- Eurotherm
Contents
1. 39 OUTPUT FULL SCALE VALUE 44 MAIN INPUT OFFSET ADJUSTMENT 33 ACEL MAIN OUTPUT INITIAL SCALE VALUE 44 Configuration group 6 CONTROL OUTPUT GAIN OTHER CONFIGURATION PARAMETER 57 DUE Configuration group 2 2 OUTPUT CONFIGURATION 36 GF OUT 2 FUNCTION 0 65 5 5 29 02 12 01 0 65 SECONDARY CONTROL OUTPUT INENG e reete tertiis 46 SECONDARY CONTROL OUTPUT AUXILIARY CONDITIONING 2222 46 SECONDARY CONTROL OUTPUT BIAS 42 SECONDARY CONTROL OUTPUT CONDITIONING 2 2 45 SECONDARY CONTROL OUTPUT DECIMAL POINT POSITION 3 tette 46 SECONDARY CONTROL OUTPUT FULL SCALE VALUE 46 SECONDARY CONTROL OUTPUT INITIAL SCALE VALUE 46 SECONDARY CONTROL OUTPUT GAIN 42 CONDITION FOR OUTPUT SAFETY VALUE OUTPUT SAFETY VALUE SMART FUNCTION 47 SERVOMOTOR TYPE 37 OPERATIVE SETPOINT ALIGNEMENT AT START UP 58 SETPOINT DISPLAY TYPE 59 SPLIT RANGE cn etn ees 41 SERVO BEHAVIOR WHEN THE POWER OUTPUT 15 LIMITED2. 74 BEEP ALARM 2 TYPE on bA3h HIGH THRESHOLD USED WHEN ALARMS ISABANDALARM eee ALAPM S ACTON 58 583 LOW THRESHOLD USED WHEN ALARM 3 832 ALARM 3 CONFIGURATION 88 IS A BAND ALARM 75 8356 ALARM STANDBY FUNCTION 89 0 65 1 5 29 02 12 01 0 65 HIGH THRESHOLD USED WHEN ALARM 4 IS A BAND ALARM LOW THRESHOLD USED WHEN ALARM 4 ISA BAND ALARM CONTROL ACTION intret as Run time group 4 CONTROL PARAMETER EXTERNAL CONTROL OF AUTO MAN EXTERNAL CONTROL OF LOCAL REMOTE SETPOINT SELECTION EXTERNAL CONTROL OF REVERSE DIRECT OUTPUT ACTION SELECTION FEEDBACK POTENTIOMETER ADJUSTMENT ENABLING Run time group 8 FEEDBACK POTENTIOMETER CALIBRATION FEEDBACK HIGH LIMIT CALIBRATION FEEDBACK LOW LIMIT CALIBRATION ALARM ACTION ALARM CONFIGURATION RATE OF CHANGE FOR POSITIVE SETPOINT VARIATION RATE OF CHANGE FOR NEGATIVE SETPOINT VARIATION nena r xx Lt Dp gt lt UJ fu 3 S woo
3. C d14 Cnd A 3 When bIAS is selected the instrument uses as operative set point the sum of the local set point with the value measured by the auxiliary input scaled by A In L C D11 and A In H C d12 parameters 35 5 29 02 11 59 AM CnF 1 Xkc 1 C0 P65 36 Auxiliary input type C d10 1 mM Urt This parameter will be skipped when the auxiliary input option is not mounted or A In F auxiliary input function C d09 is equal to nonE Range 0 20 0 20 mA 4 20 4 20 mA 0 5 0 5 1 5 1 5 0 10 0 10 V 2 10 2 10 Initial scale read out of the auxiliary input C d11 This parameter is available only when auxiliary input is configured Range from 1999 to 9999 NOTE the decimal point will be automatically positioned as selected for the main input 36 Full scale read out of the auxiliary input C d12 This parameter is available only when auxiliary input is configured Range from 1999 to 9999 NOTE the decimal point will be automatically positioned as selected for the main input Filter on auxiliary input C d13 This parameter is available only when auxiliary input is configured Ranges from 0 no filter to 8 seconds NOTE this is a first order digital filter applied to the measured value made by the auxiliary input Auxiliary input activation mode C d14 This parameter is available only when au
4. 48 RESOLUTION OF THE DEVIATION BARGRAPH BARGRAPH FULL SCALE VALUE BARGRAPH INITIAL SCALE VALUE 58 Configuration group 3 CONTROL OUTPUT CONFIGURATION 41 CONTROL ACTION 47 LOGIC INPUT 1 FUNCTION LOGIC INPUT 1 CONTACT STATUS 3 du Pu nu in min min mmin min m ema t 3 fr fr LOGIC INPUT 2 FUNCTION 52 LOGIC INPUT 2 CONTACT STATUS 53 LOGIC INPUT 3 FUNCTION LOGIC INPUT CONTACT STATUS 53 FILTER ON THE DISPLAYED VALUE 33 EVENT 1 FUNCTION 54 EVENT 1 CONTACT STATUS 54 EVENT 2 FUNCTION EVENT 2 CONTACT STATUS 55 EVENT 3 FUNCTION 55 EVENT 3 CONTACT STATUS EVENT 4 FUNCTION EVENT 4 CONTACT STATUS 56 OUTPUT FAILURE DETECTION 60 PRIMARY CURRENT OF THE CURRENT TRANSFORMER 60 OUTPUT FAILURE DETECTION OUTPUT ASSIGNEMENT VALVE POSITION INDICATION GREEN BARGRAPH FUNCTION Configuration group 5 DIGITAL INPUT OUTPUT CONFIGURATION 51 Configuration group 1 MAIN AUXILIARY INPUT GONFIGURATION 30 5 29 02 12 01 PM LOA LOCAL REMOTE SETPOINT GBF OUT 3 FUNCTION 20500 37 OPERATING MODE 22 35 OUT 4 F
5. or Ain or Range engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm from 0 0 to 100 0 for control output alarms NOTE The span limits are configured by In L C d05 and In H C d06 Xkc 1 C0 P65 78 78 Low threshold used when the alarm 2 band alarm r C06 This parameter is available only when the alarm 2 is configured as band alarm A2 tP 05 bAnd Range from 0 to 1000 digits L L3 high threshold used when the alarm 2 is a TLI 1 band alarm r CO7 This parameter is available only when the alarm 2 is configured as band alarm A2 tP rF 05 bAnd Range from 0 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 5 29 02 11 59 AM Bi Alarm threshold r C08 This parameter is available when alarm 3 is configured as process deviation main power output or secondary power output alarm A3 tP rF 09 Proc or dEV or Ain SECn Range in engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm from 0 0 to 100 0 for control output alarms NOTE The span limits are configured by fi In L C d05 and f In H C d06 1 Low threshold used when the a
6. PER CENT OF MAXIMUM FLOW EQUAL PERCENTAGE PER CENT OF RATED TRAVEL 1 0 65 46 46 Main control output engineering unit C F07 This parameter will be available only when main control output is configured Range nO Scalable is not required YES Scalable is required NOTE This scaling allows you to display the output value in engineering units instead of in percent Main output decimal point position C F08 This parameter will be available only when fi SCL Main control output in engineering units C F07 is set to YES Range 7777 decimal figure 777 7 decimal figure 77 77 Two decimal figures 5 29 02 11 59 AM Main output initial scale readout C F09 This parameter will be available only when fi SCL Main control output in engineering units C F07 is set to YES Range from 199 to 999 Main output full scale readout C F10 This parameter will be available only when A SCL Main control output in engineering units C F07 is set to YES Range from 199 to 999 Ft E configured and Main control output conditioning C F06 is different from Range bEFr The functions listed at Note are calculated before to apply the action selected by C Cn Main control output conditioning C F06 parameter 1
7. 1 0 65 82 82 Hysteresis for ON OFF control r d02 This parameter is available when Pb r d01 0 On OFF control action Range from 0 196 to 10 0 of the input span Integral time r d03 This parameter is available when at least one control output is configured and Pb r d01 is different from 0 Range from 00 01 to 20 00 mm ss Above this value the display blanks and the integral action is excluded NOTE When device is working with SMART algorithm the ti value will be limited as selected by ti Hi r LO4 and ti Lo r L03 5 29 02 11 59 AM L d Derivative time r d04 This parameter is available when at least one control output is configured Cn tP C GO2 is equal to Pid and Pb r d01 is different from O Range From 00 00 to 10 00 mm ss NOTES 1 When device is working with SMART algorithm and Cn tP C G02 is equal to Pid the td value will be made equal to a quarter of ti value 2 When Cn tP C G02 is equal to Pi the derivative action is excluded Integral preload r d05 This parameter is available when at least one control output is configured and Pb r d01 is different from 0 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 split range excluded 1 0 65
8. C E11 This parameter will be available only when OUT 5 is configured as process variable retransmission O5 Fn C E07 is equal to PV rt Range From 0 no filter to 8 seconds NOTE this is a first order digital filter applied to the retransmit ted output value 1 _ OUT6function C E12 LILU 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 NOTE When the option circuitry is not mounted the middle display will show no Pr not present 41 Xkc 1 C0 P65 41 imi OUT 6 range C E13 This parameter will be available only when Out 6 is configured O6 Fn C E12 different from nonE Range 0 20 0 20 4 20 4 20 mA mei OUT 6 retransmission initial scale value C E14 This parameter will be available only when Out 6 function C E12 is configured as PV rt or SP rt Range From 1999 to 9999 NOTE Decimal point is positioned as previously selected at CnF 1 fi In d C d03 5 29 02 11 59 AM CnF 2 i L _ OUT 6 retransmission full scale value T C E15 This parameter will be available only when Out 6 function C E12 is configured as or SP rt Range From 1999 to 9999 NOTE Decimal point is positioned as previously selected at CnF 1 f
9. 59 THRESHOLD ENABLE THE START 59 DEVICE STATUS AT START UP 49 TIMEOUT SELECTION 60 5 29 02 12 01 PM CODING MODEL MKC 1 4 DIN PKC 1 8 DIN INPUT 1 Main Aux in Logic Inputs 5 Main OFD or Feedback selectable 6 Main Aux in Logic Inputs OFD or Feedback selectable 9 Main OUT1 and OUT2 11 Two relay outputs 44 Two TRIAC outputs 61 One SSR one relay output 66 Two SSR outputs OUT3 and OUT4 0 Not provided 1 Two relay outputs 2 Two relay outputs interlockable by jumper for servomotor output OUT5 and OUT6 0 Not provided 5 Two mA outputs 7 One mA output Out 5 OPTIONS 0 Not provided 1 Aux PWS 2 RS485 Aux PWS 3 RS485 6 RS485 Aux PWS 4 Log in 5 Digital out 7 2 85485 Aux PWS 8 Log in 10 Digital ou POWER SUPPLY 3 100 240V AC 5 24V AC DC t For MKC only L EE HA bl Pi B B 7 Xkc B C0 p65 5 29 02 12 01 PM Xkc Z C0 p65 5 29 02 12 01 PM E Ero Electronic 5 Via E Mattei 21 28100 Novara ltaly Tel 390321481111 Fax 39 0321481112 E mail eroelectronic ero eurotherm co uk Http www eroelectronic com 2 0 65 2 5 29 02 12 01
10. A4 tP rF 13 bAnd Range from 0 to 1000 digits NOTE The bA4 L and bA4 h values are algebraically added to the operative set point in order to obtain the band limits 1 0 65 80 80 Output failure detection low alarm threshold r C14 This parameter is available only when the option is present and Fd Fn 110 is equal to C On or C OF or SC On or SC OF Range from 0 to Fd HS C 112 NOTES 1 The device is in alarm status when the current measured during the ON status of the load is lower than this threshold 2 The OFD output failure detection alarm threshold resolution values is equal to 0 1 A for range up to 25 A and 1 A for range up to 100A 3 The hysteresis on this threshold values is fixed to 196 of fsv Output failure detection high alarm threshold r C15 This parameter is available only when the option is present and Fd Fn C 110 is equal to C On or hC OF or SC On or SC OF Range from 0 to Fd HS C 112 NOTES 1 The device is in alarm status when the current measured during the OFF status of the load leakage current is higher than this threshold 5 29 02 11 59 AM 2 The OFD output failure detection alarm threshold resolution values is equal to 0 1 for range up to 25 and 1 for range up to 100 A 3 The hysteresis on this threshold values is fixed to 1 of fsv Alarm 1 hysteresis r C16
11. Cnd b and A UL C G04 bu 2 B The valve will be moved to the value set in A UL if St Fn C G06 Cnd b and A UL C G04 is different from bu Xkc 1 C0 P65 72 72 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 param eters are controlled via keyboard or in REMOTE functions and parameters are controlled via serial link The REMOTE status is signalled by the REM LED This instrument allows to modify the operative and configuration parameters via serial link The necessary conditions to implement this function are the following 1 the serial parameters see Run time group 7 should be properly 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 returns to close loop control 5 29 02 11 59 AM LAMP TEST When it is desired to verify the display efficiency put the instrument in normal display mode and push W and MENU push buttons for more than 5 s The instrument will turn ON with a 50 duty cycle all the LEDs of the display we define this funct
12. LINO HOLON z o M o E 9 z 9 5 EL EL z z z z 5 5 5 5 5 o o o o o o o uu e N sr i i i gt tx N LO i co eo eo eo 5 r z 82 2 2 5 5 5 2 5 o o o o 95 P wq 14 S 7 2011 d 1 5 awai 7 38698 K gt eno BP lt 19 NI N I I a lt z 2 2 2 e A m m m 9 amp 4 8 g 8S E 8 9 o o o 9 z 3 _ uno 21007 avi ayu S I tino vino 355 TINO uss 2110 4 ol Dl INIT 001 0901 NT 110 29 2116 010H Fig 3 B MKC REAR TERMINAL BLOCK Fig PKC REAR TERMINAL BLOCK 5 29 02 11 59 AM 1 0 65 Connections are to be made with the instrument housing installed in its proper location A MEASURING INPUTS NOTE Any external 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 Xkc 1 C0 P65 5 A 1 TC INPUT mam L shield Fig 4 THERMOCOUPLE INPUT WIRING
13. Local remote set point operative mode C d16 This parameter is available only when auxiliary input is configured Range ALG when the transfer from remote to local set point is performed the local set point value will be aligned to last remote set point value n ALG when the transfer from remote to local set point is performed the local set point value will not be changed The programmed ramps Grd1 r E14 and Grd2 r E15 may be activated NOTES 1 The selected local set point will be changed even if it is software protected 2 The parameter is forced to n ALG if A In F auxiliary input function C d09 is equal to bIAS and 1 auxiliary input activation mode C d14 is equal to Cnd A 5 29 02 11 59 AM CnF 1 General note on configuration group 1 Exiting from the configuration group 1 the instrument verifies automatically the programmed span for the linear input If it is wrong the device will show La LIF 1 Err i DM mre o Xkc 1 C0 P65 38 CONFIGURATION GROUP 2 C Exx OUTPUTS CONFIGURATION L PIP nuu LILIL Fiir OUT 1 function C E01 Range Output not used Ain Time proportional main control output SECn Time proportional secondary control output ALr 1 Alarm 1 output Eun 1 Event 1 output 5 29 02 11 59 AM Ar M OUT 2 function C E02 Range nonE Output not used fiAin Time proportiona
14. Ranges from 1999 to 9999 for linear input Input range 31 to 38 from 0 to 9999 for linear input with square root extraction from fi In L read out initial scale value C d05 to full range value for TC RTD input NOTES 1 Changing the value of this parameter the brG H bargraph full scale value C 104 and rH set point high limit r E13 parameters will be realigned to it 2 The programmed input span in absolute value must be greater than 300 C or 550 F for TC inputs 100 C or 200 F for RTD inputs 100 digits for linear inputs 5 29 02 11 59 AM Ranges from 500 to 500 NOTE the decimal point will be automatically positioned as selected for the main input i 17 Offset on the main input C d07 Read out OFSt Real curve Adjusted curve Input Filter on the displayed value C d08 Ranges from 0 no filter to 8 seconds NOTE this is a first order digital filter applied to the read out of the main input 1 0 65 35 1 Auxiliary input function C d09 Range nonE Input not used Input used as remote set point input blAS Input used as bias for local set point NOTES 1 When auxiliary input option is not mounted the middle display will show no Pr not present 2 The parameter L r O C d16 will be forced to n ALG if A In F C d09 bIAS and
15. 1 0 65 11 E 1 RELAY OUTPUTS 23 OUT 1 L 2455 NO NC OUT 2 L no pe NO OUT 3 ui go OUT 3A NO OUT 4 Fig 11 4 RELAY OUTPUTS 1 2 3 and 4 WIRING 5 29 02 11 59 AM The outputs from OUT 1 to OUT 4 are equipped with relays having contact rating equal to 3A 250V AC on resistive load WARNING When OUT 4 are used as independent relay outputs the addition of the two currents must not exceed 3 A NO OUT 10 OUT 10 NO OUT 11 OUT 11 Lo S OUT 12 OUT 12 NO OUT 13 NO OUT 14 pel 65 COMMON L 66 COMMON Fig 11 B RELAY OUTPUTS 10 to 14 WIRING Xkc 1 C0 P65 12 150 OUT 15 OUT 15 51 NO OUT 16 OUT 16 159 NO OUT 17 OUT 18 OUT 18 33 NO OUT 19 pe 54 COMMON 55 COMMON Fig 11 C RELAY OUTPUTS 15to 19 WIRING The outputs from OUT 10 to 19 are equipped with relays having contact rating equal to 0 5A 250V AC on resistive load 12 5 29 02 11 59 AM 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
16. Fd HS fi In E CLSd nEA E CLSd Au fiA CLSd SP L r CLSd Configuration group 6 C Ixx VALUE DEv P Out 100 1370 10 n ALG OP SP bAL 100 t 10 nonE C On 25 NOTES C C C If option is not mounted or main control output is linear If option is mounted 5 29 02 12 00 PM Fd Ou nonE TABLE 2 Configuration group 1 C dxx PARAM VALUE NOTES Ln Fr 60 Hz In t 18 TC K with F In d No decimal figure In S 415 Disabled 150 F In H 2500 F OFSt 0 F dS FL 0 No filter A In F RSP Remote set point A In t 4 20 mA A In L 32 F A In H 1832 F 0 filter A LAA nor 1 5 L r O n ALG Xkc AA0 p65 8 PARAM O1 Fn O2 Fn O3 Fn O4 Fn S tP FEEd O5 Fn O5 rn O5 Lr O5 Hr O5 FL O6 Fn O6 rn O6 Lr AAin ALr 1 ALr 2 nonE C S ALr 3 nonE 4 5 no Fb nonE 4 20 32 1832 0 nonE PV rt 4 20 32 Configuration group 2 C Exx VALUE NOTES If servo motor drive is not mounted If servo motor drive or linear output are mounted If option is not mounted If servo control motor drive is mounted If option is mounted If option is not mounted If option is mounted If feedback circuitry is mounted If feedback circuitry is not mounted If option is not mounted If option is mounted 4 20 mA F No filter If option is not mounted If option
