in KQO
52. ay the output value in engineering units instead of in percent C FO3 Main output decimal point position This parameter will be available only when SCL Main control output in engineering units C FO2 is set to YES Upper display CnF 3 Lower display NC dP Range No decimal figure One decimal figure Two decimal figures C FO4 Main control output initial scale value This parameter is available only when SCL Main control output in engineering units C FO2 is set to YES Upper display CnF 3 Lower display AC E L Range from 199 to 999 32 As Z Wf a MA TT m m w S60 Fax032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France C FO5 Main control output full scale value This parameter is available only when SCL Main control output in engineering units C FO21 is set to YES Upper display CnF 3 Lower display nC E H Range from 199 to 999 C FO6 Main output auxiliary conditioning This parameter is available only when main control output is configured and nC Cn Main control output conditioning C FO1 is different from nom Upper display CnF 3 Lower display AC A C Range bEFr The functions listed at Note A are calculated before to apply the action selected by C Cn Main control output conditioning C FO11 parameter AFtr lt The functions listed at Note A
53. ction Upper display CnF 5 Lower display d2 Fn Range mont lt Input contact not used SP1 2 Input contact used for SP SP2 set point selection SP3 4 Input contact used for SP3 SP4 set point selection Au A Input contact used for Auto Manual selection Manual when logic level is UL O LI Input contact used for output limiter activation Output limited when logic level is 1 rst lnput contact used to reset acknowledge alarm Reset when logic level is UL 38 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 SP L r Input contact used for Local Remote set point selection Remote when logic level is T NOTE When one logic input is set to SP 1 2 and no other logic input is set to SP 3 4 the relation between the logic level and the selected set point is the following Logic level 0 SP Logic level 1 SP2 When one logic input is set to SP 1 2 and a second logic input is set to SP 3 4 the relation between the logic levels and the selected set point is the following SP 3 4 selected level level set point 0 SP O SP2 1 SP3 1 SP4 When one logic input is set to SP 3 4 and no other logic input is set to sP 1 2 the relation between the logic level and the selected set point is the following Logic level O SP Logic level 1 SP3 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z E V 0 Fax 032685 19 08 Tel 03 26 82 49 29
54. display shows Inf and the transfer will be a step change R E14 External control for AUTO MANUAL mode This parameter is available when one of the digital inputs is configured for Auto Manual selection Upper display Gr 5 Lower display E An Range On the Auto Manual selection is made by digital input only OFF the Auto Manual selection is made by Man key or serial link only 69 Z e 2 rue Ren Laennec 51500 Taissy France Z E W BS Fax 0326835 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 E mail hvssystem hvssystem com Site web www hvssystem com Run time group 6 R Fxx ALARM SETTING L LJ T LI R FO1 Alarm 1 type This parameter is available only when OUT 1 is configured as alarm 1 output O1 Fn C EO1 S ALr 1 Upper display Gr 6 Lower display A1 tP Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared 70 R FO2 Alarm 1 configuration This parameter is available only when OUT 1 is configured as alarm 1 output O1 Fn C EO1 ALr 1 Upper display Gr 6 Lower display A1 Cn Range HA High alarm outside band with automatic reset L A Low alam inside band with automatic reset H A Ac High alarm outside band with automatic reset and acknowl
55. e On Smar algorithm calculates r Gn R DO6 value R MO6 Hidden group default data loading Upper display Gr Hd Lower display dFLt Range OFF No loading data On loading data E mail hvssystem hvssystem com Site web www hvssystem com ERROR MESSAGES OVERRANGE UNDERRANGE AND TEMPERATURE INPUT LEAD BREAKING DETECTION The device is capable to detect a fault condition on input variables OVERRANGE or UNDERRANGE or TEMPERATURE INPUT LEAD BREAKING When an error is detected the error code is shown flashing on the upper display as follows a Prhi Sensor input out of range OVERRANGE It is detected when MV is the primary controlled variable and its value is greater than 1515 mV CP or DP is the primary controlled variable and its value is greater than 1303 mV Greater than 200 mV if O2 is configured as primary control variable b PrLo Sensor input out of range UNDERRANGE It is detected when mV or O2 are the primary controlled variable and its value is less than 15 MV CP or DP is the primary controlled variable and its value is less than 997 mV PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 c tOPn Lead breaking detected on temperature input NOTE if this error is detected the instrument operates as in presence of a temperature input OVERRANGE d tchi Out of range detected on temperature input e COFt Out of ra
56. ed to automatically optimize the control action To enable the SMART function proceed as follows 1 push the MENU push button until Gr 2 run time parameter group is shown 2 push the FUNC push button until SfArt parameter is shown 3 push A or and set the On indication on the middle display 4 push the FUNC push button The ST LED is flashing during the first part of SMART algorithm TUNE while is steady lit during the second one ADAPTIVE When the smart function is enabled it is possible to display but not to modify the control parameters To disable the SMART function proceed as follows 1 push the MENU push button until Gr 2 run time parameter group is shown 2 push the FUNC push button until SfArt parameter is shown 3 push A or VY and set the OFF indication on the middle display 4 push the FUNC push button The ST LED will tum off The instrument maintains the current set of control parameters and it enables parameter modification If a power down occurs and the instrument was performing the first part of SMART algorithm TUNE at the next power up all E mail hvssystem hvssystem com Site web www hvssystem com data regarding the TUNE will be lost so it will be necessary to re start the SMART function If a power down occurs during the second part of SMART algorithm ADAPTIVE at the next power up the instrument restarts the ADAPTIVE function CONTROL ACTION FEATURE The control act
57. edge L A Ac Low alarm inside band with automatic reset and acknowledge H L High alarm outside band with manual reset L L zs Low alam inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared A ZE E La 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Example for A1 Cn A2 Cn A3 Cn H A Alarm Threshold Alarm Hysteresis Measured Value ON Relay out OFF ON LED 1 2 3 OFF A B A D A alarm condition detection B automatic reset of alarm C manual reset the LED gets steady lit the alarm remains in the alarm status until the process variable reaches the alarm threshold minus hysteresis D PRECONISATEUR DE SOLUTIONS DEPUIS 1965 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 Example for A1 Cn A2 Cn A3 Cn H A A c Alarm Threshold Alam 7 Hysteresis ON Relay out OFF ON LED 1 3 OFF A B A D A alarm condition detection B automatic reset of alarm C manual reset the LED gets steady lit the relay output goes OFF but the LED remains steady lit until the process variable reaches the alarm threshold minus hysteresis D E mail hvssystem hvssystem com Site web www hvssystem com Example for A1 Cn A2 Cn A3 Cn H
58. er display Gr 5 Lower display S OLL Range From 0 0 of the output span to S OLH R EO7 R EO7 Secondary control output high limit This parameter is available when one control output is configured as secondary control output Upper display Gr 5 Lower display S OLH Range from S OLL R EO6 to 100 0 of the output span E mail hvssystem hvssystem com Site web www hvssystem com R EO8 Secondary control output max rate of rise This parameter is available when one control output is configured as secondary control output Upper display Gr 5 Lower display S mP Ranges from 0 1 s to 25 0 s Above this value the display shows Inf meaning that no limit is imposed NOTES 1 This parameter will be active even if device is configured for On OFF control 2 During the transfer from AUTO to MANUAL if this action is programmed as a not bumpless transfer the S mP function will be ignored and the output will step up to the value set by An UL C G04 parameter R EO9 Secondary control output cycle time This parameter is available when a time proportional secondary control output is configured Upper display Gr 5 Lower display SC CY Range from 1 to 200 s a Ee me T PRECONISATEUR DE SOLUTIONS DEPUIS 1865 68 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 R E10 Set point low limit Upper display Gr 5 Lower display rL Range from input low
