Instruction ManualSuper SystemsModel AC20August 2004Part No. 31069 - Standard Atmosphere Controller with expanded event capability
8Fig. 8.B RELAY OUTPUTS 4, 5 and 10 TO 14 WIRINGFig. 8.C RELAY OUTPUTS 15 TO 19 WIRINGOutputs from OUT 10 to OUT 19 are optional.The contact ratin
A. 4DEFAULT CONFIGURATIONDEFAULT CONFIGURATIONDEFAULT CONFIGURATIONDEFAULT CONFIGURATIONDEFAULT CONFIGURATIONPARAMETERSPARAMETERSPARAMETERSPARAMETERSP
A. 5and then the display will show:The default parameter loading procedure of all configurationprameters is ended.The following is a list of the defau
A. 6ñC.E.L 0ñC.E.H 100ñC.A.C bEFrSC.Cn norñS.SCL nOSC.dP ——. (No decimal figure)SC.E.L 0SC.E.H 100SC.A.C bEFrConfiguration group 4 [C.Gxx]Configuratio
A. 7TABLE 2 (AMERICAN)TABLE 2 (AMERICAN)TABLE 2 (AMERICAN)TABLE 2 (AMERICAN)TABLE 2 (AMERICAN)Configuration group 1 [C.Dxx]Configuration group 1 [C.Dx
A. 8Configuration group 4 [C.Gxx]Configuration group 4 [C.Gxx]Configuration group 4 [C.Gxx]Configuration group 4 [C.Gxx]Configuration group 4 [C.Gxx]P
B. 1ALGORITHMSALGORITHMSALGORITHMSALGORITHMSALGORITHMSThe following tempirical (derived from experiment) equations areincluded into the instrument fir
B. 2To enable calibration and go to the next action step, push FUNCwhen "on" is displayed. For CJ calibration , use / keys to seta temper
Calibration Procedure AC200831106 Rev. 0
Calibration procedure for AC20
Calibration procedure for AC20
9NOTES:NOTES:NOTES:NOTES:NOTES: 1) To avoid electrical shock, connectpower line at the end of the wiring procedure.2) For power connections use No 1
Calibration procedure for AC20
Calibration procedure for AC20
Calibration procedure for AC20
Calibration procedure for AC20
Copyright © 1999 Super Systems Inc.Manual Part No. 31069AC20 170.IU0.AC2.S0A 8.04Super SystemsS
10C.2) VOLTAGE OUTPUTS FOR SSR DRIVEC.2) VOLTAGE OUTPUTS FOR SSR DRIVEC.2) VOLTAGE OUTPUTS FOR SSR DRIVEC.2) VOLTAGE OUTPUTS FOR SSR DRIVEC.2) VOLTAGE
11Fig. 11.B OUTPUT 7 WIRINGNOTESNOTESNOTESNOTESNOTES:1) Do not run analog output wires together with AC powercables.2) Out 6 and 7 are isolated outp
12b) The ” A ” terminal of the generator shall be positive withrespect to the ” B ” terminal for a binary 0 (SPACE or ON).3) The EIA standard e
134) Use copper conductors only.5) Don’t run input wires together with power cables.6) The power supply input is fuse protected by a sub miniaturefuse
14Fig. 14.bPRELIMINARY HARDWARE SETTINGSPRELIMINARY HARDWARE SETTINGSPRELIMINARY HARDWARE SETTINGSPRELIMINARY HARDWARE SETTINGSPRELIMINARY HARDWARE SE
15J103 SETTINGJ103 SETTINGJ103 SETTINGJ103 SETTINGJ103 SETTINGJ103 (see fig. 15) must be set as follows:J1031-2 open3-4 open5-6 open7-8 open5-7 close6
16Operative mode and Hardware lockOperative mode and Hardware lockOperative mode and Hardware lockOperative mode and Hardware lockOperative mode and H
17SECURITY CODE SETTING MODESECURITY CODE SETTING MODESECURITY CODE SETTING MODESECURITY CODE SETTING MODESECURITY CODE SETTING MODEGeneral notesGener
INDEXINDEXINDEXINDEXINDEXMOUNTING REQUIREMENTS ... 1OUTLINE AND CUT OUT DIMENSIONS ...
