TTM-i4N SERIES INSTALLATION MANUAL DIGITAL
Contents
1. 2 AIF1 Event 1 Function Setting Event Function 000 1 0 No Function A2F1 an 2 Function Setting 1 Maximum and Minimum Deviation Event 2 Maximum Deviation Event 3 Minimum Deviation Event 4 Deviation Range Event 5 Maximum and Minimum Absolute Value Event 6 Maximum Absolute Value Event 7 Minimum Absolute Value Event 8 Absolute Value Range Event Additional Function O None Keep 2 Standby 3 Delay 4 Keep Standby 5 Keep Delay 6 Standby Delay 7 Keep Standby Delay Control M ode Interlock Function 0 All modes 1 RUN MAN mode only 2 RUN mode only 3 AIH EV1 alarm upper limit Setting Range 1999 3276 or 199 9 999 9 0 setting A2H EV2 alarm upper limit Setting Unit C or F setting 4 ALL EV1 alarm lower limit Setting Range 1999 3276 or 199 9 999 9 0 setting A2L EV2 alarm lower limit Setting Unit C or F setting 5 AIC EV1 alarm sensitivity Setting Range 0 999 or 0 0 999 9 0 setting Setting Unit C or F AC EV2 alarm sensitivity setting 6 EV1 alarm delay timer Setting Range 0 9999 ALT setting Setting Unit Second 0 AT EV2 alarm delay timer setting 56 It configures Event 1 2 Function Setting Event 1 2 Minimum and Maximum Limits Setting Event 1 2 Sensitivity Setting Event 1 2 Time Delay Setting Event 1 2 Function2. Key 11 AT start stop 1 vu lt 2 ES JM Key py P1 12 Proportional band setting for OUT1 SV 1 JM Key 13 Integral time setting x1 JM Key PV SV 14 8 Setting of Tuning Type py 19 Sensitivity setting for OUT1 2 Su SV 1 9 AT coefficient setting py 20 OFF point position setting for 14 Derivative time setting 22 Nu 1 JM Key PV D PPM cycle setting for OUT1 x JM Key py ARN en of Anti reset Windup SV 1100 JM Key PV MHL EENG amout limiter upper limit for OUT JM Key py 18 Operating amout limiter lower limit for OUT M key LOP1 n lt 2 c lt A 2 pv PS1 SV 3 JM Key py TS1 SV 3 c lt A ey X2 JM Key 2 bel 22 21 Setting of the Loop Abnormality Judgment Time of Output 1 22 Setting of the Loop Abnormality PV Variation of Output 1 23 Setting of the Loop Abnormality PV Threshold of Output 1 24 Protection OFF timer time setting for OUT1 25 Protection ON timer time setting for OUT1 Y SN Qj 31 Setting of the Sensitivity of Output s 1 m JM Key Bu 2 32 OFF point position setting for OUT2 v O zaze JM Key py M2 26 Manipulated Variable of Output 2 M key Y pv P2 GEES band setting JM Key py 28 Proportional cycle setting eu for OUT2 JM Key JM Key 15 X7 29 Operating amout limiter upper limit for QUT2 x4x5 PV SV 88 JM Key py 30 Operating
3. M Key Switches screens F Key Executes functions that are being set Increases or decreases to change the setting value A Y keys is Pressing each key continuously will increase decrease the value more quickly 3 Installation 3 1 Dimensions 4 59 Watertight packing lt This packing is not attached when Option B is not specified x Clean the unit by dry cloth 3 2 Installation and Dimensions of Panel Cut Single Unit Istallation Multiple Unit Installation 6 O or more Installation Attachment 6 oo 48xn 3 Attach the product either vertically upper surface of the product should be facing up or horizontally How to Attach Place the product into an angle hole of the panel cut and completely insert the attachment from the surface without any gap 4 Wiring 4 1 Terminal Layout for Wiring OUT2 EV2 is not available when Option B is not specified OUT2 EV2 N WARNING no D O c Terminal Relay Output AC250V 1A Load resistance Exactly same potential wires for EV1 and EV2 circuits can be connected OUT NO G 2 0 fent C Relay Output AC250V 3A Load resistance EV1 No DM 6 c Relay Output AC250V 1A Load resistance SSR Driving Voltage Output DC12V f Temp INPUT 8 b POWER SUPPLY OB 100 to 240V AC 50 60HZ ou Ai MA M NO polarity 6 RTD Te 4 2 Caution upon Wiring Aw arnin g Turn the power OFF before wiring to a
4. Loop Abnormality SV LoP2 49 li Setting of the Loop Abnormality PV Variation of Output 2 Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Setting of Output 2 Loop Setting Range 0 999 or 0 0 999 9 Abnormality Setting Unit C or PV Threshold x Setting 0 will turn the judgment on loop abnormality PV threshold OFF A function that detects the abnormality in the control loop If PV is within the range between SV setting value and tS2 the judgment on the loop disconnection takes place Actual judgment shall be made through PS2 and LoP2 SV setting value PV indicates present temperature Nonjudgment Control loop Temperature threshold is a value domain specified by SV tS2 anomaly PV threshold t52 Judgment domain When PV is out of the judgment domain the control loop anomaly is not judged 50 li Setting of the Character 1 SET3 Loop Abnormality PV Variation of Output 2 Description Setting Mode Selection Settings about Control Screen Control Parameter Mode Protection OFF timer Setting Range 0 99 time setting for OUT2 Setting Unit Minute Initial Value Protection ON timer time Setting Range 0 99 setting for OUT2 Setting Unit Minute Sets the shortest retaining time of ON or OFF during ON OFF control The time that Example Acti SV Protection timer ON
5. Output was set after the switching of output retains the state of the output on of which Output 2 Protection OFF Timer Fdt2 was set Temperature pur cede esed OFF 51 c2 m Enable Disable Balance less Bump less Function Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Balance less Bump less Without balance less bump less function Function ON OFF Setting With balance less bump less function If PID control is set the balance less bump less function will be used to prevent the sudden change of the manipulated variable control output upon switching the control between auto and manual and to prevent damage to peripherals and bad effect on control system that may be caused by such a sudden change My Control switching MV change Auto control Manual control 100 Time ll Manual reset setting ES Character Name Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter M ode Manual reset setting Setting Range 0 0 100 0 or 100 0 100 0 heating cooling Setting Unit 96 Value of manual reset will be added to the manipulated variable It shall be set to cancel the offset that has occurred at the proportional control Reference of Setting Set the manipulated variable which is in a steady state at the proportional control to manual r
6. P Output 2 Event 2 Insulation Non insulation 72 9 2 Rated Values and Performance Indication Accuracy Input Type Thermocouple K J R T N S B JISC 1602 1995 PV Input Resistance Temperature Detector Pt100 Pt100 JIS C 1604 2013 Sampling Cycle 0 25 seconds the same also with the output change cycle PV Display 4 digits White Height 15mm SV Display 4 digits Green Height 6 5mm Display M ethod OUT Yellow Lights up when OUTI is turned ON ALL Yellow Lights up when Event 1 is turned ON AL2 Yellow Lights up when Event 2 is turned ON RDY Yellow Lights up when the control mode is RDY F Yellow Lights up when F is set C Yellow Lights up when Cis set Setting of Thermocouple 0 3 1 digit or 2 Cof thel digit or 2 C whichever is higher Display indicated value ambient temperature 23 10 C Provided that from 100 Cto 0 C is 3 C From 210 Cto 100 Cis 34 C B thermocouple with less than 400 Chas no regulation on the accuracy Control Output Section Output Type Rated value Resistance 0 3 1 digit or 0 9 C whichever is higher ambient temperature Temperature 23 10 C Detector Setting M ethod All settings shall be done by keys at the front side Lock Function Unlock Lock All Lock Operation Model Lock All M odes Other Than Operation Mode Priority Screen Can assign the frequently used parameter to the priority screen Funct
7. 1710 C 0 C 1700 C 1 C B 0 o 0 0 o 06 TiEHRO DUBIE TC 20 C 1802 C 0 C 1800 C 1 C 200 C 530 C 200 C 500 C Pt100 RTD 1 C 0 1 C 10 199 9 C 530 0 C 199 9 C 500 0 C f 2 OD o 2 o Nm o 11 JPt100 RTD SE ee 1 C 0 1 C 199 9 C 520 0 C 23 199 9 C 500 0 C EPV compensation gain setting Zero Setting of PV Correction TES Character Name Description Initial Value Setting Mode Selection Settings about Input Screen p NP Input Parameter M ode 3 PVG PV compensation gain Setting Range 0 50 2 00 100 setting PV compensation zero setting Setting Unit Times Setting Range 199 999 or 199 9 999 9 Setting Unit C or F ePV compensation gain setting Function Multiplies PV measurement value of input with the correction value Sample Setting In case PV is displayed as 90 C in an environment where the actual temperature is 100 C PV can still be adjusted to 100 Cby setting the gain of PV correction to 1 11 times Computation formula 90 C before PV correction x 1 11 times approximately 100 C PV A After PV compensation 100 C 90 C _ Before PV compensation 0 C gt Actual temperature 100 C 24 e Zero Setting of PV Correction Function Adds correction value to PV measurement value Sample Setting In case PV is displayed as 90 Cin an environment where the actual temperature is 100 C PV can stil