17. This parameter is available only when Out 1 is configured as alarm output O1 Fn C E01 ALr 1 Range from 1 to 200 digits Alarm 2 hysteresis r C17 This parameter is available only when Out 2 is configured as alarm output O2 Fn C E02 ALr 2 Range from 1 to 200 digits 1 0 65 81 81 Alarm hysteresis r C18 This parameter is available only when Out 3 is configured as alarm output O3 Fn C E03 ALr 3 Range from 1 to 200 digits Alarm 4 hysteresis r C19 This parameter is available only when Out 4 is configured as alarm output O4 Fn C E04 ALr 4 Range from 1 to 200 digits Group 3 default data loading r C20 Range OFF No loading data Loading 5 29 02 11 59 Run time group 4 r dxx CONTROL PARAMETERS FF Lt LIF 1 r LOC NOTE when SMART function is activated all the parameters calculated by SMART Pb Td and rCG can not be modified Proportional band r d01 I Li This parameter is available when at least one control output is configured Range from 0 5 to 999 0 of the input span Set 0 0 for On OFF control action NOTES 1 The Pb resolution will be equal to 0 196 up to 10 0 and 1 up to 999 0 2 When device is working with SMART algorithm the value will be limited as selected by parameters Pb Hi r LO2 and Pb Lo 1 01
18. 5 29 02 11 59 AM Range 50 Hz 60 Hz Main input type and range C d02 rr L rir I I 1 Dl mre Push the FUNC push button 1 Lei Ranges Xkc 1 1 2 3 TC 4 TC 5 TC C0 P65 CONFIGURATION GROUP 1 C dxx MAIN AND AUXILIARY INPUT CONFIGURATION _ Line frequency C d01 From From From From From 100 to 100 to 100 to 200 to 200 to 32 900 1000 1370 400 600 C C C C C 32 6 TC 7 8 9 10 2 2 From From From 11 G orW From 12 TC D orW3 From 13 TC C orW5 From 14 TC Ni Ni18 Mo From 15 RTD Pt100 16 TC 17 18 19 20 21 22 23 24 25 I G m r From From From From From From From From From From From 26 TC G orW From 27 TC D orW3 From 28 TC C orW5 From 29 TC Ni Ni18 Mo From 30 RTD Pt100 From 100 to 100 to 50 to 50 to 0 to 00 00 00 0 to 200 to 150 to 150 to 150 to 330 to 330 to 150 to 150 to 60 to 60 to 32 to 0 to 0 to 0 to 0 to 330 to 5 29 02 11 59 AM 800 1400 1760 1760 1820 2300 2300 2300 1200 850 1650 1830 2500 750 1110 1470 2550 3200 3200 3300 4170 4170 4170 2190 1560 C C C C C C C C C F F F F F F F F
19. Fn C G01 Enb Range from Pb Lo r L01 to 999 0 NOTE The resolution on Pb Hi value will be equal to 0 1 up to 10 096 and 1 up to 999 0 Minimum value of integral time calculated by iL SMART algorithm r L03 This parameter is available only when smart function is configured S Fn C G01 Enb Range from 00 01 mm ss to ti Hi r L04 Xkc 1 C0 P65 101 101 Maximum value of integral time calculated by I SMART algorithm r L04 This parameter is available only when smart function is configured S Fn C G01 Enb Range from ti Lo r L03 to 20 00 mm ss Relative gain of the secondary output calculated by SMART algorithm r L05 This parameter is available only when smart function is configured S Fn C G01 Enb and a secondary control output without split range is configured Range OFF Smart algorithm does not calculate r Gn r d06 value On Smartalgorithm calculates r Gn r d06 value 5 29 02 11 59 AM 1 ok 1 Hidden group default data loading r L06 Range OFF No loading data 1 0 65 loading data 102 102 ERROR MESSAGES OVERRANGE UNDERRANGE AND SENSOR LEADS BREAK DETECTION ON THE MAIN INPUT The device is capable to detect a fault condition on the main input OVERRANGE or UNDERRANGE or SENSOR LEADS BREAK When the proce
20. 0 65 47 Main output auxiliary conditioning C F11 This parameter will be available only when main control output is AFtr The functions listed at Note are calculated after to apply the action selected by C Cn Main control output conditioning C F06 parameter CnF 3 Note Main control output limiters for more details see r E04 and r E05 parameters Main control output max rate of rise see 06 Control output display value for more details see Display function paragraph at pag 62 and C F07 C F08 C F09 and C F10 parameters Threshold for alarm on control output value for more details see r F01 r F05 r F09 and r F13 parameters The control output value displayed by bargraph 47 5 29 02 11 59 AM Xkc 1 C0 P65 48 _ Secondary control output conditioning 1 I C F12 This parameter will available only when secondary control output is configured Range nor The control output is calculated by the PID The control output is complemented 100 PID calculated value Ouic The control output is conditioned to match a QUICK OPENING flow characteristic Eou control output is conditioned to match an EQUAL PERCENTAGE flow characteristic For more details see also NOTE about output conditioning at page 43 Secondary control output in engineering unit C F13 This parameter will be
21. 17 External control for AUTO MANUAL mode LJ U 1 r E17 This parameter is available when one of the logic inputs is configured for Auto Manual selection Range On the Auto Manual selection is made by logic input only OFF the Auto Manual selection is made by Man key or serial link only External control for local remote set point selection r E18 This parameter is available when one of the logic inputs is configured for Local Remote set point selection and C d14 is equal to Range On thelocal remote set point selection is made by external contact only OFF the local remote selection is made by RSP push button or serial link only 1 0 65 88 88 External control for reverse direct output action selection r E19 This parameter is available when one of the logic inputs is configured for direct reverse output action selection Range On the reverse direct selection is made by external contact only OFF the reverse direct selection is made by Cn Ac r d08 parameter or serial link only 1 Group 5 default data loading r E20 LI Range OFF No loading data ON Loading data 5 29 02 11 59 AM Run time group 6 r Fxx ALARM SETTING FE 5 I1 11 C Alarm 1 type r F01 UL 1 1 This parameter available only when OUT 1 is configured as alarm 1 output O1 Fn C E01 ALr
22. ALARM 4 CONFIGURATION 8455 ALARM 4 STANDBY FUNCTION 90 RUN TIME PARAMETERS 89 HL ALARM 1 THRESHOLD 73 Runtime group 5 AUXILIARY CONTROL ALe ALARM 2 THRESHOLD 74 PARAMETER ettet page 80 HL3 ALARM 3 THRESHOLD 75 HHFg OUTPUT FAILURE DETECTION HIGH ALY ALARM 4 THRESHOLD 75 ALARM THRESHOLD 76 Run time group 3 ALARM THRESHOLD AND RLFd OUTPUT FAILURE DETECTION LOW ALARM HYSTERESIS VALUE 76 Hes ANTIRESET WINDUP 5 Runtime group 6 ALARM SETTING 85 bA th HIGH THRESHOLD USED WHEN ALARM 1 ALARM 1 ACTION 86 IS A BAND ALARM 74 iEn ALARM 1 CONFIGURATION 85 iL LOW THRESHOLD USED WHEN ALARM 1 RISE ALARM 1 STANDBY FUNCTION 88 IS A BAND ALARM 73 ALARM 1 TYPE 285 bHgh HIGH THRESHOLD USED WHEN ALARM 2 Aahe ALARM2 ACTION IS A BAND ALARM 74 ALARM 2 CONFIGURATION 86 bA L LOW THRESHOLD USED WHEN ALARM 2 BOBO 87 IS A BAND ALARM
23. L 22 eeozlecteonie 170100 0 1 05 02 USER MANUAL PKC MKC Xkc 01 C0 P65 5 29 02 11 58 AM Xkc 01 C0 P65 5 29 02 11 58 AM INDEX MOUNTING 220 1 OUTLINE AND OUT DIMENSIONS 2 CONNECTION DIAGRAMS 4 PRELIMINARY HARDWARE SETTINGS 17 SECURITY CODE SETTING 22 RUN TIME AND CONFIGURATION MODE 25 General notes about graphic symbols 25 Keyboard description CONFIGURATION MODE RUN TIME MODE uu uu ricorrere tb retrace Display function Indicators cae Bargraph description 65 OUT failure detection function 66 Direct access to the set point 66 Manual TUFICHOF l rte ricarica 67 Serial a oriretur etae eee Lamp test zu SMART 222 69 Hold 70 Parameter protection 70 RUN TIME PARAMETER MODIFICATION 71 Xkc 01 CO P65 3 ERROR MESSAGES 97 GENERAL INFORMATIONS MAINTENANCE DEFAULT PARAMETER ALPHANUMERIC INDEX OF THE DISPLAY INDICATION B 1 CODING 7 5 29 02 11 58 Xkc 01 C0 P65 5 29 02 11 58 AM MOUNTING REQUIREM
24. rH r E13 Set point 2 r A02 This parameter is available only when one of the logic inputs is configured for SP SP2 selection Range from rL r E12 to rH r E13 5 29 02 11 59 AM 21 Set point 3 r A03 This parameter is available only when one of the logic inputs is configured for SP3 SP4 selection Range from rL r E12 to rH r E13 Set point 4 r A04 This parameter is available only when one of the logic inputs is configured for SP SP2 selection and another one for SP3 SP4 selection Range from rL r E12 to rH r E13 Group 1 default data loading r A05 LL Range OFF No loading data ON Loading data 1 0 65 76 76 Run time group 2 r bxx SMART ENABLE DISABLE ro LIP Ei SMART function r b01 This parameter is available when at least one control output is configured and SMART function is enabled S Fn C G01 Enb Range OFF SMART algorithm is deactivated ON SMART algorithm is activated Set On or OFF to activate deactivate the SMART algorithm 5 29 02 11 59 AM Run time group 3 r Cxx ALARM THRESHOLD AND HYSTERESIS VALUE n m 1 Manual reset of the alarms r C01 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 2
25. see IN CT Feedback selection paragraph IN CT FEEDBACK SELECTION This instrument can use the IN CT input or the Feedback input the two inputs are not contemporarily The current transformer input allows you to measure and display the current running in a load driven by a time proportional control output during the ON and OFF periods of the output cycle time By this feature it is also available the Out failure detection function see page 66 The feedback input is used when the servomotor close loop or the servomotor open loop with valve position indication outputs is required 5 29 02 11 59 AM IL To select the desired input type set V301 see fig 20 as detailed in the following table Input v301 1 V301 2 v301 3 V301 4 ON OFF ON ON Feedback OFF ON OFF ON ON 1234 KY101 KY103 V101 OPTION CHECK This instrument can be supplied with many options Two integrated circuits 101 KY103 located as shown fig 22 and inserted in a socket give you the possibility to verify if your instrument is equipped with the desired option When KY101 is present the auxiliary input and the digital inputs are present When 103 is present the auxiliary power supply option is present Fig 22 23 1 0 65 23 5 29 02 11 59 _ Operative mode and Hardware lock 1 By V101 see fig 22 it is po
26. see fig 19 b shown in the following table D J103 INPUT TYPE A 60mV 5V 10V 20 1 2 open open close open open 3 4 open open close close open 5 6 open open open open close 7 8 open open open open close 5 7 close close open close open 6 8 close close open open open A MAN MENU FUNC Fig 19 b 20 Xkc 1 C0 P65 20 5 29 02 11 59 AM Baa 9102 V301 Fig 20 1 0 65 5 7 AUXILIARY INPUT SELECTION option Set J102 see fig 20 according to the desired input type as J103 wmm shown in the following table J102 INPUT TYPE 5V 10V 20 mA 1 2 close open open 3 4 close close open 5 6 open open close 7 8 open open close 5 7 open close open 6 8 open open open 34 21 21 5 29 02 11 59 OUTPUT 3 AND 4 SELECTION Output 3 and 4 can be set as 2 independent relay outputs 1 servomotor output with interlocked contact Set J204 see fig 21 and J205 see fig 20 according to the desired output type as shown in the following table 204 Fig 21 1 0 65 22 22 Output J 204 J205 Relay close open Servo open close NOTE when the servomotor close loop or the servomotor open loop with valve position indication outputs is required it will be necessary to set also V301
27. this selection allows you to monitor but The instrument will start in the same way it was prior to the power down configuration mode or run time mode not to modify the value assigned to the configura tion parameters If the instrument starts in configuration mode push the MENU no dF modify this selection allows you to monitor and pushbutton and go to the Configuration group 1 see page 30 to modify the value assigned to the configuration If the instrument starts in run time mode by keeping depressed parameters the MENU push button for more than 5 seconds the instrument NOTES will show 1 During monitor mode the instrument continues to operate as rm in run time mode LUM 2 When modify mode is started the instrument stops the control and po sets control outputs to OFF og turns OFF the bargraph displays MKC only NOTES sets analog retransmissions to the retransmitted initial 1 The upper display shows the selected parameter family scale value 2 The middle display shows the selected action sets alarms in no alarm condition 3 The lower display shows the firmware version sets events to OFF 4 If no push button is depressed for more than 10 s or 30s disables the serial link according to CnF 6 t out time out selection C 110 thetime out will be removed parameter setting the instrument returns automatically to the 3 When the modify mode is disabled by V101 V101 3 the A normal display
28. 1 when error occurs REA E Error condition on any measurement Logic level 1 when error occurs 5 29 02 11 59 AM Au A Auto manual mode annunciator Logic level 1 Event 3 function C H11 when device is in manual mode SP L r Local Remote set point annunciator Logic level This parameter will be available only when OUT 3 is configured 1 when remote set point is used as event annunciator O3 Fn C E03 is equal to Eun 3 Range In E Error condition Over Under Open Shrt on main input Logic level 1 when error occurs Cj Er Error condition on CJ measurement Logic level 1 when error occurs Event 2 contact status C H10 A In E Error condition Over Under Open on auxiliary input Logic level 1 when error occurs This parameter will be available only when OUT 2 is configured REA E Error condition on any measurement Logic as event annunciator O2 Fn C E02 is equal to Eun 2 level 1 when error occurs Range CLSd The output is at logic level 1 when contact is Au fiA Auto manual mode annunciator Logic level 1 closed when device is in manual mode OPEn The output is at logic level 1 when contact is SP L r Local Remote set point annunciator Logic level open 1 when remote set point is used 57 1 0 65 57 5 29 02 11 59 IC L Event contact status C H12 Thi
29. 31 W Close the valve A Open 5 55 137 l 14 Q o Shield Fig 15 SERVOMOTOR OUTPUT WIRING 5 29 02 11 59 AM The two relay output must be interlocked see chapter E 5 ANALOG OUTPUTS Preliminary hardware setting paragraph Out 3 and 4 selection NOTES 1 Before connecting the instrument to the power line make sure thatline voltage and the load current are in accordance with the contact rating 3A 250V AC on resistive load 2 To avoid electric shock connect power line at the end of the wiring procedure 3 For servomotor connections use No 16 AWG or larger wires rated for at last 75 C 4 Use copper conductors only 5 Don t run input wires together with power cables 6 For feedback potentiometer use shielded cable with the shield connected to the earth at one point only 7 The relay outputs are protected by varistor against inductive load with inductive component up to 0 5 A Fig 16 A OUTPUT 5 WIRING 16 1 0 65 16 5 29 02 11 59 Fig 16 B OUTPUT 6 WIRING NOTE 1 Do not run analog output wirings together with AC power cables 2 Out 5 and 6 are isolated outputs 3 The maximum load is equal to 600 1 0 65 F SERIAL INTERFACE RS 485 interface allows you to connect up to 30 devices with one remote m
30. 59 AM H A Ac High alarm outside band with automatic reset acknowledge L A Ac Low alarm inside band with automatic reset acknowledge H L High alarm outside band with manual reset L L Low alarm inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared Alarm 2 action r F07 This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C E02 ALr 2 Range dir direct action Relay energized or SSr 1 alarm condition Reverse action Relay energized or SSr 1 in non alarm condition 1 0 65 91 Alarm 2 stand mask function r F08 This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn 02 ALr 2 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 atthe instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed as a process alarm or control output 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 poi
31. FOR SSR DRIVE 24 Q OUT 1 25 SOLID STATE RELAY 27 Q OUT 2 28 Q SOLID STATE RELAY Fig 13 SSR DRIVE OUTPUT WIRING Logic level 0 Vout lt 0 5 V DC Logic level 1 14 V 20 20 24 V 20 1 mA Maximum current 20 mA 1 0 65 NOTE This output is not isolated A double or reinforced insulation between instrument output and power supply must be assured by the external solid state relay E 3 TRIAC OUTPUTS Line 24 OUT 1 Load 23 Line 27 OUT2 Load 26 Fig 14 TRIAC OUTPUT WIRING 14 5 29 02 11 59 AM Switching mode isolated zero crossing type Rated current from 50 mA to 1 A Rated voltage from 24 to 240 Va 10 15 50 60Hz Load type resistive load only NOTES 1 1 0 65 2 3 4 avoid electrical shock connect power line at the end of the wiring procedure For power connections use 16 AWG or larger wires rated for at last 75 C Use copper conductors only Don t run input wires together with power cables This output is not fuse protected Please provide it externally using a fuse with equal 10128 E 4 SERVOMOTOR OUTPUT Open the valve 29 Op Power Servo 30 9 motor
32. 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 1 0 65 108 108 Power consumption 15 VA max for PKC model 16 VA max for MKC model Isolation voltage 2600 V rms according to IEC 1010 1 Display updating time 500 ms Sampling time 125 ms for linear inputs 250 ms for TC and RTD inputs Resolution 30000 counts Accuracy 0 296 f s v 1 digit 25 C ambient tempera ture NOTE for TC type B the accuracy is guaranteed for temperature higher than 500 C 950 F Common mode rejection 120 dB 50 60 Hz Normal mode rejection 60 dB 50 60 Hz Electromagnetic compatibility and safety requirements This instrument is marked CE Therefore it is conforming to council directives 89 336 reference harmonized standard EN 50081 1 and EN 50082 2 and to council directives 73 23 EEC and 93 68 EEC reference harmonized standard EN 61010 1 Installation category 11 5 29 02 11 59 AM Temperature drift CJ excluded lt 200 ppm C of span for mV and TC ranges 3 4 7 18 19 22 T C lt 300 ppm C of span for mA V type lt 250 ppm C of span for TC range 1 2 5 6 8 9 10 14 16 Ranges External resistance 100 max maximum error 0 1 of span Cold junction automatic compensation from 0 to 50 C 150 1650 F DIN 43710 1977 a Cold junction
