170.IU0.20Q.S00Instruction ManualP/N 3109020 PQProgrammer - ControllerXkP-0-1C2.P65 10/30/01, 9:42 AM1
6Fig. 7.B INPUTS WIRING FOR 3-WIRE TRANSMITTERShield31117PWR+OutTXGNDFig. 7.C INPUTS WIRING FOR 4-WIRE TRANSMITTERNOTES:1) Don’t run input wires toget
96Gr. 8- Servomotor high limit positioning - [r.H04]This parameter is available only when feedback potentiometercalibration enabling [r.H01] is equal
97Gr. 9Run time group 9 [r.Ixx]TRACKING VALUES.NOTES:1) this run time group will be shown when the instrumentoperates in programmer mode only.2) The t
98Gr. 9- Group 9 default data loading - [r.I03]Range: OFF = No loading dataOn = loading dataRun time group "dF" [r.Lxx]DEFAULT RUN TIME PAR
99Gr. HdRun time group "Hd" [r.Mxx]HIDDEN PARAMETERS - SMART LIMITSNOTE: This group is accessible from every group (exceptionmade for P grou
100Gr. Hd- Relative gain of the secondary outputcalculated by SMART algorithm - [r.M05]This parameter is available only when smart function isconfigur
101EDIT.In this mode it is possible to select and/or to create a programand to visualize and/or to modify all data of a program.When the instrument is
102HOLDThis function temporarily stops a running program by a manualaction.The HOLD mode may be activated by the RUN pushbuttonpressure or by an exter
103BARGRAPH DESCRIPTIONTwo 33 LED’s bargraphs are available.On the right bargraph, with orange LED’s, it is possible to show:- the operative set point
104INDICATORS°C Lit when process variable is in Centigrade degrees.°F Lit when process variable is in Fahrenheit degrees.ST Flashing when the first st
105Flashes when alarm 2 is in alarm state and it is notacknowledged.3 Lit when OUT 3 is used as control output and it is in ONcondition or when servom
7B) AUXILIARY INPUTFig. 8 AUXILIARY INPUT WIRINGNOTES:1) This input is not isolated from measuring input. A double orreinforced insulation between ins
106The first FUNC pushbutton pressure modify the middle displayindication.It will show:- the time remaining to the end of the segment, if thesegment i
107l) Push the FUNC pusbutton again; the lower display shows" Fd." followed by the OUT failure detection alarm status:OF = no alarmAL (flash
108When device operates in programmer mode and noprogram is running (STAND-BY mode).The upper display shows the process variable and PRGindicator is l
109It is possible to activate the O.P.O. mode by:- serial link- by keyboard- automatically at the end of a program execution.It is possible to exit fr
110OUT FAILURE DETECTION FUNCTION (OFD)The device is capable to measure and display:- the current running in a load driven by a time proportionalcontr
111LAMP TESTWhen it is desired to verify the display efficiency, put theinstrument in "normal display mode" and push t and MENUpush-buttons
112At 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 i
113Gr. PGENERAL NOTES ABOUT PROGRAM EDITINGThis instrument allows to create up to 90 simple programs with afree number of segments for each program.Th
114Gr. PRun time group P [r.Axx]Program editingThis group is available when the instrument operates asprogrammer only.- Program selection - [r.A01]Low
115Gr. P- Event 1 enabling - [r.A04]This parameter can be modified only when the selected programis not running, it is not a linked program and output
8Fig. 9.B - LOGIC INPUTS IN 1, 2, 3 and 4 WIRING5859IN 2IN 35657IN 160IN 4Fig. 9.C - LOGIC INPUTS IN 5, 6, 7 and 8 WIRINGNOTES:1) Do not run logic inp
116Gr. P- Program 1 - Segment 1 - segment duration- [r.A07]This parameter can be modified only when the selected program isnot running, it is not a li