8. 5 C 65 li Time setting m Character Name Description Initial Value SET6 Setting Mode Selection Settings about Timer Screen TI ME Timer Parameter M ode 6 TI M Time setting Setting Range 00 00 99 59 Hr amp Min 00 00 Setting Mode Selection Settings about Timer Screen Timer Parameter M ode Remaining time monitor Remaining time monitor Timer starts at this screen when the F key is pressed 66 6 4 9 LCD Parameter Mode Brightness setting Light Reduction Brightness of Light Reduction um Character Name Description Initial Value SET Setting M ode Selection Screen LCD LCD Parameter Mode Settings about LCD 2 LLV Brightness setting Setting Range 5 100 100 Setting Unit 3 LRFT Dimming function setting Setting Range 0 9999 0 Setting Unit Second x Setting 0 will turn the light reduction function OFF 4 LRLV Dimming Brightness Setting Range 0 100 5 setting Setting Unit e Brightness setting Sets the brightness of the display during normal operation eDimming function setting Sets the time limit to activate the light reduction function Reduces the light of the display when no key operation is made for a designated period eDimming Brightness setting Sets the brightness upon light reduction 67 6 4 10 Change to Blind Setting Mode Power on initial display 4seconds i RUN mode After power on Input Type Sc
9. It is valid when Event Function Setting 2 is set to 1 It can start or stop event and other system in case of the wrong setting of the input type or wrong wiring of input disconnection and short circuit Operation of Additional Function and Control Mode Interlock Function is the same asthat of Event Function Setting 1 Sample Setting of PV Abnormality Set 001 for PV Abnormality ON Additional Function OFF and Control Mode Interlock All M ode 59 IIEV1 alarm function 3 setting EV2 alarm function 3 setting E Character Name Description Initial Value Setting M ode Selection Screen Settings about Event 1 Output Function Event 1 Output Parameter M ode Settings about Event 2 Output Function Event 2 Output Parameter M ode x Set5 will not be displayed unless the control type is set EV1 alarm function 3 Event Function setting 0 No Function EV2 alarm function 3 1 Loop abnormality setting Loop abnormality Additional Function O None 1 Keep Event Function Setting 3 is a function that outputs the signal from Event Output when the loop abnormality is detected This setting becomes available when Event Function Setting 3 is set after setting the connection destination of the output to Event Output f See Setting of the Loop Abnormality Judgment Time of Output 1 Output 2 for the setting of loop abnormality time li Setting of Event 1 Output Polarity Setting of Eve
10. ON Delay 4 Automatic Start OFF Delay 5 Manual Start OFF Delay 6 Event 1 Start OFF Delay 7 SV Start OFF Delay 8 Event 2 Start ON Delay 9 Event 2 Start OFF Delay x If the model of B option is not specified 8 and 9 become non selectable Automatic Start ON Delay OFF Delay DON Delay When the timer starts to count itself up by turning the power ON the control begins turns output of Event 1 2 ON Can start manually after the counting ON Power OFF Timer Eu ee ON Output OFF ON F start OFF 62 OFF Delay When the timer starts to count itself up by turning the power ON the control begins turns output of Event 1 2 OFF Can start manually after the counting ON Power OFF Timer e ON Output OFF ON F start OFF Manual Start ON Delay OFF Delay DON Delay When the timer starts to count itself up by starting manually the control begins turns output of Event 1 2 ON Can start manually after the counting ON Power OFF Timer ee ie a ee ON Output OFF ON F start OFF OFF Delay When the timer starts to count itself up by starting manually the control begins turns output of Event 1 2 OFF Can start manually after the counting ON Power OFF Timer Free ee ON Output 1 OFF ON F start OFF 63 Event 1 2 Start ON Delay OFF Delay DON Delay When the timer starts to count itself up with the occurrence of the event the control begins turns o
11. after it went inside its operating range 58 Control M ode Interlock Function Interlock Function It sets the control mode that will run the event function under the control mode interlock function Combinations with the standby sequence are the following 1 No Event occurred Event will not occur even when RUN READY is switched 2 Standby mode Event will not occur even when RUN READY is switched 3 Event will occur after temporarily leaving from the standby mode If the mode is switched from RUN to READY Event will be turned OFF and returns to 2 Standby mode IIEV1 alarm function 2 setting EV2 alarm function 2 setting E Character Name Description Initial Value SETA Setting M ode Selection Screen Settings about Event 1 Output Function A1 Event 1 Output Parameter Mode Settings about Event 2 Output Function SETS Event 2 Output Parameter A2 Mode X Set5 will not be displayed unless the control type is set EV1 alarm function 2 Event Function setting 0 No Function EV2 alarm function 2 1 PV Abnormality setting PV Abnormality Additional Function 0 None 1 Keep 2 Delay 3 Keep4Delay ontrol M ode Interlock Function O All modes 1 RUN MAN mode only 2 RUN mode only Event Function PV Abnormality is a function that outputs the signal ON OFF from the output that was assigned to Event Function Setting 2 when the input abnormality is detected
12. c2 III ON CP2 C2 Sensitivity setting CP2 OFF point position OFF D point SV CP2 Low SV High 48 li Setting of the Loop Abnormality Judgment Time of Output 2 Character Description Initial Value 1 SET3 Setting Mode Selection Settings about Control Screen Control Parameter Mode 33 LCP2 Setting of Output 2 Loop Setting Range 0 9999 Abnormality Setting Unit Second Judgment Time x Setting 0 will turn the judgment on loop abnormality OFF A function that detects the abnormality in Output 2 loop It detects PV Variation per LoP2 time It detects Loop Abnormality if the value is less than PS2 li Setting of the Loop Abnormality PV Variation of Output 2 ei Character Name Description Initial Value SET3 Setting Mode Selection Settings about Control 34 Screen Control Parameter Mode Setting of Output 2 Loop Setting Range 0 999 or 0 0 999 9 Abnormality Setting Unit C or F PV Variation x Setting 0 will turn the judgment on loop abnormality PV variation OFF A function that detects the abnormality in the control loop If tS2 satisfies the threshold value the judgment on the following loop disconnection takes place It detects PV Variation per LoP2 time It detects Loop Abnormality if the value is less than PS2 DIf PS2 20 only the judgment on time by LoP2 will be performed If the time duration in which tS2 satisfies the threshold exceeds LoP2 then it detects
13. easurement value is not accurate Dls the sensor working normally Have you tried other sensors Dis the sensor properly connected Dls the type of sensor properly configured Dls the PV correction value correct Setting value does not match with Does the heater have enough capacity the measurement value Dls the Integral time setting I correct Control is insufficient Dls the PID value correct Retry autotuning Set self tuning Abnormal output ls the output terminal properly connected Dis the control type properly configured If you still have questions please contact our sales office 74
14. to another function press the F ENT key after selecting the other function I Setting of the Length of Time in which the Key Is Being Pressed Allows the user to set the length of time the key needs to be pressed before the F key takes effect 28 lll Key Lock Settings Character Name Description Initial Value 1 SET2 Setting Mode Selection Settings about Key Function Screen KEY Key Function Parameter Mode Key lock setting No Key Lock Lock All Lock Operation Mode 3 Lock All M odes Except for Operation Mode x Protect Level Setting will not be subjected to key lock Changing of setting value through A and V keys is prohibited for parameters that are locked li Alarm reset Character Description Initial Value Setting Mode Selection Settings about Key Function Screen Key Function Parameter Mode Alarm reset No ongoing event Event 1 is ongoing Event 2 is ongoing Both event 1 and 2 are ongoing Screen that Resets the Output of Event 1 Event 2 Reset the output by pressing the F key for 1 second Lights turn off instantaneously upon resetting the alarm 29 6 4 6 Control Parameter M ode Bi Minimum M aximum Limit of SV Limiter Rs Characte Name Description Initial Value 1 Setting Mode Selection Settings about Control Screen IN Control Parameter M ode 2 SLH SV limiter upper limit Setting Range M inimum setting range M aximu
