TEMPERATURE CONTROLLER OPERATION MANUAL
TEMPERATURE CONTROLLEROPERATION MANUAL
Before using please check whether range, input and output match yourrequirement.Thank you for using our microprocessor temperature controller, we haveobtained CE certification (LDV: D/N EN61010-1; EMC EN 55 022 1994/A1:1995/A2: 1997, EN 61 000-3-2: 1995/ -3-3: 1995, EN 61 000-4-2: 1995/ -4-3:1996/ -4-5: 1995/ -4-6: 1996/ -4-8: 1993/ -4-11: 1996/ EN 50 204: 1995) for allour products since January, 2002. We have also computerized our QC processand testing to provide high quality standard, low price and high functionality inour products.1.SETFront panel instructionPV900SV900A/MFY900PV 800SV 800PV 700SV 700A/MPV 600SETSETSV 600A/MFY800SET A/MFY700FY600PV 400SV 400SETFY4001.1 DISPLAYPV:Process value ,4 digit display (red color)SV:Setting value ,4 digit display (green color)1.2 LEDOUT1OUT2ATPROAL1AL2AL3MAN:Output 1,green color:Output 2,green color:Auto Tuning,yellow color:Program,yellow color --- Only available for PFY models.:Alarm 1 ,red color:Alarm 2 ,red color:Alarm 3 ,red color:Manual,yellow color*Note: When error occurs, the MAN will light up, and willreset output percentage to zero.1
1.3 KEYSET:MODE & SET key:SHIFT key:DOWN key (Setting value –1, -10, -100, -1000)A/M:UP key (Setting value 1, 10, 100, 1000):Auto/Manual key.Automatic :The output percentage is determined by internalcalculation.Manually :The output percentage is determined by manually setOUTL at User Level.2Auto tuning2.22.3Once AT is set YES,auto tuning is to be performed.After auto tuning is finished,a new set of PID parameter is2.4generated internally to replace the existing PID parameter.* Auto tuning allows the controller to automatically adjust the PIDparameter, and is suitable for use when temperature control isnot accurate enough.ATVL auto tuning offset,and it will be deduced from SV(it can prevent over shoot during auto tuning)SV-ATVL Auto-tuning value,ATVL auto tuning offsetEx.SV 200 ,ATVL 5,Auto tuning point is at 195 During auto tuning the PV value will oscillate around 195 .Hence PV will not go over 200 .* In programmable model,ATVL means Auto-tuning point2.5Auto tuning failurePossible Cause 1: ATVL is too big. (If not sure,set ATVL 0)Possible Cause 2: System time is too long.(Set PID parameter individually)2
3.Error informationDISPLAYDESCRIPTIONIN1E* ADCFOpen circuit of main control sensor.A/D converter failed.* CJCEIN2EUUU1Cold junction compensation failed.NNN1PV under LSPL.UUU2NNN2Input signal of sub control exceeds the upper limit.Input signal of sub control under the lower limit.* RAMFINTFAUTFRAM failed.Open circuit of sub control sensor.PV exceeds USPL.Interface failed.Auto tuning failed.NOTE: If the “*” marked error comes up ,the Controller needs repair.Please send it to the nearest sales office or retail dealer.3