117Gr. PRange: from 0 to 10.NOTE: setting trK.G equal to 0, the instrument will notuse, for this segment, the tracking function.- Program 1 - Segment
118Gr. P- Break event reset at the end of program 1- [r.A13]This parameter can be modified only when the selected programis not running, it is not a l
119Gr. Pfrom -100.0 to 100.0 % if the devices is configured withtwo control outputs (split range excluded).- Set point at the end of program 1 - [r.A1
120Gr. PGeneral notes about timer eventsUp to 14 timer events can be associate to each program.Timer events are composed by 5 steps each, during the f
121SIMPLE PROGRAM MANAGEMENTHOW TO CREATE A SIMPLE PROGRAMWhen it is desired to create a new program proceed as follows:1) select the Group P;2) selec
122NOTES:1) When the final set point of a ramp has been modified and thenext segment is a soak, the instrument automatically modifiesthe final set poi
1233) select the final set point of the segment x+1:4) push "RUN" + "s" pushbuttons; the display will show the finalset point of t
124LINKED PROGRAM MANAGEMENTHOW TO CREATE A LINKED PROGRAMIt is possible to create up to 9 linked programs (L1 to L9), eachlinked program is formed by
125HOW TO MODIFY A LINKED PROGRAMWhen it is desired to modify a linked program it is necessary tore-edit it.HOW TO DELETE AN EXISTING LINKED PROGRAMWh
93) The minimum active period to perform this measurement isequal to 120 ms.4) The input impedance is equal to 20 W.1415LoadCurrenttransformerD) CURRE
126E.ñ simple program not existing (the central display willshow the number of the not existing program).This message will be shown when a simple prog
127an error message will be shown (for more details aboutthis group of error messages see "How to check aprogram").During RUN mode the arrow
128ABORTThis function allows to definitively stop the program in progress.When it is desired to ABORT the program push the RUNpusbutton and maintain t
129FASTThis function allows to move, forward or backward, the point ofthe program in progress 60 time faster than the programmedvalue.When it is desir
1304) When the desired point has been reached, restart theprogram.NOTES:1) When the JUMP function is activated, the central display willshow the same
131DISPLAY FUNCTION DURING CONTROLLER MODEWhen device is powered and it is operating in automatic mode,the upper display shows the process variable an
1320.0 % to 99.9 % or a value within the scale configured by“ñC.E.L” [C.F09] and “ñC.E.H” [C.F10] when a scaled readoutis applied to the main output.T
133INDICATORS function during controller mode°C Lit when process variable is in Celsius degrees.°F Lit when process variable is in Fahrenheit degrees.
134SMART FUNCTIONIt is used to automatically optimize the control action.To enable the SMART function proceed as follows:1) push the MENU push-button
135OUTPUT POWER OFF FUNCTION during controller modeBy this mode it is possible to disable the process control.In this mode, the instrument operate as
10E.1) RELAY OUTPUTSFig. 11.A RELAY OUTPUTS 1,2,3 and 4 WIRINGOUT 123NC24C25NOOUT 227CNO28OUT 329NO - OUT 3OUT 430C - OUT 3/431NO - OUT 426NCThe out
136ERROR MESSAGESOVERRANGE, UNDERRANGE AND SENSOR LEADSBREAK DETECTIONON THE MAIN INPUTThe device is capable to detect a fault condition on the mainin
137sensor leads break condition.When the sensor leads break condition is detected, theinstrument shows “OPEn” on the upper display.Note: On the linear