59. etails see the probe instruction manual The Bum off procedure may be carried out manually by pressing TST MAN keys or by extemal contact Dig 3 or by serial link or automatically after a period set by the bF tr R HO3 parameter started from the end of the previous Bum off procedure The Bum off procedure cannot be camied out if 1 The first part of the SMART algorithm TUNE is in progress 2 Five minutes are not elapsed from instrument power on or from the end of another procedure Bum off or Probe test 3 The probe temperature is less than 1000 F 538 C or in error condition Note the temperature value will not be taken into account if MV is the selected controlled variable and t t Ac parameter C 107 is equal to nO EP ES Ge BE W U PRECONISATEUR DE SOLUTIONS DEPUIS 1865 50 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 NOTES a If one or more conditions previously described still exist the automatic Bum off will be frozen the state of these conditions are checked by the instrument every minute During this time the instrument operates as previously set before the Bum off request When the checking will be successful these conditions no longer exist and the automatic Bum off will be immediately performed The timer programmed to perform the next Bum off will start only at the end of the previous Bum off b If the procedure is requested by
60. even if a measure error is shown on the upper display even if a Bumoff or Probe test procedure is in progress f Pushing FUNC push button again it is possible to display the Carbon monoxide factor value the COF LED lights up g Pushing FUNC push button again it is possible to display the Hydrogen factor value the H2F LED lights up h Pushing FUNC push button again it is possible to display the Probe resistance value the KQ LED lights up the graphic symbol TI g shows that the Probe resistance value is greater than 99 99 KQ i Pushing FUNC push button again it is possible to display the Probe response time the SEC LED lights up 1 Pushing FUNC push button again it is possible to display the Probe temperature at last probe test the LT LED lights up m Pushing FUNC push button again it is possible to display the Carbon monoxide value the display will show CO followed by the value measured on the auxiliary input the graphic symbol g g shows that its value is more than 99 44 E mail hvssystem hvssystem com Site web www hvssystem com NOTES 1 The CO value will be set to 20 if the auxiliary input is out of range 2 This indication is available only if the auxiliary input is configured as CO input n Pushing FUNC push button again the display will show n followed by the MAIN control output value with a range scaled as configured by CnF 3 C EL C FO4 and CnF 3 C EH C FO5 p
61. f automatic bum off was set the timer will start again from the value set by the bF tr R HO3 parameter EP ES Ge BE W U PRECONISATEUR DE SOLUTIONS DEPUIS 1865 51 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 Status Burn off and purge description Purge On OUTS of Bumoff On p OUT4 of l l a Time Bumoff i Purge Controlled timer timer variable i CP 14 i i l I I Instrument Instrument in functions kept Instrument in AUTO mode jas AUTO mode Time Automatic Bumoff A d d interval bF tr Automatic Bumoff Acting by keys parameter ep vx interval bF tr S ele Eengel parameter starts senial link again E mail hvssystem hvssystem com Site web www hvssystem com PROBE TEST PROCEDURE Available only if O2 is not selected as primary control variable The Probe test may be carried out manually by pressing TST FUNC keys or from serial link or automatically after a period set by the Pb tr R HO 4 parameter started from the end of the previous Probe test The Probe test cannot be cared out if 1 the first part of the SMART algorithm TUNE is in progress 2 five minutes are not elapsed from instrument power on or from the end of another procedure Bum off Purge or Probe test 3 The probe temperature is less than 1000 F 538 C or in error condition Note the temper
62. f range see also A I A CnF 1 a Ee S T PRECONISATEUR DE SOLUTIONS DEPUIS 1965 83 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 ERROR MESSAGES At instrument start up in operative mode all the parameters are checked If an error is detected the display will show the parameter group and the mnemonic code of the group with the wrong parameter setting while En is shown on the central display The device reset automatically after a time out of 6 s 20 s if serial link is enabled Following the normal procedure reach the group with the wrong parameter setting and correct it during run time mode every keystroke restarts the time out During modify configuration parameters mode the time out is disabled When the error is corrected push MENU until the device resets if in run time mode or end the modify configuration parameters mode following the normal procedure Repeat the above described procedure if another error is shown Error list for control action setting E 120 Eror on control parameter calculated by SMART when the control action type has been changed in the configuration mode E 130 Error during the TUNE mode The algorithm was not able to correctly calculate the control action parameters E mail hvssystem hvssystem com Site web www hvssystem com This error can be detected also at start up in ADAPTIVE mode when the values calculated by SMART are wron
63. g In both cases the instrument will be forced to work as a PI controller E 140 Error detected when the control action values calculated by ADAPTIVE algorithm are out of range by the limits set of the Hidden group NOTE push any key in order to remove the E 130 and E 140 error indications if the instrument is in local state If the instrument is in remote state refer to the Modbus protocol communication The instrument is also capable to detect the following errors E 100 Eror during data saving in FRAM E 110 Eror in FRAM handling E 500 Eror during auto zero measurement E SOL Eror during zero integrator measurement NOTE when an error E 500 or E 501 is detected all input measurement are forced to OVERRANGE condition E 502 Error during reference junction measurement NOTES 1 If this error is detected the temperature input is forced to OVERRANGE condition 84 2 This error may be generated by an ambient temperature higher than 70 C 158 F or lower than 20 C 4 F 3 When mV is the controlled variable this error is displayed only without affecting the control action When one of these errors is detected contact your supplier Two errors related with the preliminary hardware setting are detectable 2 change V101 dip switch or end keyboard serial link configuration 8 wrong position of the V101 dip switch When one of these error is detected the display blanks and the error code is shown on
64. his parameter will be available only when at least one control output is configured Upper display CnF 4 Lower display An F Range dlS Manual function disabled Enb lt Manual function may be enabled 35 C G04 Output value for AUTO to MAN transfer This parameter will be available only when at least one control output is configured and manual function is enabled An F C G03 Enb Upper display CnF 4 Lower display AN UL Range from 0 0 to 100 0 of the output span if device is configured with one control output only from 100 0 to 100 0 of the output span if device is configured with two control outputs Above the 100 0 the display shows bun meaning that the transfer from AUTO to MANUAL is bumpless the instrument sets for MANUAL mode the same power output used in AUTO mode C GO5 MANUAL to AUTO transfer type This parameter is available only when at least one control output is configured and manual function is enabled An F C G03 Enb Upper display CnF 4 Lower display A t t Range bun Bumpless balance transfer bu b Bumpless balanceless transfer 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com ZE Z W S20 ss Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 NOTES Cnd b 1 During the manual to auto transfer the instrument maintains the same power output as in manual mode 2 Selecting the bu
65. ig 3 REAR TERMINAL BLOCK M PRECONISATEUR DE SOLUTIONS DEPUIS 1865 common 56 45 common IN 1 IN 5 IN 2 IN 4 IN 8 out 10 61 59 out 15 out 11 62 51 our 16 out 12 63 52 out 17 out 13 64 53 our 18 our 14 65 54 out 19 don 66 55 Ann L J m m m LJ m L E m 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 ne 23 12 A0 no 25 14 NO c 28 15 c NO 27 16 c 28 17 no 29 18 1 c 30 19 RIS B B 19 y 32 21 AA Hei OUTI SSR l 7 OQUT2 0UTI RELAY OUT2 SSR OUT3 RELAY OUT4 BURNOFF PWR LINE 100 240VAC E mail hvssystem hvssystem com Site web www hvssystem com CONNECTIONS Connections are to be made when the instrument housing is installed in its proper location MEASURING INPUTS NOTE Any extemal component like Zener barriers etc connected between sensor and input terminals may cause errors in measurement due to excessive and or not balanced line resistance or possible leakage currents A PROBE SENSOR INPUT MAIN INPUT Fig 4 MAIN INPUT WIRING NOTES 1 This input is isolated from others measuring inputs and digital inputs 2 Don t run input wires together with power cables 3 When a shielded cable is used it should be connected at one point only 2 rue Ren Laennec 51500 Taissy France E