4.Operating flow4.1LEVEL 1 (User Level)Display PVDisplay SVPVSVTo LEVEL 2(press Set key for 5 sec.)setOutput PercentageOUTL100setAuto Tuning StatusATYES/NOsetAlarm 1 setAL10setAlarm 2 setAL20setAlarm 3 set4.1.1AL304.1.3Press the SHIFT KEY ( ) to change the parameters. If the SHIFTKEY is pressed,the first digit begins blinking. Press the UP KEY()or DOWN KEY( ) to increase or decrease the value of the digit,then press the SHIFT KEY( ) again to go to the next digit. As all thedigit are written,press SET KEY to enter the value.SET KEY also has the function of changing MODEs,if the SET KEYis pressed,the display shows the next MODE.Press SET KEY for 5 sec. the display goes to LEVEL 2,and do the4.1.4same to return LEVEL 1.If any key were not pressed for 1 minute , the display would go to4.1.54.1.6LEVEL 1.Press A/M KEY twice will go to LEVEL 1 ,no matter where it is.If OUTL set "0",it means the controller has no output,4.1.24
4.2LEVEL 2 (PID Level)press SET key for 5 seconds to enter Level 2Main ControlProportional BandRange:0.0-200.0%ON/OFF at P 0Main ControlIntegral TimeRange:0 3600 SecIntegral OFF at I 0Main ControlDerivative TimeRange:0 900 SecDerivative OFF at D 0Main ControlDead-band TimeDon t careATVL0Main ControlAuto tuning off-setRange:0 USPLCYT110Main ControlProportional CycleOutput (SSR 1,4 20mA 0,Relay over 10)Range:0 150 SecHYS11Main ControlHysteresisRange:0 1000 (For ON/OFF control only)OFF: PV (SV HYS1)ON: PV (SV-HYS1)P13.0SetI1240D160SetSetdb 10SetSetDisplayed,only if P1 0.0SetSetP23.0SetSames as P1Sub ControlIntegral TimeSames as I1Sub ControlDerivative TimeSames as D1CYT210Sub ControlProportional CycleSames as CYT1HYS21Sub ControlHysteresisSames as HYS1GAP10Main ControlGap (Output 1)OUT1(HEAT)Setting Point SV - GAP1GAP20Sub ControlGap (Output 2)OUT2(COOL)Setting Point SV GAP2LCK0000Function LockI2240SetDisplayed,only if "Dual" Output.Displayed,only if P2 0.0Sub ControlProportional BandD2240SetSetSetSetSetSetReturn P1LCK 0000,To enter any Level ( not include SET Level) and change their parametersLCK 1111,To enter any Level (include SET Level) and change their parametersLCK 0100,To enter Level 1 & 2 and to change their parameters.LCK 0110,To enter Level 1 & 2 and to change Level 1parameters only .LCK 0001,To enter Level 1 only and to change SV only.LCK 0101,it can t change any parameter except LCK.5
4.3LEVEL 3 (INPUT Level)When LCK 0000,press SET key and SHIFT KEYfor 5 seconds to enterLEVEL 3INP1K2Main Controlinput selectionselect the input range,refer to inputselection (P.12 13)ANL10Main ControlAnalog Zero setIt is used when INP1 AN1 AN5Range:LSPL USPLANH15000Main ControlAnalog Span setSame as ANL1Decimal pointTo set the position of decimal point(Only applicable when INP1 AN1 AN5)LSPL0.0Lower set-point limitTo set the lowest point within INP1USPL400.0Upper set-point limitTo set the highest point within INP1ANL20Sub ControlAnalog Zero setIt is used as input code are AN1 to AN5Range:LSPL USPLSub ControlAnalog Span setSames as ANL2ALD101Alarm mode of AL1Range:00 19 (see P.14 15)ALT110Time set of Alarm 1Range:0 99.59 min. 0 flicker alarm,99.59 continued,and other on delay timeNote:In program model,ALT Alarm on timeALD201Alarm mode of AL2Range:00 19 (see P.14 15)ALT20Time set of Alarm 2Sames as ALT1ALD301Alarm mode of AL3Range:00 19 (see P.14 15)ALT30Alarm 3 time setSames as ALT1HYSA0Hysteresis of alarmRange:0 1000Main ControlcalibrationCalibrate the low value of outputRange:LSPL USPL(current output etSetSetSetSetCLO1230Set6