138ON THE AUXILIARY INPUTWhen the remote set point trim signal exceeds the full scalevalue programmed by "A.In.t" [C.d10], an OVERRANGEcondi
139Configuration and run time parameter errors.When one of this error is detected, following the proceduresdescribed for standard parameter modificati
140Calibration parameter errorsThe instrument will show on the lower display one of thefollowing indications:ñ.I.tc = main thermocouple input calibrat
141GENERAL INFORMATIONSGENERAL SPECIFICATIONSCase: Polycarbonate black color; self-extinguishing degree: V-0according to UL 746C.Front protection: des
142Temperature drift: (CJ excluded)< 200 ppm/°C of span for mV and TC ranges 3, 4, 7, 18, 19, 22.< 300 ppm/°C of span for mA/V< 250 ppm/°C of
143C) LINEAR INPUTSRead-out: keyboard programmable between -1999 and +9999.Decimal point: programmable in any positionSTANDARD RANGES TABLEAUXILIARY I
144STANDARD RANGES TABLELOGIC INPUTSThe instrument may be supplied with 11 logic inputs program-mable as:- Program selection- RUN/HOLD mode selection-
145Proportional Band: programmable from 0.5% to 999.0% of theinput span.Setting a PB equal to 0 the control action becomes ON/OFF.Hysteresis (for ON/O
11Fig. 11.C RELAY OUTPUTS 15 to 19 WIRINGThe outputs from OUT 10 to 19 are equipped with relays havingcontact rating equal to 0.5A/250V AC on resist
146Output limiters.For the main and/or secondary control outputs it is possible toset:- output high limits- output low limits- output max. rate of ris
147Out 1 and 2 - SSRType: not isolated voltage output- Logic level 1:14V @ 20 mA max.24 V @ 1 mA.- Logic level 0:< 0.5 V D.C.Out 1 and 2 - TRIACSwi
148Output type: Isolated output programmable as- 0-20 mA- 4-20 mA.Scaling: programmable from -1999 to 9999.Maximum load: 600 W.Accuracy:- 0.1 % whe
149Deviation alarmOperative mode: High or low programmable.Threshold: programmable from - 1000 to +1000 digits.Hysteresis: programmable in engineering
150AUXILIARY POWER SUPPLYType: 24 V DC + 20% not isolated.Max. current: 25 mA.SERIAL INTERFACETypes: RS 485 isolatedProtocol type: MODBUS, JBUS.Baud r
A. 1DEFAULT PARAMETERSGeneral notes:A complete and consistent set of run time and configurationparameters is memorized in the instrument. These data a
A. 2B.4) Push the FUNC pushbutton.The middle display will show:and then it will show:The default parameter loading procedure of all run timeparameters
A. 3Run time group 4 [r.dxx]PARAMETER DEFAULT VALUEPb = 4.0 %HYS = 0.5 %ti = 4.00 mm.sstd = 1.00 mm.ssIP = 50.0 (If only one control output is configu
A. 4Pb 5 = 4.0 %HYS 5 = 0.5 %ti 5 = 4.00 mm.sstd 5 = 1.00 mm.ssIP 5 = 50.0 (If only one control output is configured).0.0 (If two control outputs, wit
A. 5A3.Ac = rEVA3.St = OFFA4.tP = ProcA4.Cn = H.A.A4.Ac = rEVA4.St = OFFFd.Cn = A.Fd.Ac = rEVRun time group 7 [r.Gxx]PARAMETER DEFAULT VALUES.L.Pr = ñ
12The same problem may occur when a switch is used in serieswith the internal contacts as shown in Fig. 12.Fig. 12 EXTERNAL SWITCH IN SERIES WITH THE
A. 6Run time group Hd [r.Lxx]PARAMETER DEFAULT VALUEPb.Lo = 1.0%Pb.Hi = 300.0%ti.Lo = 00.20 mm.ssti.Hi = 20.00 mm.ssrG.CL = OFFDEFAULT CONFIGURATION A
A. 7- turned OFF the bargraph displays (MKC only);- sets analog retransmissions to the retransmitted initialscale value;- sets alarms in no alarm cond
A. 8A.In.F nonEA.In.t 4-20 mAA.In.L 0 °CA.In.H 1000 °CA.I.FL 0 (No filter)Configuration group 2 [C.Exx]PARAM. VALUE NOTESO1.Fn ñAin If servo motor dr
A. 9SC.dP ----. (No decimal figure)SC.E.L 0SC.E.H 100SC.A.C bEFrConfiguration group 4 [C.Gxx]PARAM. VALUE NOTESSñ.Fn EnbCn.tP PIdñAn.F EnbAñ.UL buñ.ñ.