18Run time groups protected by security codeRun time groups protected by security codeRun time groups protected by security codeRun time groups protec
19Configuration security codeConfiguration security codeConfiguration security codeConfiguration security codeConfiguration security codeThe display w
20Keyboard descriptionKeyboard descriptionKeyboard descriptionKeyboard descriptionKeyboard descriptionMENU = is used to select a parameter group.FUNC
21NOTESNOTESNOTESNOTESNOTES:1) All the actions explained above which requires two or morepush-buttons must follow exactly the push-button sequenceshow
22By or push-button it is possible to select between: = (monitor) this selection allows you to monitor butnot to modify the value assigned to thec
23MODIFY MODEMODIFY MODEMODIFY MODEMODIFY MODEMODIFY MODE1) By or push-button select the modify mode.2) Push the MENU push-button.If a security co
242) During configuration parameters modify mode, the upperdisplay shows the selected parameter group, the lower displayshows the mnemonic code of the
25 NOTES:NOTES:NOTES:NOTES:NOTES:1) Changing the controlled variable, the following parameters:"CnF.6 - brG.L" [C.I03] and "CnF.6
262) When "dP" or "CP" or O2 are selected as the controlledvariable, this filter can affect the control action, the alarms,the SM
27C.D09 - TIME CONSTANT FOR FILTER ON REMOTEC.D09 - TIME CONSTANT FOR FILTER ON REMOTEC.D09 - TIME CONSTANT FOR FILTER ON REMOTEC.D09 - TIME CONSTANT
1MOUNTING REQUIREMENTSMOUNTING REQUIREMENTSMOUNTING REQUIREMENTSMOUNTING REQUIREMENTSMOUNTING REQUIREMENTSThis instrument is intended for permanent in
28C.E03 - OUT 3 functionC.E03 - OUT 3 functionC.E03 - OUT 3 functionC.E03 - OUT 3 functionC.E03 - OUT 3 functionUpper display: CnF.2Lower display: O3.
29C.E06 -C.E06 -C.E06 -C.E06 -C.E06 -OUT 6 retransmission - initial scale valueOUT 6 retransmission - initial scale valueOUT 6 retransmission - initia
30C.E11 -C.E11 -C.E11 -C.E11 -C.E11 -OUT 7 retransmission - initial scale valueOUT 7 retransmission - initial scale valueOUT 7 retransmission - initia
31General note on configuration group 2General note on configuration group 2General note on configuration group 2General note on configuration group 2
32C.F05 - Main control output full scale valueC.F05 - Main control output full scale valueC.F05 - Main control output full scale valueC.F05 - Main con
33[r.E03] parameters.- "Main control output max rate of rise" (see [r.E04]).- "Control output display value" - for more details se
34CONFIGURATION GROUP 4 [C.Gxx]CONFIGURATION GROUP 4 [C.Gxx]CONFIGURATION GROUP 4 [C.Gxx]CONFIGURATION GROUP 4 [C.Gxx]CONFIGURATION GROUP 4 [C.Gxx]AUX
35NOTENOTENOTENOTENOTE: if the control action type is changed, the controlparameter values (P, I, D) are updated with valuescalculated by the last TUN
36Cnd.b = It starts in the same way it was left prior topower shut down (if in manual mode the poweroutput will be equal to the last value prior topow
37CONFIGURATION GROUP 5 [C.Hxx]CONFIGURATION GROUP 5 [C.Hxx]CONFIGURATION GROUP 5 [C.Hxx]CONFIGURATION GROUP 5 [C.Hxx]CONFIGURATION GROUP 5 [C.Hxx]DIG
2OUTLINE AND CUT OUT DIMENSIONSOUTLINE AND CUT OUT DIMENSIONSOUTLINE AND CUT OUT DIMENSIONSOUTLINE AND CUT OUT DIMENSIONSOUTLINE AND CUT OUT DIMENSION