CHO13600Main ControlCalibration highTo calibrate the high value of outputRange:0 9999(current output only)CLO2230Sub controlCalibration lowSame as CLO1CHO23600Sub controlCalibration highSame as CHO1CLO30Transmitter controlCalibration lowSame as CLO1CHO35000Transmitter controlCalibration highSame as CHO1RUCY5Timer of motorFull run time of proportional motor(without potentiometer) Range:5 200 sec.SetSetSetSetSetSetWAIT0SetUse in program forwaiting continuedoperationRefer to "SETA" description.(see P.22)SETA0000Set0 No WaitOther Wait volumeIDNO1ID number(don t care)Communication ID numberBAUD2400Baud rate(don t care)UART baud rate selectionRange:110 9600 BIT/secSVOS0Compensate SVRange:-1000 1000PVOS0Compensate PVRange:LSPL USPLUNITCUnit of PV & SVRange:C,F,A(analog)Soft filter(don t care)Adjust the response time of PV(the bigger, the faster)Range:0.05 1.00SetSetSetSetSetSOFT0.200SetCASCdon t careSetOUDHEATAction modeRange:heat,coolOPADPIDControl ZSetSetHZ60SetReturn INP17
4.4LEVEL 4 (SET Level)When LCK 1111,press SET key and SHIFT KEYfor 5 seconds to enterLevel 4. There are SET 0.1 to SET 9.4 for use.4.4.1Display:Press SET key to changeSET 0.* 9.*SET 10100 lock1 open1SET * . 1SET * . 2SET * . 3SET * . 44.4.2Function of SETsSETFunctionSETFunction1.11.2OUTLAT5.15.2CLO2 ,CHO2CLO3 ,CHO31.3AL15.31.42.15.46.12.2AL2AL3ANL1,ANH1 4.3HYSACLO1 ,CHO14.48SVOS
SETFunction8.10 No repeat1 Program repeat8.20 No power failure8.31 With power failure0 Start from 0Auxiliary Output UseTRS PV0.3!Programmable Model Only1 Start from PVTRS SV9.39.4!Remarks0 No Remote SV1 Remote SVWhen SET8.3 1 (The programmable controller will initiate the SV value to bethe current PV value.) The controller will be more energy efficient, and alsodecreases the time needed to achieve the desired SV value. The remaining timeleft to reach the SV value will be shown in the parameter “TIMR”. Hence thetime of countdown is related to the PV value, not related to segment setting.Please don't operate SET 8.4,otherwise the controller's process will be inconfusion.If SET8.4 is set to “1”, the controller will enter into “Single Display” mode, thePV LED will not display any values. The SV LED will display both theparameter value and the setting value alternately as shown in the diagrambelow.PVSVDisplayed alternatelyEMPTY8TESXXX1 ( "X" means 0 or 1 )To rectify the problem please press the SHIFT KEY (setting value to “XXX0”.) and change the4.4.3FUNCTION OF LCKLCK 0000,It can enter Level 3 ( press SET for 5 sec.)LCK 1111,It can enter Level 4 ( press SET for 5 sec.)LCK 0100,It can enter Level 1 & 2 and change their parameters.LCK 0110,It can enter Level 1 & 2 but change Level 1 parameters only.LCK 0001,It can enter Level 1 only and change SV only.LCK 0101,It can't change any parameters except LCK.9
4.5PROGRAM LEVEL (to be ordered)LEVEL 1SetPTN1Set program patternRange:0 2SV-5SEG1 1Program segment displayResprent :("pattern" "segment")TM-5TIMERProgram countdown displayRange:0 99 hour 59 -7Set time for Seg.2OUT-7Set output for Seg.2Set time for Seg.7Set output for Seg.7SetSV-8Set volume for Seg.3Set volume for Seg.8SetTM-8Set time for Seg.3Set time for Seg.8SetOUT-8Set output for Seg.3SetReturn LEVEL 1Set volume for Seg.4Set time for Seg.4SetOUT-4Set volume for Seg.7SetSetTM-4Set output for Seg.6SetSetSV-4SetSV-7Set volume for Seg.2SetOUT-3Set time for Seg.6SetSetTM-3Set volume for Seg.6SetOUT-6SetSV-3Set output for Seg.5SetSet time for Seg.1Range:0 99 hour 59 minSetOUT-2OUT-5SV-6Set output for Seg.1Range:0 100%If OUT 0,No program functionSet time for Seg.5SetSet volume for Seg.1Range:LSPL USPLSetTM-2Set volume for Seg.5Set output for Seg.4Set10Set output for Seg.8