33. When one ol the logic input is configured as alarm reset both actions of rSt parameter and of the logic input are active Xkc 1 C0 P65 77 77 Alarm 1 threshold r C02 This parameter is available when alarm 1 is configured as process deviation main power output or secondary power output alarm A1 tP rF 01 Proc or dEV or Ain or SECn Range in engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm from 0 0 to 100 0 for control output alarm NOTE The span limits are configured by In L C d05 and In H C d06 1 11 Low threshold used when the alarm 1 isa band alarm r C03 This parameter is available only when the alarm 1 is configured as band alarm A1 tP rF 01 bAnd Range from 0 to 1000 digits 5 29 02 11 59 AM L 111 high threshold used when the alarm 1 is LI J 1 band alarm r CO4 This parameter is available only when the alarm 1 is configured as band alarm A1 tP rF 01 bAnd Range from 0 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 Alarm 2 threshold r C05 This parameter is available when alarm 2 is configured as process deviation main power output or secondary power output alarm A2 tP rF 05 Proc or
34. accuracy 0 1 C C 150 1830 F IEC 584 1 Input impedance gt 1 150 2500 F IEC 584 1 a Calibration according to IEC 584 1 and DIN 43710 1977 330 750 F IEC 584 1 330 1110 F DIN 43710 1977 17 20 21 23 24 25 29 L 1 100 900 C DIN43710 1977 lt 350 ppm C of span TC ranges 11 12 13 26 27 28 J 2 100 1000 C IEC 584 1 lt 500 of span for RTD K 3 100 1370 C IEC 584 1 Operative temperature from 0 to 50 C 32 to 122 F 4 200 400 584 1 Storage temperature 20 to 70 C 4 to 158 F U 5 200 600 DIN43710 1977 Humidity from 20 to 85 RH non condensing 6 100 800 584 1 N 7 100 1400 IEC 584 1 8 50 1760 IEC 584 1 9 50 1760 IEC 584 1 INPUTS B 10 0 1820 C IEC 584 1 A THERMOCOUPLE Type J K T E N S R B L U G D C Ni Ni 18 Mo 0 2500 C selectable C 13 0 2300 C 14 0 1200 C L J K T U E 150 1470 F 584 1 109 Xkc 1 C0 P65 109 5 29 02 11 59 AM Ranges type 22 150 2550 F IEC 584 1 S 23 60 3200 F IEC 584 1 24 60 3200 F IEC 584 1 25 32 3300 F IEC 584 1 G 26 0 4170 F D 27 0 4170 F C 28 0 4170 F Ni 29 0 2190 F NOT
35. after to apply the action selected by SC Cn Secondary control output conditioning C F12 parameter General note on configuration group 3 Exiting from the configuration group 3 the instrument automati cally tests the SPLt parameter Split range C F01 When SPLt parameter is enabled Enb the instrument performs the following actions 1 If AR UL parameter Output value for AUTO to MAN transfer C GO4 is lower than 0 it will be forced to 2 Ifthe SF UL parameter Output safety value C GO8 is lower than zero it will be forced to zero 3 Ifthe IP parameter Integral pre load r d05 is lower than zero it will be forced to 50 0 5 29 02 11 59 AM CnF 3 CONFIGURATION GROUP 4 C Gxx AUXILIARY CONTROL CONFIGURATION CZE Smart function C G01 This parameter will be available only when at least one control output is configured Range 45 Smart function disabled Enb Smart function may be enabled Control action type C G02 This parameter will be available only when at least one control output is configured Range Pid The process is controlled by PID actions Pi The process is controlled by PI actions Xkc 1 C0 P65 50 50 Manual function C G03 This parameter will be available only when at least one control output is configured Range 45 Manual function disabled Enb Manual function may be enabled 11 Output v
36. 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 output and it is possible to perform the same setting as above described 99 1 0 65 99 5 29 02 11 59 Run time group dF r Ixx DEFAULT RUN TIME PARAMETER LOADING LIV TI 1 LLL 1_ Default run time parameter loading 101 LLL Default run time parameter loading of all run time parameters all groups exception made for group 8 Range OFF No loading data On the run time parameters of all groups exception made for group 8 will be forced to their default values 1 0 65 100 Run time group Hd r Lxx HIDDEN PARAMETERS SMART LIMITS u LIF JI H NOTE This group is accessible from every group by keeping depress the MENU key for 8 secs Minimum value of proportional band calculated by SMART algorithm r LO1 This parameter is available only when smart function is configured Sfi Fn C G01 Range From 0 5 to Pb Hi r L02 NOTE The resolution on Pb Lo value will be equal to 0 1 up to 10 0 and 1 up to 999 0 5 29 02 11 59 AM Maximum value of proportional band i calculated by SMART algorithm r L02 This a is available only when smart function is configured S
37. configured SF Cn can be set as follows Std No safety value standard setting see chapter ERROR MESSAGES Cnd A When the instrument detects an overrange or underrange condition of the main input the servomotor is driven to its high limit position Cnd b When the instrument detects an overrange or 1 0 65 52 underrange condition of the main input the servomotor is driven to its low limit position Cnd C When the instrument detects an overrange or underrange condition of the main input the action on servomotor is the complement of standard setting L Output safety value C G08 This parameter will be available only when SF Cn C GO7 is equal to Ov Un OvEr or Undr or the parameter 5 Auxiliary input safety condition C d15 is equal to Range from 0 0 to 100 0 if device is configured with one control output from 100 0 to 100 0 if device is configured with two control outputs split range excluded 5 29 02 11 59 AM CONFIGURATION GROUP 5 C Hxx DIGITAL INPUT OUTPUT CONFIGURATION L rir Inve 1 ti _ Logic input 1 function C H01 Li Ur Range nonE Input contact not used SP1 2 Input contact used for SP SP2 set point selection see note 2 SP3 4 Input contact used for SP3 SP4 set point selection see note 2 SP L r Input contact used for Local Remote set point selection Remote whe
38. data saving in FRAM E 110 Error in FRAM handling E 500 Error during auto zero measurement E 501 Error during zero integrator measurement E 502 Error during reference junction measurement NOTE this error may be generated by an ambient temperature higher than 70 C 158 F or lower than 20 C 4 F When one of these errors is detected contact your supplier Two errors related with the preliminary hardware setting are detectable 3 wrong position of the V301 dip switch 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 most significant digit of the upper display Remake V101 or V301 setting 107 1 0 65 107 5 29 02 11 59 GENERAL INFORMATIONS GENERAL SPECIFICATIONS Case Polycarbonate black color self extinguishing degree V 0 according to UL 94 Front protection designed and tested for 65 and NEMA 4X for indoor locations when panel gasket is installed Test were performed in accordance with IEC 529 70 1 and NEMA 250 1991 STD Installation panel mounting Rear terminal block 32 screw terminals screw for cables from 0 25 to 2 5 mm or from AWG 22 to AWG 14 with connections diagram and safety rear cover Dimensions according to DIN 43700 48 x 96 mm depth 128 mm for PKC model 96 x 96 mm depth 128 mm for MKC model Weight 500 g for PKC model 600 g for MKC model
39. energized or SSR output status Range tfi 10 10s time out 1 tfi 30 30s time out SC OF Set Fd Fn to SC OF when the load under test NOTE for more details see NOTE 2 at page 26 is energized during the OFF status of the second ary output relay de energized or SSR output status 0 NOTE When the option is not fitted the middle display will show Out failure detection 111 no Pr This parameter will be available only when the option is fitted and the main and or the secondary output is configured as time proportional control output Range nonE Function not provided C On Set Fd Fn to when the load under test Primary current of the current transformer C 112 is energized during the ON status of the main This parameter will be available only when Fd Fn C 111 is output relay energized or SSR output status 1 different from C OF Set Fd Fn to C OF when the load under Range From 10 A to 100A test is energized during the OFF status of the main output relay de energized or SSR output status 0 Set Fd Fn to 5 when the load under test 1 0 65 62 62 5 29 02 11 59 1 Out failure detection output assignment A L C 3 This parameter will be available only when Fd Fn C 111 is different from nonE Range nonE The Out failure detection al
40. is shown on the two less significant digits The decimal point between the two values will be flashing NOTE the graphic symbol shows that the specific control output is gt 100 Whenever one of the two outputs is a servomotor type the instrument shows for this output the feedback position instead of the output in percent 5 29 02 11 59 AM b push the FUNC push button the lower display will show A followed by the current consumed by the load under test when the load is in ON condition see also OUT failure detection c Push FUNC push button again the lower display will show b followed by the leakage current running in the load under test when the load is in OFF condition see also OUT failure detection d Push FUNC push button again the lower display will show Fd followed by the OUT failure detection alarm status OF no alarm AL flashing alarm AL steady acknowledged alarm e Push FUNC push button again the lower display will show followed by the MAIN control output value in the range 0 0 19 0 for feedback to 99 9 shows that the control output is gt 100 0 or within the scale configured by C E L C F09 AC E H C F10 NOTE When the MAIN output is a servomotor type the instrument shows for this output the feedback position instead of the output in percent Xkc 1 C0 P65 67 67 f
41. mode or W push button pressure has no effect 29 1 0 65 29 5 29 02 11 59 MONITOR MODE MODIFY MODE During the run time mode it is possible to monitor but not modify 1 A or W push button select the modify mode all configuration parameters 2 Push the MENU push button When it is desired to verify the instrument configuration proceed If a security code is applied to the configuration parameter as follows the instrument will show 1 By A or Y push button select the monitor mode Ln 2 Push the MENU push button the display will show pae ERE sLrt 3 By A and 7 push button set a value equal to the security EST code assigned to the configuration mode see Configuration nr E security code at page 24 it shows that configuration group 1 is selected and it If the code is different from the security code the instrument encompass all the input parameters automatically returns to the first configuration display The configuration parameter Monitor mode follows the Modify otherwise the display will show mode sequence L LITTI NOTES 1 During monitor mode the instrument continues to operate Ki in run time mode Dr LL 2 During monitor mode if no push button is depressed for more than 10 s or 30 s according to t out C 110 parameter setting the instrument returns automatically to the normal display mode 30 Xkc 1 C0 P65 30 5 29 02 11 59 AM The modify mode is s
42. no Fb nonE AAin mA No filter Configuration group 2 C Exx VALUE NOTES If servo motor drive is not mounted If servo motor drive or linear output is mounted If option is not mounted If servo control motor drive is mounted If option is mounted If option is not mounted If option is mounted If feedback circuitry is mounted If feedback circuitry is not mounted If option is not mounted If option is mounted 5 4 20 4 20 O5 Lr 0 O5 Hr 1000 O5 FL 0 No filter O6 Fn nonE If option is not mounted PV rt If option is mounted O6 rn 4 20 4 20 mA O6 Lr 0 C O6 Hr 1000 O6 FL 0 No filter Configuration group 3 C Fxx PARAM VALUE NOTES SPLt 415 AC Gn 2 00 fiC bS 50 0 SC Gn 2 00 SC bS 0 0 fiC Cn norfi fi SCL nO C dP No decimal figure C E L 0 C E H 100 C A C bEFr SC Cn nor 5 29 02 12 00 PM S SCL SC dP SC E L SC E H SC A C PARAM S Fn Cn tP An F A UL A t t St Fn SF Cn SF UL d1 Fn d1 St d2 Fn d2 St d3 Fn d3 St 0 65 No decimal figure 0 100 bEFr Configuration group 4 C Gxx VALUE NOTES Enb Pld Enb buf buf Cnd b Std 0 0 Configuration group 5 C Hxx VALUE NOTES SP1 2 CLSd SP3 4 CLSd rSt CLSd E1 Fn E1 St E2 Fn E2 St E3 Fn E3 St 4 E4 St PARAM G brG O brG brG L brG H brG d SP AL SP dS Sr bH SS tr t out Fd Fn
43. o UUUUUUUUUUUUUUUUUU i H p 4 708 UUUUUUUUUUUUUUUUUU Gr i it oO 8 60 A nnnnnnnnnnnnnnnnnnmn 74 0 00 0 0000000000000 000000000000000000000 tf 128 16 Fig 2 OUTLINE AND CUT OUT DIMENSIONS FOR MODEL 2 Xkc 1 C0 P65 2 5 29 02 11 59 Fig 2 B 000000000000000000000 pm 000000000000000000000 OUTLINE AND DIMENSIONS FOR MODEL CONNECTION DIAGRAMS wN SMa Xnv vusz 91a 19 mE me gt 1 1 I 4 eS e YVANT 7 S9rSi sno BP 1 4 5 98 x 2 e x el 5 S s S e N e N N N N N N N gt eo gt 2 o 9 2 2 2 2 gt E 170 ZLNO 7 1 Lx tino vino MSS LINO YSS 2100 usb b avol avol
44. open loop servomotor control drive output is confi gured Range Fb The valve position is measured and displayed no Fb The valve position is not measured NOTE If the feedback option is not mounted this parameter will be forced to no Fb no feedback OUT 5 function C E07 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 NOTE When the option circuitry is not mounted the middle display will show not present 1 0 65 40 40 OUT 5 range C E08 This parameter will be available only when Out 5 is configured O5 Fn C E07 different from nonE Range 0 20 0 20 4 20 4 20 OUT 5 retransmission initial scale value LI LL C E09 This parameter will be available only when Out 5 function C E07 is configured as PV rt or SP rt Range From 1999 to 9999 NOTE Decimal point is positioned as previously selected at CnF 1 fi In d C d03 OUT 5 retransmission full scale value 1 C E10 This parameter will be available only when Out 5 function C E07 is configured as PV rt or SP rt Range From 1999 to 9999 NOTE Decimal point is positioned as previously selected at CnF 1 fi In d C d03 5 29 02 11 59 AM OUT 5 filter on the retransmitted value
45. point selection Auto manual selection 1 0 65 111 111 Output limiter activation Data Hold of the measured value Manual reset of the alarms acknowledge Reverse direct control action Input type Contact closure voltage free Active logic level Close or open programmable CURRENT TRANSFORMER INPUT FOR OUT FAILURE DETECTION The instruments equipped with this feature are capable by means of a CT to detect and signal a possible failure of the line driven by a control output programmed as a time proportioning output see OUT failure detection Input range 50 mA AC Scaling programmable from 10 A to 100 A with 1 A step Resolution for full scale up to 25 A 0 1 A for full scale from 26 A to 100 A 1 A Minimum duration of the period ON or OFF to perform the measurement 120 ms 5 29 02 11 59 AM SET POINTS This instrument allows to use up to 4 set points SP SP2 SP3 and SP4 The set point selection is possible only by logic input Set point transfer The transfer between one set point to another or between two different set point values may be realized by a step transfer or by a ramp with two different programmable rates of change ramp up and ramp down Slope value 1 200 eng unit min or step Set points limiter rL r E12 and rH r E13 parameters program mable CONTROL ACTIONS Algorithm PID SMART Types one control output digital or analog output
46. 1 Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable fiAin Alarm on Main control output value SECn Alarm on Secondary control output value NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared 89 1 0 65 89 Alarm 1 configuration r F02 This parameter available only when OUT 1 is configured as alarm 1 output O1 Fn C E01 ALr 1 Range H A High alarm outside band with automatic reset L A Low alarm inside band with automatic reset H A Ac High alarm outside band with automatic reset and acknowledge L A Ac Low alarm inside band with automatic reset and acknowledge H L High alarm outside band with manual reset LL Low alarm inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared 5 29 02 11 59 AM Alarm 1 action r F03 This parameter is available only when OUT 1 is configured as alarm 1 output O1 Fn C E01 ALr 1 Range dir direct action Relay energized or 55 1 alarm condition Reverse action Relay energized or SSr 1 in non alarm condition nar JT L IL This parameter is available only when OUT 1 is configured as alarm 1 output O1 Fn C E01 ALr 1 Range OFF Stand by function di
47. 100 0 of the output Hysteresis programmable from 0 1 to 20 0 Alarm on the secondary output value It is possible to obtain an alarm condition when the secondary control output is lower or higher than a programmed value Operative mode Minimum or maximum programmable Threshold programmable from 0 1 to 100 0 of the output Hysteresis programmable from 0 1 to 20 0 Xkc 1 C0 P65 116 EVENTS All digital outputs are programmable as events In this case they are used as input error annunciator or as instrument status indicator Event type Error condition on the main input overrange underrange open or short circuit Error condition on the auxiliary input Error condition on both inputs Auto Man mode annunciator Local remote set point annunciator AUXILIARY POWER SUPPLY Type 24 V DC 20 not isolated Max current 25 mA 116 5 29 02 11 59 AM SERIAL INTERFACE Types RS 485 isolated Protocol type MODBUS JBUS Baud rate programmable from 600 to 19200 BAUD Byte format 8 bit Parity even odd or none programmable Stop bit one Address from 1 to 255 Output voltage levels according to 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 device