38 SP.L.r = Input contact used for Local/Remote set point selection (Remote when logic level is“1”)NOTENOTENOTENOTEN
39C.H04 -C.H04 -C.H04 -C.H04 -C.H04 -Digital input 2 contact statusDigital input 2 contact statusDigital input 2 contact statusDigital input 2 contact
40C.I03 -C.I03 -C.I03 -C.I03 -C.I03 -Bargraph initial scale valueBargraph initial scale valueBargraph initial scale valueBargraph initial scale valueB
41C.I06 -C.I06 -C.I06 -C.I06 -C.I06 -Set point display typeSet point display typeSet point display typeSet point display typeSet point display typeUpp
42C.L04 Digital input In.1 statusC.L04 Digital input In.1 statusC.L04 Digital input In.1 statusC.L04 Digital input In.1 statusC.L04 Digital input In.1
43CONFIGURATION GROUP END [C.Mxx]CONFIGURATION GROUP END [C.Mxx]CONFIGURATION GROUP END [C.Mxx]CONFIGURATION GROUP END [C.Mxx]CONFIGURATION GROUP END
44e) Pushing FUNC push-button again, it is possible to display theCarbon potential, the "CP" LED lights up.NOTE:NOTE:NOTE:NOTE:NOTE: this se
45NOTES:NOTES:NOTES:NOTES:NOTES:1) The CO. value will be set to 20 if the auxiliary input is outof range.2) This indication is available only if the a
461 Lit when:- OUT 1 is used as control output and it is in ONcondition;- alarm 1 is in alarm state and acknowledged.Flashes when alarm 1 is in alarm
47NOTE:NOTE:NOTE:NOTE:NOTE: an additional indication is available, the decimal pointshown below is:- flashing when the set point is controlled by the
3CONNECTION DIAGRAMSCONNECTION DIAGRAMSCONNECTION DIAGRAMSCONNECTION DIAGRAMSCONNECTION DIAGRAMSFig. 3. REAR TERMINAL BLOCK
48MANUAL FUNCTIONMANUAL FUNCTIONMANUAL FUNCTIONMANUAL FUNCTIONMANUAL FUNCTIONThe MANUAL mode function can be accessed (only if configured)by depressin
49If transfer from AUTO to MANUAL is performed during the firstpart of SMART algorithm (TUNE) the SMART will be aborted andwhen returning to AUTO, it
50BURN OFF PROCEDUREBURN OFF PROCEDUREBURN OFF PROCEDUREBURN OFF PROCEDUREBURN OFF PROCEDURE(Available only if “O2” is not selected as primary control
51The Burn off sequence is the following:- The Burn off output (OUT 4)will be turned ON for a programma-ble period (by "Gr. 8 - "t.bOF"
52When the checking will be successful, these conditions nolonger exist and the automatic Probe test will be immediatelyperformed.The timer programmed
53Es is is the sensor output (in mV) measured after the shuntconnection.4) It removes the 47.5 KΩ shunt resistor.5) It displays the calculated value o
54LAMP TESTLAMP TESTLAMP TESTLAMP TESTLAMP TESTWhen it is desired to verify the display efficiency, put theinstrument in "normal display mode&quo
55data regarding the TUNE will be lost, so it will be necessary tore-start the SMART function.If a power down occurs during the second part of SMARTal
56COF AND H2F ADJUSTMENT DIAGRAMCOF AND H2F ADJUSTMENT DIAGRAMCOF AND H2F ADJUSTMENT DIAGRAMCOF AND H2F ADJUSTMENT DIAGRAMCOF AND H2F ADJUSTMENT DIAGR
57PARAMETER PROTECTIONPARAMETER PROTECTIONPARAMETER PROTECTIONPARAMETER PROTECTIONPARAMETER PROTECTIONMoving from one run time parameter group to anot
4A) PROBE SENSOR INPUT (MAIN INPUT)A) PROBE SENSOR INPUT (MAIN INPUT)A) PROBE SENSOR INPUT (MAIN INPUT)A) PROBE SENSOR INPUT (MAIN INPUT)A) PROBE SENS