4.5.1This program has 2 patterns ,each pattern contains 8 segments.4.5.2TerminologiesPatternStep:A program consists of some steps.:A Ramp status a Soak status.Ramp status:The status with changing SV.4.5.31.Soak status :The status with fixed SV.Operating"KEY" function (no changing parameter)(RUN):To start program procedure,PRO in panel flicker.(HOLD):To suspend program procedure,PRO in panel willstop flicker but light. SET(JUMP) :To jump segment. SET (RESET):To reset program procedure,PRO in panel willbe "off".2.3.Alarm Function:If ALD1 to be set “ 07” ( *refer to the selection,p.14 15),AL1 to be set “ 2”(AL1 2,it means alarm in segment 2 end),ALT1 to be set “ 00.10” (alarm time 10 sec.).* In this case,when program proceeds to segment 2 end ,ALM1relay will be on 10 sec.END function:This controller doesn’ t have END order, so if program procedure areless than 8 segments, please set segment’ s out 0, then thisprogram will end in last set segment. Otherwise,it will proceed 8 or4.5.16 segments.Linking Function:PTN 1 proceed pattern 1 ,contains 8 segments.PTN 2 proceed pattern 2 ,contains 8 segments.PTN 0 linking proceed pattern 1 and 2 totally 16 segments.(set PTN1 and PTN2 at first,then set PTN 0)Other function(* refer to LEVEL 4)SET 8.1 1 program repeat.SET 8.2 0 No power fail function.SET 8.2 1 with power fail function(if power suspend ,the controller will keep memory)SET 8.3 0 program start from 0.SET 8.3 1 program start from PV.11
5. INPUT5.1 Input selection (INP1)TYPEKCODERANGEK1K2K30.0 200.0 / 0.0 392.0 0.0 400.0 / 0.0 752.0 0 600 / 0 1112 K4K50 800 / 0 1472 0 1000 / 0 1832 K60 1200 / 0 2192 0.0 200.0 / 0.0 392.0 0.0 400.0 / 0.0 752.0 J1J2JJ30 600 / 0 1112 0 800 / 0 1472 0 1000 / 0 1832 J4J5J6RSBENT0 1200 / 0 2192 0 1600 / 0 2912 0 1769 / 0 3216 R1R2S10 1600 / 0 2912 0 1769 / 0 3216 0 1820 / 0 3308 S2B1E10 800 / 0 1472 0 1000 / 0 1832 0 1200 / 0 2192 E2N1N20 1300 / 0 2372 0.0 400.0 / 0.0 752.0 0.0 200.0 / 0.0 392.0 T1T2T3WPLⅡU0.0 350.0 / 0.0 662.0 0 2000 / 0 3632 0 2320 / 0 2372 W1W1PL 1PL 2U10 1300 / 0 2372 0 1390 / 0 2534 -199.9 600.0 / -199.9 999.9 U2-199.9 200.0 / -199.9 392.0 U30.0 400.0 / 0.0 752.0 12
TYPECODERANGELL1L2JP 10 400 / 0 752 0 800 / 0 1472 -199.9 600.0 / -199.9 999.9 JP 2JP 3-199.9 400.0 / -199.9 752.0 -199.9 200.0 / -199.9 392.0 JP 4JP 5JP 60 200 / 0 392 0 400 / 0 752 0 600 / 0 1112 DP 1-199.9 600.0 / -199.9 999.9 DP 2DP 3-199.9 400.0 / -199.9 752.0 -199.9 200.0 / -199.9 392.0 DP 4DP 5DP 60 200 / 0 392 0 400 / 0 752 0 600 / 0 1112 JP.1-199.9 600.0 / -199.9 999.9 JP.2JP.3-199.9 400.0 / -199.9 752.0 -199.9 200.0 / -199.9 392.0 JP.4JP.5JP.60 200 / 0 392 0 400 / 0 752 0 600 / 0 1112 AN1-10 10mV / -1999 9999AN2AN30 10mV / -1999 99990 20mV / -1999 9999AN40 50mV / -1999 9999JISPT100DINPT100JISPT50AN1AN2AN3AN4AN5AN510 50mV /-1999 9999*The initial set in factory is “ K2” without any certain requirement13