A. 10F.E.10 nonES.E.10 OPEnF.E.11 nonES.E.11 OPEnF.E.12 nonES.E.12 OPEnF.E.13 nonES.E.13 OPEnF.E.14 nonES.E.14 OPEnF.E.15 nonES.E.15 OPEnF.E.16 nonES.
A. 11TABLE 2Configuration group 1 [C.dxx]PARAM. VALUE NOTESLn.Fr 60 Hzñ.In.t 18 (TC K with °F)ñ.In.d----. (No decimal figure)ñ.In.S dIS Disabledñ.In.L
A. 12Configuration group 3 [C.Fxx]PARAM. VALUE NOTESSPLt. dISñC.Gn 2.00ñC.bS -50.0SC.Gn 2.00SC.bS 0.0ñC.Cn norññ.SCL nOñC.dP----. (No decimal figure)ñ
A. 13I2.Fn nonEI2.St OPEnI3.Fn nonEI3.St OPEnI4.Fn nonEI4.St OPEnI5.Fn nonEI5.St OPEnI6.Fn nonEI6.St OPEnI7.Fn nonEI7.St OPEnI8.Fn nonEI8.St OPEnF.E.0
Configuration group 6 [C.Ixx]PARAM. VALUE NOTESG.brG DEvO.brG P.OutbrG.L -150 °FbrG.H 2500 °FbrG.d 10 °FSP.AL n.ALGSP.dS OP.SPSr.bH bALSS.tr -150 °Ft.
XkP-A-C2.P65 10/30/01, 9:44 AM15
13Switching mode: isolated zero crossing type.Rated current: from 50 mA to 1 A.Rated voltage: from 24 VRMS to 240 VRMS -10 % +15 % (50/60Hz)Load type
Cincinnati, OH800-666-4330http://www.supersystems.comManual Part No. 31090 20QCopyright © 2001 Super Systems Inc.XkP-A-C2.P65 10/30/01, 9:44 AM16
14The two relay output must be interlocked (see chapter"Preliminary hardware setting" paragraph "Out 3 and 4selection").NOTES:1) B
15E.5) ANALOG OUTPUTSFig. 16.A OUTPUT 5 WIRINGFig. 16.B OUTPUT 6 WIRINGNOTE:1) Do not run analog output wirings together with AC powercables.2) O
XkP-0-1C2.P65 10/30/01, 9:42 AM2
163) The EIA standard establishes that by RS-485 interface it ispossible to connect up to 30 devices with one remote masterunit.The serial interface o
176) For 24 V DC the polarity is a not care condition.7) The power supply input is fuse protected by a sub miniature fuserated T, 1A, 250 V.When fuse
18PRELIMINARY HARDWARE SETTINGSHow to remove the instrument from its case1) Switch off the instrument.2) Push gently the lock A on the right.3) While
19 1 3 5 7 2 4 6 8 1 3 5 7 2 4 6 8J102J103CPUcard1 2 3 4ON DIPV301J205MAIN INPUT SELECTIONSet
20Output J 204 J 205Relay close openServo open closeNOTE: when the servomotor close loop or the servomotor openloop with valve position indication out
21Fig. 22To select the desired input type, set V301 (see fig. 20) asdetailed in the following table:Input V301.1 V301.2 V301.3 V301.4IN CT ON OFF ON O
22Operative mode and Hardware lockBy V101 (see fig 22) it is possible to select one of the followingoperative modes:a) run time mode without configura
23Security 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 = OF
24Configuration security codeThe display will show:Note: the middle display shows the current status of theconfiguration security code ("0",
25NOTE: at the end of the security code setting procedure, setV101 according to the desired operative mode (see"Operative mode and hardware lock&
INDEXMOUNTING REQUIREMENTS ... 1OUTLINE AND CUT OUT DIMENSIONS ... 2CONNECTION
26Keyboard descriptionMENU = is used to select a parameter groupFUNC = o when the instrument is in "normal display mode" itchanges the indic
27t+MENU= are used to start the lamp test function (seeparagraph "Lamp test")s+FUNC or t+FUNCDuring parameter modification they allow you to
28By s or t push-button it is possible to select between: = (monitor) this selection allows you to monitor butnot to modify the value assigned to the
29CnF. 12) During monitor mode, if no push-button is depressed for morethan 10 s (or 30 s according to "t.out" [C.I10] parametersetting), th
30CnF. 1specific instrument configuration (i.e. setting OUT 3 differentfrom servo, all the parameters related to servomotor outputwill be skipped).2)