48. 2 This parameter is available when the open loop servomotor control drive output is configured O3 Fn C E03 is equal to AC SA or SC SA and SA tP C E05 are equal to Range from 0 12 to 3 00 m ss 5 29 02 11 59 AM L Servo motor dead band r E03 This parameter is available when the servomotor control drive output is configured O3 Fn C E03 is equal to AC SA or SC Sf Range from 1 to 50 Main control output low limit r E04 1 J LL This parameter is available when one control output is configured as main output Range from 0 0 of the output span to fi OLH r E05 Main control output high limit 05 FLLIL This parameter is available when one control output is configured as main output Range from fi OLL r E04 to 100 0 of the output span 1 0 65 85 Main control output max rate of rise r E06 This parameter is available when one control output is configured as main output 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 transfert from AUTO to MANUAL if this action is programmed as a not bumpless transfer the r P function will be ignored and the output will step up to the value set by AR UL C G04 paramete
49. 5 29 02 11 59 AM j 1_ Alarm standby mask function r F12 This parameter is available only when OUT 3 is configured as alarm output O3 Fn C E03 ALr 3 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 atthe instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed as a process alarm or control output 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 1 0 65 93 93 Alarm 4 type r F13 This parameter is available only when OUT 4 is configured as alarm 4 output O4 Fn C E04 ALr 4 Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable AAin Alarm on Main control output value SECn Alarm on Secondary control output value NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared Alarm 4 configuration r F14 This parameter is available only when OUT 4 is configured as alarm 4 ou
50. 83 83 Relative secondary output gain r d06 This parameter is available when two control outputs are configured split range excluded and Pb r d01 is different from 0 Range from 0 20 to 2 00 Overlap dead band between main and LL secondary outputs r d07 This parameter is available when two control outputs are configured split range excluded and Pb r d01 is different from 0 Range from 20 to 50 NOTE A negative value means a dead band while a positive value means an overlap Control action r d08 Range rEv reverse action dir direct action 5 29 02 11 59 AM REVERSE ACTION DIRECT ACTION Input Input 1 t Output 1 t NOTES 1 When device is configured with two control outputs split range excluded the control action is forced to reverse and it cannot be modify 2 When direct reverse selection is performed by a logic input this parameter allows you to monitor the current selected action only Output Ji LU L Range OFF No loading data ON Loading data Group 4 default data loading r d09 Xkc 1 C0 P65 84 84 Run time group 5 r Exx AUXILIARY CONTROL PARAMETER E LI 2 REEF Anti reset wind up r E01 This parameter is available when at least one control output is configured and Pb r d01 is different from 0 Range from 10 to 200 of the input span L L Servo motor travel time r E0
51. 9 5 29 02 11 59 AM Fig 9 c LOGIC INPUTS IN 5 6 7 and 8 WIRING NOTES 1 Do not run logic input wiring together with power cables 2 Use an external dry contact capable of switching 0 5 mA 5 V DC 3 The instrument needs 110 ms to recognize a contact status variation 4 The logic inputs are NOT isolated by the measuring input double or reinforced insulation between instrument output and power supply must be assured by the external element 1 0 65 45 5 46 e IN6 47 e IN 7 48 e IN 8 49 e D CURRENT TRANSFORMER INPUT 14 15 Current transformer Load Fig 10 CURRENT TRANSFORMER INPUT WIRING This input allows you to measure and display the current running in the load driven by a time proportional control output during the ON and OFF periods of the output cycle time By this feature itis also available the Output failure detection function see page 66 5 29 02 11 59 AM NOTES 1 This input is not isolated from measuring input A double or reinforced insulation between instrument output and power supply must be assured by the external element 2 Do not run current transformer input wiring together with AC power cables 3 The minimum active period to perform this measurement is equal to 120 ms 4 The input impedance is equal to 20
52. C 103 69 1 0 65 69 5 29 02 11 59 OUT FAILURE DETECTION FUNCTION OFD The device is capable to measure and display the current running in a load driven by a time proportional control output main or secondary programmable when the load is energized the leakage current flowing through the load when the load is de energized If the instrument has been correctly set it generates an alarm when the current running in the load when the load is energized is lower than the A L Fd 14 parameter value It shows a partial or total break down of the load the break down of the actuator a power down due to a protection or a fuse intervention the leakage current when the load is de energized is higher than the A H Fd r C15 parameter value It shows a short circuit of the actuator The Display function paragraph describes how to show the two current values The fault condition is shown on the lower display by the Fd AL indication AL may be flashing or steady on in accordance with acknowledge condition and by the status of the assigned output Ifthe ON or OFF period is lower than 120 ms the relative measurement couldn t be performed and the instrument will show flashing the last measured value Xkc 1 C0 P65 70 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 m
53. E for TC type B the accuracy is guaranteed for tempera ture higher than 500 C 950 F B RTD Resistance Temperature Detector Input for RTD Pt 100 O 3 wire connection C F selectable Measuring current 140 pA typical Line resistance automatic compensation up to 20 O wire with no measurable error 1 0 65 110 110 STANDARD RANGES TABLE Input type Ranges RTD Pt100Q 15 200 850 IEC 751 30 330 1560 F C LINEAR INPUTS Read out keyboard programmable between 1999 and 9999 Decimal point programmable in any position STANDARD RANGES TABLE Input type impedance 37 0 60 mV 38 12 60mV ZAME 31 0 20 32 4 20 S 20 5 gt 200 S 5 29 02 11 59 AUXILIARY INPUT Type NOT isolated linear input Function Programmable as remote set point input or bias on the local set point Read out keyboard programmable between 1999 and 9999 Temperature drift lt 300 ppm Sampling time 500 ms STANDARD RANGES TABLE Inputtype impedance Accuracy 0 20 4 20 mA lt s 0 5 V 0 2 1 digit 200 1 5 V 25 0 10 V 2 10 V gt 400 LOGIC INPUTS The instrument may be supplied with 3 logic inputs each one of them can be programmed as Set point selection SP SP2 Set point selection SP3 SP4 Local remote set
54. ENTS Screw Select a location for instrument mounting where minimum vibrations are present and the ambient temperature is within 0 and 50 C 32 and 122 F The instrument can be mounted on a panel up to 15 mm thick with a cutout of 92 x 45 mm PKC or 92 x 92 MKC For outline and cutout dimensions refer to Fig 2 The surface texture of the panel must be better than 6 3 umm The instrument is shipped with rubber panel gasket 50 to 60 Sh To assure the IP65 and NEMA 4 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 turn the screws with a torque between 0 3 and 0 4 Nm Fig 1 Gasket Panel bracket Screw 1 0 65 1 bracket Gasket bracket Panel 5 29 02 11 59 AM OUTLINE AND CUT OUT DIMENSIONS 15 max 1 5 gt y ge Eg ns ee Fo
55. F F 31 Linear From Oto 20 mA 32 Linear From 4to 20 mA 33 Linear From 0 to 5 V 34 Linear From 1 to 5 V 35 Linear From 0 to 10 V 36 Linear From 2 to 10 V 37 Linear From 0 to 60 mV 38 Linear From 12 to 60 mV For these ranges it is possible to select a read out with one decimal figure but the instrument could not display a measure lower than 199 9 or higher than 999 9 and the input range will be limited by it NOTES 1 When a linear input is selected the instrument set automati cally the readout initial scale value C d05 equal to 0 and the readout final scale value C d06 equal to 4000 2 When input type has been changed the instrument automatically forces the fi In L C d05 SS th C 109 and brG L C 103 parameters to the new initial scale value the fi In H C d06 and brG H C 104 parameter to the new final scale value and the fi In d C d03 parameter to no decimal figure 33 1 0 65 33 Decimal point position C d03 Ranges 7777 no decimal figure 777 7 one decimal figure 77 77 two decimal figures 7 777 three decimal figures NOTES 1 For main input type 1 to 6 15 and 30 only the no decimal figure and one decimal figure are selectable the input range is limited within 199 9 and 999 9 and it acts as an input type changement 2 For main input type 7 to 14 and 16 to 29 this parameter is not available 3 For linear input types f
56. Fd Ac rEV tOL Inf E A A 3 Xkc AA0 p65 3 5 29 02 12 00 PM Run time group 7 r Gxx PARAMETER DEFAULT VALUE S L Pr bUS S L Ad 1 S L bd 19 20 S L bF 8 Run time group 8 r Hxx The default calibration data are the complete potentiometer travel AFTER THE DEFAULT DATA LOADING OF THIS GROUP IT IS NECESSARY TO PERFORM THE PROPER CALIBRATION Run time group Hd r Lxx PARAMETER DEFAULT VALUE Pb Lo 1 0 Pb Hi 300 0 ti Lo 00 20 mm ss ti Hi 20 00 mm ss rG CL OFF Xkc AA0 p65 4 DEFAULT CONFIGURATION PARAMETERS A complete and consistent set of configuration parameters is memorized in the instrument 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 rower L LITTI nant nnn NOTE If push button is depressed for more than 10 s or 30 S according to CnF 6 t out time out selection C 110 parameter setting the instrument returns automatically to the normal display mode By A or push button select odF 5 29 02 12 00 PM _ 5 1 When modify mode is started the instrument stops the con
57. H Read out full scale value C d06 Bargraph full scale value 104 60 1 0 65 60 1 _1 Resolution of the deviation bargraph C 105 This parameter will be available only for MKC models when G brG C 101 is equal DEV Range 1 2 5 10 20 or 50 Digits per segment Operative set point alignment at start up IL C 106 Range ALG At start up the operative set point is aligned to measure value and then it will reach the Selected set point with the programmed ramp Grd1 r E14 and Grd2 r E15 n ALG At start up the operative set point is equal to the Selected set point NOTE The ALG selection has no effect when the measure is in error condition or Remote Set point is selected 5 29 02 11 59 AM L Set point display type 107 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 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 NOTE This selection has effect only when local set points are used Servomotor behaviour when the output power is limited C 108 This parameter will be available only when the close loop servomotor control drive is configured Range When the PID output reaches the specific output limits Main control out
58. NOTES 1 Don t run input wires together with power cables 2 For TC wiring use proper compensating cable preferable shielded 3 When a shielded cable is used it should be connected at one point only 5 29 02 11 59 AM A 2 RTD INPUT A 3 LINEAR INPUT RTD RTD f ST UN J 7 Fig 5 RTD INPUT WIRING NOTES 1 Don t run input wires together with power cables Fig 6 mA mV AND V INPUTS WIRING 2 Pay attention to the line resistance a high line resistance may cause measurement errors NOTES 3 When shielded cable is used it should be grounded at one 1 Don t run input wires together with power cables side only to avoid ground loop currents 2 Pay attention to the line resistance a high line resistance may 4 The resistance of the 3 wires must be the same cause measurement errors Xkc 1 C0 P65 6 5 29 02 11 59 AM 3 When shielded cable is used it should be grounded at one side only to avoid ground loop currents 4 The input impedance is equal to lt 5 Q for 20 mA input gt 1 for 60 mV input gt 200 kO for 5 V input gt 400 kO for 10 V input A 4 2 3 AND 4 WIRE TRANSMITTER INPUT Shield Shield Fig 7 INPUTS WIRING FOR 3 WIRE TRANSMITTER Fig 7 A INPUTS WIRING FOR 2 WIRE TRANSMI
59. Push FUNC push button again the lower display will show S followed by the SECONDARY control output value in the range 0 0 19 0 for feedback to 99 9 shows that the control output is gt 100 0 96 or within the scale configured by SC E L C F15 and SC E H C F16 NOTE When the secondary output is a servomotor type the instrument shows for this output the feedback position instead of the output in percent g Push FUNC push button again the lower display will show the value of the auxiliary input if configured Pushing FUNC push button again the display will come back to the control output value indication All the seven types of visualization are not bound to a time out unless OFD output failure detection is in not acknowledged alarm condition In this situation the instrument forces the indication described at point d and if a different indication is required it restores this indication after time out see t out C 110 5 29 02 11 59 AM NOTES 1 The previous informations will be displayed only if the relative function has been previously 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 C Litwhen process variable is in Celsius degree F Litwhen process variable is in Fahrenheit degree ST Flashing when the fi
60. TION and brG H C I04 The PV LED located on the base of the bargraph is lit On MKC model only two 33 LED s bargraphs are available The deviation error PV SP with resolution configured at brG d C 105 On the right bargraph with orange LED s it is possible to show The DEV LED located on the top of the bargraph is lit the operative set point scaled as configured by brG L C 103 When the deviation error indication is selected the central and brG H 104 LED which is a two color LED become orange It devides The SP LED located on the base of the bargraph is lighted the bargraph is two parts the positive error is shown on the the power output value upper part while the negative error is shown on the lower part The 96 LED located on the top of the bargraph is lit The last LED will flash if deviation is out of range When the device has two process outputs the central LED which is a two color LED become 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 If a process output is a servomotor type the bargraph will show the valve position instead of the power output the first or last LED s is flashing when the feedback position is out of range 0 100 On the left bargraph with green LED s it is possible to show the process variable scaled as configured by brG L
61. TTER Xkc 1 C0 P65 7 5 29 02 11 59 AM Fig 7 C INPUTS WIRING FOR 4 WIRE TRANSMITTER NOTES 1 Don t run input wires together with power cables 2 Pay attention to the line resistance a high line resistance may cause measurement errors 3 When shielded cable is used it should be grounded at one side only to avoid ground loop currents 4 The input impedance is lower than 5 Q 20 mA input 1 0 65 8 AUXILIARY INPUT Fig 8 AUXILIARY INPUT WIRING NOTES 1 This input is not isolated from measuring input A double or reinforced insulation between instrument output and power supply must be assured by the external instrument 2 Don t run input wires together with power cables 3 Pay attention to the line resistance a high line resistance may cause measurement errors 5 29 02 11 59 AM 4 When shielded cable is used it should be grounded at one side only to avoid ground loop currents 56 5 The input impedance is equal to N1 lt 5 Q for 20 mA input gt 200 KQ for 5 V input 57 e gt 400 kO for 10 input IN2 58 e C LOGIC INPUT IN3 59 e DIG 1 N4 8 60 e DIG 2 9 e DIG 3 Fig 9 B LOGIC INPUTS IN 1 2 3 and 4 WIRING 10 e 11 Fig 9 A LOGIC INPUTS DIG 1 2 and 3 WIRING Xkc 1 C0 P65
62. UAL mode it allows you to increase the output value 5 29 02 11 59 AM 0 During parameter modification it allows you to decrease the value of the selected parameter During MANUAL mode it allows to decrease the output value 4 1 RSP allows to toggle from Local set point to Remote set point or viceversa when depressed for more than 1 sec W MENU used to start the lamp test function the command is accepted when push button are kept depressed for more than 5 s and device is in normal display mode A FUNC or W FUNC During parameter modification they allow you to increase decrease the value under modification with higher rate or W MAN During parameter modification they allow you to jump to the max or min programmable value 1 0 65 28 NOTES 1 All the actions explained above which requires two or more push buttons must follow exactly the push button sequence shown 2 10 or 30 seconds time out see t out 110 can be selected for parameter modification 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 eventual modification of the last parameter will be lost 28 5 29 02 11 59 AM CONFIGURATION MODE or push button it is possible to select between Switch on the instrument 26 Orie monitor