58Run time group 1 [R.Axx]Run time group 1 [R.Axx]Run time group 1 [R.Axx]Run time group 1 [R.Axx]Run time group 1 [R.Axx]Set point and factor valuesR
59R.A03 - Set point 3R.A03 - Set point 3R.A03 - Set point 3R.A03 - Set point 3R.A03 - Set point 3This parameter is available only when one of the logi
60Run time group 3 [R.Cxx]Run time group 3 [R.Cxx]Run time group 3 [R.Cxx]Run time group 3 [R.Cxx]Run time group 3 [R.Cxx]ALARM THRESHOLD AND HYSTERES
61R.C02 - Alarm 1 thresholdR.C02 - Alarm 1 thresholdR.C02 - Alarm 1 thresholdR.C02 - Alarm 1 thresholdR.C02 - Alarm 1 thresholdThis parameter is avail
62R.C08 - Alarm 3 thresholdR.C08 - Alarm 3 thresholdR.C08 - Alarm 3 thresholdR.C08 - Alarm 3 thresholdR.C08 - Alarm 3 thresholdThis parameter is avail
63R.C10 -R.C10 -R.C10 -R.C10 -R.C10 -High threshold used when theHigh threshold used when theHigh threshold used when theHigh threshold used when theH
64R.D02 - Hysteresis (for ON/OFF control)R.D02 - Hysteresis (for ON/OFF control)R.D02 - Hysteresis (for ON/OFF control)R.D02 - Hysteresis (for ON/OFF
65R.D04 - Derivative timeR.D04 - Derivative timeR.D04 - Derivative timeR.D04 - Derivative timeR.D04 - Derivative timeThis parameter is available when
66Run time group 5 [R.Exx]Run time group 5 [R.Exx]Run time group 5 [R.Exx]Run time group 5 [R.Exx]Run time group 5 [R.Exx]AUXILIARY CONTROL PARAMETERR
67R.E03 - Main control output high limitR.E03 - Main control output high limitR.E03 - Main control output high limitR.E03 - Main control output high l
53+_Shield13+_Shield1A.1) TEMPERATURE (THERMOCOUPLE) INPUTA.1) TEMPERATURE (THERMOCOUPLE) INPUTA.1) TEMPERATURE (THERMOCOUPLE) INPUTA.1) TEMPERATURE (
68R.E10 - Set point low limitR.E10 - Set point low limitR.E10 - Set point low limitR.E10 - Set point low limitR.E10 - Set point low limitUpper display
69R.E12 -R.E12 -R.E12 -R.E12 -R.E12 -Rate of change for positive set pointRate of change for positive set pointRate of change for positive set pointRa
70R.F02 -R.F02 -R.F02 -R.F02 -R.F02 -Alarm 1 configurationAlarm 1 configurationAlarm 1 configurationAlarm 1 configurationAlarm 1 configurationThis par
71ExampleExampleExampleExampleExample for A1.Cn (A2.Cn, A3.Cn) = H.A.A= alarm condition detectionB= automatic reset of alarmC= manual reset; the LED g
72status until the process variable reaches the alarm thresholdminus hysteresis (D).NOTESNOTESNOTESNOTESNOTES:1) The alarm status is present when:the
73R.F04 -R.F04 -R.F04 -R.F04 -R.F04 -Alarm 1 stand by (mask) functionAlarm 1 stand by (mask) functionAlarm 1 stand by (mask) functionAlarm 1 stand by
74NOTESNOTESNOTESNOTESNOTES:1) If the alarm is programmed as band or deviation alarm, thisfunction masks the alarm condition after a set point change
75R.F10 -R.F10 -R.F10 -R.F10 -R.F10 -Alarm 3 configurationAlarm 3 configurationAlarm 3 configurationAlarm 3 configurationAlarm 3 configurationThis par
76R.G02 -R.G02 -R.G02 -R.G02 -R.G02 -Serial link device addressSerial link device addressSerial link device addressSerial link device addressSerial li
77R.G05 - Group 7 default data loading.R.G05 - Group 7 default data loading.R.G05 - Group 7 default data loading.R.G05 - Group 7 default data loading.