15. Back to 1 20 6 4 Parameters 6 4 1 Operation Mode H Character Name Description Initial Value Operation Mode M ode that is usually used by PV SV I ControlledTemperature Setting Range SLL SLH SV Settings Setting Unit C or F Priority Screen 1 9 Displays the screen that is set at Priority Screen D OO JO Ul P WN mm ce 6 4 2 Protect Setting M ode Description inal Value Protection Setting Mode Mode that sets the protect level Setting of the Level of Protection No Protection I Settings of SV Priority Screen are changeable I Setting mode parameter blinds parameters other than the following PV compensation zero setting Alarm reset AT start stop Proportional band setting for OUT1 2 Integral time setting Derivative time setting Sensitivity setting for OUT1 2 EV1 EV2 alarm upper limit setting EV1 EV2 alarm lower limit setting Only settings of SV are changeable Priority screen is with display settings that are non changeable DAII setting mode parameters will be blinded OSV is with display settings are non changeable Priority screen is with display settings that are non changeable DAII setting mode parameters will be blinded 21 6 4 3 Priority Screen Setting Mode li Priority Screen Setting EMECCHNEENEN estonia SETO Setting M ode Selection Screen Settings about Priority Screen Priority Screen Setting M od
16. Digital Controller TTM i4N User s Manual Contents 1 Precautions upon Usage 2 Name and Function of Parts 3 Installation 3 1 Dimensions 3 2 Installation and Dimensions of Panel Cut 4 Wiring 4 1 Terminal Layout for Wiring 4 2 Caution upon Wiring 5 List of 7 segment Characters 6 Operation Flow and Parameters 6 1 Display Sections 6 2 Operation Keys 6 3 Operation Flow 6 4 Parameters 6 5 Other Displays 7 List of Models 8 Before Performing a Control 9 Specifications 9 1 General Specifications 9 2 Rated Values and Performance 10 Maintenance and Inspection AN O WO CO CO LO e 70 72 72 73 1 Precautions upon Usage Please read this section before use For the safe use of this product please take note of the following This operation manual should be kept by the user of this product Safety Precautions For the safe use of the product and to prevent possible accident or damage the following warning signs are used in this operation manual depending on their level of importance and risk Please follow each instruction in order for you to use the product safely x Warning Symbols and Their M eanings Improper handling of the equipment may cause fatality or N Danger serious injury for an impending N Caution reality Improper handling of the equipment may cause injury or physical damage on it Improper handling of the f N Warning e
17. Function A function to programmatically realize CR filtering effect by performing a primary delay operation for PV of the input Filter effect will be set through time constant Time constant is a time that was spent before PV to reach up to approximately 60 when the input has changed in a step by step manner Input signal 096 63 Answer signal 0 Time constant x The purposes of PV filter are the following D The effect of the electrical noise that was applied to the input can be minimized by eliminating the high frequency noise 2 The response against sudden change of the input can be delayed 26 ll Decimal point setting Character Name Description Initial Value 1 SET Setting M ode Selection Settings about Input Screen NP Input Parameter Mode j DP DER EECH O Without Decimal Point 0 00 With Decimal Point Disabled for R S B thermocouple Note Switching C F may activate the limiter such as SLH and SLL and change each setting value ll Temperature unit setting Character Name Description Initial Value Setting Mode Selection Settings about Input Screen Input Parameter M ode Temperature unit setting Celsius Fahrenheit Note Switching C F may activate the limiter such as SLH and SLL and change each setting value 27 6 4 5 Key Function Parameter Mode li Function key function setting 5 Character Name Descript
18. Setting is a function that compares PV with event setting value and outputs a signal ON OFF to Event Output 1 and 2 once the designated condition is satisfied It can start or stop event of PV and other systems This setting becomes available when event 1 2 function is set 57 Event Function It runs the event when PV of the input has moved inside the designated operating range of the event Operating range will be set by event function setting maximum and minimum limits of event and event sensitivity 1 Deviation upper and lower limits 5 Absolute value upper and lower limits 2 Deviation upper limit 6 Absolute value upper limit 3 Deviation lower limit 7 Absolute value lower limit A C 4 Deviation range 8 Absolute value range x Shaded portion Range of the occurrence of event Additional Functions Keep A function that retains the started event even when PV has gone out of the range of the event operation Standby A function that will hold the event from running standby when PV has entered within the event operating range for the first time Event will start running when it has gone out of the operating range and entered into the operating range for the second time Delay A function that sets the time of delay of the event from the time it enters within its operating range up to the time it starts its operation This function can be used to hold the output of the event for a fixed period of time
19. alues and characters that have been set N N 1 040 yor SV Display Section Displays setting values and manipulated variables nooo UDO Yellow Lights up when the setting value is a temperature data with the unit of F Yellow Lights up when the setting value is a temperature data with the unit of C RDY Display Yellow Lights up when the control mode is RDY RDY OUT Display Yellow Lights up when OUT1 is turned ON OUT AL1 Display Yellow Lights up when Event 1 Output is turned ON AL1 AL2 Display Yellow Lights up when Event 2 Output is turned ON A L2 If heat cool control is selected it also lights up when OUT2 is turned ON 6 2 Operation Keys MP ys Operation Keys Description M Key Switches screens F Key Executes functions that are being set 1 Digit Navigation Key selected digit blinks Usable in all modes F RUN READY Key Usable only in operation mode Click once to enable the function 2 3 AT Start Stop Key Usable only in operation mode Click once to enable the function 4 Timer Start Reset Key Usable only in operation mode Click once to enable the function 5 Alarm Reset Key Usable only in operation mode Click once to enable the function 6 ENTER Key Usable in all modes DOWN Key Decreases the setting value Pressed consecutively for 0 5 5secs 1 digit 100msecs Press
20. amout limiter lower limit for QUT2 KA KS IR key CP2 33 Setting of the Loop Abnormality Judgment Time of Output 2 EH 2 n lt 8 lt lt A 2 34 Setting of the Loop Abnormality PV Variation of Output 2 x4x7 TU 22 c lt A ey 35 Loop anormaly PV threshold for OUT2 SV x4x7 ela c E A ey py 36 Protection OFF timer time setting for OUT2 x6x4 c lt A 2 37 Protection ON timer time setting for OUT2 6 4 TU 22 c E A 2 38 Enable Disable Balance less Bump less Function vu lt 2 Je c E A 2 39 Manual reset setting 1 2 En c lt A 2 40 Dead band setting 4 U 22 c z A ey 41 SV Ramp time setting 2 s c lt Key 42 Control backup function setting 1 XJ 22 JM Key Back to 1 This will not be displayed if the output type of Output 1 is ON OFF control This will not be displayed if the output type of Output 1 is PID control This will not be displayed if the loop abnormality judgment time of Output 1 is 0 This will not be displayed if the output type of Output 2 is None or Event 2 Output This will not be displayed if the output type of Output 2 is ON OFF control This will not be displayed if the output type of Output 2 is PID control This will not be displayed if the loop abnormality judgment time of Output 2 is 0 16 6 3 7 Event 1 Output Parameter Mode 4 1 Setting Mode Select
21. and cooling controls commonly use this setting Cannot be set individually Reset Operation is an action performed to make the deviation between setting values which happens during the proportional control closer to zero Temperature Setting value Sv Deviation Time Reset Time is a numerical value that sets the intensity of the reset operation It shall be set in seconds The shorter the time the more intense the reset operation becomes because it tries to reset the deviation within the time duration that was set lil Derivative time setting gt Character Name Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Derivative time setting Setting Range 0 3600 Setting Unit Second Sets the derivative time Derivative will not be performed if 0 second is set In case of heating and cooling controls both heating and cooling controls use this setting Setting cannot be performed individually Derivative operation is an operation performed to quickly normalize the state of control against a sudden disturbance by providing a large amount of manipulated variable It provides an output with the size that is proportional to the time derivative value of the measurement value Since proportional operation and reset operation are operations that will correct the result of control they are not capable of responding timely to a sudden temperature cha