63. UNCTION 37 LnFr LINE FREQUENCY 30 BSFL OUT 5 FILTER ON THE AAEE MANUAL AUTO TRANSFER TYPE 48 RETRANSMITTED VALUE 39 A Ind DECIMAL POINT POSITION OSFr OUT 5 FUNCTION 38 inH READOUT FULL SCALE VALUE OSH OUT 5 RETRANSMISSION Aint READOUT INITIAL SCALE VALUE FULLESCALE VALUE 38 in5 SQUARE ROOT EXTRACTION OSL OUT 5 RETRANSMISSION FOR MAIN INPUT INITIAL SCALE VALUE 38 A inb MAIN INPUT TYPE AND RANGE 8 OUT5 RANGE ASEL MAIN CONTROL OUTPUT IN ENG UNIT OUT 6 FILTER ON THE FARE MANUAL FUNCTION RETRANSMITTED VALUE 40 MAIN CONTROL OUTPUT AUXILIARY QUT 6 FUNCTION u u u rh nena ih uuu 39 CONDITIONING 45 OUT 6 RETRANSMISSION AES MAIN CONTROL OUTPUT BIAS 42 FULL SCALE VALUE 39 ALEn MAIN CONTROL OUTPUT CONDITIONING 43 051 OUT 6 RETRANSMISSION CONTROL OUTPUT DECIMAL POINT INITIAL SCALE VALUE 39 usan aulas 44 05 OUT 6 RANGE
64. ading data ON Loading data 95 5 29 02 11 59 AM Run time group 7 r Gxx SERIAL LINK PARAMETER 3 LIV I Lg rur rinm ALII Range OFF No serial interface bUS Modbus jbUS Jbus NOTE When serial interface circuit is not mounted the middle display will show no Pr Serial interface protocol r G01 1 Serial link device address r G02 2 710 This parameter is available only when S L Pr r GO1 is different from OFF Range from 1 to 255 1 0 65 96 96 1 Serial link baud rate r G03 This parameter is available only when S L Pr r GO1 is different from OFF Range from 600 to 19200 baud 19200 baud is shown on display as 19 20 Serial link byte format r G04 L LU This parameter is available only when S L Pr r GO1 is different from OFF Range 8 8 bits without parity 8bE 8bits even parity 80 8bits odd parity Group 7 default data loading r G05 LLL Range OFF No loading data ON Loading data 5 29 02 11 59 AM Run time group 8 r Hxx FEEDBACK POTENTIOMETER ADJUSTMENT re H LI H F LL NOTE The run time group 8 will be displayed only if the instrument is in MANUAL mode Feedback potentiometer adjustment L IL enabling r H01 This parameter is available only when close loop servomotor output or open loop servomotor output with valve positi
65. alue for AUTO to MAN transfer JL C G04 This parameter will be available only when at least one control output is configured and manual function is enabled An F C G03 Enb Range from 0 0 to 100 0 6 of the output span if device is configured with only one control output from 100 0 to 100 0 of the output span if device is configured with two control outputs split range excluded Above the value 100 0 the display shows bu meaning that the transfer from AUTO to MANUAL is bumpless the instrument set for MANUAL mode the same power output used in AUTO mode 5 29 02 11 59 AM NOTES 1 When open loop servomotor control drive without valve position indication is configured this parameter is forced to bu and it cannot be modified 2 When open loop servomotor control drive with valve position indication is configured and the transfer from AUTO to MAN is required the instrument is able to reach the value programmed by this parameter using temporarily the valve position value as a feedback MANUAL to AUTO transfer type C G05 This parameter will be available only when at least one control output is configured and manual function is enabled An F C G03 Enb Range buf Bumpless balance transfer bu b Bumpless balanceless transfer the operative set point is aligned to the measure value NOTES 1 The alignment is not performed if measure is in e
66. arm is signalled only on display OUt 1 The Out failure detection alarm is signalled on OUT 1 OUt 2 The Out failure detection alarm is signalled on OUT 2 OUt 3 The Out failure detection alarm is signalled on OUT 3 OUt 4 The Out failure detection alarm is signalled on OUT 4 NOTE Out failure detection alarm annunciator cannot be assigned to an output just configured as control output o Xkc 1 C0 P65 63 63 CONFIGURATION GROUP 7 C Lxx INPUT OUTPUT TEST Z 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 OUTA 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 OUT19 if the optional I O card is fitted When an output is in On status the related LED will light up 5 29 02 11 59 AM CnF 7 Xkc 1 C0 P65 64 C L01 OUT 1 status Upper display VErF Lower display OU 1 Range On Output enabled relay energized OFF Output disabled relay deenergized NOTE By pushing the A or key it is possible to change the output state The setting above described is the same for the remaining outputs C L02 OUT 10 status This parameter is available only if the optional card is fitted Upper display VErF Lower display OU 10 Range Output enabled relay energized OFF Output disabled relay deen
67. aster unit 1 P 22 A A A A T A R B B B B s U 21 T M E E COMMON R N 120 T Fig 17 RS 485 WIRING NOTES 1 The cable length must not exceed 1 5 km at 9600 BAUD 2 This serial interface is isolated 3 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 respectto the B terminal for a binary 1 MARK or OFF state 5 29 02 11 59 AM b The A terminal of the generator shall be positive with G POWER LINE WIRING respect to the B terminal for a binary 0 SPACE or ON 4 The EIA standard establishes that by RS 485 interface it is possible to connect up to 30 devices with one remote master N L2 unit 32 The serial interface of these instruments is based on High POWER LINE 100 V to input impedance transceivers this solution allows you to 240 V A C 50 60Hz connect up to 127 devices based on the same transceiver or 24 V AC DC type with one remote master unit 33 L L1 Line Neutral Fig 18 POWER LINE WIRING NOTES 1 Before connecting the instrument to the power line make sure that line voltage corresponds to the description on the identifica tion label 2 To avoid electrical shock connect power line at the end of the wiring procedure 3 For sup
68. at last 75 C 3 Use copper conductors only 4 Don trun input wires together with power cables 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 using relay output for driving inductive loads INDUCTIVE LOADS High voltage transients may occur switching inductive loads Through the internal contacts these transients may introduce disturbances which can affect the performance of the instru ment 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 12 1 0 65 13 LOAD Fig 12 EXTERNAL SWITCH IN SERIES WITH THE INTER NAL CONTACT In this case it is recommended to install an additional RC network across the external contact as show in Fig 12 The value of capacitor C and resistor R are shown in the following table LOAD C P OPERATING mA uF VOLTAGE 40 0 047 100 1 2 260 V AC lt 150 04 22 2 260 V AC 05 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 5 29 02 11 59 AM E 2 VOLTAGE OUTPUTS
69. at logic level 1 when contact is LI This parameter will be available only when input contact option is fitted closed open Logic input 3 function C H05 Range Input contact not used SP1 2 Input contact used for SP SP2 set point SP3 4 Input contact used for SP3 SP4 set point SP L r Input contact used for Local Remote set point selection Remote when logic level is 1 Au fiA Input contact used for Auto Manual selection O LI Input contact used for output limiter activation 1 0 65 selection see note 2 selection see note 2 Manual when logic level is 1 Output limited when logic level is 1 55 Hold Input contact used to stop input sampling Hold function Stop sampling when logic level is 1 rSt Input contact used to reset acknowledge alarm Reset when logic level is 1 rE dr Input contact used for Reverse Direct control action selection Direct when logic level is 1 NOTE See also NOTE 2 of the d1 Fn Logic input 1 function C H01 parameter Logic input contact status C H06 This parameter will be available only when d3 Fn 5 is different from 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 5 29 02 11 59 AM CnF 5 Event 1 function C H07 Z AE L Ur This
70. available only when secondary control output is configured 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 71 Secondary control output decimal point position C F14 This parameter will be available only when S SCL Secondary control output in engineering units C F13 is set to YES Range 7777 decimal figure 777 7 One decimal figure 77 77 Two decimal figures 5 29 02 11 59 AM Secondary control output initial scale value C F15 This parameter will be available only when S SCL Secondary control output in engineering units C F13 is set to YES Range from 199 to 999 Secondary control output full scale value C F16 This parameter will be available only when S SCL Secondary control output in engineering units C F13 is set to YES Range From 199 to 999 Secondary output auxiliary conditioning C F17 This parameter will be available only when secondary control output is configured and SC Cn Secondary control output conditioning C F12 is different from Range bEFr The functions listed at Note are calculated before to apply the action selected by 5 Secondary control output conditioning C F12 parameter 1 0 65 49 AFtr The functions listed at Note are calculated
71. dware lock at pag 22 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 SMART ALARMS etc DISPLAY FUNCTION When device is powered and is operating in automatic mode the upper display shows the process variable the value will be flashing if device is in hold status and the middle display shows the set point value final or operative according to SP dS C 107 parameter setting We define the above condition as normal display mode The lower display will show a at instrument start up the control output value the LED is lighted 66 1 0 65 66 NOTES In accordance with the configured output type the control output can be displayed in the following ways a 1 If the device is configured with servomotor control drive only the feedback position value is displayed in the range 19 0 to 120 0 the display is blank if open loop servomotor without valve position indication has been programmed a 2 If the device is configured with one control output linear or time proportional the control output value is displayed in the range 0 to 100 a 3 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
72. e run time hidden groups are ever protected by security code 5 29 02 11 59 AM Run time groups protected by security code The display will show I rr r this parameter it is possible set if the run time group 1 will be protected or not by the run time security code and push button set Gr1 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 NOTE the above described selection may be repeated for all groups of the run time mode 1 0 65 26 26 Configuration security code The display will show 1 5EnF Note the middle display shows the actual status of the configuration security code 0 1 or On By and 7 push button set S CnF parameter as follows 0 No protection it is ever possible to modify all configuration parameters 1 ever protected it is never possible to modify a configuration parameter from 2 to 250 security code for configuration parameter protection NOTE the selected value of a security code cannot be displayed anymore and coming back on the S CnF parameter the display will show On when S CnF is different from 0 or 1 0 when S CnF is equal to 0 1 when S CnF is e
73. e only when the split range is enabled SPLt C F01 Enb Range from 100 0 to 100 0 of the output span Secondary control output C F04 y xdi This parameter will be available only when the split range is enabled SPLt C F01 Enb Range from 0 50 to 5 00 45 Xkc 1 C0 P65 45 1 Secondary control output bias C F05 This parameter will be available only when the split range is enabled SPLt C F01 Enb Range from 100 0 to 100 0 6 of the output span Main control output conditioning C F06 This parameter will be available only when main control output is configured Range nor The control output is calculated by the PID C PL The control output is complemented 100 PID calculated value The control output is conditioned to match a QUICK OPENING flow characteristic Eou control output is conditioned to match EQUAL PERCENTAGE flow characteristic Ouic NOTE about output conditioning Sometimes non linear valves are used where a linear valve is suitable In these cases it is advisable to linearize the ratio between flow rate and valve travel in order to obtain a better control of the process 5 29 02 11 59 AM CnF 3 tics Quick opening Equal percentage This instrument allows you to select an output linearization in accordance with the two most common valve flow characteris
74. e to start the configuration parameters modification For configuration parameters an hardware lock is also available 5 29 02 11 59 AM Security code setting 1 Remove the instrument from its case 2 Set the internal dip switch V101 as follows V101 1 OFF V101 2 ON V101 3 OFF V101 4 OFF 3 Re insert the instrument 4 Switch on the instrument The display will show E E 11 upper display shows that the security code setting mode is selected while the lower display shows the firmware version 5 Push the FUNC pushbutton 1 0 65 25 25 Run time security code The display will show 5run Note the middle display shows the current status of the run time security code 0 1 or On and push button set S run parameter as follows 0 No protection it is ever possible to modify all run time parameters 1 ever 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 back to the S run parameter the display will show On when S run is different from 0 or 1 0 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 th
75. ed t3 3 m tC imn in im 5 rx 3i rr Run time Menu hidden SMART LIMIT VALUE 95 ALARM 1 HYSTERESIS enne ALARM 2 HYSTERESIS ALARM HYSTERESIS ALARM 4 HYSTERESIS HYSTERESIS INTEGRAL PRE LOAD MAIN CONTROL OUTPUT HIGH LIMIT MAIN CONTROL OUTPUT LOW LIMIT 81 MAIN CONTROL OUTPUT MAX RATE OF RISE 81 MANUAL RESET ACKNOWLEDGE OF TEE ALARMS eicere et ctt 73 MAIN OUTPUT CYCLE TIME 81 DEAD BAND OVERLAP BETWEEN MAIN AND SECONDARY OUTPUT 79 PROPORTIONAL BAND tns 78 MAX VALUE OF PROPORTIONAL BAND CALCULATED BY THE SMART ALGORITHM 96 MIN VALUE OF PROPORTIONAL BAND CALCULATED BY THE SMART ALGORITHM 96 POSITIONING OF SERVO AT HIGH LIMIT 94 POSITIONING OF SERVO AT LOW LIMIT 93 RELATIVE SECONDARY OUTPUT GAIN 79 5 29 02 12 01 PM 0 65 RELATIVE GAIN OF THE SECONDARY OUTPUT CALCULATION BY SMART ALGORITHM SETPOINT HIGH LIMIT ces SETPOINT LOW LIMIT SERIAL LINK DEVICE ADDRESS SERIAL LINK BAUDE RATE SERIAL LINK BYTE FORMAT T SERIAL INTERFACE PROTOCOL 92 SECONDARY CONTROL OUTPUT HIGHLIMIT i
76. ed together with the same rear terminal 2 When OUT 3 and 4 are used as independent relay outputs the addition of the two currents must not exceed 3 A Servomotor output Type Two relays with interlocked contact Out 3 and 4 Servomotor output type Close loop Open loop with feedback for valve position indication only Open loop without feedback Feedback potentiometer input from 100 to 10 Servomotor travel time From 12 5 to minutes Servomotor dead band From 1 to 50 of the feedback span or of the valve travel time Analog outputs Out 5 and 6 Function Programmable as Control output Analog retransmission of the measured value 5 29 02 11 59 AM Analog retransmission of the operative set point Output type Isolated output programmable as 0 20 mA 4 20 mA Scaling programmable from 1999 to 9999 Maximum load 600 Accuracy 0 1 when it is used as control output 0 05 when it is used as analog retransmission Note a too little range scaling can deteriorate the output accuracy 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 8s Additional 5 5 outputs OUT10 to 19 Function singularly programmable as Event output Type Relay Relay type SPST Contact rating 0 5 A 250 V on resistive load Note The commons of the out 10 to 14 connected together with t
77. ergized NOTE By pushing the A or key it is possible to change the output state The setting above described is the same for the remaining outputs 64 C L03 Digital input dIG 1 status Upper display VErF Lower display dIG 1 Range Open Input open CLSd Input closed NOTE The setting above described is the same for the remaining inputs C L04 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 Input closed NOTE The setting above described is the same for the remaining inputs 5 29 02 11 59 AM General note for configuration group VErF CONFIGURATION GROUP END C Lxx Returning in the run time mode the instrument restarts to END CONFIGURATION ee control the process the settings performed into this group do not This group will be displayed only when configuration modify 6 affect the working settings mode is enabled L LIT 1 End Range nO with this selection the instrument comes back to the first display of the configuration modify mode 1 0 65 YES this selection terminate the configuration modify mode the instrument preforms an automatic reset and restarts the run time mode Pushing A or W push button select the desired action and then push MENU push button 65 65 5 29 02 11 59 AM RUN TIME MODE If V101 is correctly set see Operative mode and har
78. he terminal 66 while the commons of the output 15 to 19 are connected with terminal 55 1 0 65 115 115 ALARMS Alarm action direct or reverse function programmable Alarm functions each alarm can be configured as process alarm band alarm deviation alarm alarm on main or secondary control output value Alarm reset 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 Band alarm Operative mode Inside or outside programmable Threshold two thresholds programmable Low from 0 to 1000 digits High from 0 to 1000 digits Hysteresis programmable in engineering units from 1 to 200 digits 5 29 02 11 59 AM 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 Alarm on the main output value It is possible to obtain an alarm condition when the main control output is lower or higher than a programmed value Operative mode Minimum or maximum programmable Threshold programmable from 0 1 to