31CnF. 18 = TC S From - 50 to 1760 °C9 = TC R From - 50 to 1760 °C10 = TC B From 0 to 1820 °C11 = TC G (or W) From 0 to 2300 °C12 = TC D (
32CnF. 12) When the square root extraction is enabled the values of thefollowing parameters:- "ñ.In.L" (read-out - initial scale value [C.d0
33CnF. 1Real curveRead-outAdjustedcurveInputOFSt2) Changing the value of this parameter, the "brG.L" (bargraph -initial scale value [C.I03])
34CnF. 1- Auxiliary input function - [C.d09]Range: nonE = Input not usedbIAS = Input used as bias for local set pointNOTES:1) When auxiliary input opt
35CnF. 2- Filter on auxiliary input - [C.d13]This parameter is available only when auxiliary input isconfiguredRanges: from 0 (no filter) to 8 seconds
XkP-0-1C2.P65 10/30/01, 9:42 AM4
36CnF. 2- OUT 2 function - [C.E02]Range: nonE = Output not usedñAin = Time proportional main control outputSECn = Time proportional secondary control
37CnF. 2- Valve position indication - [C.E06]This parameter will be displayed only when open loopservomotor control drive output is configured.Range:
38CnF. 2- OUT 5 retransmission full scale value- [C.E10]This parameter will be available only when Out 5 function[C.E07] is configured as “PV.rt” or “
39CnF. 2- OUT 6 retransmission full scale value- [C.E15]This parameter will be available only when Out 6 function[C.E12] is configured as “PV.rt” or “
40CnF. 2II) Exiting from the configuration group 2 also the followingactions are automatically performed:A) The "Añ.UL” parameter ("Output
41CnF. 3resulting real outputs are shown below:where:- for the first split output (MAIN)Bias 1 = -AGain 1 = 100 / (B - A)- For the second split output
42CnF. 3We will set:Bias 1 = 0Gain 1 = 100 / (33.3 - 0) = 3Bias 2 = - 33.3Gain 2 = 100 / (100 - 33.3) = 1,5The bias and gain of the two split outputs
43CnF. 3- Main control output conditioning - [C.F06]This parameter will be available only when main control output isconfigured.Range: norñ = The cont
44CnF. 3- Main output initial scale readout - [C.F09]This parameter will be available only when "ñ.SCL" ("Maincontrol output in enginee
45CnF. 3- Main output auxiliary conditioning - [C.F11]This parameter will be available only when main control output isconfigured and “ñC.Cn” ("M
1MOUNTING REQUIREMENTSThis instrument is intended for permanent installation, for indooruse only, in an electrical panel which encloses the rear housi
46CnF. 3- Secondary control output in engineering unit- [C.F13]This parameter will be available only when secondary controloutput is configured.Range:
47CnF. 3- Secondary output auxiliary conditioning- [C.F17]This parameter will be available only when secondary controloutput is configured and “SC.Cn”
48CnF. 4CONFIGURATION GROUP 4 [C.Gxx]AUXILIARY CONTROL CONFIGURATION- Smart function - [C.G01]This parameter will be available only when at least one
49CnF. 4NOTES:1) When open loop servomotor control drive without valveposition indication is configured, this parameter is forced to“buñ.” and it cann
50CnF. 4- Program restarting after a power failure- [C.G07]Range: Edit = the program execution will be stopped and theinstrument starts in STAND-BY mo
51CnF. 5- Program restart tracking band - [C.G08]This parameter will be available only when "St.Pr" (programrestart after power supply failu
52CnF. 5CONFIGURATION GROUP 5 [C.Hxx]DIGITAL INPUT/OUTPUT CONFIGURATION- Logic input "DIG 1" function - [C.H01]This parameter will be availa