66. iguration modify mode is enabled Upper display ConF Lower display End Range nO with this selection the instrument comes back to the first display of the configuration modify mode YES this selection ends the configuration modify mode the instrument preforms an automatic reset and restarts in the run time mode Pushing A or W push button select the desired action and then push MENU push button PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France E E w Fax 032685 1908 Tel 03 26 82 4929 RUN TIME MODE If V101 is correctly set See Operative mode and hardware lock at page 16 and the configuration mode has been terminated the instrument will be in run time mode and in normal display mode See below During run time mode the instrument performs the loop control and manages all the instrument functions GMART ALARMS etc DISPLAY FUNCTION When device is powered and it is operating in automatic mode the upper display shows the process variable the middle display shows the set point value final or operative according to SP dS C 106 parameter setting We define the above condition as normal display mode The lower display will show a the control output value NOTES 1 If the instrument is configured with one control output linear or time proportional the control output value is displayed in the 0 to 100 range E mail hvssystem hvssystem c
67. ill be set equal to the last value in manual mode prior to power shut down PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 SPECIAL OUTPUT FEATURES The control action is deactivated control outputs forced to zero and alarms are forced in non alarm condition when a The set point is set to minimum value 0 00 when the controlled variable is Carbon Potential O when the controlled variable is mV 100 F 75 C when the controlled variable is Dew Point b The probe output is lower than 900 mV or greater than 1300 mV and the controlled variable is Carbon Potential or Dew Point c The probe temperature is lower than 900 F 482 C or greater than 2100 F 1149 C and the controlled variable is Carbon Potential or Dew Point NOTE when condition b or c occurs independently from the primary variable selected tne Carbon Potential is forced to 0 00 and the Dew Point is forced to 250 F 121 C 49 E mail hvssystem hvssystem com Site web www hvssystem com BURN OFF PROCEDURE Available only if O2 is not selected as primary control variable The Bum off function allows to remove the carbon or soot deposit inside the probe It is carried out by putting air into the probe the oxygen present in the air will bum the carbon deposit The Purge function is used to evacuate the not combusted air present in the probe after the Bum off for d
68. ion is de activated control output forced to 0 and alarms forced in no alarm condition when a The setpoint is set at minimum value 0 00 for CP O for mV 100 F 75 C for Dew Point 0 0 for O2 b The remote set point if selected is out of range and A L A nor c The probe output is lower than 900 mV or greater than 1300 mV and Carbon potential or Dew Point are configured as primary control variable When O2 is configured as primary control variable the probe mV limits are 15 200 mV d The probe temperature is lower than 900 F 482 C or greater than 2100 F 1149 C and Carbon potential or Dew Point are configured as primary control variable When O2 is configured as primary control variable the temperature limits are 1200 2900 F 650 1590 C Note When conditions c or d occur independently from primary control variable selection the Carbon potential Dew Point and O2 are not calculated but forced respectively to 0 00 250 F 121 C or 0 0 55 PRECONISATEUR DE SOLUTIONS DEPUIS 1965 Z 2 rue Ren Laennec 51500 Taissy France Z E S U Fax 03 26 85 1908 Tel 03 26 82 49 29 E mail hvssystem hvssystem com Site web www hvssystem com COF AND H2F ADJ USTMENT DIAGRAM Others gas present in the atmosphere can affect the carbon potential or the dew point measurement By this chart it is possible to get the COF or o H2F factors able to correct the variation above de
69. is in ON condition alam 2 is in alam state and acknowledged Flashes when alam 2 is in alam state and it is not acknowledged Lit when OUT 3 is used as control output and it is in ON condition alam 3 is in alam state and acknowledged Flashes when alam 3 is in alam state and it is not acknowledged Flashes when the first step of SMART algorithm is activated Lit when the second step of SMART algorithm is activated Lit when the device is controlled by serial link E mail hvssystem hvssystem com Site web www hvssystem com NOTE an additional indication is available the decimal point shown below is flashing when the set point is controlled by the serial link steady lit when the auxiliary set point SP2 or SP3 or SP4 or remote set point RSP is used This indication will be tumed off during monitor and modify parameter procedures BABA point Optional input output indicators For optional inputs the LED s In1 to In4 are lit when the contact of the related input is closed No indication is available for inputs In5 to In s For optional outputs the LED s from OUTIO to OUT19 are lit when the related relay is energized PRECONISATEUR DE SOLUTIONS DEPUIS 1865 BARGRAPH DESCRIPTION This device includes two 33 LED s bargraphs indicators On the right bargraph with orange LED s it is possible to show the operative set point scaled as configured by brG L C 103
70. ith this output will be automatically skipped 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com SS V Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com 2 3 During configuration parameters modify mode the upper display shows the selected parameter group the lower display shows the mnemonic code of the selected parameter while the central display shows the value or status assigned to the selected parameter For an easy consultation of this manual a sheet named Reference parameter guide with all the parameter visualizations is enclosed The groups of configuration parameters are identified by the C letter followed by A B etc The code formed by the group and the row i e C DO1 where C D is configuration groupl and 01 is the row 1 is reported in the user manual before each parameter description and allows you to quickly find out the respective parameter PRECONISATEUR DE SOLUTIONS DEPUIS 1865 24 Z e 2 rue Ren Laennec 51500 Taissy France Z E W BS Fax 0326835 1908 Tel 03 26 82 49 29 CONFIGURATION GROUP 1 C Dxx INPUT CONFIGURATION L I L F 1 IST l III C Push the FUNC push button C DO1 Line frequency Upper display CnF 1 Lower display Ln Fr Range 50Hz 60 Hz C DO2 Controlled variable selection Upper display CnF 1 Lower display PV SL Ranges CP Carbon potential Span limits within 0 00 to 2 00 dP Dew point Sp
71. keys and it cannot be started the following information is displayed for 2 seconds Upper display bum Middle display inh Lower display Number of the first not complied condition 1 2 or 3 previously described Once these conditions no longer exist repeat manually the Bum off starting command During the Bum off procedure the upper display shows bum or PurG while the middle display shows the remaining time to end the related procedure The lower display shows the probe value in mV the information shown on this display may be changed as described in the Display function paragraph See pag 43 E mail hvssystem hvssystem com Site web www hvssystem com The Bum off sequence is the following The Bum off output OUT 4 will be tumed ON for a programma ble period by Gr 8 t bOF R HO1 parameter At the end of this period OUT 4 will be tumed OFF and the Purge output OUT 5 will be tumed ON for a programmable period by Gr 8 t PrG R HO2 parameter At the end of this period OUT 5 will be tumed OFF the procedure is completed and the normal control is resumed NOTES a During the Bumoff and Purge procedures the control output the Adaptive algorithm and alarm status are frozen b During the Bumoff and Purge procedures the input span O to 1500nV will be enabled independently of the primary controlled variable selected CH a power down occurs the current Bum off status and timings will be lost i
72. lable when at least one control output is configured and Pb R DO1 is different from 0 Upper display Gr 4 Lower display ti Range from 00 01 to 20 00 mm ss Above this value the display blanks and the integral action is excluded NOTE When the instrument is working with SMART algoritnm the ti value will be limited as selected by ti Hi R MO4 and ti Lo R MO3 parameters if the value is out of limits the E 140 indication will be shown on the middle display for details see Error messages at pag 83 E mail hvssystem hvssystem com Site web www hvssystem com R DO4 Derivative time This parameter is available when at least one control output is configured Cn tP C GO2 is equal to Pid and Pb R DO1 is different from 0 Upper display Gr 4 Lower display td Range From 00 00 to 10 00 mm ss NOTE When device is working with SMART algorithm and Cn tP C G02 is equal to Pid the td value will be proportional to the ti value with a ratio established during the TUNE function R DO5 Integral preload This parameter is available when at least one control output is configured and Pb R DO1 is different from O Upper display Gr 4 Lower display IP Ranges from 0 0 to 100 0 of the output when device is configured with only one control output from 100 0 to 100 0 of the output when device is configured with two control outputs PRECONISATEUR DE SOL