79. i In d C d03 OUT6filter on the retransmitted value L 16 This parameter will be available only when OUT 6 is configured as process variable retransmission O6 Fn C E12 is equal to PV rt Range From 0 no filter to 8 seconds NOTE this is a first order digital filter applied to the retransmit ted output value 1 0 65 42 General notes configuration group 2 1 Exiting from the configuration group 2 the instrument verifies automatically the congruence of all parameters If a wrong setting is detected the device will show Lie E ie The group 2 parameter passes the congruence test when 1 Only one of the 6 outputs is configured as main output 2 Only of the 6 outputs configured as secondary output SECn 3 If only one control output is configured it should be the main control output Ain 4 The servomotor must be close loop type if it is one of two control outputs NOTE The instrument may be used as an indicator so that this test is satisfied even if no output is configured as control output II Exiting from the configuration group 2 also the following actions are automatically performed A The Afi UL parameter Output value for auto to manual transfer C G04 will be forced to bumpless if 5 29 02 11 59 AM 1 its value is lt 0 and only one contro
80. ication has been selected see Display function at page 62 2 When a fault condition different from overrange or underrange is detected on the auxiliary input the alarms the power output and the analog retransmissions operate as in presence of an underrange condition ERROR MESSAGES At the end of each configuration parameter group modifiction the instrument check the new parameters values At instrument start up in operative mode all the parameters are checked If an error is detected the instrument will show on the upper display the parameter family CnF x for configuration parameters x for run time parameters CAL for calibration parameters where x is the number of the specific group where the error has been detected 5 29 02 11 59 AM on the middle display the Err indication on the lower display configuration or run time parameter it will show the mnemonic code of the group with the wrong parameter setting for calibration parameter it will show the mnemonic code of the wrong calibration parameter The device resets automatically after a time out of 6 s 20 s if serial link is enabled Configuration and run time parameter errors When one of this error is detected following the procedures described for standard parameter modification reach the group with the wrong parameter setting and correct it every keystroke restarts the time out The time out is disabled when modify configura
81. ion LAMP TEST No time out is applied to the LAMP TEST When it is desired to come back to the normal display mode push any push button During the LAMP TEST the instrument continues to control the process SMART FUNCTION It is used 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 Sfrt parameter is shown 3 push A or and set the On indication on the middle display 4 push the FUNC push button 73 1 0 65 73 ST LED will turn flashing according to the selected algorithm When the smartfunction is enabled itis 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 S rt parameter is shown 3 push A or WY and set the OFF indication on the middle display 4 push the FUNC push button The ST LED will turn off The instrument maintains the current set of control parameters and it enables parameter modification NOTES 1 When ON OFF control is programmed Pb 0 the SMART function is disabled 2 The SMART enabling disabling can be protected by safety key 5 29 02 11 59 AM HOLD FUNCTION By means of an logic input it is possible to stop the inputs samp
82. is mounted 4 20 mA F 5 29 02 12 00 PM O6 Hr 1832 F Configuration group 4 C Gxx O6 FL 0 No filter PARAM VALUE NOTES S Fn Enb Configuration group 3 C Fxx Cn tP Pid PARAM VALUE NOTES An F Enb SPLt 415 A UL bu C Gn 2 00 A t t bu C bS 50 0 St Fn Cnd b SC Gn 2 00 SF Cn Std SC bS 0 0 SF UL 0 0 SCL Configuration group 5 C Hxx C dP No decimal figure PARAM VALUE NOTES RC E L 0 d1 Fn SP1 2 C E H 100 41 51 54 bEFr d2 Fn SP3 4 SC Cn norfi d2 St CLSd S SCL d3 Fn fi rSt SC dP No decimal figure d3 St CLSd SC E L 0 E1 Fn In E SC E H 100 E1 St CLSd SC A C bEFr E2 Fn REA E E2 St CLSd E3 Fn Au A E3 St CLSd A 9 0 65 9 5 29 02 12 00 PM _ E4 Fn E4 St G brG O brG brG L brG H brG d SP AL SP dS Sr bH SS tr t out Fd Fn Fd HS Fd Ou 0 65 SP L r CLSd Configuration group 6 C Ixx VALUE DEv P Out 150 2500 10 n ALG OP SP bAL 150 18 10 nonE C On 25 nonE NOTES E F If option is mounted main control output is linear If option is mounted 5 29 02 12 00 PM Xkc AA0 p65 11 5 29 02 12 00 PM ALPHANUMERITC INDEX OF THE DISPLAY INDICATIONS ALARM 4 ACTION
83. ith other configuration parameters otherwise this digital input will remain unused 2 Changing menu the device will check that the same function is notassignedto more than one digital input otherwise the display will show 1 Lnr E Ln D Ca n 1 0 65 59 CONFIGURATION GROUP 6 C Ixx OTHERS CONFIGURATION PARAMETERS L rir Green bargraph function 101 This parameter will be available for MKC models only Range Pr Ur the green bargraph will show the process variable value DEV the green bargraph will show the deviation measured value minus set point Orange bargraph function C 102 This parameter will be available for MKC models only Range OP SP On bargraph is shown the operative set point value P Out On bargraph is shown the process output value 5 29 02 11 59 AM CnF 6 L _ 71 Bargraph initial scale value 103 Li This parameter will be available only for models when G brG C 101 is equal to Pr Ur and or O brG C 102 is equal to OP SP Range From fi In L Read out initial scale value C d05 to In H Read out full scale value C d06 L r LI LI This parameter will be available only for MKC models when G brG C 101 is equal to Pr Ur and or O brG C 102 is equal to OP SP Range From fi In L Read out initial scale value C d05 to In
84. l main control output SECn Time proportional secondary control output ALr 2 Alarm 2 output Eun 2 Event 2 output OUT 3 function C E03 When the option is not mounted the middle display will show no Pr not present Range nonE Output not used fiAin Time proportional main control output SECn Time proportional secondary control output ALr 3 Alarm 3 output Eun 3 Event 3 output fiC Sfi Servomotor control drive as main control output SC Sfiz Servomotor control drive as secondary control output 1 0 65 39 OUT 4 function C E04 Range nonE Output not used Ain Time proportional main control output SECn Time proportional secondary control output ALr 4 Alarm 4 output Eun 4 Event 4 output NOTES 1 When option is not mounted the middle display will show no Pr not present 2 When servomotor control drive is hardware selected see Output 3 and 4 selection at pag 20 the OUT 4 can be used only as servomotor drive 5 Z L 1 Servomotor type C E05 This parameter will be available only when servomotor control drive is configured CnF 2 O3 Fn 03 AC SA or 5 5 7 Range CLSd Close loop type NOTE this selection is available only if feedback circuitry is mounted and selected OPEn Open loop type 5 29 02 11 59 AM CnF 2 CCE _ Valve position indication C E06 LLLI This parameter will be displayed only when
85. l output is configured 2 servomotor open loop without feedback is configured B The parameter SF Cn Condition for output safety value C G07 will be forced to standard Std if it is not complied with configured control output type C The parameter SF UL Output safety value C G08 will be forced to 0 if only one control output is configured and its value is lt 0 D The parameter Fd Fn Out failure detection current measurement 111 will be forced to nonE if it is assigned to a control output different from a time proportional output E The parameter Fd Ou Out failure detection output assignment C 113 will be forced if it is assigned to an output configured as control output F The parameter IP Integral pre load r d05 will be forced to 50 0 if only one control output is configured and its value is lt 0 1 0 65 43 43 CONFIGURATION GROUP CONTROL OUTPUT CONFIGURATION LAr Split range C F01 This parameter will be available only when two control outputs are configured Range 45 Split range feature is not required Enb Split range feature is required NOTE about the split range This function allows you to drive by the same control action two physical outputs two actuators with different bias and gain The relation between the Calculated Power Output and the resulting real outputs are sho
86. larm 3 is a band alarm 09 This parameter is available only when the alarm 3 is configured as band alarm A3 tP rF 09 bAnd Range from 0 to 1000 digits 1 0 65 79 79 high threshold used when the alarm 3 is a band alarm r C10 This parameter is available only when the alarm 3 is configured as band alarm A3 tP rF 09 bAnd Range from 0 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 Alarm 4 threshold r C11 This parameter is available when alarm 4 is configured as process deviation main power output or secondary power output alarm A4 tP rF 13 Proc or dEV or Ain or SECn Range in engineering units within the span limits for process alarm from 1000 to 1000 digits for deviation alarm from 0 0 to 100 0 for control output alarms NOTE The span limits are configured by fi In L C d05 and In H C d06 5 29 02 11 59 AM itil threshold used when the alarm 4 is a LI IL band alarm r C12 This parameter is available only when the alarm 4 is configured as band alarm A4 tP rF 13 bAnd Range from 0 to 1000 digits high threshold used when the alarm 4 is a band alarm r C13 This parameter is available only when the alarm 4 is configured as band alarm
87. lay Note On the linear input the leads break can be detected only for 4 20 mA 1 5 V 2 10 0 60mV and 12 60 mV ranges In addition on RTD input a special test is provided to signal Shrt when input resistance is less than 12 Short circuit sensor detection When a fault condition different from overrange or underrange is detected on the main input the alarms the power output and the analog retransmissions operate as in presence of an overrange condition 104 1 0 65 104 5 29 02 11 59 ON THE AUXILIARY INPUT When the remote set point signal exceeds the full scale value programmed by A In t C d10 an OVERRANGE condition will be shown on the lower display as shown in the following figure When the remote set point signal is lower than the initial scale value programmed by A In t C d10 an UNDERRANGE condition will be shown on the lower display as show in the following figure These instruments are capable to detect on the auxiliary input the sensor leads break condition When the sensor leads break condition is detected the instrument shows on the lower display NOTE the leads break condition can be detected only if the selected range has a zero elevation 4 20 mA or 1 5 V or 2 10 V 1 0 65 105 105 NOTES 1 The fault conditions on the auxiliary input will be displayed only if the relative ind
88. ling keeping frozen the last measure values main and auxiliary input During measuring hold the instrument will continue to control the process using the last measured values and the following functions will be inhibited 1 Local set point to remote set point transfer and viceversa 2 Manual to auto mode transfer NOTE The auto to manual transfer is allowed The measure value on the upper display will be flash to indicate the hold status PARAMETER PROTECTION Moving from one run time parameter group to another the instrument will show at 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 Xkc 1 C0 P65 74 74 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 ever protected and they cannot be modified the parameters of this group are software protected In this case using A and W push button set a value equal to the security code programmed during the Run time security code see page 23 and then push If the programmed value matches the security code the parameters of this group can be modified otherwise they remain protected ATTENTION One software key protects one or more run time parameter groups so that when the software key is inserted it is possible to modify the run time parameters of a
89. ll groups The software protection will be automatically restored when the instrument comes back to the normal display mode by MENU push button pressure or by the time out 5 29 02 11 59 AM 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 central display shows the value or status assigned to the selected parameter The parameter monitoring and modification are subjected to a time out see t out C 110 parameter after that the display returns in Normal display mode and the eventual modification on the last displayed parameter 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 instrument will not display this group 3 For an easy consultation of the manual it is accompanied by a table with all the run time parameter visualization 75 1 0 65 75 Run time group 1 r Axx Set point VALUES _ I LIP I Main set point r A01 Range from rL r E12 to
90. n L C d05 to rH r E13 NOTES Whenever In L C d05 has been modified the following occurs 1 rL will be realigned to it 2 if the set point values are out of the new limits the set point automatically assumes the default value 5 29 02 11 59 AM Set point high limit r E13 Range from rL r E12 to fi In H C dO6 NOTES Whenever C d06 has been modified the following occurs 1 rH will be realigned to it 2 if the set point values are out of the new limits rH automatically assumes the default value Ib d Rate of change for positive set point L I variations r E14 Range from 1 to 200 digits per minute Above this value the display shows Inf and the transfer will be a step change 1 0 65 87 87 Rate of change for negative set point variations r E15 Range from 1 to 200 digits per minutes Above this value the display shows Inf and the transfer will be a step change Time out for the soft start r E16 L This parameter is available when at least one output is configured as control output and no logic input is configured as Output limiter activator Range from 1 to 540 min Above this value the display shows InF and the limiting action is always active NOTE The tOL can be always modified but the new value will be used only at the next device power up 5 29 02 11 59 AM I
91. n logic level is 1 Au fiA Input contact used for Auto Manual selection Manual when logic level is 1 O LI Input contact used for output limiter activation Output limited when logic level is 1 Hold Input contact used to stop input sampling Hold function Stop sampling when logic level is 1 1 0 65 53 rSt Input contact used to reset acknowledge alarm Reset when logic level is 1 rE dr Input contact used for Reverse Direct control action selection Direct when logic level is 1 NOTES 1 When logic input circuits are not mounted the middle display will show no Pr not present 2 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 5 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 SP 1 2 Set point level level selected 0 0 SP 0 1 SP2 1 0 SP3 1 1 SP4 5 29 02 11 59 AM CnF 5 When one logic input is set to SP 3 4 and no other logic Logic input 2 function C H03 input is set to SP 1 2 the relation between the logic level and the selected set point is the following This parameter will be available only when input contact option Logic le
92. ndition is detected the power output is forced to the safety value SF UL C G08 c 2 if an underrange condition is detected the instrument will operate as described at point a 2 d When SF Cn 807 is set to d 1 if an underrange condition is detected the power output is forced to the safety value SF UL C GO8 d 2 if an overrange condition is detected the instrument will operate as described at point a 1 NOTE IN ALL CASES ABOVE DESCRIBED THE OUTPUTS WILL BE FURTHER INFLUENCED BY OUTPUT CONDITION ING 5 29 02 11 59 AM When servomotor open loop is configured the Condition for output safety value SF Cn C G07 acts as described below 1 When SF Cn C GO7 is set to Cnd A and an overrange or an underrange condition is detected the servomotor is driven to its high limit position OUT 3 A will be maintained closed 2 With SF Cn C GO07 is set to Cnd b and an overrange an underrange condition is detected the servomotor is driven to its low limit position OUT 4 W will be maintained closed 3 When 5 C G07 is set to the out of range condition acts on the control output as the complement of effect described at point a These instruments are capable to detect on the main input the sensor leads break condition When the sensor leads break condition is detected the instrument shows on the upper disp