6.ALARM6.1Alarm function selectionCODEDESCRIPTIONINHIBIT00 / 1001NoneDeviation high limit alarmYES11Deviation high limit alarmNO0212Deviation low limit alarmDeviation low limit alarmYESNO03Deviation high / low limit alarmYES1304 / 14Deviation high / low limit alarmDeviation high / low limit range alarmNONO05Absolute value high limit alarmYES1506Absolute value high limit alarmAbsolute value low limit alarmNOYES16Absolute value low limit alarmNO07Segment end alarm(use for program model only)Program run alarm(use for program model only)-08System error alarm-on-1809System error alarm-off-19On delay timer alarm-17-Note :the word “INHIBIT” means that alarm does not work at the firsttime.14
6.2Alarm action description: SVAbsolute high alarm no inhibit: Alarm set value(inhibit means alarm doesn'twork at the first time)00101506Deviation high alarm inhibitOFFHIGH16OFFHIGH(1) ALD1 3,set 0707 (2) AL1 3 alarm segment No.set(3) ALT1 3 if set 0 flicker alarmALT1 3 if set 99.59 continued alarmALT1 3 if set others ON delay timeDeviation low alarm inhibitONOFFLOWHIGHDeviation low alarm no inhibitONLOWProgram Run alarm(Refer to SETA.4, P.22 )(use for PFY Model only)OFFHIGH17High low alarm inhibitOFFRUNENDONOFFONHIGH08NormalOFFONOFF18Band lute high alarm inhibit05ONHIGHON0414ErrorSystem error alarm - OFFONLOWALSystem error alarm - ONHigh low alarm no inhibit13OFFSegment end alarm(use for PFY Model only)HIGHONLOWOFFHIGHONLOW03ONLOW1112ONAbsolute low alarm no inhibitDeviation high alarm no inhibit02HIGHLOWONLOWONAbsolute low alarm inhibitNon01OFFLOWON19HIGH15On delay timerWhen PV alarm SV, it keeps acertain period(set time)beforealarm action.Range:00H.00M 99H.59M
7. Modification of input “TC”“RTD”(on PC board )If the controller needs modification from TC or mV to RTD type,pleasemake PAD short on PC board back as following diagram and changinginput selection. On the contrary,modify from RTD to TC or mV,make PADopen.96 96,48 96,96 48( PC Board )111213141516171819RTD :TC or mV :PAD SHORTPAD OPENRTD :TC or mV :PAD SHORTPAD OPENRTD :TC or mV :PAD SHORTPAD OPEN207 2 7 2( PC Board )8910111213144 8 4 8( PC Board )6789108.Modification of output “Relay”“SSR”“4 20mA”It just needs to change a module at the same position,and modifyparameter CYT1 in LEVEL 2 .16
9. Modification of output“HEAT/ALARM”“HEAT/COOL” (on PC board)HEAT / ALARMHEAT / COOL9 6 96,48 96,96 4896 96,48 96,96 4 8( PC Board )( PC Board )PAD OUT2:OPENPAD OUT2:SHORTPAD AL3:SHORT1112131415PAD AL3:OPEN1617181920111213147 2 7 27 2 7 2( PC Board )( PC Board )PAD OUT2:OPENPAD OUT2:SHORTPAD AL1:SHORTPAD AL1:OPEN89101112131484 8 4 8( PC Board )981112PAD OUT2:SHORTPAD AL1:OPENPAD AL1:SHORT7104 8 4 8( PC Board )PAD OUT2:OPEN6159106177891016171314181920
10. Modification of INPUT : 0 1V, 0 5V, 0 10V, mA10.1 Hardware part:96 96, 48 96, 96 4872 7248 48INPUT ( )INPUT ( - )PIN 17PIN 11PIN 7PIN 20PIN 14PIN 100 20mA (INP1 AN4):(R3 use 100Ω,R5 use 2.4 Ω, S3&S5 SHORT)4 20mA (INP1 AN5):(R3 use 100Ω,R5 use 2.4 Ω, S3&S5 SHORT)0 1V (INP1 AN4):(R1 use 2KΩ,R4 use 100Ω,S1&S4 SHORT)0 5V (INP1 AN4):(R2 use 10KΩ,R4 use 100Ω,S2&S4 SHORT)1 5V (INP1 AN5):(R2 use 10KΩ,R4 use 100Ω,S2&S4 SHORT)0 10V (INP1 AN4):(R3 use 22KΩ,R4 use 100Ω,S3&S4 SHORT)2 10V (INP1 AN5):(R3 use 22KΩ,R4 use 100Ω,S3&S4 SHORT)96 96,48 9 6 , 9 6 4 89 6 96,48 9 6 , 9 6 48( PC Board )( PC Board )FRONTBACKR1R4R2R5R320S1S2S3.191111.7 2 7 27 2 7 2( PC Board )( PC Board )FRONTBACKR1R4R2R5R314S1S2S3.13884 8 4 8( PC Board )FRONTBACKR4R2R5R39S1S2S3.6618. 9S4S5134 8 4 8( PC Board )R110.1914S4S510S4S520