73. lam inside band with automatic reset H A Ac High alarm outside band with automatic reset and acknowledge L A Ac Low alam inside band with automatic reset and acknowledge E mail hvssystem hvssystem com Site web www hvssystem com High alarm outside band with automatic reset H L High alarm outside band with manual reset L L zs Low alam inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared R FO7 Alarm 2 action This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C EO2 ALr 2 Upper display Gr 6 Lower display A2 Ac Range dir direct action Relay energized or SSr 1 in alarm condition EV Reverse action Relay energized or SSr 1 in non alarm condition R FO8 Alarm 2 stand by mask function This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C EO2 ALr 2 Upper display Gr 6 Lower display A2 St Range OFF Stand by function disabled On Stand by function enabled PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 NOTES 1 If the alarm is programmed as band or deviation alarm this function masks the alarm condition after a set point change or at the instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed
74. le Remote set point selection Set points limiter rL r E10 and rH r E11 parameters program DIG 3 is used to start the Bum off routine mable Active logic level Close or open programmable D1 OPTIONAL LOGIC INPUTS The instrument may be equipped with 8 optional logic inputs IN1 to IN8 Input type Contact closure voltage free The input status can be read only through serial link 88 a 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com ZE Z W S20 Fax 0326851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 CONTROL ACTIONS Algorithm PID SMART Types one control output digital or analog output two control outputs NOTE the outputs can be freely selected between analog and digital outputs Digital output types Relay or SSR Digital output action type Proportional time Analog output types 20 MA Proportional Band programmable from 0 5 to 999 0 of the input span Setting a PB egual to 0 the control action becomes ON OFF Hysteresis for ON OFF control action programmable from 0 1 to 10 0 of the input span Integral time programmable from 1 second to 20 minutes or excluded Derivative time programmable from 1 second to 10 minutes or excluded Integral pre load programmable for one control output from O to 100 of the output range fortwo control outputs from 100 to 100 of the output range Anti rese
75. ll be activated at the next operation R HO2 Purge duration Upper display Gr 8 Lower display t PrG Range from 1 00 to 15 00 mm ss When a primary variable different from O2 is selected NOTE the time setting may be modified any time but it will be activated at the next operation 77 Z e 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z Z W Sr Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965 R HO3 Automatic Burnoff interval Upper display Gr 8 Lower display bF tr Range from 1 00 to 24 00 hh mm Above this 24 00 the display shows no tr no time interval is programmed When a primary variable different from O2 is selected NOTE the time setting may be modified any time but it will be performed at the next Bum off exception made for the changement fromy to no tr that it will be immediately activated R HO4 Automatic probe test interval Upper display Gr 8 Lower display Pb tr Range from 1 00 to 24 00 hh mm Above this 24 00 the display shows no tr no time interval is programmed When a primary variable different from O2 is selected NOTE the time setting may be modified any time but it will be performed at the next Probe test exception made for the change fronyto no tr that it will be immediately activated PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Z E
76. m com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 R MO2 Maximum value of proportional band calculated by SMART algorithm This parameter is available only when smart function is configured SA Fn C GO1 Enb Upper display Gr Hd Lower display Pb Hi Range from Pb Lo R MO1 to 999 0 NOTE The resolution on Pb Hi value is 0 1 up to 10 0 1 up to 999 0 R MO3 Minimum value of integral time calculated by SMART algorithm This parameter is available only when smart function is configured SA Fn C GO1 Enb Upper display Gr Hd Lower display ti Lo Range from 00 01 mm ss to ti Hi R MO4 R MO4 Maximum value of integral time calculated by SMART algorithm This parameter is available only when smart function is configured SA Fn C GO1 Enb Upper display Gr Hd Lower display ti Hi Range from ti Lo R MO3 to 20 00 mm ss PRECONISATEUR DE SOLUTIONS DEPUIS 1865 81 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 R MO5 Relative gain of the secondary output calculated by SMART algorithm This parameter is available only when smart function is configured S Fn C G01 Enb and a secondary control output is configured Upper display Gr Hd Lower display rG CL Range OFF Smart algorithm does not calculate r Gn R DO6 valu
77. mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 A 1 TEMPERATURE THERMOCOUPLE INPUT Fig 5 TEMPERATURE INPUT WIRING NOTES 1 This input is not isolated from others measuring inputs and digital inputs 2 Don t run input wires together with power cables 3 For TC wiring use proper compensating cable preferable shielded 4 When a shielded cable is used it should be connected at one point only A 2 AUXILIARY INPUT CARBON MONOXIDE Fig AUXILIARY INPUT WIRING NOTES 1 This input is not isolated from others measuring inputs and digital inputs A double or reinforced insulation between instrument output and power supply must be assured by the extemal instrument 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 3 4 5 Don t run input wires together with power cables B LOGIC INPUTS DIG 1 Pay attention to the line resistance a high line resistance may cause measurement errors When shielded cable is used it should be grounded at one side only to avoid ground loop currents The input impedance is equal to lt 5 Q for 20 mA input gt 200 kQ for 5 V input gt
78. meters of this group are software protected In this case by using A and W push button set a value equal to the security code programmed during the Run time security code see page 18 and then push FUNC If the programmed value matches the security code the parameters of this group can be modified otherwise they will remain protected CAUTION A software key protects one or more run time parameter groups so that when the software key is set it is possible to modify the run time parameters of all groups The software protection will be automatically restored when the instrument reverts to the normal display mode by MENU push button pressure or by the time out 57 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 RUN TIME PARAMETER MODIFICATION By MENU push button it is possible to start the run time parameter modification by selecting desired run time parameter group During the run time parameter modification the upper display shows the selected parameter group the lower display shows the mnemonic code of the selected parameter while the middle display shows the value or status assigned to the selected parameter The parameter monitoring and modification are bound by time out see t out C 108 parameter after that the display retums in Normal display mode and the modification if camied out of the last displayed pa
79. most significant digit of the upper display Correct the V101 setting 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com E Z W SAO Fax 0326851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 GENERAL INFORMATION GENERAL SPECIFICATIONS Case Polycarbonate black color self extinguishing degree V O according to UL 94 Front protection designed for IP 65 and NEMA 4X for indoor locations when panel gasket is installed Test were performed in accordance with IEC 529 CEI 70 1 and NEMA 250 1991 STD Installation panel mounting Rear terminal block 54 screw terminals screw M3 for cables from 0 0 25 to 2 5 mn or from AWG 22 to AWG 14 with connections diagram and safety rear cover Dimensions according to DIN 43700 3 78 x 3 78 96 x 96 mm depth 5 128 mm Weight 750 g full option Power supply 100 V to 240 V AC 50 60 Hz 15 to 10 of the nominal value 24 V AC DC 10 of the nominal value Power consumption 16 VA max without optional I O 20 VA max with optional I O Insulation resistance gt 100 MQ according to IEC 1010 1 Dielectric strength 1500 V mms according to IEC 1010 1 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 85 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 Common mode rejection 120 dB 50 60 Hz Normal mode rejection 60 dB 50 60 Hz Elect
80. nctions and parameters are controlled via seral link The REMOTE status is signalled by the RM LED This instrument allows you to modify the operative and configura tion parameters via seral link The necessary conditions to implement this function are the following 1 the serial parameters see Run time group 7 should be propery configured 2 the device must be in the run time mode 3 when it is desired to modify configuration parameter the dip switch V101 3 should be set to OFF configuration parameter enabled During configuration parameter downloading the device goes in open loop with all output in OFF state At the end of configuration procedure the device performs an automatic reset and then retums to close loop control E mail hvssystem hvssystem com Site web www hvssystem com LAMP TEST When it is desired to verify the display efficiency put the instrument in normal display mode and push W MENU push buttons for more than e The instrument will tum ON with a 50 duty cycle all the LEDs of the display we define this function LAMP TEST No time out is applied to the LAMP TEST When it is desired to revert to the normal display mode push any push button During the LAMP TEST the instrument continues to control the process Ee me T PRECONISATEUR DE SOLUTIONS DEPUIS 1865 54 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 SMART FUNCTION It is us