22. arameter Mode Protection OFF timer Setting Range 0 99 time setting for OUT1 Setting Unit Minute Protection ON timer time Setting Range 0 99 setting for OUT1 Setting Unit Minute Sets the shortest retaining time of ON or OFF during ON OFF control The time that was set after the switching of output retains the state of the output Example Action of which Output 1 Protection OFF Timer Fdt1 was set SV C1 Temperature Protection timer ON Output OFF li Setting of the Loop Abnormality PV Threshold of Output 1 E Character Name Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter M ode Manipulated Variable of Display Range 0 096 100 096 Output 1 Setting Range ML2 M H2 It shall be used to monitor the manipulated variable of Output 2 and to set the manipulated variable during manual control The screen displays the manipulated variable of Output 2 Setting of manipulated variable is not allowed at normal control Setting of manipulated variable is allowed only when the control mode is set to manual control 43 WE Proportional band setting for OUT2 27 Character SET3 Setting M ode Selection Screen Control Parameter Mode Proportional band setting for OUT2 Settings about Control Setting Range 0 10 10 00 Sets the proportional band for Output 2 Setting Unit Magnification for O
23. arm function 2 setting 12 2 v lt E La N lt E A 2 8 EV2 alarm function 3 setting 12 v lt S La LA 2 c lt A 2 9 EV2 alarm polarity setting 12 22 JM Key Back to 1 This will not be displayed when the model of B option is not specified This will not be displayed when the output type of Output 2 is other than Event 2 Output This will not be displayed when Event 2 function is set to OFF This will not be displayed when Event 2 function will not be used at the maximum limit This will not be displayed when Event 2 function will not be used at the minimum limit This will not be displayed when Event 2 functions 1 and 2 are set to OFF 18 6 3 9 Timer Parameter Mode 1 Setting M ode Selection Screen m c E A 2 2 Timer output setting SCH 22 JM Key py 3 Setting of Timer Function JM Key PV 7 n of the Unit of Timer JM Key PV 5 Setting of SV Start Permission Range SV 0 1819 JM Key py une setting JM Key PV EHS monitor N JM Key Back to 1 18 This will not be used when Timer Output is set to Timer OFF 19 This will not be displayed when Timer function is other than SV Start 19 6 3 10 LCD Parameter Mode py SET7 1 Setting M ode Selection Screen JM Key PV LV 2 Brightness setting VM Key PV 3 Dimming function setting 0 JM Key py LRLV 4 Dimming Brightness setting d JM Key
24. cycle time cycle Example If proportional cycle is 20 seconds and manipulated variable M V is 40 Proportional cycle 20sec 44 lll Operating amout limiter upper limit for OUT2 Character Name Description Initial Value 1 SET3 Setting M ode Selection Settings about Control Screen CNT Control Parameter M ode 29 MH Operating amout limiter Setting Range M L2 100 0 1000 Setting Unit upper limit for OUT2 It provides a maximum limit for the manipulated variable that was calculated Operating amount limiter upper limit Output 100 50 0 Calculated value Actual output lll Operating amout limiter lower limit for OUT2 E Character Name Description Initial Value M 30 Setting M ode Selection Screen Control Parameter M ode Operating amout limiter lower limit for OUT2 Settings about Control Setting Range 0 0 M H2 Setting Unit It provides a minimum limit for the manipulated variable that was calculated Operating amount limiter upper limit 5096 Output 100 0 Calculated value Actual output 45 li Setting of the Sensitivity of Output 2 Character SET3 Setting M ode Selection Screen Control Parameter Mode Setting of the Sensitivity of Output 2 Sets the sensitivity of output 2 Description Settings about Control Setting Range 0 999 or 0 0 999 9 Setting Unit C or F Initial Value Se
25. e PRI 2 IPR 1 Priority screen 1 setting Sets the parameter to be displayed on a priority screen Screen 1 9 3 PRI 2 0 CFF 4 PRI 3 1 ES S Priority screen 9 setting 7 PRI 6 8 PRI 7 9 PRI 8 10 PRI 9 Presetting frequently used parameters and other such parameters that the user wishes to display allows the user to quickly display these parameters by simply pressing the M key during operation mode Can set up to 9 screens Select OFF to disable the priority screen 22 6 4 4 Input Parameter Mode W input type setting Bn Character Name Description Initial Value SET Setting M ode Selection Screen NP Input Parameter Mode Settings about Input NP Input type setting Setting Range 00 06 10 11 See Input Type Setting Table for detail Input Type Setting Table Setting Connect Setting Range Designated No Input Type ion M easurement Range Resolution K 210 C 1382 C 200 C 1372 C TC 1 C 0 1 C 00 Thermocouple 199 9 C 999 9 C 199 9 C 999 9 C i J 210 C 860 C 200 C 850 C S 1 Jl 01 Thermocouple i 199 9 C 860 0 C 199 9 C 850 0 C me R 0 o 0 d 0 o 02 ee TC 10 C 1710 C 0 C 1700 C 1 C T 210 C 410 C 200 C 400 C T 1 C 0 1 03 Thermocouple S 199 9 C 410 0 C 199 9 C 400 0 C nn N 210 C 1310 C 200 C 1300 C O4 thermocouple TC 199 9 C 999 9 C 199 9 C 999 9 C E S O 0 oc fo O 05 Thermocpfe TC 10 C
26. e This will be displayed when the resistance temperature detector is shorted RRO This will be displayed when the abnormality in the memory element is detected RRL This will be displayed when the abnormality in the input circuit is detected This will be displayed when the auto tuning takes more than 3 hours or when error has occurred while the auto tuning is in progress This will be displayed when the user tries to change the parameter while the key is locked This will be displayed alternately with the measurement value while the auto tuning process is in progress This will be displayed when the user tries to change the control mode while the F key is being assigned to RUN READY This will be displayed when the user tries to change the control mode while the timer is being used o m m m m d m a 2 8 8 69 7 List of Models TIM I4N o An e No Item Symbol Description R Relay Contact Output SNE P Voltage Output for SSR Drive Event 1 A Fixed Relay Contact Output Output 2 Event 2 Optional B Relay Contact Output 70 8 Before Performing a Control This product uses nonvolatile memory to memorize settings It retains its settings even if its power is turned OFF This product can switch the input type of the sensor Upon using the product please match the type of the sensor with the sensor setting of the product This product can perform two types of cont
27. e manipulated variable that is being set at M anipulated Variable of Output 1 2 30 E Control type setting Character Description Setting Mode Selection Settings about Control Screen Control Parameter M ode Control type setting Function 0 Type A 1 Type B 2 Fuzzy Output Type of Output 1 1 PID Control 2 ON OFF Control Output Type of Output 2 0 None 1 PID Control 2 ON OFF Control 3 Output Event 2 x If the model of B option is not specified the output type of Output 2 will be fixed to OFF Function Sets the control type of PID If PID control is used three control types from 0 Type A to 2 Fuzzy are available Control types will be reflected inboth Output 1 and 2 Type A Performs normal PID control Type B Performs a control while suppressing the overshoot It may take more time before reaching up to SV Fuzzy Effectively suppresses the overshoot at the start of the control Output Type of Output 1 Allows the user to set the control method of output 1 Output Type of Output 2 Allows the user to set the control method of output 2 3l Initial Value E Tuning type setting Character Description Initial Value 1 SET3 Setting Mode Selection Settings about Control Screen Control Parameter Mode OR Tuning type setting Reverse Action Direct Action lt Reverse Action gt The control that increases the ma
28. ed consecutively for 5 10secs 10 digits 100msecs Pressed consecutively for more than 10secs 100 digits 100msecs UP Key Increases the setting value Pressed consecutively for 0 5 5secs 1 digit 100msecs Pressed consecutively for 5 10secs 10 digits 100msecs Pressed consecutively for more than 10secs 100 digits 100msecs gt 6 3 Operation Flow 6 3 1 Operation Mode py 1 Controlled Temperature Setting SV JM Key PV 2 Priority Screen 1 SV xxx JM Key 3 Priority Screen 2 PV Sy eek JM Key 4 Priority Screen 3 PV SV xxx JM Key PV 5 Priority Screen 4 sy VM Key Pv RK 6 Priority Screen 5 sv JM Key PV 7 Priority Screen 6 s JM Key PV 8 Priority Screen 7 SV KKK JM Key PV 9 Priority Screen 8 v JM Key PV 10 Priority Screen 9 s JM Key Back to 1 6 3 2 Protect Setting Mode ev PTLV 1 Protect Level Setting SV BE 6 3 3 Priority Screen Parameter M ode 1 Setting M ode Selection Screen j 28 c E A 2 2 Priority screen 1 setting v lt m a c zZ A 2 3 Priority screen 2 setting 2 az TI NA c lt A 2 4 Priority screen 3 setting 2 E TI U lt E A 2 5 Priority screen 4 setting 2 a lt lt A 2 6 Priority screen 5 setting 2 LE TH Ul c lt A 2 7 Priority screen 6 setting 2 E no c lt A 2 8 Priority