53CnF. 5Notes about logic inputs used for program selection1) When some logic inputs are programmed as programselectors ("Pr.SL") the instru
54CnF. 5NOTE: when an input is programmed as RUN/HOLD selector related with the status, the RUN/HOLD selection by keyboard has no effect.ru.St = Input
55CnF. 5NOTE: See also all NOTES of the "d1.Fn" ("Logic input 1function" [C.H01]) parameter.- Logic input DIG 2 - contact status -
2OUTLINE AND CUT OUTDIMENSIONSFig. 2.B OUTLINE AND CUT-OUT DIMENSIONSXKP-1-C2.p65 10/30/01, 9:36 AM2
56CnF. 5Au.ñA = Input contact used for Auto/Manual selection(Manual when logic level is “1”)O.LIñ = Input contact used for output limiter activation(O
57CnF. 5NOTE: for ABORT function only, the inputstatus must be maintained for more than 3seconds.Pr.SL = Input contact used for program selection (for
58CnF. 5the output programmed as "end of profileannunciator" in ON status for a time equal tothe value assigned to "tE.Pr" [C.H12]
59CnF. 6- Time for the "End of cycle" annunciator- [C.H11]Available only when one of the Events is programmed as "Endof cycle" ann
60CnF. 6CONFIGURATION GROUP 6 [C.Ixx]OTHER CONFIGURATION PARAMETERS- Green bargraph function - [C.I01]This parameter will be available for 25Q models
61CnF. 6- Resolution of the deviation bargraph - [C.I05]This parameter will be available only for 25Q models when“G.brG” [C.I01] is equal to “DEV.”.Ra
62CnF. 6- Servomotor behaviour when the outputpower is limited - [C.I08]This parameter will be available only when the close loopservomotor control dr
63CnF. 6- Out failure detection (OFD) - [C.I11]This parameter will be available only when the option is fittedand the main and/or the secondary output
64CnF. 6- Automatic start enabling - [C.I14]This parameter will be available only when the clock calendarhardware is mounted.Range: nonE = The "A
65VErFCONFIGURATION GROUP VERF [C.Lxx]CLOCK AND INPUT/OUTPUT TESTThis group is displayed only when configuration modify mode isenabled.This group allo
3Connections are to be made with the instrumenthousing installed in its proper location.A) MEASURING INPUTSNOTE: Any external component (like zener ba
66VErF- Clock calendar test - [C.L01]This parameter is available only if the clock calendar option isfitted.Middle display: minutes and secondsNOTE: T
67General note for configuration group "VErF"Returning in the "run time mode", the instrument restarts tocontrol the process, the
68ATTENTION: One software key protects one or more run timeparameter groups so that when the software key is set, it ispossible to modify the run time
69NOTES:1) In the following pages we will describe all the parameter ofthe instrument. The instrument, however, will show only theparameters related
70Gr. 2Run time group 2 [r.bxx]COMMAND- Programmer/controller mode selection- [r.b01]This parameter can be modified only when no program isrunning.Ran
71Gr. 3from 1 to 90 = it is the simple program selected for theclock start.from L1 to L9= It is the linked program selected for theclock start.NOTES:1
72Gr. 3tHU = ThursdayFri = FridaySat = SaturdaySUn = SundayNOTE: this is a readable parameter only and it cannot bemodified.- Group 2 default data loa
73Gr. 3Range: - in engineering units within the span limits for processalarm;- from -1000 to 1000 digits for deviation alarm;- from 0.0% to 100.0 % f
74Gr. 3- high threshold used when the alarm 2 is aband alarm - [r.C07]This parameter is available only when the alarm 2 is configuredas band alarm (“A