62) Don’t run input wires together with power cables.3) Pay attention to the line resistance; a high line resistancemay cause measurement errors.4) Wh
78R.H05 -R.H05 -R.H05 -R.H05 -R.H05 -Time remaining to the next automaticTime remaining to the next automaticTime remaining to the next automaticTime
79R.H07 - Group 8 default data loading.R.H07 - Group 8 default data loading.R.H07 - Group 8 default data loading.R.H07 - Group 8 default data loading.
80Run time group "Hd" [R.Mxx]Run time group "Hd" [R.Mxx]Run time group "Hd" [R.Mxx]Run time group "Hd" [R.Mxx]
81R.M02 -R.M02 -R.M02 -R.M02 -R.M02 -Maximum value of proportional bandMaximum value of proportional bandMaximum value of proportional bandMaximum val
82ERROR MESSAGESERROR MESSAGESERROR MESSAGESERROR MESSAGESERROR MESSAGESOVERRANGE, UNDERRANGE AND TEMPERATUREOVERRANGE, UNDERRANGE AND TEMPERATUREOVER
83signalled on lower display as “ ”On UNDER-RANGE on remote setpoint measurement issignalled on lower display as “- ”(indication onl
84This error can be detected also at start up inADAPTIVE mode when the values calculated bySMART are wrong.In both cases, the instrument will be force
85Common mode rejectionCommon mode rejectionCommon mode rejectionCommon mode rejectionCommon mode rejection: 120 dB @ 50/60 Hz.Normal mode rejectionNo
86INPUTSINPUTSINPUTSINPUTSINPUTSA) A) A) A) A) MAIN INPUTMAIN INPUTMAIN INPUTMAIN INPUTMAIN INPUTType:Type:Type:Type:Type:- 0 to 1500 mV (when mV sens
87The span is fixedThe span is fixedThe span is fixedThe span is fixedThe span is fixed from 0 upto 100 for Carbone Monoxide oras per Main input for R
7474845IN 6IN 746IN 549IN 8Fig. 7.B - LOGIC INPUTS IN5 TO IN8 WIRINGLogic inputs from IN1 to In8 are optional.NOTESNOTESNOTESNOTESNOTES:1) Do not run
88D) LOGIC INPUTSD) LOGIC INPUTSD) LOGIC INPUTSD) LOGIC INPUTSD) LOGIC INPUTSThe instrument is equipped with 3 logic inputs.Input typeInput typeInput
89Secondary output cycle timeSecondary output cycle timeSecondary output cycle timeSecondary output cycle timeSecondary output cycle time: from 1 seco
90REMOTE SET POINTREMOTE SET POINTREMOTE SET POINTREMOTE SET POINTREMOTE SET POINTThe device can be equipped with a remote set point.This feature must
91OUTPUTSOUTPUTSOUTPUTSOUTPUTSOUTPUTSOut 1 and 2Out 1 and 2Out 1 and 2Out 1 and 2Out 1 and 2FunctionFunctionFunctionFunctionFunction: singularly prog
92ANALOG OUTPUTSANALOG OUTPUTSANALOG OUTPUTSANALOG OUTPUTSANALOG OUTPUTSOut 6 and 7Out 6 and 7Out 6 and 7Out 6 and 7Out 6 and 7FunctionFunctionFunctio
93Band alarmBand alarmBand alarmBand alarmBand alarmOperative modeOperative modeOperative modeOperative modeOperative mode: Inside or outside programm
94MAINTENANCEMAINTENANCEMAINTENANCEMAINTENANCEMAINTENANCE1) REMOVE POWER FROM THE POWER SUPPLY TERMINALSAND FROM RELAY OUTPUT TERMINALS2) Remove the i
A. 1DEFAULT PARAMETERSDEFAULT PARAMETERSDEFAULT PARAMETERSDEFAULT PARAMETERSDEFAULT PARAMETERSDEFAULT RUN TIME PARAMETERSDEFAULT RUN TIME PARAMETERSDE
A. 2The following is a list of the default run time parameters loadedduring the above procedure:Run time group 1 [R.Axx]Run time group 1 [R.Axx]Run ti
A. 3ñC.CY = 16 s (If relay output)2 s (If SSR output)S.OLL = 0.0%S.OLH = 100.0%S.rñP = InfSC.CY = 16 s (If relay output)2 s (If SSR output)rL = Initia
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