29. en Control Parameter M ode AT sensitivity setting Setting Range 0 999 or 0 0 999 9 Setting Unit C or F Sets the sensitivity of the switching of ON OFF during AT Switching of ON OFF will be performed during AT AT start AT stop EE Too much fluctuation in the measurement value during AT may affect the tuning result and may cause a miscalculation of the PID constant In such a case adjust AT Sensitivity to correct the tuning result SV ON Output OFF Also if AT sensitivity is small fluctuations in the measurement value caused by the noise may occur or control may greatly be affected by the external environment if it is operated in the temperature that is close to normal In such a case the product may recognize the effect caused by the external environment as a characteristic of the subject of control and therefore the product may not be able to come up with the optimal control characteristic Note It is recommended to use the default value for AT sensitivity setting parameter 34 li AT sensitivity setting Character Description Settings about Control Initial Value SET3 Setting M ode Selection Screen Control Parameter M ode AT start stop GFF Stop AT CN Start AT x Start or stop AT by pressing the F key lll Proportional band setting for OUT1 Character Name Description Initial Value Setting Mode Selection Settings about Control Sc
30. eset 52 m Dead band setting Character Description Initial Value SET3 Setting Mode Selection Settings about Control 40 Screen Control Parameter Mode CR Dead band setting Setting Range 100 100 or 100 0 100 0 Setting Unit C or F It moves the proportional band or sensitivity of Output 2 If the value is positive the distance between Output 1 and 2 gets wider If the value of dead band is positive MV 100 Low SV High If the value of dead band is negative MV 100 Output1 Output2 Low SV High 53 E SV Ramp time setting Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter M ode SV Ramp time setting Setting Range 0 0 999 9 Setting Unit C min or F min x Setting 0 0 will turn the SV ramp OFF Sets the transition of SV per minute upon changing SV Ramp control starts from the present PV Activation Condition 1 Upon turning the power ON 2 Upon switching from RDY to RUN SV The setting value changes from the temperature at start of the operation to SV using the operating amount set for RMP SV 1 minute Time At start Note 1 Event Output during the Ramp SV of maximum and minimum deviation maximum deviation minimum deviation and deviation range SV during the ramp Please note that SV is not a final target value Note 2 Ramp will not function if ramp
31. et Setting Range 0 0 110 0 Windup Setting Unit Sets the maximum value of the calculated reset manipulated variable Sample Setting If ARW is set to 50 the manipulated variable to be accumulated in the reset operation will reach up to 50 Anti reset windup is an operation to suppress the excessive resetting in the reset operation If the reset operation is included in the control it will be used to limit the influence of reset operation so that an overshoot can be prevented Note Reset action loses its effect if ARW is set to 0 37 ll Operating amout limiter upper limit for OUT1 Character Name Description Initial Value 1 SET3 Setting M ode Selection Settings about Control Screen ONT Control Parameter Mode 17 MHL Operating amout limiter Setting Range ML1 100 0 1000 Setting Unit 96 upper limit for OUT1 It provides a maximum limit for the manipulated variable that was calculated Operating amount limiter upper limit 50 Output 100 0 Calculated value Actual output lll Operating amout limiter lower limit for OUT1 a Character Name Description Initial Value Setting M ode Selection Screen Control Parameter M ode Operating amout limiter lower limit for OUT1 Settings about Control Setting Range 0 0 MHL Setting Unit It provides a minimum limit for the manipulated variable that was calculated Operating amount limiter upper li
32. g Output 2 Auto Tuning Output 1 Output 2 Notes 1 It is configurable only when either Output 1 or Output 2 is set to PID control 2 If 4 Output 2 Self Tuning is set AT cannot be performed for Output 1 3 Please be careful that if 5 Output 1 Output 2 Auto Tuning is set AT will also be performed for Output 1 Auto Tuning Auto Tuning calculates the PID constant through the response of ON OFF Calculated PID constant can only be changed by redoing the auto tuning Therefore it is ideal for the control of a situation where temperature changes periodically such as seal packaging device lt Self Tuning gt Self Tuning is a method of tuning that automatically calculates the PID constant by observing the control wave It is ideal for the control of a situation where subject of control differs setting value changes or environment such as ambient temperature changes Unlike auto tuning self tuning does not require tuning time 33 WAT coefficient setting Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter M ode Setting Range 0 1 10 0 Setting Unit Times M ultiplies the coefficient to the value of proportional band that shall be calculated during AT Note It is recommended to use the default value for AT coefficient setting parameter li AT sensitivity setting Setting Mode Selection Settings about Control Scre
33. ion Types of Control Can select and set ON OFF control PID control and self tuning PID Action Output Under Special All outputs are turned OFF for approximately 4 seconds from power ON Condition Control output is turned OFF in case of the abnormality in the measurement value Relay Contact Output Contact Point Type Non voltage Contact Point Output la Contact Point Contact Point Capacity AC250V3A Mechanical Life More than 5 million times Electrical life More than 100 000 times For SSR Drive Voltage Output Output Voltage OV when turned OFF and 12VDC when turned ON Load Resistance More than 6000 provided that the value may change depending on the calculation with the internal resistance of SSR 73 Additional Function Output Type Non voltage Contact Point Output 1a Contact Point Event Output Contact Point Capacity AC250V 2 4A resistance load 1 2 Minimum Applicable Load DC5V 10mA Mechanical Life More than 5 million times Electrical life More than 200 000 times Loader Communication TTL Communication Standard Communication Dedicated Protocol Method Communication Speed 9600 BPS Character Start Bit 1 Stop Bit 2 Data Length 8 Without Parity With BCC Check Address 1 10 Maintenance and Inspection Trouble Things To Be Checked Nothing is displayed on screen Is the power supply terminal properly connected Dls the power properly supplied M
34. ion Initial Value Setting Mode Selection Settings about Key Function Screen Key Function Parameter Mode Function key function Function Settings setting 0 No Function Digit Shifting Key 2 RUN READY Key 3 AT Start Stop Key 4 Timer Start Reset Key 5 Alarm Reset Key 6 ENTER Key Setting of the Length of Time in which the Key Is Being Pressed None Key is pressed for 1 second Key is pressed for 2 seconds Key is pressed for 3 seconds Key is pressed for 4 seconds Key is pressed for 5 seconds I Function Settings 1 Digit Shifting Key Shifts the digit by 1st 10th 100th 1000th 1st digit each time the F key is pressed This allows the user to change the setting smoothly 2 RUN READY Pressing the F key will switch the control mode from start to stop and vice versa 3 Start AT Stop AT It serves as the key to start stop automatic tuning during the control of PID 4 Start Reset Timer It serves as start reset key when the timer setting is set to manual start It also serves as start reset key for the timer operation that was ended 5 Reset Alarm Allows the user to reset the event output condition 6 ENTER Uses the F key asthe key to memorize the setting value Note 1 Proceeding to the next parameter without memorizing the changed setting will cause the resumption of the previous setting Note 2 To change the function from ENT
35. ion Screen d c lt A 2 2 Event 1 Function Setting 1 2 lt dis tm m c lt A 2 H 3 EV1 alarm upper limit setting x8x9 E 22 JM Key L 4 EV1 alarm lower limit setting 83x10 22 elle JM Key C 5 EV1 alarm sensitivity setting x 8 Le 22 JM Key AIT 6 EV1 alarm delay timer setting Ge 11 c lt A 2 7 EV1 alarm function 2 setting z TI N 2 c lt A 2 py ALF3 8 EV1 alarm function 3 setting JM Key P 9 EV1 alarm polarity setting 3 A JM Key Back to 1 8 This will not be displayed if Event 1 function is turned OFF 9 This will not be displayed if Event 1 function will not be used at the maximum limit x 10 This will not be displayed if Event 1 function will not be used at the minimum limit 11 This will not be displayed if Event 1 functions 1 and 2 are turned OFF 17 6 3 8 Event 2 Output Parameter Mode x12 13 14 x15 x16 x17 1 Setting M ode Selection Screen 12 13 2 SE c E A 2 2 Event 2 Function Setting 1 o 3 EV2 alarm upper limit setting 12 14 15 2 2 5 La HI c E A 2 2 TCU lt Je I c E A 2 4 EV2 alarm lower limit setting x12x14x16 2 U lt Je P lt E A 2 py C 5 EV2 alarm sensitivity setting x12x14 2 D c zZ A 2 6 EV2 alarm delay timer setting x12 17 2 Ja c lt A 2 7 EV2 al
