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1. Bit position Status 0 ElpOescHpuon 1 Status 0 Work bit 1 OFF ON lower 1 Work bit 2 OFF ON word 2 Work bit 3 OFF ON 3 Work bit 4 OFF ON 4 Work bit 5 OFF ON 5 Work bit 6 OFF ON 6 Work bit 7 OFF ON 7 Work bit 8 OFF ON 8 Spare OFF 9 Spare OFF 10 Spare OFF 11 12 Spare OFF 13 Spare OFF 14 15 Spare OFF Status 16 Event input 5 OFF ON upper 17 Event input 6 OFF ON word 18 Spare OFF FR 19 Spare OFF 20 Invert direct reverse operation Not invert Invert 21 SP ramp OFF During SP ramp 22 Spare OFF 23 Spare OFF 24 25 Spare OFF 26 27 Local SP Mode Remote SP Mode 28 Alarm 4 OFF ON 29 Spare OFF 30 31 Note 1 Spare bits are always OFF 2 When read setup area 1 the status of the bits will be as follows Work bits 1 to 8 SP ramp Cleared Last value held Digital Temperature Controllers Communications Manual H175 Modbus Communications Procedure Read this section if you are to communicate using the Modbus format 4 1 Data Format Se een ERR XAR MR RR REOR RR CR 4 2 421 1 Command Frame clem feel a Pd eer Wee eee bel ere 4 2 44 2 RBesponseFrame se cee ee a bE ee ER E ER 4 4
2. Set value g 54 SP 5 55 SP6 56 SP7 57 Process Value Input Shift 58 Process Value Slope Coefficient amp 59 Remote SP Input Shift 5 60 Remote SP Input Slope Coefficient g 61 Proportional Band amp 62 Integral Time 63 Derivative Time 64 Proportional Band Cooling 65 Integral Time Cooling 66 Derivative Time Cooling 67 Dead Band 68 Manual Reset Value 69 Hysteresis Heating 70 Hysteresis Cooling 71 Soak Time 72 Wait Band 73 MV at Stop 74 MV at PV error 75 SP Ramp Set Value 76 SP Ramp Fall Value 77 MV Upper Limit 78 MV Lower Limit 79 MV Change Rate Limit 80 Extraction of Square Root Low cut Point 81 Work Bit 1 ON Delay 82 Work Bit 1 OFF Delay 83 Work Bit 2 ON Delay 84 Work Bit 2 OFF Delay 85 Work Bit 3 ON Delay 86 Work Bit 3 OFF Delay 87 Work Bit 4 ON Delay 88 Work Bit 4 OFF Delay 89 Work Bit 5 ON Delay 90 Work Bit 5 OFF Delay 91 Work Bit 6 ON Delay 92 Work Bit 6 OFF Delay 93 Work Bit 7 ON Delay 94 Work Bit 7 OFF Delay 95 Work Bit 8 ON Delay 96 Work Bit 8 OFF Delay 97 Position Proportional Dead Band 98 Open Close Hysteresis If nothing is assigned for an upload setting the corresponding address in the upload area will contain O If nothing is assigned for a download setting nothing will be done in the download area 2 If the same value is set for more than one download setting only the download setting with the lower E5 number wil
3. 0 1 2 Parameter Value E5CC default settings DM15 DM45 DM75 Request Flag fixed 1 0001 hex DM16 DM46 DM76 Operation Command Code 0 0000 hex fixed DM17 DM47 DM77 Set Point 0 0000 hex DM18 DM48 DM78 Proportional Band 80 0050 hex DM19 DM49 DM79 Integral Time 233 00E9 hex DM20 DM50 DM80 Derivative Time 40 0028 hex DM21 DM51 DM81 Alarm Value 1 0 0000 hex DM22 DM52 DM82 Alarm Value Upper Limit 1 0 0000 hex DM23 DM53 DM83 Alarm Value Lower Limit 1 0 0000 hex DM24 DM54 DM84 Alarm Value 2 0 0000 hex DM25 DM55 DM85 Alarm Value Upper Limit 2 0 0000 hex DM26 DM56 DM86 Alarm Value Lower Limit 2 0 0000 hex DM27 DM57 DM87 Heater Burnout Detection 1 0 0000 hex DM28 DM58 DM88 Process Value Input Shift 0 0000 hex DM29 DM59 DM89 SP Ramp Set Value 0 0000 hex 2 We will initialize the download areas with the set values from the E5CC Conirollers 3 4 The download areas have not been initialized so we will initialize them with the set values from the E5CC Controllers Double click DM15 Request Flag on the Batch Monitor Dialog Box enter 2 Initialize Download Areas and press the Enter Key We will confirm that the download areas have been initialized When initialization is completed DMO Response Flag will change to 1 Normal End and DM15 Request Flag will automatically change to 1 Enable Writing Check the download area to see if it has been initialized to th