81. nge detected on carbon monoxide input NOTE if this error is detected the CO value is forced to 20 NOTES 1 When CP or DP is the controlled variable and an error from a to d is detected the device acts as described at Special output features see page 49 2 When mv is the controlled variable and the error a OVERRANGE is detected the Main output is forced to 0 and the Secondary if configured is forced to 100 The alarms and analog retransmissions operate as in presence of the maximum measurable value 3 When mV is the controlled variable and the error b UNDERRANGE is detected the Main output is forced to 100 and the Secondary if configured is forced to O The alarms and analog retransmissions operate as in presence of the minimum measurable value 4 When mV is the controlled variable the errors from c to e are displayed only without affecting the control action 5 On OVER RANGE on remote setpoint measurement is 82 E mail hvssystem hvssystem com Site web www hvssystem com signalled on lower display as TOO o On UNDER RANGE on remote setpoint measurement is signalled on lower display as goo indication only when required See DISPLAY FUNCTION The sensor leads break can be detected when the range selected has a zero elevation 4 20 mA or 1 5V or 2 10 V and signalled as OPEn The sensor leads break acts as an UNDER RANGE condition For functioning during out o
82. nly when OUT 3 is configured as alarm 3 output O3 Fn C E03 ALr 3 Upper display Gr 6 Lower display A3 Ac Range dir direct action Relay energized or SSr 1 in alarm condition 75 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 EV Reverse action Relay energized or SSr 1 in non alarm condition R F12 Alarm 3 standby mask function This parameter is available only when OUT 3 is configured as alarm 3 output O3 Fn C EO3 ALr 3 Upper display Gr 6 Lower display A3 St Range OFF Stand by function disabled On Stand by function enabled NOTES 1 If the alarm is programmed as band or deviation alarm this function masks the alarm condition after a set point change or at the instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed as a process alarm this function masks the alarm condition at instrument start up until process variable reaches the alarm threshold plus or minus hysteresis 2 The change from On to OFF has immediate effect while the change from OFF to On has effect at the next start up or set point change E mail hvssystem hvssystem com Site web www hvssystem com R F13 Group 6 default data loading Upper display Gr 6 Lower display dFLt Range OFF No loading data ON Loading data Run time group 7 R Gxx SERIAL LIN
83. odification during run time mode If during parameter modification no push button is depressed for more than 10 30 seconds the instrument goes automatically to the normal display mode and the modification if carried out of the last displayed parameter will be lost 21 As Z Wf a MA TT m m w S60 Fax032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France CONFIGURATION MODE Switch on the instrument The instrument will start in the same way it was prior to the power down configuration mode or run time mode If the instrument starts in configuration mode push the MENU pushbutton and go to the Configuration group 1 See page 25 If the instrument starts in run time mode by keeping depressed the MENU push button for more than 5 seconds the instrument will show where the upper display shows the selected parameter family the middle display shows the selected action the lower display shows the firmware version If no push button is depressed for more than 10 s or 30 s according to CnF 6 tout time out selection C 108 parameter setting tne instrument automatically retums to the normal display mode E mail hvssystem hvssystem com Site web www hvssystem com By A or W push button it is possible to select between mo mo L ILL monitor this selection allows you to monitor but not to modify the value assigned
84. om Site web www hvssystem com 2 if the device is configured with two control outputs the value of the MAIN output is shown on the two most significant digits while the value of the SECONDARY output is shown on the two less significant digits The decimal point between the two values will be flashing The graphic symbol g g shows that the specific control output is gt 100 b Pushing the FUNC push button it is possible to display the sensor output in mV the mV LED lights up NOTE this selection is available if mV is not selected as controlled variable even if a measure error is shown on the upper display even if Bumoff or Probe test procedure are in progress c Pushing FUNC push button again it is possible to display the sensor temperature the TP LED lights up d Pushing FUNC push button again it is possible to display the Dew point value the DP LED lights up NOTE this selection is available if Dew point or O2 are not selected as controlled variable even if a measure error is shown on the upper display even if Bumoff or Probe test procedure are in progress PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 e Pushing FUNC push button again it is possible to display the Carbon potential the CP LED lights up NOTE this selection is available if Carbon potential or O2 are not selected as controlled variable
85. on the alarms the SMART algorithm and the process variable retransmission C DO7 Auxiliary input function Lower display A 1n F Range nonE Input not used CO Input used for CO measurement rsP Input used as remote set point Available Always Note The scalable for CO measurement is fixed from OOO to 100 When CO input is not used the CO value will be set to 20 The scalable for rSP measurement is fixed to 0 00 2 00 ifcarbon potential is selected as primary control variable or 0 100 F 18 40 C ifdew pointis selected as primary control variable or O 1500 if sensor outputin my is selected as primary control variable 0 0 25 0 ifoxygen value is selected as primary control variable C DO8 Auxiliary input type selection Lower display A In t Range 0 20 0 20 MA 4 20 4 20 MA 0 5 0 5 V 1 5 1 5 V NOTES 0 10 0 10 V 1 This is a first order digital filter applied to the temperature 2 10 2 10 V input value c e E f Available When auxiliary input is used 26 saa sa l 2 rue Ren Laennec 51500 Taissy France mail 2 aw SS y E mail hvssystem hvssystem com Z Z W Sr Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965 C DO9 TIME CONSTANT FOR FILTER ON REMOTE SETPOINT VALUE CnF 1 Lower display A I FL Range From Oter OFF to 8 s Available When auxiliary input is used as remote set point Note First order filter with selected time constant C D10 R
86. ore than 10 s or 30 s according to CnF 6 tout C 108 parameter setting the instrument retums automatically to the normal display mode E mail hvssystem hvssystem com Site web www hvssystem com MODIFY MODE 1 By A or W push button select the modify mode 2 Push the MENU push button If a Security code is applied to the configuration parameter the instrument will show oe e LLIT Zr L ALT C 3 By A and W push button set a value equal to the security code assigned to the configuration mode see Configuration security code at page 19 If the code is different from the secunty code the instrument automatically returns to the first configuration display otherwise the display will show mr C LL PRECONISATEUR DE SOLUTIONS DEPUIS 19685 The modify mode is started This display allows you to load the default configuration parameter table 1 or table 2 For more details see chapter Default parameter see Appendix A 4 By A or W push button select the OFF indication and push the MENU push button The display will show P C Luts ine Ir This is the starting display of the first group of configuration parameters NOTES 1 In the following pages we will describe all the parameters of the instrument but the instrument will show only the parameters related with the specific hardware and in accordance with the specific instrument configuration i e setting OUT 6 as nonE not used all the parameters related w
87. r and of the logic input are active 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z ZE V Sr Fax 0326851908 Tel 03 26 82 49 29 Site web www hvssystem com R CO2 Alarm 1 threshold This parameter is available when alarm 1 is configured as process or deviation output alarm A1 tP RF O1 Proc or dEV Upper display Gr 3 Lower display AL1 Range in engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm NOTE The span limits are related to the controlled variable set by the PVSL C DO2 parameter R CO3 Low threshold used when the alarm 1 is a band alarm This parameter is available only when the alarm 1 is configured as band alarm A1 tP RF 01 bAnd Upper display Gr 3 Lower display bA1 L Range from O to 1000 digits PRECONISATEUR DE SOLUTIONS DEPUIS 1865 R CO4 high threshold used when the alarm 1 is a band alarm This parameter is available only when the alarm 1 is configured as band alarm A1 tP RF O1 bAnd Upper display Gr 3 Lower display bA1 h Range from O to 1000 digits NOTE The bA1 L and bA1 h values are algebraically added to the operative set point in order to obtain the band limits R CO5 Alarm 2 threshold This parameter is available when alarm 2 is configured as process or deviation output alarm A2 tP RF 05 Proc or dEV Upper display