36. l be adjusted to 100 Cby zero setting the PV correction to 10 C Computation formula 90 C before PV correction 10 C 100 C PV A After PV compensation 100 C Before PV compensation 90 C 10 C 7 gt Actual temperature 0 C 100 C x Numerical formula for the combination of PV compensation gain setting and Zero Setting of PV Correction is the following Before PV Correction x PV compensation gain setting Zero Setting of PV Correction After PV Correction Caution 1 Setting the gain of PV correction greater may cause instability of the measurement value 2 Setting the gain of PV correction to less than x1 will change the range of display Sample Setting If the input of K thermocouple is 199 9 C 999 9 C PV compensation gain setting x0 5 gt 100 0 C 500 0 C PV compensation gain setting x0 1 gt 20 0 C 100 0 C 3 Setting the zero setting of PV correction to less than 0 will change the range of display Sample Setting If the input of K thermocouple is 210 C 1382 C Zero setting of PV correction 100 C gt 110 C 1382 C Zero setting of PV correction 100 C gt 210 C 1282 C 25 li Setting of PV Filter ME Character Name Description Initial Value Setting Mode Selection Settings about Input Screen p Input Parameter M ode 5 PCF Setting of Input Filter Setting Range 0 0 99 9 00 Setting Unit Second
37. m setting range 1200 Provided that the difference between SLH and SLL must be more than 5 C or F Setting Unit C or F 3 SL SV limiter lower limit Setting Range M inimum setting range M aximum setting range 0 Provided that the difference between SLH and SLL must be more than 5 C or F Setting Unit C or F I Setting Range of the M aximum Limit of SV Limiter When inputting thermocouple resistance temperature detector SLL 5 up to maximum limit of setting range C setting of the position of decimal point is 0 SLL 5 0 up to maximum limit of setting range C setting of the position of decimal point is 0 0 I Setting Range of the Minimum Limit of SV Limiter When inputting thermocouple resistance temperature detector Minimum limit of setting range up to SLL 5 C setting of the position of decimal point is 0 Minimum limit of setting range up to SLL 5 0 C setting of the position of decimal point is 0 0 ll Control mode setting EX Character Name Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter M ode Control mode setting Execute the Control Stop the Control Minimum Output of M V Limiter Manual Control Execute the Control RUN Performs an ordinary control Stop the Control RDY Outputs the minimum limit of the manipulated variable limiter of Output 1 2 Manual Control M AN Outputs th
38. mit 50 Output 100 0 Calculated value Actual output 38 li Sensitivity setting for OUT1 Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Sensitivity setting for Setting Range 0 999 or 0 0 999 9 OUT1 Setting Unit C or F Sets the sensitivity hysteresis of the ON OFF action of output 1 In case of the heating control the sensitivity will be placed below SV li OFF point position setting for OUT1 Description nial Vale Setting Mode Selection Settings about Control Screen Control Parameter Mode OFF point position Setting Range 199 999 or 199 9 999 9 setting for OUT1 Setting Unit C or F Moves the OFF point of the sensitivity of output 1 The entire range of sensitivity will be moved Sets the position of OFF point offset for SV for the ON OFF operation of reverse action OFF point CP1 0 ci I ON C1 Sensitivity setting OFF py Low SV High a OFF point CP1 positive vAlue d CP1 ON C1 Sensitivity setting CP1 OFF point position OFF A point SV CP1 A point PV Low SV High OFF point CP1 negAtive vAlue ci cP1 OO T ON C1 Sensitivity setting CP1 OFF point position A point SV CP1 OFF B point PV Low SV High 39 Sets the position of OFF point offset for SV for the ON OFF operation of direct action OFF poi
39. nge such as a disturbance Derivative action will be used to cover that disadvantage It isa numerical value that sets the intensity of the derivative action It shall be set in second The longer the time the more intense the derivative operation becomes because the interval to get the difference gets wider 36 W Proportional cycle setting for OUT1 Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Proportional cycle Setting Range 1 120 setting for OUT1 Setting Unit Second X 1 A default value of which the type of Output 1 is R Relay Contact Output x 2 A default value of which the type of Output 1 is P Voltage Output for SSR Drive Sets the proportional cycle of output 1 Since the output of relay contact point and voltage for SSR drive only have a state of either ON or OFF proportional operation cannot be performed To make the proportional operation work in such a state the concept is called Time Proportional Operation In atime proportional control the method of turning ON for a fixed period of time and turning OFF for the rest of the time will be repeated in accordance with the designated proportional cycle time cycle Example If proportional cycle is 20 seconds and manipulated variable M V is 40 Proportional cycle 20sec Setting Mode Selection Settings about Control Screen Control Parameter Mode Setting of Anti res
40. nipulated variable while PV measurement value is lower than SV setting value is called Reverse Action Heating Control MV 100 Low SV High Direct Action gt The control that increases the manipulated variable while PV is higher than SV is called Direct Action Cooling Control MV 100 Low SV High Note Please take note of the following upon setting Output 2 If Output 1 is set to 0 Reverse Action Output 2 will be automatically set to Direct Action DIf Output 1 is set to 1 Direct Action Output 2 will be automatically set to Reverse Action 32 m Manipulated Variable of Output 1 Character Setting M ode Selection Screen Control Parameter Mode Manipulated Variable of Output 1 Description Settings about Control Display Range 0 0 100 0 Setting Range MLI M HL Initial Value It shall be used to monitor the manipulated variable of Output 1 and to set the manipulated variable during manual control A screen that displays the manipulated variable of Output 1 Setting of manipulated variable is not allowed at normal control Setting of manipulated variable is allowed only when the control mode is set to manual control li Setting of Tuning Type Setting M ode Selection Screen Control Parameter M ode Settings about Control setting of Tuning Type Auto Tuning Output 1 Self Tuning Output 1 Auto Tuning Output 2 Self Tunin
41. nt 2 Output Polarity Character Description Initial Value Setting M ode Selection Screen Settings about Event 1 Output Function Event 1 Output Parameter M ode Settings about Event 2 Output Function Event 2 Output Parameter M ode X Set5 will not be displayed unless the control type is set EV1 alarm polarity setting EV2 alarm polarity setting Sets the event function setting to either Normal Open or Normal Close Normal Open Normal Close Normal Open Opens when the event output is active Normal Close Closes when the event output is active 60 6 4 8 Timer Parameter M ode Timer Function is a function to make the event occur for a certain period of time or after a certain period of time from the occurrence of a certain trigger li Timer output setting E Character Name Description Initial Value Setting Mode Selection Settings about Timer Screen Timer Parameter M ode Timer output setting O Timer OFF 1 Control 2 Output Event 1 3 Output Event 2 x If the model of B option is not specified 3 becomes non selectable 61 E Setting of Timer Function em Character Name Description Initial Value SET6 Setting Mode Selection Settings about Timer Screen TI ME Timer Parameter M ode 3 IM Setting of Timer Function 1 Automatic Start ON Delay 1 2 Manual Start ON Delay 3 Event 1 Start
42. nt CP1 0 a En ON C1 Sensitivity setting OFF eee N Low SV High OFF point CP1 negAtive vAlue CP1 a KIA I on d C1 Sensitivity setting CP1 OFF point position OFF Cpoint SV CP1 C point PV Low SV High OFF point CP1 negAtive vAlue Cl KO I ON d CP1 C1 Sensitivity setting CP1 OFF point position OFF D point SV CP1 point A 24 Low SV High 40 li Setting of the Loop Abnormality Judgment Time of Output 1 Character Name Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Setting of Output 1 Loop Setting Range 0 9999 Abnormality Setting Unit Second Judgment Time x Setting 0 will turn the judgment on loop abnormality OFF A function that detects the abnormality in the control loop Dlt detects PV Variation per LoP1 time It detects Loop Abnormality if the value is less than PS1 li Setting of the Loop Abnormality PV Variation of Output 1 Character Name Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Setting of Output 1 Loop Setting Range 0 999 or 0 0 999 9 Abnormality Setting Unit C or F PV Variation x Setting 0 will turn the judgment on loop abnormality PV variation OFF A function that detects the abnormality in the control loop If tS1 satisfies the threshold value the judgment