75Gr. 3NOTE: The span limits are configured by “ñ.In.L” [C.d05] and“ñ.In.H” [C.d06].- Low threshold used when the alarm 4 is aband alarm - [r.C12]This
4A.1) TC INPUTFig. 4 THERMOCOUPLE INPUT WIRINGNOTES:1) Don’t run input wires together with power cables.2) For TC wiring use proper compensating cabl
76Gr. 3- Alarm 1 hysteresis - [r.C16]This parameter is available only when Out 1 is configured asalarm output (“O1.Fn” [C.E01] = “ALr.1”)Range: from 1
77Gr. 4Run time group 4 [r.dxx]CONTROL PARAMETERSNOTE: when SMART function is activated, all the Group 4parameters cannot be modified.- Proportional b
78Gr. 4NOTES:1) When device is working with SMART algorithm and “Cn.tP”[C.G02] is equal to “Pid”, the “td” value will be made equal toa quarter of “t
79Gr. 4NOTES:1) When device is configured with two control outputs (splitrange excluded) the control action is forced to reverse and itcannot be modif
80Gr. 4- Hysteresis (for ON/OFF control) of the firstPID group - [r.d10]This parameter is available when Pb [r.d01]=0 (On/OFF controlaction) and the i
81Gr. 5- Integral preload of the first PID group- [r.d13]This parameter is available when at least one control output isconfigured, "Pb" [r.
82Gr. 5Run time group 5 [r.Exx]AUXILIARY CONTROL PARAMETER- Anti reset wind up - [r.E01]This parameter is available when at least one control output i
83Gr. 5- Main control output max rate of rise - [r.E06]This parameter is available when one control output isconfigured as main output.Ranges: from 0.
84Gr. 5- Set point high limit - [r.E13]Range: from rL [r.E12] to “ñ.In.H” [C.d06].NOTES: Whenever “ñ.In.H” [C.d06] has been modified, thefollowing occ
85Gr. 6- Time out for the soft start - [r.E16]This parameter is available when at least one output isconfigured as control output and no logic input i
5Shield+_TX31117A.3) LINEAR INPUTFig. 6 mA, mV AND V INPUTS WIRINGNOTES:1) Don’t run input wires together with power cables.2) Pay attention to the
86Gr. 6Run time group 6 [r.Fxx]ALARM SETTING- Alarm 1 type - [r.F01]This parameter is available only when OUT 1 is configured asalarm 1 output (“O1.Fn
87Gr. 6Example for A1.Cn (A2.Cn, A3.Cn) = H.A.A= alarm condition detectionB= automatic reset of alarmC= manual reset; the LED gets steady lit, the ala
88Gr. 6Example for A1.Cn (A2.Cn, A3.Cn) = H.L.A= alarm condition detectionB= the alarm remains in alarm status (even if the measuredvalue is under the
89Gr. 6NOTES:1) If the alarm is programmed as band or deviation alarm, thisfunction masks the alarm condition after a set point change orat the instru
90Gr. 6- Alarm 2 action - [r.F07]This parameter is available only when OUT 2 is configured asalarm 2 output (“O2.Fn” [C.E02] = “ALr.2”)Range: dir = di
91Gr. 6- Alarm 3 configuration - [r.F10]This parameter is available only when OUT 3 is configured asalarm 3 output (“O3.Fn” [C.E03] = “ALr.3”)Range: H
92Gr. 6- Alarm 4 type - [r.F13]This parameter is available only when OUT 4 is configured asalarm 4 output (“O4.Fn” [C.E04] = “ALr.4”)Range: Proc = Ala
93Gr. 6alarm threshold plus or minus hysteresis. If the alarm isprogrammed as a process alarm or control output alarm, thisfunction masks the alarm co
94Gr. 7Run time group 7 [r.Gxx]SERIAL LINK PARAMETER- Serial interface protocol - [r.G01]Range: OFF = No serial interfaceñbUS = ModbusjbUS = JbusNOTE
95Gr. 8Run time group 8 [r.Hxx]FEEDBACK POTENTIOMETER ADJUSTMENTNOTE: The run time group 8 will be displayed only if theinstrument is in MANUAL mode.-
Commentaires sur ces manuels