93. nt change 91 5 29 02 11 59 AM H ib Bp Alarm 3 type r F09 This parameter is available only when OUT 3 is configured as alarm 3 output O3 Fn C E03 ALr 3 Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable fiAin Alarm on Main control output value SECn Alarm on Secondary control output value NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared Alarm 3 configuration r F10 mow This parameter is available only when OUT 3 is configured as alarm 3 output O3 Fn C E03 ALr 3 Range H A High alarm outside band with automatic reset L A Low alarm inside band with automatic reset H A Ac High alarm outside band with automatic reset and acknowledge L A Ac Low alarm inside band with automatic reset and acknowledge Xkc 1 C0 P65 92 H L High alarm outside band with manual reset L L Low alarm inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared Alarm 3 action r F11 This parameter is available only when OUT 3 is configured as alarm 3 output C E03 ALr 3 Range dir direct action Relay energized or SSr 1 in alarm condition Reverse action Relay energized or SSr 1 in non alarm condition
94. odification 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 since no push button has been depressed 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 remote set point is used 5 29 02 11 59 AM 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 Au A 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 light 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 When the device is configured with one control output only and this output is Servo the display will show the current valve position When the device has two control outputs and one of them is Servo during valve positioning the display will show the final position of the valve and not the current position The control output and or the feedback position can be modified by using A and w 71 1 0 65 71 To come back to the AUTO mode depress push button for more
95. on indication is configured Range OFF this selection disables the feedback potentiom eter calibration and the instrument will come back to the first display of the run time group 8 On this selection starts the feedback potentiometer calibration NOTE No time out will be applied during feedback potentiometer calibration procedure 1 65 97 97 Servomotor low limit positioning r H02 This parameter is available only when feedback potentiometer calibration enabling r HO1 is equal to On Range 0 0 to 100 0 The middle display will show the valve position as a percentage of the full input span By and V push button it is possible to modify the valve position When the desired initial position has been reached push the FUNC push button Feedback low limit calibration r HO3 This parameter is available only when feedback potentiometer calibration enabling r H01 is equal to On Range OFF Toskip calibration and hold the previous value select OFF and then push FUNC On Tomemorize the current position as feedback low limit calibration select On and then push FUNC 5 29 02 11 59 AM PI m Servomotor high limit positioning r H04 This parameter is available only when feedback potentiometer calibration enabling r HO1 is equal to On Range 0 0 to 100 096 The middle display will show the valve position as a percentage of the full input span A and 7 push but
96. one control output splitted on two outputs two control outputs NOTE the outputs can be freely selected among analog digital or servo outputs 1 0 65 112 112 Digital output types Relay SSR or TRIAC Digital output action type Proportional time Analog output types 20 mA Servomotor output Two relays with interlocked contact Servomotor output type Close loop Open loop with feedback for valve position indication only Open loop without feedback Proportional Band programmable from 0 5 to 999 0 of the input span Setting a PB equal 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 control output from 0 to 100 of the output range fortwo control outputs split range excluded from 100 to 100 of the output range 5 29 02 11 59 AM Anti reset windup from 10 to 200 of the input span Main output cycle time from 1 second to 200 seconds 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 limiter
97. parameter will be available only when OUT 1 is configured as event annunciator O1 Fn C E01 is equal to Eun 1 Range In E Error condition Over Under Open Shrt on main input Logic level 1 when error occurs Cj Er Error condition on CJ measurement Logic level 1 when error occurs A In E Error condition Over Under Open on auxiliary input Logic level 1 when error occurs EA E Error condition on any measurement Logic level 1 when error occurs Au A Auto manual mode annunciator Logic level 1 when device is in manual mode SP L r Local Remote set point annunciator Logic level 1 when remote set point is used 1 0 65 56 56 1C 1_ Event 1 contact status C H08 This parameter will be available only when OUT 1 is configured as event annunciator O1 Fn C E01 is equal to Eun 1 Range CLSd The output is at logic level 1 when contact is closed OPEn The output is at logic level 1 when contact is open Event 2 function C H09 This parameter will be available only when OUT 2 is configured as event annunciator O2 Fn C E02 is equal to Eun 2 Range In E Error condition Over Under Open Shrt on main input Logic level 1 when error occurs Cj Er Error condition on CJ measurement Logic level 1 when error occurs A In E Error condition Over Under Open on auxiliary input Logic level
98. ply connections use No 16 AWG or larger wires rated for at least 75 C 18 1 0 65 18 5 29 02 11 59 4 Use copper conductors only PRELIMINARY HARDWARE SETTINGS 5 Don t run input wires together with power cables 6 For 24 V DC the polarity is a not care condition How to remove the instrument from its case 7 The power supply inputis fuse protected by a sub miniature fuse 1 Switch off the instrument rated 1 250 2 Push gently the on the right When fuse is damaged itis advisable to verify the power supply 3 while the lock A is maintained out slide out the right side of circuit sothatitis necessary to send backthe instrumentto your the instrument see fig 19 supplier 8 The safety requirements for Permanently Connected Equipment say 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 9 When a neutral line is present please connect it to the 32 terminal MENU Func Fig 19 a B 1 0 65 19 5 29 02 11 59 4 Push gently the lock C on the left MAIN INPUT SELECTION 5 While the lock C is maintained out slide out the instrument Set J103 see fig 20 according to the desired input type as
99. put low limit r E04 or Main control output high limit r E05 or Secondary control output low limit r E08 or Secondary control output high limit 7 09 the instrument will reach the respective limit and than it will maintain the output relay in open condition 61 1 0 65 61 n bAL When PID value is higher than Main control output high limit r E05 or Secondary control output high limit r E09 the OUT 3 A relay contact is ever closed When PID value is lower than Main control output low limit 04 or Secondary control output low limit r E08 the OUT 4 W relay contact is ever closed Input threshold to enable the soft start 109 Range for TC RTD ranges within the input range for linear input within In L Read out initial scale value C d05 and A In H Read out full scale value C d06 NOTE At start up if the measured value is lower than threshold value the device maintains the output power limiting i OLL r E04 OLH 05 S OLL r E08 and S OLH 09 for a programmed time tOL rE 16 This function is called soft start This threshold value has no effect if rE 16 InF or when one logic input is configured for output limiter activation 5 29 02 11 59 AM CnF 6 L 11 11 Time out selection C 110 is energized during the ON status of the second L LULIL ary output relay
100. qual to 1 When the security code is forgotten a new value can be set 5 29 02 11 59 AM 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 s k T H V W s 7 7 J Xkc 1 C0 P65 27 27 Keyboard description MENU isusedto select a parameter group FUNC when the instrument is in normal display mode it changes the indication on the lower display see display function 8 During parameter modification it allows you to memorize the new value of the selected parameter and go to the next parameter increasing order MAN _ when the instrument is in normal display mode pushing MAN push button for more than 1 s it is possible to enable or disable the manual function During parameter modification it allows you to scroll back the parameters and groups without memoriz ing the new setting A During parameter modification it allows you to increase the value of the selected parameter L During MAN
101. r Main output cycle time r E07 This parameter is available when time proportional main control output is configured Range from 1 to 200 s 5 29 02 11 59 AM 1 LLL This parameter is available when one control output is configured as secondary control output Range From 0 0 of the output span to S OLH r E09 Secondary control output low limit r E08 Secondary control output high limit r E09 This parameter is available when one control output is configured as secondary control output Range from S OLL r E08 to 100 0 of the output span _ Secondary control output max rate of rise HU gj r E10 This parameter is available when one control output is configured as secondary control output Ranges from 0 1 s to 25 0 s Above this value the display shows meaning that no limit is imposed 1 0 65 86 86 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 r P function will be ignored and the output will step up to the value set by A UL C G04 parameter Secondary output cycle time r E11 This parameter is available when a time proportional secondary control output is configured Range from 1 to 200 s Set point low limit r E12 Range From I
102. rol output alarm bA1 L 0 bA1 h 0 AL2 Initial range value for process alarm 0 for deviation alarm 0 0 for control output alarm bA2 L 0 bA2 h 0 0 65 2 AL3 Initial range value for process alarm 0 for deviation alarm 0 0 for control output alarm 0 bA3 h 0 AL4 Initial range value for process alarm 0 for deviation alarm 0 0 for control output alarm bA4 L 0 bA4 h 0 A L Fd Initial scale value A H Fd Final scale value HSA1 i HSA2 si HSA3 1 HSA4 1 Run time group 4 r dxx PARAMETER DEFAULT VALUE Pb 4 0 HYS 0 5 4 00 mm ss td 1 00 mm ss IP 50 0 If only one control output is configured 0 0 If two control outputs without split range are configured 5 29 02 12 00 PM r Gn 1 00 On OLAP 0 E rd On Cn Ac rEV Run time group 6 r Fxx Run time group 5 r Exx PARAMETER DEFAULT VALUE PARAMETER DEFAULT VALUE A1 tP Proc ArW 100 1 S tt 1 00 m 1 rEV S db 5 A1 St OFF OLL 0 096 A2 tP Proc OLH 100 0 A2 Cn H A r P Inf A2 Ac rEV 15 s If relay output A2 St OFF 2 s If SSR output A3 tP Proc S OLL 0 0 A3 Cn S OLH 100 0 rEV S r P Inf A3 St OFF SC CY 15 s If relay output A4 tP Proc 2 s If SSR output A4 Cn rL Initial range value A4 Ac rEV rH Final range value A4 St OFF Grd1 Inf Fd Cn A Grd2 Inf
103. rom 31 to 38 all positions are available Square root extraction for main input C d04 Ranges 415 square root extraction disabled Enb square root extraction enabled 5 29 02 11 59 AM CnF 1 NOTES 1 This parameter is available only for main input type 31 to 38 2 When the square root extraction is enabled the In L read out initial scale value C d05 In H read out full scale value C d06 brG L bargraph initial scale value C 103 brG H bargraph full scale value 104 and SS th threshold to enable the soft start C 109 parameter values must be positive or equal to zero Enabling the square root extraction the instrument verify the actual value of the fi In L fi In H brG L brG H and SS th parameters and force to zero the eventual negative values Read out initial scale value C d05 Ranges from 1999 to 9999 for linear input Input range 31 to 38 from 0 to 9999 for linear input with square root extraction from initial range value to fi In H read out full scale value C d06 for TC RTD input NOTE Changing the value of this parameter the brG L bargraph initial scale value C 103 and rL set point low limit 12 parameters will be realigned to it 1 0 65 34 34 If a linear input is selected also the SS th threshold for soft start 109 will be realigned to it Read out full scale value C d06
104. rror condition or Remote Set point is selected 2 The selected local set point will be changed even if it is Software protected 1 0 65 51 81 Device status at start up C G06 This parameter will be available only when at least one control output is configured and manual function is enabled An F C G03 Enb Range Auto It starts always in auto mode fan ltstarts always in manual mode with power output set to 0 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 Cnd b It starts in the same way it was left prior to power shut down if in manual mode the power output will be equal to the last value prior to power shut down 5 29 02 11 59 AM CnF 4 s nV Condition for output safety value C G07 This parameter will be available only when at least one control output is configured Ranges When no output is configured as open loop servomotor control SF Cn can be set as follows Std No safety value standard setting see chapter ERROR MESSAGES Ov Un Safety value applied when the instrument detect an overrange or underrange condition of the main input OvEr Safety value applied when the instrument detect an overrange condition of the main input Undr Safety value applied when the instrument detect an underrange condition of the main input When the open loop servomotor control is
105. rst step of SMART algorithm is activated Lit when the second step of SMART algorithm is activated Lit when the lower display shows the output power value MAN Lit when device is in manual mode REM Lit when device is controlled by serial link RSP Lit when Remote Set point is used SPX Lit when an auxiliary Set point SP2 SP3 or Sp4 is used Flashing when a temporary set point from serial link is used 1 0 65 68 68 Lit when OUT 1 is used control output and it is condition or when Event 1 is at logic level 1 or when alarm 1 is in alarm state and acknowledged Flashes when alarm 1 is in alarm state and it is not acknowledged Lit when OUT 2 is used as control output and it is in ON condition or when Event 2 is at logic level 1 or when alarm 2 is in alarm state and acknowledged Flashes when alarm 2 is in alarm state and it is not acknowledged Lit when OUT 3 is used as control output and it is in ON condition or when servomotor output increases or when Event 3 is at logic level 1 or when alarm 3 is in alarm state and acknowledged Flashes when alarm 3 is in alarm state and it is not acknowledged Lit when OUT 4 is used as control output and it is in ON condition or when servomotor output decreases or when Event 4 is at logic level 1 or when alarm 4 is in alarm state and acknowledged Flashes when alarm 4 is in alarm state and it is not acknowledged 5 29 02 11 59 AM BARGRAPH DESCRIP
106. s 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 Xkc 1 C0 P65 113 113 OUTPUTS Control output updating time 125 ms when a linear input is selected 250 ms when a TC or RTD input is selected Action direct reverse programmable Output level limiter high and low limits for main control output high and low limits for secondary control output Out 1 2 Function singularly programmable as Control output Alarm output Event output Type Relay SSR or TRIAC Out 1 and 2 Relay Relay type SPDT Contact rating 3 A 250 V on resistive load 5 29 02 11 59 AM Out 1 and 2 558 Type not isolated voltage output Logic level 1 14V 20 mA max 24 V 1 mA Logic level 0 lt 0 5 V D C Out 1 and 2 TRIAC Switching mode isolated zero crossing type Rated current from 50 mA to 1 A Rated voltage from 24 V pms to 240 10 15 50 60 Hz Load type resistive load only for external fuse 128 Out 3 and 4 Function singularly programmable as Control output Alarm output Event output Servomotor drive Out 3 A out 4 W Type Relay Relay type SPST 1 0 65 114 114 Contact rating 250 V on resistive load Notes 1 The commons of the out 3 and 4 are connect
107. s based on the same transceiver type with one remote master unit 1 0 65 117 117 1 REMOVE POWER FROM THE POWER SUPPLY TERMI NALS 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 internal circuits trying to be careful for not damage the electronic components 4 To clean external plastic or rubber parts use only a cloth moistened with Ethyl Alcohol pure or denatured C H OH or Isopropil 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 turn it ON 5 29 02 11 59 AM DEFAULT PARAMETERS DEFAULT RUN TIME PARAMETERS A complete and consistent set of run time parameters is memorized in the instrument These data are the typical values loaded in the instrument prior to shipment from factory This instrument allows you to load the default value of a single run time parameter group or to load all the run time parameters exception made for Run time group 8 r Hxx 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 A 2 By FUNC p
108. s erret ee 82 SECONDARY CONTROL OUTPUT EOW KIMIT p 82 SECONDARY CONTROL OUTPUT MAX RATE OF 82 SECONDARY OUTPUT CYCLE TIME 82 SERVO MOTOR DEAD BAND SERVO MOTOR TRAVEL TIME gt Run group 2 SMART ENABLE DISABLE 72 SMRT ENABLED OR DISABLED u MAIN SETPOINT SETPOINT 2 nitas SETPOINT 3 m SETPOINT A intero ect eese Run time group 7 SERIAL LINK PARAMETER 92 Run time group 1 SETPOINT VALUES 71 DERIVATIVE TIME uuu ecce ces 79 INTEGRAL TIME iit nnns 78 MAX VALUE OF INTEGRAL TIME VALUE CALCULATED BY THE SMART ALGORITHM 96 MIN VALUE OF INTEGRAL TIME VALUE CALCULATED BY THE SMART ALGORITHM 96 TIMEOUT FOR SOFT START 83 5 29 02 12 01 PM CONFIGURATION PARAMETERS in nmm 70 70 m 0 08 3 0 65 AUXILIARY INPUT FILTER AUXILIARY INPUT VALUE AUXILIARY INPUT SAFETY CONDITION AUXILIARY INPUT FUNCTION AUXILIARY INPUT READ OUT INITIAL SCALE VALUE AUXILIARY INPUT READ OUT FULL SCALE VALUE 2 2 Saa 34 AUXILIARY INPUT TYPE 33 Configuration group 4 AUXILIARY CONTROL OUTPUT CONFIGURATION 47 OUTPUT VALUE FOR AUTO TO MANUAL TRANSFERT