43. on the following loop disconnection takes place It detects PV Variation per LoP1 time It detects Loop Abnormality if the value is less than PS1 DIf PS1 0 only the judgment on time by LoP1 will be performed If the time duration in which tS1 satisfies the threshold exceeds LoP1 then it detects Loop Abnormality SV 41 li Setting of the Loop Abnormality PV Threshold of Output 1 Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Setting of Output 1 Loop Setting Range 0 999 or 0 0 999 9 Abnormality Setting Unit C or F PV Threshold x Setting 0 will turn the judgment on loop abnormality PV threshold OFF A function that detects the abnormality in the control loop If PV is within the range between SV setting value and tS1 the judgment on the loop disconnection takes place Actual judgment shall be made through PS1 and LoP1 SV setting value u PV indicates present temperature N njudement Control loop Temperature threshold is a value domain anomaly PV specified by SV tS1 threshold tS1 Judgment domain When PV is out of the judgment domain the control loop anomaly is not judged 42 li Protection OFF timer time setting for OUT U Protection ON timer time setting for OUT1 Character Description Initial Value SET3 Setting Mode Selection Settings about Control Screen Control P
44. quipment may cause fatality or N Remi nder serious injury Care should be taken for ensuring safety Matters that are indicated as Caution can also turn into serious accidents depending on the situation Please follow all instructions described herein for the safe use of this product Example of Symbols Instruction on ground connection for the equipment with safety grounding terminals General caution warning or prohibition without particularity Hazard of pinched fingers on a particular portion of the equipment Possible injury caused by touching a particular portion Unspecific behaviors of of the equipment under general users specific conditions Hazard of injury due to high temperature under specific conditions Hazard of injury such as an electric shock due to disassembling or modification of the equipment Hazard of an electric shock under specific conditions Hazard of burst under particular conditions IN Warning Improper wiring to the equipment may cause a failure such as fire Upon completion of wiring ensure to verify the proper wiring before turning on electricity Do not turn on electricity until all wiring is complete Do not touch portions of high voltages such as power supply terminals as an electric shock may be resultant Install appropriate protective circuits externally if a failure or abnormality of the equipment may seriously affect related
45. r discoloration of the equipment The equipment may cause radio disturbances in domestic settings User is required to take appropriate measure Ensure to tighten terminal screws at specified torque Insufficient tightening the screws may cause an electric shock or fire Ensure to observe precautions listed in this manual for the use of the equipment Reprinting or duplicating this manual is prohibited 9 9 Q Q 9 o e o e Q o 9 Q This manual may be revised without prior notice Important Reminder Regarding Export Trade Control Order Please investigate the client and the purpose of his or her usage to make sure that the product will not be used as a weapon of mass destruction e g for military purposes and use in military facilities 2 Name and Function of Parts PV Displays the character of current measurement value or setting mode screen Displays the selected input value of setting value output value or setting mode SV screen F Lights up when the setting value is atemperature data with the unit of F C Lights up when the setting value is atemperature data with the unit of C RDY Lights up when the control mode is RDY ready OUT Lights up when OUT1 Output 1 is turned ON ALL Lights up when Event Output 1 is turned ON AD Lights up when Event Output 2 is turned ON If heat cool control is selected it also lights up when OUT2 is turned ON
46. reen Control Parameter Mode Proportional band setting for OUT1 Setting Range 0 1 200 0 Setting Unit that corresponds to SLL SLH Sets the proportional band for Output 1 In case of heating and cooling controls the proportional band of the heating side will be set See the figure shown below on how the proportional band will be placed during the heating control In case of cooling control the proportional band will be placed on top Temperature SV Proportional band range Time Proportional bandwidth can be calculated by the following formula Proportional Bandwidth SLH SLL x P1 SLH Maximum Limit of SV Limiter SLL Minimum Limit of SV Limiter Example If SLH 1200 C SLL 0 C and P1 3 0 then 1200 C 0 C x3 36 C Output gradually increases from the point where the temperature gets lower than SV by 36 C In general setting the proportional band wider will make the startup slow If the proportional band is narrow on the other hand the startup is faster but may cause instability of control such as overshooting and hunting 35 lil Integral time setting Character SET3 Setting M ode Selection Settings about Control Description Initial Value Screen Control Parameter Mode Integral time setting Setting Range 0 3600 Setting Unit Second J the reset time Reset will not be performed if 0 second is set In case of heating and cooling controls both heating
47. reen appears for 4 sec then it will proceed to Operation M ode M key 10 seconds Indication disappears momentarily d F key Press for once M key Press for once Blind setting mode RUN mode M key 2 seconds 5EE3 S SEE SEES SEE I A SEE2 A A A eELE A SEE A lt gt gt gt lt gt gt lt gt gt toSE0 Pi S aP e PEN Etal Sp Ste gt ma g ene S a SO I key i key I key I key p key I key I key i key GE Input fae Control EV1 EV2 Timer LCD setting setting setting setting setting setting setting setting mode mode Bde mode mode mode mode mode When Blind Mode is ON ON and OFF will be displayed below each character SV display section Display when turned ON Non display blind when turned OFF Switching between ON and OFF shall be done with the F key Changing of mode during the blind mode can be done with V A keys Reset the power to end the blind mode 68 This will be displayed when the input exceeds the maximum limit of the display range This will be displayed when the thermocouple is disconnected This will be displayed when the resistance temperature detector is disconnected This will be displayed when the input drops below the minimum limit of the display rang
48. rol PID and ON OFF The characteristics of each control are described below Choose the control to use based on their characteristics PID Control Pros Can achieve better control result than ON OFF control Cons Life of a relay contact point gets shorter because of the frequent ON and OFF of the output ON OFF Control Pros Life of a relay contact point is generally longer since it turns ON if the temperature is lower than the setting value and OFF if higher Cons Less controllability than PID control 71 9 Specifications 9 1 General Specifications Storage Element EEPROM Insulation See figure below Power Supply Voltage AC100 240V 50 60Hz Consumption Current 5VA or less Warm Up Time 30 minutes Insulation Resistance Each Input and Output Terminal Case DC500V 20MO Power Source Terminal Case DC500V 20MQ Voltage Endurance Each Input and Output Terminal Case AC1000V 1 M inute Power Source Terminal Case AC1500V 1 M inute Standard Range of 23 C 10 C 45 75 RH Environment Temperature and Humidity Operating Range of 0 C 50 C 20 90 RH without condensation Environment Temperature and Humidity Transportation Range of 25 C 70 C without freezing and condensation 5 95 RH without condensation Environment Temperature and Humidity Mechanism Specifications Weight 100g or less Insulation Diagram Power Supply Input Output 1 E CPU Circuit om t Event Issn