88. r display CnF 2 Lower display O6 Lr Range From 1999 to 9999 NOTE The decimal point position will be the same as the CnF 1 PV SL C DO2 previously selected C EO7 OUT 6 retransmission full scale value This parameter is available only when Out 6 function C E04 is configured as PV rt or SP rt Upper display CnF 2 Lower display O6 Hr Range From 1999 to 9999 NOTE The decimal point position will be the same as the CnF 1 PV SL C DO2 previously selected C EO8 OUT 6 filter on the retransmitted value This parameter is available only when OUT 6 O6 Fn C EO4 is configured PV r Upper display CnF 2 Lower display O6 FL Range From O no filter to seconds PRECONISATEUR DE SOLUTIONS DEPUIS 1865 29 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 NOTE this is a first order digital filter applied to the retransmit ted output value C EO9 OUT 7 function Upper display CnF 2 Lower display O7 Fn Range nonE Output not used Ain Main control output linear SECn Secondary control output linear PV rt Process variable retransmission SP rt Operative set point retransmission C E10 OUT 7 range This parameter is available only when Out 7 O7 Fn C EO9 is differentfrom nonE Upper display CnF 2 Lower display O7 m Range 0 20 Oto 20 MA 4 20 S4 to 20 MA E mail hvssystem hvssystem com Site web www hvssystem com
89. rameter will be lost NOTES 1 In the following pages we will describe all the parameter of the instrument but it will show only the parameters related with the specific hardware and in accordance with the specific instrument configuration 2 If all the parameters of a group are not available the entire group will not be displayed E mail hvssystem hvssystem com Site web www hvssystem com 3 For an easy consultation of this manual a sheet named Reference parameter guide with all the parameter visualizations is enclosed The groups of run time parameters are identified by the R letter followed by A B etc The code formed by the group and the row i e R AO1 where R A is run time group1 and 01 is the row 1 is reported in the user manual before each parameter description and allows you to quickly find out the respective parameter Run time group 1 R Axx Set point and factor values fr I LI I LCD wid F R AO1 Main set point Upper display Gr 1 Lower display SP Range from rL R E10 to rH R E11 R AO2 Set point 2 This parameter is available only when one of the logic inputs is configured for SP SP2 selection Upper display Gr 1 Lower display SP2 Range from rL R E10 to rH R E11 58 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z V BS 0 Fax 03 26851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965
90. range depending on the PV SL C DO2 setting to rH R E11 NOTES Whenever PV SL C DO2 has been modified the following occurs 1 rL will be realigned to the low limit the realignement will be carmied out even if the set point is software protected AT the set point values are out of the new limits they automati cally assume the default value even if software protected R E11 Set point high limit Upper display Gr 5 Lower display rH Range from rL R E10 to input high range depending on the PV SL C DO2 setting NOTES Whenever PV SL C DO2 has been modified the following occurs 1 rH will be realigned to the low limit the realignement will be carmied out even if the set point is software protected 2 If the set point values are out of the new limits they automatically assume the default value even if software protected E mail hvssystem hvssystem com Site web www hvssystem com R E12 Rate of change for positive set point R E15 Group 5 default data loading variations Upper display Gr 5 Upper display Gr 5 Lower display dFLt Lower display Grd1 Range OFF No loading data Range from 1 to 200 digits per minutes ON lt Loading data Above this value the display shows Inf and the transfer will be a step change R E13 Rate of change for negative set point variations Upper display Gr 5 Lower display Grd2 Range from 1 to 200 digits per minutes Above this value the
91. red as control output 2 Only one of the 5 outputs is configured as main output Ain 3 Only one of the 5 outputs is configured as secondary output CSC 4 If only one control output is configured it should be the main control output Ain When changing menu the following actions are performed 1 The CnF 4 A UL C G04 parameter will be forced to bun if its value is less than zero and only one control output has been configured 2 The Gr 4 IP R DO5 parameter will be forced to 50 0 if only one control output has been configured and its valueis lt 0 31 e a Wf a MA TT m m w S60 Fax032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France CONFIGURATION GROUP 3 C Fxx CONTROL OUTPUT CONFIGURATION r pa E L 111 vot C FO1 Main control output conditioning This parameter is available only when main control output is configured Upper display CnF 3 Lower display DC Cn Range nom The control output is as calculated by the PID CnPL The control output is complemented 100 PID calculated value C FO2 Main control output in engineering unit This parameter is available only when main control output is configured Upper display CnF 3 Lower display N SCL Range nO Scalable is not required YES Scalable is required E mail hvssystem hvssystem com Site web www hvssystem com NOTE This scaling allows you to displ
92. ress from 1 to 255 Output voltage levels according to EIA standard NOTE The EIA standard establishes that by RS 485 interface it is possible to connect up to 30 devices with one remote master unit The serial interface of these instruments is based on High input impedance transceivers this solution allows you to connect up to 127 devices based on the same transceiver type with one remote master unit a 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 MAINTENANCE 1 REMOVE POWER FROM THE POWER SUPPLY TERMINALS AND FROM RELAY OUTPUT TERMINALS 2 Remove the instrument from case 3 Using a vacuum cleaner or a compressed air jet max 3 kg cm remove all deposit of dust and dirt which may be present on the louvres and on the intemal circuits trying to be careful for not damage the electronic components 4 To clean extemal plastic or rubber parts use only a cloth moistened with Ethyl Alcohol pure or denatured C H OH or lsopropil Alcohol pure or denatured CH CHOH or Water H O 5 Verify that there are no loose terminals 6 Before re inserting the instrument in its case be sure that it is perfectly dry 7 Re insert the instrument and tum it ON 94 PRECONISATEUR DE SOLUTIONS DEPUIS 1965 Z e 2 rue Ren Laennec 51500 Taissy France Z E W BS Fax 032
93. romagnetic compatibility and safety require ments This instrument is marked CE Therefore it is conforming to council directives 89 336 EEC and to council directives 73 23 EEC and 93 68 EEC Installation category II Operative temperature from O to 50 C 32 to 122 F Storage temperature 20 to 0 C 4 to 158 F Humidity from 20 to 85 RH non condensing Altitude This product is not suitable for use above 2000m 6562ft E mail hvssystem hvssystem com Site web www hvssystem com INPUTS A MAIN INPUT Type Oto 1500 mV when mV sensor output or oxygen are selected as primary controlled variable 1000 to 1300 mV when carbon potential or dew point is selected as primary controlled variable NOTE if the probe input value is out of the 1000 to 1300 mV the range automatically becomes O to 1500 mV Input type isolated from others measuring inputs and digital inputs Carbon range 0 00 to 2 00 Dew point range 100 to 100 F or 75 to 40 C Oxygen range 0 0 to 25 0 Resolution 0 1 mV range 0 to 1500 mV Cargon resolution 0 01 Dew point resolution 1 F 1 C mV resolution 1 mV Accuracy 0 02 digits for 0 40 to 1 60 of the carbon range 0 03 digits for the remaining carbon range PRECONISATEUR DE SOLUTIONS DEPUIS 1865 86 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 Temperature drift 350 ppny C when the range is 1000 to 1300 mv
94. roup 5 R Exx PARAMETER DEFAULT VALUE ArW 100 DOLL 0 0 OLH 100 0 mP Inf 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com SS V Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com PC CY 16 s If relay output 2 s If SSR output S OLL 0 0 S OLH 100 0 S mP Inf SC CY 16 s If relay output 2 s If SSR output rL lnitial range value rH Final range value Grd1 Inf Grd2 Inf E An On Run time group 6 R Fxx PARAMETER DEFAULT VALUE A1 tP Proc Al1 Cn H A Al AC EV A1 St OFF A2 tP Proc A2 Cn H A A2 AC EV A2 St OFF A3 tP bAnd A3 Cn H A s Sa Ges lil m A MT aE were mm a PRECONISATEUR DE SOLUTIONS DEPUIS 1865 A3 AC A3 St EV OFF Run time group 7 R Gxx PARAMETER S L Pr S L Ad S L bd S L bF DEFAULT VALUE NbUS 1 19 20 8 Run time group 8 R Hxx PARAMETER t bOF t PrG bF tr pb tr DEFAULT VALUE 3 00 mm ss 1 00 mm ss 12 00 hh mm 24 00 hh mm Run time group Hd r Lxx PARAMETER Pb Lo Pb Hi ti Lo ti Hi rG CL 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 DEFAULT VALUE 2 0 999 0 00 01 mm ss 20 00 mm ss SOFF E mail hvssystem hvssystem com Site web www hvssystem com DEFAULT CONFIGURATION PARAMETERS A complete and consistent set of configuration parameters is stored in the ins