10.2Software part (Calibrate input)SET 2.2 1at SET Levelopen ANL1,ANH1ANL1 0ANH1 5000LSPL 0USPL 5000at INPUT LevelReturn User Level see PVInput 4mAAdjust ANL1 Let Upper Display 0Input 20mAAdjust ANH1 Let Upper Display 5000Input 4mA CHECK LOWInput 20mA CHECK HIGHNOOK ?YESSet the range you want:LOW LSPL, HIGH USPLEx:Low -20.0,High 50.0SET LSPL -20.0,USPL 50.0,DP:000.019
11. Special Function Description:11.1LEVEL 4 (Set Level)SET 1SET 9SET 011.1.1INP2Input 2 mode setting as belowOUTYOutput Mode setting as belowSecond input mode (FY MODEL ONLY )INP2 0NoneINP2 110 50mV / 4 20mA / 1 5V / 2 10VINP2 20 50mV / 0 20mA / 0 5V / 0 10V*Second Input is for Remove SV function, but the PFY model s SV can onlybe controlled by the program, so INP2 0 is not applicable.11.1.2OUTY 0OUTY 1OUTY 2OUTY 3OUTY 4OUTY 5Output modeSingle OutputDouble OutputNoneMotor Valve1φSCR (Single Phase Control)3φSCR (Three Phase Control)20
11.2RAMP & SOAK (Only Applicable for FY MODEL)11.2.1RAMP :I.Please set “ SET2.1 1”(Display AL3),” SET4.1 1” (Display ALD3)II.ALD3 9 at INPUT LevelIII. RAMP menu will be displayed (replace AL3)RAMPRange:00.00 99.99Unit : / min(If RAMP not used,set ALD3 0)0 0.0 011.2.2I.II.SOAK :ALD1 / ALD2 19AL1 / AL2 will be displayAL1Range:00.00 99.59(Hour.Minute)00.0011.2.3 Example :SV 100 ,RAMP 10.00 ( /min) ,AL1 00.10 min,PV 25 Time onTime upAL1 onif PV SV(100 )100 AL100.1000.01 On Delay time00.10 Set Time1sec.SV SV RAMPSV PV at start RAMP functionPV 25 tpower on5sec.21
11.3REMOTE SV (Only applicable for FY MODEL)11.3.111.3.2Hardware must be mountedSet INP2 to1 or 2 (calibration use ANL2,ANH2)11.3.311.3.4SET 0.3 0 means local SVSET 0.3 1 means remote SV from Input 2 channel11.4Alarm Time ALT1/ALT2/ALT3 description (FY MODEL ONLY)1. ALT1 0 means flicker if AL1 is on2. ALT1 99.59 means alarm if AL1 is on3. ALT1 00.01 99.58 means AL1 is on delay timer(* use for large EMI affect controller)11.5Renew function “ HYSM”“SETA”SETA0 0 0 0If SETA.1 1,AL1 relay reversedIf SETA.2 1,AL2 relay reversedIf SETA.3 1,AL3 relay reversedIf SETA.4 0 ,program run alarmIf SETA.4 1,program end alarm11.6Function SET811.6.1SET8.1 0SET8.1 1SET8.2 0SET8.2 1SET8.3 0SET8.3 1SET8.4 0SET8.4 111.6.211.6.311.6.4}If FY 400 ALM "b" contactis needed} PFY model onlyNoneprogram repeat (PFY model )Non (PFY only)Power failure accessZero start (PFY only)PV start (PFY only)Nonedisplay will be transferred to single display(Don’ t set this Bit)*SET8 0000 can return double display22
11.7Function SET911.7.1SET9.1 0NoneSET9.1 1PV / SV switching11.7.2SET9.2 0SET9.2 1(use for single display so please don’ t set this Bit.)NonePFY models:Timer change from H.M to M.S11.7.3SET9.3 0NoneSET9.3 1Transmission SV11.7.4SET9.4 0SET9.4 1NoneTransmission PV11.8SET011.8.1SET0.1 0SET0.1 1SET0.2 0SET0.2 1NoneTTL communication SV outputNoneRate for AL3 (ALD3 0) (see Application 1 ,P.25)SET0.3 0SET0.3 1SET0.4 0SET0.4 1NoneRemote SVMotor Valve close “b” outMotor Valve close “ a” out11.8.211.8.311.8.411.9WAIT at INPUT LevelWAIT 0WAIT 0meansmeans“ no wait”“ wait”23(Don’ t care)