109. s 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 94 5 29 02 11 59 AM 17 _ Output Failure Detection alarm LLL I configuration r F17 This parameter is available only when OFD option is configured Fd Fn C 11 1 equal to hC On or AC OF or SC On or SC OF Range A Alarm with automatic reset A Ac Alarm with automatic reset and acknowledge L Alarm with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared I Output Failure Detection alarm action 7 218 This parameter is available only when one output is configured as OFD alarm annunciator Fd Fn C I11 equal to C On or or SC On or SC OF and Fd Ou C 113 is different from Range dir direct action Relay energized or SSr 1 alarm condition Reverse action Relay energized or SSr 1 in non alarm condition 1 0 65 95 NOTE When output is condition with alarm event output the Fd Ac parameter can only be monitored but not modified and it assumes the same action defined by Alarm Action or Event Logic Level for the alarm or the event Group 6 default data loading r F19 Range OFF No lo
110. s parameter will be available only when OUT 3 is configured as event annunciator O3 Fn C E03 is equal to Eun 3 Range CLSd The output is at logic level 1 when contact is closed OPEn The output is at logic level 1 when contact is open Event 4 function C H13 This parameter will be available only when OUT 4 is configured as event annunciator O4 Fn C E04 is equal to Eun 4 Range fi In E Cj Er A In E Error condition Over Under Open Shrt on main input Logic level 1 when error occurs Error condition on CJ measurement Logic level 1 when error occurs Error condition Over Under Open on auxiliary input Logic level 1 when error occurs EA E Error condition on any measurement Logic 1 0 65 level 1 when error occurs 58 58 Au A Auto manual mode annunciator Logic level 1 when device is in manual mode SP L r Local Remote set point annunciator Logic level 1 when remote set point is used Event 4 contact status C H14 This parameter will be available only when OUT 4 is configured as event annunciator O4 Fn C E04 is equal to Eun 4 Range CLSd The output is at logic level 1 when contact is closed OPEn The output is at logic level 1 when contact is open 5 29 02 11 59 AM General notes on configuration group 5 1 Digital input function selection should be consistent w
111. sabled 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 atthe instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed as a process alarm or control output alarm this function masks the alarm condition at instrument start up until process variable reaches the alarm threshold plus or minus hysteresis Alarm 1 stand by mask function r F04 1 0 65 90 2 change from to OFF has immediate effect while the change from OFF to On has effect at the next start up or set point change Alarm 2 type r F05 This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C E02 ALr 2 Range Proc Alarm on process variable bAnd Band alarm on process variable dEV Deviation alarm on process variable Ain Alarm on Main control output value SECn Alarm on Secondary control output value NOTE When alarm type has been changed the alarm threshold will be forced to its default value and alarm status will be cleared Alarm 2 configuration r F06 This parameter is available only when OUT 2 is configured as alarm 2 output O2 Fn C E02 ALr 2 Range H A High alarm outside band with automatic reset L A Low alarm inside band with automatic reset 5 29 02 11
112. ss variable exceeds the full scale value programmed by fi In t C d02 an OVERRANGE condition will be shown on the upper display as show in the following figure When the process variable is lower than the initial scale value programmed by fi In t C d02 an UNDERRANGE condition will be shown on the upper display as show in the following figure 5 29 02 11 59 AM In presence of an main input out of range condition the control outputs operate as follows a When SF Cn C GO7 is set to Std 1 An OVERRANGE is detected and the device is set for one control output only the output will be forced to 0 if reverse action is programmed or to 100 if direct action is programmed the device has two control outputs the Main output is forced to 0 and Secondary output is forced to 10096 2 An UNDERRANGE is detected and the device is set for one output only the output is forced to 100 if reverse action is programmed or to 0 if direct action is programmed the device has two control outputs the Main output is forced to 100 and Secondary output is forced to 0 b With SF Cn C G07 set to Dv Un when an overrange or an underrange condition is detected the power output is forced to the safety value SF UL C GO8 1 0 65 103 103 When SF Cn C GO7 is set to OvEr c 1 if an overrange co
113. ssible to select one of the following operative modes 8 run time mode without configuration mode b run time and configuration modes C security code setting mode Set V101 according to the following table Modes V101 1 101 2 101 3 V101 4 a OFF ON ON ON b OFF ON OFF ON OFF ON OFF OFF 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 activated no one of the configuration parameter can be modifyed 3 All the others switch combinations are reserved 1 0 65 24 24 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 security code befor
114. tarted This display allows you to load the default configuration parameter For more details see chapter Default parameter see Appendix A 4 A or push button select the OFF indication and push the MENU push button The display will show C L TIP In Fk 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 3 different from servo all the parameters related with servomotor output will be skipped Xkc 1 C0 P65 31 2 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 3 For an easy consultation of this manual a table with all the parameter visualizations is enclosed When it is desired to exit from configuration modify mode proceed as follows a Push MENU push button until the Configuration group END is displayed b Pushing A or W push button select the YES indication c Push MENU push button The instrument terminates the configuration modify mode it preforms an automatic reset and restarts in the run time mode
115. then 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 A 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 Iftransfer from AUTO to MANUAL is performed during the first part of SMART algorithm TUNE when returning in AUTO the device will be forced automatically in the second part of the SMART algorithm ADAPTIVE 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 If the logic input status requires the manual mode the instrument will verify the St Fn C G06 parameter setting and if St Fn C GO6 is equal to Auto an Cnd A the power output will be set to zero otherwise the power output will be set equal to the last value prior to power shut down 5 29 02 11 59 AM 2 If the instrument is configured for one control output the control output is a servo motor type close or open loop and device starts up in manual mode the following action may occur 2 A The valve remains in the same position if St Fn C G06 an or St Fn C G06 Cnd A or St Fn C G06
116. tion parameters mode is enabled When the error is corrected push MENU until the device resets if in run mode or end the modify configuration parameters mode following the normal procedure Repeat the above described procedure if another error is shown 1 0 65 106 106 Feedback adjustment error If this error is detected span less than 20 of 1 complete potentiometer travel push any key to 2 load default calibration parameters E r Then remake the calibration following the normal procedure see Gr 8 r Hxx Calibration parameter errors The instrument will show on the lower display one of the following indications fi l te main termocouple input calibration error LCJ could junction compensation error l rt main RTD input calibration error mA input calibration error ALS main 5V input calibration error A 10 main 10 V input calibration error auxiliary mA input calibration error 1 5 auxiliary 5V input calibration error 1 10 auxiliary 10 V input calibration error In Ct current transformer input calibration error FEEd electrical feedback input calibration error 05 RA output 5 mA calibration error O6 A output 6 mA calibration error When one of these errors is detected contact your supplier 5 29 02 11 59 AM Other errors The instrument is also capable to detect the following errors E 100 Error during
117. ton it is possible to modify the valve position When the desired final position has been reached push the FUNC push button Feedback high limit calibration r H05 LU TL This parameter is available only when feedback potentiometer calibration enabling r HO1 is equal to ON Range OFF To skip calibration and hold the previous value select OFF and then push FUNC On Tomemorize the current position as feedback high limit calibration select On and then push FUNC This procedure is now completed and the calibration values are automatically checked 1 0 65 98 98 If the calibrated feedback span is greater than 20 of the potentiometer input span the instrument memorizes the new values and comes back to the first display of the run time group 8 Otherwise the old calibration values will be retained and the display will show pm ur ri FOAL It will be necessary to repeat the feedback potentiometer calibration procedure Group 8 default data loading r H6 Li LL Range OFF No loading data On loading data 5 29 02 11 59 AM Run time group 9 R Ixx R 102 All relays deenergization OPTIONAL OUTPUT SETTING This parameter is available when optional output circuitry is r fitted LIF H Upper display Gr 9 Lower display dEEn Range OFF No action 11 OWL On All relays will be deenergized 101 OUT 10 setting This parameter is available when optional output
118. tput O4 Fn C E04 ALr 4 Range H A High alarm outside band with automatic reset L A Low alarm inside band with automatic reset H A Ac High alarm outside band with automatic reset and acknowledge L A Ac Low alarm inside band with automatic reset and acknowledge 5 29 02 11 59 AM H L High alarm outside band with manual reset L L Low alarm inside band with manual reset NOTE When alarm configuration has been changed the alarm status will be cleared Alarm 4 action r F15 This parameter is available only when OUT 4 is configured as alarm 4 output O4 Fn C E04 ALr 4 Range dir direct action Relay energized or SSr 1 in alarm condition Reverse action Relay energized or SSr 1 in non alarm condition 1 0 65 94 Alarm 4 stand by mask function r F16 This parameter is available only when OUT 4 is configured as alarm 4 output O4 Fn C E04 ALr 4 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 atthe instrument start up until process variable reaches the alarm threshold plus or minus hysteresis If the alarm is programmed as a process alarm or control output alarm this function masks the alarm condition at instrument start up until process variable reaches the alarm threshold plu
119. trol and Sets control outputs to OFF turned OFF the bargraph displays MKC only sets analog retransmissions to the retransmitted initial scale value sets alarms no alarm condition sets events to OFF disables the serial link the time out will be removed 2 When the modify mode is disabled by V101 SW3 the A or W push button pressure has no effect Push MENU pushbutton again and select the Default configuration group A or push button select the desired configuration parameter set tb 1 or tb 2 Push MENU pushbutton again The central display will show Lung and then the display will show 0 65 5 r3 3 1 The default parameter loading procedure of all configuration parameters is terminated The following is a list of the default configuration parameters loaded during the above procedure TABLE 1 Configuration group 1 C dxx PARAM VALUE NOTES Ln Fr 50 Hz In t 3 TC K with C In d No decimal figure fi In S 415 Disabled fi In L 100 In H 1370 OFSt 0 dS FL 0 No filter A In F RSP Remote set point 5 29 02 12 00 PM A In t A In L A In H A LFL A l Sc L r O R PARAM O1 Fn O2 Fn O4 Fn S tP FEEd O5 Fn 0 65 4 20 0 1000 0 nor nonE n ALG fiAin ALr 1 ALr 2 nonE AC SA ALr 3 nonE ALr 4 CLSd OPEn
120. ushbutton select the last parameter of the selected group The middle and lower display will show LLL A 3 By A or W pushbuttons select the On indication on the central display A 4 Push the FUNC pushbutton The central display will show I eno 0 65 1 B The default parameter loading for the selected group is terminated When it is desired to load the default value of all the run time parameters exception made for Run rime group 8 r Hxx proceed as follows B 1 By MENU pushbutton select the Run time group dF 2 Push the pushbutton The middle and lower display will show OFF dFLE B 3 By A or W pushbuttons select the On indication on the central display B 4 Push the FUNC pushbutton The central display will show 1 mD Lune and then it will show End The default parameter loading procedure of all run time parameters is terminated 5 29 02 12 00 PM 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 E12 SP2 Set point low limit rL r E12 SP3 Set point low limit rL r E12 SP4 Set point low limit rL r E12 Run time group 3 r Cxx PARAMETER DEFAULT VALUE fi rSt OFF AL1 Initial range value for process alarm 0 for deviation alarm 0 0 for cont
121. vel O SP is fitted Logic level 1 SP3 Range nonE Input contact not used SP1 2 Input contact used for SP SP2 set point selection see note 2 SP3 4 Input contact used for SP3 SP4 set point Logic input 1contact status C H02 selection see note 2 SP L r Input contact used for Local Remote set point This parameter will be available only when d1 Fn C H01 is selection Remote when logic level is 1 different from nonE Au A Input contact used for Auto Manual selection Range CLSd The input is at logic level 1 when contact is Manual when logic level is 1 closed O LI Input contact used for output limiter activation OPEn The input is at logic level 1 when contact is Output limited when logic level is 1 open Hold Input contact used to stop input sampling Hold function Stop sampling when logic level is 1 rSt Input contact used to reset acknowledge alarm Reset when logic level is 1 rE dr Input contact used for Reverse Direct control action selection Direct when logic level is 1 NOTE See also NOTE 2 of the d1 Fn Logic input 1 function 1 parameter 54 1 0 65 54 5 29 02 11 59 D 1 Logic input 2 contact status C H04 This parameter will be available only when d2 Fn is different from nonE Range CLSd The input is at logic level 1 when contact is OPEn The input is
122. wn below 5 29 02 11 59 AM CnF 3 Real PWR First split Real PWR First split Output output MAIN output MAIN 100 Le 10095 L Standard curve Standard curve Second split y Second split Lp output qe output Secondary Secondary 0 Calculated 0 Calculated 100 PWR Output 100 PWR Output A D 33 3 where for the first split output MAIN Where 0 Bias 1 B C 33 3 Gain 1 100 B A D 100 For the second split output SECONDARY Bias 2 C We will set Gain 2 100 D C Bias 1 0 Gain 1 100 33 3 0 8 FOR EXAMPLE Bias 2 33 3 Let s suppose that the first split output operates from 0 to Gain 2 100 100 33 3 1 5 33 3 of the calculated output while the second one operates from 33 3 to the 100 of the calculated output 44 1 0 65 44 5 29 02 11 59 The bias and gain of the two split outputs are the following C F03 is the Bias 1 applied to the main output AC Gn C FO2 is the Gain 1 applied to the main output SC bS C F05 is the Bias 2 applied to the secondary output SC Gn C F04 is the Gain 2 applied to the secondary output Main control output gain C F02 This parameter will be available only when the split range is enabled SPLt C F01 Range from 0 50 to 5 00 Main control output bias C F03 This parameter will be availabl
123. xiliary input is configured Range The auxiliary input activation is controlled by external contact front key or serial link 5 29 02 11 59 AM Cnd A The auxiliary input activation is controlled by its status The device works with local set point when auxiliary input is out of range while it works with remote set point or bias when it is within range NOTE The parameter L r O fi local remote set point operative mode C d16 will be forced to n ALG if A In F auxiliary input function C d09 is equal to bIAS and 1 auxiliary input activation mode C d14 is equal to Cnd A 158 Auxiliary input safety condition C d15 This parameter is available only when auxiliary input is configured and 1 C d14 is equal to nor Range nonE when the auxiliary input is out of range the instrument operates as in presence of the min or max auxiliary input value Cnd A when the auxiliary input is out of range the 1 0 65 control output goes to safety value SF UL output safety value C G08 If servomotor open loop control drive is configured the Safety value SF UL C G08 has no effect and the instrument operates in 37 37 accordance with SF Cn Output safety condition C G07 parameter setting NOTE The SF Cn Output safety condition C G07 has the priority on A I Sc auxiliary input safety condition C d15
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