95. s equal to 1 When the security code is forgotten a new value can be set 2 At the end of the security code setting set the V101 as described at pagelo 19 PRECONISATEUR DE SOLUTIONS DEPUIS 19685 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 19 08 Tel 03 26 82 49 29 RUN TIME AND CONFIGURATION MODES The hardware selection described in Operative mode and hardware lock paragraph allows you to start one of the two following operative modes run time mode configuration mode At power up the instrument starts in the same mode it was prior to the power OFF General note about graphic symbols used for mnemonic code visualization The instrument displays some characters with special symbols The following table shows the correspondence between the symbols and the characters symbol character R k GC mi L J ra C G HS lt 2 bad L a E mail hvssystem hvssystem com Site web www hvssystem com Keyboard description TST MAN By pressing these keys it is possible to start the MENU is used to select a parameter group BURNOFF function FUNC LJ When the instrument is in normal display mode it TST FUNC By pressing these keys it is possible to start the changes the indication on the lower display see PROBE TEST function display function _ During parameter modification it allows you to W MENU Are used to start the lamp test function the MAN 4 v command is accepted when
96. s will flash if the displayed value is respectively higher or lower than the range scaled for the specific bargraph visualization DIRECT ACCESS TO THE SET POINT When the device is in AUTO mode and in Normal Display Mode it is possible to access directly to the selected set point modification SP SP2 SP3 or SP4 Pushing A or W for more than 2 s the set point will begin changing The new set point value becomes operative when the instrument retums in Normal Display Mode at the end of 2 s time out The direct access to the set point is disabled if the run time group 1 is software protected or RSP is selected EP ES Ge BE W U PRECONISATEUR DE SOLUTIONS DEPUIS 1865 48 2 rue Ren Laennec 51500 Taissy France Fax 03 26 85 1908 Tel 03 26 82 49 29 MANUAL FUNCTION The MANUAL mode function can be accessed only if configured by depressing the MAN push button for more than 1 sec or by acting on a logic input configured as A DAT auto manual selection The command from keyboard is accepted and executed only if the instrument is in Normal Display Mode while the command from logic input is always accepted When in MANUAL mode the LED s MAN lights up while the middle display shows followed by the main output values from 0 0 to 99 9 and the lower display shows S followed by the secondary output value from 0 0 to 99 9 NOTE the graphic symbol g g g shows that the related control output val
97. scribed If for example the instrument measures 0 4 of carbon with a COF of 200 and the shim stock analysis shows an actual carbon value of 0 35 g draw a line between 0 4 and 200 and mark H the intersection on the pivot line k Connect 0 35 of Carbon with that intersection and extend it till the COF scale the new COF value will be approximately 175 Correct the COF R AO5 parameter with the new value NOTE COF is equal to 10 lt CO and H2F is 10 4H2 in40 F endo in40 F endo 200 NominalC OF 400 NominalH2F 10 20 30 300 COF or H2F PIVOT O O D LO OO 2 O D 9 O Ste An y l 10 TT Eed D CARBON 2 00 U 1 U UL O O O CO o O O0 N O O SV Q N m T LO 0 S sb 4 DEW POINT 100 56 a 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com ZE Z W S20 Fax 0326851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 PARAMETER PROTECTION Moving from one run time parameter group to another the instrument will show first the group number on the upper display the mnemonic code on the lower display and the security status on the middle display of the group The possible security status are Enb the parameters of this group are not protected and they may be modified inh the parameters of this group are always protected and they cannot be modified the para
98. shbutton again The central display will show m m P D L OTT Gm om 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com SS V Sr Fax 03 2685 1908 Tel 03 26 82 49 29 Site web www hvssystem com and then the display will show A I FL O No filter r 1 A LA nom L ff L r On n ALG rir ry The default parameter loading procedure of all configuration prameters is ended The following is a list of the default configuration parameters loaded during the above procedure TABLE 1 EUROPEAN Configuration group 1 C Dxx PARAM VALUE NOTES Ln Fr 50 Hz PV SL CP Pb FL O No filter tP In 1 Tc K OFSt O SS tP FL O No filter A In F nonE A In t 4 20 4 20 mA Configuration group 2 C Exx PARAM VALUE NOTES O1 Fn Ain O2 Fn SECn O3 Fn ALr 3 O6 Fn PV rt O6 m 4 20 4 20 MA O6 Lr 0 00 O6 Hr 2 00 O6 FL O No filter O7 Fn nonE O07 m 4 20 4 20 MA O7 Lr 0 00 O7 Hr 2 00 O7 FL O No filter Configuration group 3 C Fxx PARAM VALUE NOTES PC Cn nom A SCL nO DC Op No decimal figure a 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com ZE Z W S20 Fax 0326851908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965 Configuration group 6 IC Io NC E L O NC E H 100 PARAM AC A C bEFr G brG SC Cn nom O brG S SCL nO brG L SC dP No decimal figure brG H S
99. system com NOTE By pushing the A or Y key it is possible to change the output state The setting above described is the same for the remaining outputs C LO2 OUT 10 status This parameter is available only if the optional card is fitted Upper display VErF Lower display OU 10 Range On Output enabled relay energized OFF oOutput disabled relay deenergized NOTE By pushing the A or Y key it is possible to change the output state The setting above described is the same for the remaining outputs C LO3 Digital input dlG 1 status Upper display VErF Lower display dlG 1 Range Open Input open CLSd lnput closed NOTE The setting above described is the same for the remaining inputs C LO4 Digital input In 1 status This parameter is available only if the optional card is fitted Upper display VErF Lower display In 1 Range Open Input open CLSd lnput closed NOTE The setting above described is the same for the remaining inputs General note for configuration group VErF Retuming in the run time mode the instrument restarts to control the process the settings performed into this group do not affect the working settings 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 CONFIGURATION GROUP END C Mxx END CONFIGURATION This group is displayed only when conf
100. t into alignment with actual dew point as determined by a direct dew point measuning instrument The default value of 400 corresponds to endothermic gas containing 40 Hydrogen H See COF and H2F adjustment diagram at pag 56 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 R AO7 Group 1 default data loading Upper display Gr 1 Lower display dFLt Range OFF No loading data ON Loading data Run time group 2 R Bxx SMART ENABLE DISABLE ai br a 7 L R BO1 SMART This parameter is available when at least one control output is configured and SMART function is enabled SA Fn C GO1 Enb Upper display Gr 2 Lower display S rt Range OFF SMART algoritnm is deactivated ON SMART algorithm is activated Set On or OFF to activate deactivate the SMART algorithm PRECONISATEUR DE SOLUTIONS DEPUIS 1965 Run time group 3 R Cxx ALARM THRESHOLD AND HYSTERESIS VALUE R CO1 Manual reset of the alarms Upper display Gr 3 Lower display rSt Range ON OFF Change to ON and then depress FUNC key to reset acknowledge the alarm condition NOTES 1 The reset acknowledge function is always enabled but it is possible to protect it by security code 2 When one of the logic input is configured as alarm reset both actions of rs paramete
101. t windup from 10 to 200 of the input span Main output cycle time from 1 second to 200 seconds PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Secondary output cycle time from 1 second to 200 seconds Relative secondary output gain keyboard programmable from 0 20 to 2 00 referred to the proportional band Overlap dead band keyboard programmable from 20 dead band to 50 overlap of the proportional band Output limiters For the main and or secondary control outputs it is possible to set output high limits output low limits output max rate of rise AUTO MANUAL mode selectable by front push button or logic input 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z ZE V Sr Fax 0326851908 Tel 03 26 82 49 29 Site web www hvssystem com REMOTE SET POINT When transfer from Remote to Locale setpoint is made by The device can be equipped with a remote set point extemal contact the local setpoint can be aligned to last This feature must be configured see A In F A In t A I FL remote setpoint value See L r O CnF 1 A LAA L rO CnF 1 and d1 Fn d2 Fn CnF 5 When remote set point value is displayed on lower display see If ALAD non the remote set point can be activated only DISPLAY FUNCTION by selected external contact If none digital input is configured the out of range condition are displayed as follow to select from Local Remote set point
102. the Remote set point OVER RANGE 9999 UNDER RANGE 7299 leads will be always active and will be the only SET POINT present on the device break UPEn 1 If the auxiliary input is out of range or open the control output is de activated see Control Action Feature lf A LAA Cnd A the remote set point is activated by status of auxiliary input Remote set point if auxiliary input is in range local set point if it is out of range or open When remote set point is selected the decimal point at right hand of LSD on middle display is steady lit when device is in Normal display mode The scale for remote set point is fixed and equal to primary control variable the set point value will be further limited by L rH The sampling rate is 1 125 mS The value can be filtered Wl Pn OU Ry L R n U PRECONISATEUR DE SOLUTIONS DEPUIS 1865 90 2 rue Ren Laennec 51500 Taissy France E mail hvssystemeohvssystem com Fax 03 26 85 1908 Tel 03 26824929 Siteweb www hvssystem com OUTPUTS Out 1 and 2 Function singularly programmable as Control output Alarm output Type Relay or SSR Out 1 Relay Relay type SPDT Contact rating 3 A 250 V on resistive load Out 2 Relay Relay type SPST Contact rating 3 A 250 V on resistive load Out 1 and 2 SSR Type not isolated voltage output Logic level 1 14V 20 20 mA max 24 V 20 1 NA Logic level