12.Panel cut & Outline Dimension:12.1 Panel Cut Dimension(Units :mm)ABDCABCDFY400FY60044.5 0.590.5 0.544.5 0.544.5 0.5651117070FY70068.5 0.568.5 0.58994FY800FY90044.5 0.590.5 0.590.5 0.590.5 0.56511111611612.2 Outline Dimension (Units 7450749617178080FY9009696178024
ApplicationApp1. TTL communication:SV output & RATE function#Open RATE function (use for slave)11.10 Open Rate :SET0.2 111.11 Open AL3 :SET2.1 111.12 Open ALD3:SET4.1 111.13 ALD3 0 at INPUT Level11.14 Slave SV (RATE 9999) master SV# Example:FY900slave 1PFY900masterSV OUT (SET0.1 1)IDNO 0 (SET5.4 1)BAUD 2400 (SET5.4 1)SGRDSGRDSGSDConnect DiagramFY900slave 2IDNO 1 (SET5.4 1)BAUD 2400 (SET5.4 1)open RATE functionIDNO 2 (SET5.4 1)BAUD 2400 (SET5.4 1)open RATE functionTime Chart1000900SV1 hourSV 1 1000TM 1 01.00 hourOUT 1 100%OUT 2 0%800SVTime1 hourRATE 9000slave 1 SV 900SVTime1 hourRATE 8000slave 2 SV 800( All reach to the max value at the same time )25Time
App2. Single Phase Control (for SCR module)#Available Models : FY900 / PFY900, FY700 / PFY700#Data Change:OUTY 4CLO1 0, CHO1 4500 if use for resistance loadCLO1 0, CHO1 4000 if use for inductor PROTShortULOAD** Controller source phase must be same as load source phase26
App3. Single Phase Control (for TRIAC module)#Available Models : FY900 / PFY900, FY700 / PFY700#Data Change:OUTY 4CLO1 0, CHO1 4500 if use for resistance loadCLO1 0, CHO1 4000 if use for inductor PROTShortULOAD** Controller source phase must be same as load source phaseUV1/2W100Ω0.1uf/630VACM27
App4. Three Phase Control#Available Models : FY900 / PFY900#Data Change:OUTY 5CLO1 0, CHO1 4500 only if use for resistanceloadRSTCONTROLLERG1FASTFUSEK2K1G1K2G 2K 3G 3DIODE/SCRModuleG2K2G3K3UVW28PROTShort3φ LOAD
App5. Single Phase Zero Control#Available Models : FY900 / PFY900, FY700 / PFY700FY400 / PFY400#Data Change:OUTY 0CYT1 1SRFASTFUSECONTROLLERG1G1SCRModuleG2G2VTIME CHART:ONOFFCYCLE TIME 200 mSEC.29PROTShortU
App6. Three Phase Zero Control#Available Models : FY900 / PFY900#Data Change:OUTY 0CYT1 1RSTCONTROLLERRG 1FASTFUSESCRModuleRG 1RG 2TG 1TG 1RG 2TG 2TG 2UWVTIME CHART:OFFONCYCLE TIME 200 mSEC.30PROTShortWE CAN SUPPLYHEATER SINK
App7. Motor Valve Control#Available Models : FY900 / PFY900, FY700 / PFY700FY800 / PFY800, FY600 / PFY600#Data Change:FY400 / PFY400OUTY 3CYT1 1 100sec.( Manufacturing default setting “5” sec.)RUCY 5 200 sec.1. CYT1 is the cycle time of Open / Close2. RUCY is the running time of motor valve 0 100%MOTOR 31OUT1Relay
App8. RS485 CommunicationRS485 Connection DiagramCom PortCableConverterControllerDCE(Cable)PCTxONRxONDX (T )1234DX (T-)(R-)(R )NOTE:1.The length of the cable line between Converter and Controller can't exceed 1.2 KM.2.One Com Port can be connected up to a maximum of 30 Controllers.3.Ensure that the Controller's IDNO and BAUD have the same value as thesoftware's setting.4.For the software communication format please refer to the "Protocol" file inthe CD.32