49. screen 7 setting 2 a2 T N c E A 2 9 Priority screen 8 setting 2 a2 TI CO lt A 2 10 Priority screen 9 setting 2 a2 TI O JM Key Back to 1 11 6 3 4 Input Parameter Mode SET1 1 Setting Mode Selection Screen 2 BE JM Key 2 Input type setting SCH 22 JM Key 3 PV compensation gain setting vu lt 2 kA de JM Key 4 PV compensation zero setting ET 22 c lt Key 5 Setting of Input Filter TU 22 VM Key 6 Decimal point setting GET 22 c lt Key 7 Temperature unit setting SV UU lt alg Olm JM Key Back to 1 12 6 3 5 Key Function Parameter Mode py 1 Setting M ode Selection Screen Key SV M Key PV 2 Function key function setting Ce VM Key py 3 Key lock setting JM Key py 4 Alarm reset Loo JM Key Back to 1 13 6 3 6 Control Parameter M ode SETZ 1 Setting Mode Selection Screen nl 22 c lt Key oul SLH 2 SV limiter upper limit D el c lt Key 3 SSV limiter lower limit 2 n lt Je r JM Key 4 Control mode setting 22 c lt Key 5 Control type setting z7 22 JM Key 6 Tuning type setting Oo 22 VM Key 7 Manipulated Variable of Output 1 A 22 x D lt 2 uv lt c z A 2 JM Key a 2 gt EE 1 SV TO OUTI 2 M Key lt A 2 10 AT sensitivity setting 1 2 z gt AE c lt
50. setting is RM P 0 0 54 lil Control backup function setting Character Description Initial Value Setting Mode Selection Settings about Control Screen Control Parameter Mode Control backup function Setting Range 0 0 10 0 setting Setting Unit C or F x Setting 0 0 will turn the control backup function OFF Improvesthe control until it stabilizes by memorizing the reset manipulated variable duringthe time when the control is in stable condition while performing PID control and reflects the memorized reset manipulated variable to the manipulated variable when the control has recovered from the brownout Condition of M emorization When PV has continuously stayed within the range of SV PWZ C for 10 minutes during the control and if PV is still staying within the range of SV PWZ C then memorize every 10 minutes 55 6 4 7 Event o Output Parameter Mode W Event 1 Function Setting 1 Event 2 Function Setting 1 Event 1 Maximum and M inimum Limits Setting Event 2 Maximum and Minimum Limits Setting Event 1 Sensitivity Setting Event 2 Sensitivity Setting Event 1 Delay Time Setting Event 2 Delay Time Setting E Character Name Description Initial Value SETA Setting M ode Selection Screen Settings about Event 1 Output Function A1 Event 1 Output Parameter M ode Settings about Event 2 Output Function SETS Event 2 Output A2 Parameter M ode X Set5 will not be displayed unless the control type is set
51. systems Do not use the equipment out of the specified range as it may fail or catch fire Do not under any circumstance to modify or disassemble the equipment as a failure may be caused resulting fire or an electric shock Do not use the equipment in ambience of flammable or explosive gases AN Caution Do not use the vacant terminals for wiring A e o X Do not use a pointed object to operate keys Do not turn on the power supply until wiring is fully complete in order to prevent an electric shock failure or malfunctioning For replacing a component connected on the equipment ensure to turn off the power supply For turning back on the power supply do so after all wiring is complete Ensure not to trap heat in the space surrounding the equipment in order to provide sufficient heat release Do not put a metal piece or similar inside the equipment A fire an electric shock or failure may be caused The equipment is designed for instrumentation For its use in environments of high voltages or intense noises take appropriate measures on the side of user s equipment The equipment is designed for controlling physical values such as temperatures on general industrial facilities Do not use it for subjects of control that may seriously affect human life Turn off the power supply before cleaning the equipment and wipe it with a soft dry cloth Do not use thinners as they may cause deformation o
52. ts the sensitivity hysteresis of ON OFF action In case of the cooling control the sensitivity will be placed on top of SV lil OFF point position setting for OUT2 Setting M ode Selection Screen Control Parameter M ode Settings about Control OFF point position setting for OUT2 Setting Range 199 999 or 199 9 999 9 Setting Unit C or F Moves the OFF point of the sensitivity of output 2 The entire range of sensitivity will be moved Shifts the OFF point of Output 2 sensitivity The entire range of sensitivity will be shifted 46 Sets the position of OFF point offset for SV for the ON OFF operation of reverse action OFFpoint CP2 0 c2 I ON C2 Sensitivity setting OFF AA EN Low SV High e OFF point CP2 positive vAlue cl CP2 ON C2 Sensitivity setting CP2 OFF point position OFF A point SV CP2 A point PV Low SV High OFF point CP2 negAtive vAlue c2 CP2 ON C2 Sensitivity setting CP2 OFF point position A point SV CP2 OFF B point PV Low SV High 47 Sets the position of OFF point offset for SV for the ON OFF operation of direct action OFF point CP2 0 c2 7 ON C2 Sensitivity setting OFF A 7 Low SV High OFF point CP2 negAtive vAlue CP2 c2 ON C2 Sensitivity setting CP2 OFF point position OFF C point SV CP2 C point PV Low SV High OFF point CP2 negAtive vAlue
53. utput 1 proportional band Description Initial Value Proportional band of Output 2 shall be set with the magnification ratio of x0 1 x10 against the proportional band of Output 1 Proportional band of Output 2 will always be set to the opposite side of SV from the proportional band of Output 1 Sample Setting If the proportional band of Output 2 P2 is set to 2 00 then the proportional band of P2 becomes two times larger than the proportional band of Output 1 P1 Secondary control Temperature proportional band When P2 2 00 is set the proportional band range of the secondary control is twice as large as that of the primary control Primary control proportional band WE Proportional cycle setting for OUT2 ui Character Name Description Initial Value SET3 Setting Mode Selection Settings about Control Screen Control Parameter M ode Proportional cycle Setting Range 1 120 2 T2 setting for OUT2 Setting Unit Second 0 Sets the proportional cycle of output 2 Since the output of relay contact point and voltage for SSR drive only have a state of either ON or OFF proportional operation cannot be performed To make the proportional operation work in such a state the concept is called Time Proportional Operation In atime proportional control the method of turning ON for a fixed period of time and turning OFF for the rest of the time will be repeated in accordance with the designated proportional
54. utput of Event 1 2 ON Can start manually after the counting ON Power OFF Timer EE ME ON i Output OFF ON Event OFF OFF Delay When the timer starts to count itself up with the occurrence of the event the control begins turns output of Event 1 2 OFF Can start manually after the counting ON Power OFF Timer D 79e e EE ON d Output OFF ON Event OFF OSV Start When the timer starts to count itself up as the value reaches SV the control begins turns output of Event 1 2 OFF ON Power OFF Timer END EN ON Output OFF Timer start permitted width SV Timer start permitted width 64 E Setting of the Unit of Timer Character Description Initial Value Setting Mode Selection Settings about Timer Screen Timer Parameter M ode i of the Unit of Hr amp Min d Min amp Sec Sets the unit to be used for the timer function li Setting of Start SV Permission Range Setting Mode Selection Settings about Timer Screen Timer Parameter M ode Setting of SV Start Setting Range 0 999 or 0 0 999 9 Permission Range Setting Unit C or F When SV Start is set it designates the range of temperature C to start the timer As shown in the figure below the permissible range will be designated by the range of tSV with SV as its center If tSV is set to 1 0 C the timer will be activated when the value enters within the range of SV40
55. void the risk of electric shock ZiSCsuti nis product will not perform any control for approximately 4 seconds after turning its power ON produces no output Please be careful if you will be using this product as an interlock circuit Check the wiring with the operation manual to make sure that input terminal power terminal option terminal and other such terminals are connected correctly Upon wiring use the crimped terminal that fits with the M 3 5 screw squeeze the wire into the center of the terminal For the connection between the resistance temperature detector and the product use the wire with the resistance of less than 50 per wire For the connection between the thermocouple and the product use the prescribed compensating lead wire or the wire itself Use the radio shield wire if the product is to be used near the noise source Do not wire the input output line in the same duct or conduit tube Beparate the input output signal line from both power and load lines with the distance of at least 50cm Do not connect anything to the blank terminal 5 List of 7 segment Characters lt List of 7 segment Characters gt Numbers and alphabets used in parameter symbols and settings are described as follows PR IS Operation Flow and Parameters 6 1 Display Sections EOD LT CO j Ju oc o F our 7 6 AL 1 RDY AL2 LE o o Description PV Display Section Displays measurement v
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