103. to the configuration parameters or modify this selection allows you to monitor and to modify the value assigned to the configuration parameters NOTES 1 During monitor mode the instrument continues to operate as in run time mode 2 When modify mode is started the instrument stops the control and 3 W v sets to OFF the control outputs tums to OFF the bargraph displays sets analog retransmissions to the retransmitted initial scale value sets to OFF the alarms disables the serial link the time out will be disabled hen the modify mode is disabled by V101 V101 3 the A or push button pressure has no effect 22 Ee SS L a 2 rue Ren Laennec 51500 Taissy France S S we PRECONISATEUR DE SOLUTIONS DEPUIS 1865 Fax 03 26 85 1908 Tel 03 26 82 49 29 MONITOR MODE During the run time mode it is possible to monitor but not modify all configuration parameters When it is desired to verify the instrument configuration proceed as follows 1 By A or Y push button select the monitor mode 2 Push the MENU push button the display will show P fF 1 Levi Lal IME it Shows that configuration group 1 is selected and it encompasses all the inout parameters The configuration parameter Monitor mode follows the Modify mode sequence NOTES 1 During monitor mode the instrument continues to operate as in run time mode 2 During monitor mode if no push button is depressed for m
104. trument These data are the typical values loaded in the instrument prior to shipment from factory When it is desired to load the default value of all the configura tion parameters proceed as follows If the instrument starts in configuration mode push the MENU pushbutton If the instrument starts in run time mode by keeping depressed the MENU push button for more than 5 seconds the instrument will show NOTE If no push button is depressed for more than 10 s or 30 s according to CnF 6 tout time out selection C I10 parameter setting the instrument retums automatically to the normal display mode By A or W push button select odF PRECONISATEUR DE SOLUTIONS DEPUIS 1865 NOTES 1 When modify mode is started the instrument stops the control and sets to OFF the control outputs tums to OFF the bargraph displays sets analog retransmissions to the retransmitted initial scale value sets to OFF the alarms disables the seral link removes the time out 2 When the modify mode is disabled by V101 SW3 the A or V push button pressure has no effect Push MENU pushbutton again and select the Default configuration group C Cxx NOTE if the configuration parameters are protected by security code by A or W pushbuttons set the security code assigned and press the FUNC pushbutton By A or W push button select the desired configuration parameter set tb 1 european or tb 2 american Push MENU pu
105. ty code The display will show JLI L LUC C LI E i By this parameter it is possible to set if the run time group 1 will be protected or not by the run time security code By A and Y push button set Gri parameter as follows nO No protection it is always possible to modify run time group 1 parameters Yes the run time group 1 parameter modification will be protected by security code Push the FUNC push button the instrument memorizes the new setting and goes to the next parameter NOTES 1 This selection may be performed only if a run time security code has been set from 2 to 250 2 The above described selection may be repeated for all groups of the run time mode 18 E mail hvssystem hvssystem com Site web www hvssystem com Configuration security code The display will show JET L a LL TI Note the middle display shows the current status of the configuration security code 0 1 or On By A and W push button set S CnF parameter as follows O No protection it is always possible to modify all configuration parameters 1 always protected it is never possible to modify a configuration parameter from 2 to 250 security code for configuration parameter protection NOTES 1 The selected value of a security code cannot be displayed anymore and coming back to the S CnF parameter the display will show On when S CnF is different from O or 1 O when S CnF is equal to 0 1 when S CnF i
106. ue is gt 100 0 The control output value can be modified by using A and W keys To come back to the AUTO mode depress MAN push button for more than 1 sec or toggle the logic input The transfer from AUTO to MANUAL is bumpless this function is not provided if an output value has been selected at configuration parameter An UL C G04 The transfer from MANUAL to AUTO is bumpless or bumpless balanceless the bumpless feature is not provided if integral action is excluded E mail hvssystem hvssystem com Site web www hvssystem com If transfer from AUTO to MANUAL is performed during the first part of SMART algorithm TUNE the SMART will be aborted and when retuming to AUTO it will be necessary to start the SMART algorithm again If transfer from AUTO to MANUAL is performed during the second part of SMART algorithm ADAPTIVE when retuming to AUTO the instrument will automatically restore the ADAPTIVE algorithm At power up the device starts as configured at St Fn C G06 configuration parameter NOTES 1 When auto manual control mode is selected by logic input at power up the instrument will start in accordance with the logic input status 2 If the logic input status requires the manual mode the instrument will verify the St Fn C GO6 parameter setting and if St Fn C GO6 is equal to Auto an or Cnd A the power output will be set to zero otherwise the power output w
107. ut alarm annunciator etc it is necessary to use an extemal relay with a gilded contact All relay contacts are protected by varistor against inductive load with inductive component up to 0 5 A The following recommendations avoid serious problems which may occur when relay output drives inductive loads INDUCTIVE LOADS High voltage transients may occur switching inductive loads Through the intemal contacts these transients may introduce disturbances which can affect the performance of the instrument For all the outputs the internal protection varistor assures a correct protection up to 0 5 A of inductive component The same problem may occur when a switch is used in series with the internal contacts as shown in Fig 9 eg L Et ke LOAD Fig 9 EXTERNAL SWITCH IN SERIES WITH THE INTERNAL CONTACT In this case it is recommended to install an additional RC network across the extemal contact as show in Fig 9 The value of capacitor C and resistor R are shown in the following table LOAD C R P OPERATING mA UF w VOLTAGE lt AO NA 0 047 100 1 2 260 V AC lt 150 nA 0 1 22 2 260 V AC O5 A 0 33 47 2 260 V AC Anyway the cable involved in relay output wiring must be as far away as possible from input or communication cables 2 rue Ren Laennec 51500 Taissy France E mail hvssystem hvssystem com ZE Z W S20 ss Fax 03 2685 1908 Tel 03 26
108. verify U action Set by using A W pushbuttons a value from O to 8000 to read on rear terminal a current value corresponding to Out displayed value 8000 20 mA Note Rear terminals are 16 17 for OUT 6 and 18 19 for OUT 7 E mail hvssystem hvssystem com Site web www hvssystem com EE scream Via E Mattei 21 28100 Novara Italy Tel 39 0321481111 Fax 390321481112 E mail eroelectronic Gero eurotherm co uk Http www eroelectronic com Z e 2 rue Ren Laennec 51500 Taissy France E mail hvssystemahvssystem com Z Z W Sr Fax 03 2685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1965
109. vssystemahvssystem com Z Z S UZ 0 Fax 032685 1908 Tel 03 26824929 Site web www hvssystem com PRECONISATEUR DE SOLUTIONS DEPUIS 1865 R EO3 Main control output high limit This parameter is available when one control output is configured as main output Upper display Gr 5 Lower display N OLH Range from f OLL R EO2 to 100 0 of the output span R EO4 Main control output max rate of rise This parameter is available when one control output is configured as main output Upper display Gr 5 Lower display m P Ranges from 0 1 s to 25 0 s Above this value the display shows Inf meaning that no limit is imposed NOTES 1 This parameter will be active even if device is configured for On OFF control 2 During the transfer from AUTO to MANUAL if this action is programmed as a not bumpless transfer the P function will be ignored and the output will step up to the value set by An UL C G04 parameter 67 As Z Wf a MA TT m m w S60 Fax032685 1908 Tel 03 26 82 49 29 PRECONISATEUR DE SOLUTIONS DEPUIS 1865 2 rue Ren Laennec 51500 Taissy France R EO5 Main control output cycle time This parameter is available when time proportional main control output is configured Upper display Gr 5 Lower display NC CY Range from 1 to 200 s R EO06 Secondary control output low limit This parameter is available when one control output is configured as secondary control output Upp
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