App9. RS232 CommunicationRS232 Connection DiagramCOM PORT :9PIN ( DTE )Pin 3 (T)ControllerRDPin 2 (R)SDPin 5 (G)SGPCCOM PORT :25PIN ( DTE )Pin 2 (T)ControllerRDPin 3 (R)SDPin 7 (G)SGPCNOTE:1.The length of the cable line can't exceed 15 meter.2.One Com Port can only be connected to one controller.If more than onecontroller is connected to one Com Port,communication will be failed.3.Ensure that the controller's IDNO and BAUD have the same value as thesoftware's setting.4.For the software communication format please refer to the "Protocol" file inthe CD.33
700 SV 700 PV SET A/M 600 SV 600 PV SET 400 SV PV 400 SET 1.1 DISPLAY PV:Process value,4 digit display (red color) SV:Setting value,4 digit display (green color) 1.2LED OUT1 :Output 1,green color OUT2 :Output 2,green color AT :Auto Tuning,yellow color PRO :Progr
X2 Benchtop PID Digital Temperature Controller Mounted Control Option Note: If the temperature controller is to be mounted, make sure the mounting location is easily accessible. How to mount the temperature controller: 1. Place the mounting pole inside the mounted bracket. The bracket will accept up to a mounting pole up to 0.75" (19mm).
LAE part code ST1K35C1. Low temperature controller. The complete low temperature controller has the Foster part number 00-554988. The low temperature controller system is made up of four component parts the Power Supply Unit (PSU), a display, air and evaporator temperature probes. The PSU is
Fig.4.1 Step response using P controller Fig.4.2 Fig.4.3 Fig.4.4 Fig.4.5 Step response using PID controller Fig.4.6 Comparison of bode plot for smith predictor and PI . Step response of IMC PDF control structure Step response of PDF controller Step response using PI controller Step response using PID controller Step response using PI controller
Write operation to change the switch state 0: off 1: on 03 function code query 03 control 06/16 0 Internal setting temperature 16-30 Read operation Get current setting temperature, write operation Change set temperature 1 within the machine running mode 1--5 Read operation to obtain the current operating mode: 1 - cooling 2 -
Before installing your DMX Controller, read and follow all warning notices and instructions which are included. Failure to follow safety warnings and . 7 Green / White Strobe 8 Green Pulse Operation 2019 INSTALL & OPERATION MANUAL CONTROLLER KITS 10. WiFi DMX Touch Panel Controller Problem Check Cause Fix DMX controller does not power on
Pressure Sensor Controller. Please read this manual carefully before operating this controller and understand the controller, its capabilities and limitations. Please keep this manual handy for future reference. OPERATOR This operation manual has been written for those who hav
values and measured temperature values from water tank. 3. WORKING OF SYSTEM MODEL The process considered here is one of the most widely used processes in the process industry, a water bath temperature control system. The water bath is heated and measured temperature is given to Artificial Neural Network controller and PID controller.
temperature sensors. The LogTag Temperature Data Logger measures and stores up to 7770 temperature readings over -40 C to 99 C (-40 F to 210 F) measurement range from a remote temperature probe. Statistical temperature and duration readings for up to 30 days can be reviewed on the display. The visual display of current temperature