4. 6 10 6 2 8 Upload Settings and Download 05 6 11 6 2 9 Copying Parameter Settings 6 13 6 2 10 Communications 0 1 6 15 6 2 11 Communications Monitor 6 16 6 3 Controlling Programless Communications 6 17 6 3 1 Controlling Programless Communications with the Request Flag 6 17 6 3 2 Response Flag 2 erem ae cede RT 6 18 6 3 3 Range of Operation for Programless Communications 6 19 6 3 4 Operation Command Codes 6 19 6 3 5 Confirming Operation of Programless Communications 6 19 6 3 6 eee 6 20 6 3 7 Troubleshooting se Ra eee aces NAR 6 20 6 4 Connecting to CP series PLCS 6 21 6 4 1 Configuration and Procedure 6 21 6 4 2 Switch Settings and Wiring 6 22 6 4 3 PLC Setups 2m wel iex cutie Se nies RR eh peas ONCE yy 6 22 6 4 4 E5 C Controller Setup 6 25 6 4 5 Checking Operation 6 27 E5LIC Digital Temperature Controllers Communications Manual H175
5. ROTER E eaaa Rasat 6 22 6 4 3 6 22 6 4 4 E5SEIG Controller Setup soe e tope nre ue ete den neta RERO E ERR M ERRAT 6 25 6 4 5 Checking Operations eret tese t ether EE ah 6 27 6 5 Connecting to CJ series 5 6 32 6 5 1 Gonfiguration and Procedure eerie ee oct e ze one reo cp 6 32 6 5 2 Switch Settings andWiting sie o 6 33 6 5 3 PEG Setup ura e tuve e o en tula Re fud 6 33 6 5 4 ESOC Controller EHE ER MEE 6 36 6 5 5 Checking Operation nee ieu taba teta ed tete ite 6 36 6 6 Connecting to MELSEC Q series PLCS eese 6 37 6 6 1 Configuration and Procedure entente nnne enne 6 37 6 6 2 ies EEEE EE E E 6 38 6 6 3 PLO er ae 6 38 6 6 4 E5L16 Gontroller Setup nie I ORE RR A E E S 6 43 6 6 5 Checking Operation aa et AA eaei 6 44 6 7 Connecting MELSEC FX series 6 49 6 7 1 Configuration and Procedure eia aae o EE a ea aaa Eai nanah 6 49 6 7 2 a i2 eei 6 50 6 7 3 ECESE dedic e dit e 6 50 6 7 4 Gontroller Set p x uiri
6. IDEALO dz Ede E i Navigation Remote Operation 3 Select FXCPU and then click the OK Button PLC Series Selection PLC Series NENNEN C Digital Temperature Controllers Communications Manual H175 5 6 Programless Communications 4 Double click the Serial USB Icon select the USB Option and click the OK Button Transfer Setup Connection1 PC side I F Serial Setting CC IE Cont NET 10 H Board include FX LISB AW FX3U LISB BD Cancel A Serial CC IE Cont CC Link Ethernet CC IE Field Q Series NET II PLC USB NET 10 H Board Board Board Bus Board Board 5 Board 1 Transmission Speed 115 2Kbps PLi PLC CCIE Cont CC Link Ethernet C24 GOT CCIEField CCIE Field Module NET 10 H Module Module Master Local Communication Module Module Head Module gt PLC Mode FXCPU r mj on Connection Channel List ing Specification Other Station Other Station Single Network Co existence Network PLC Direct Coupled Setting Connection Test Time Out Sec 5 Retry Times 0 CCIE Cont CCIE Field Ethernet CC Link C24 10 System Image 44 TEL FXCPU m cro C Digital Temperature Controllers Communications Manual H175 6 51
7. 2 7 2 8 receive data wait time 6 10 Request Flag n tet ee ntt 6 17 response code list 2 21 Response Flag edicit tiens 6 18 response frame CompoWAV E s o edet 2 3 Modb s 4 4 RS 485 i aedi eed recie o en a 1 4 S send data wait time 1 6 1 8 6 7 services CompoWay F detailed description senes 2 8 o eet 2 7 set values Modbus see 4 7 SID tut ft acer Ades 2 2 3 2 slave address e ennemi Habib 4 2 SP calculations eee 7 4 Status CompoWay F eren cei 3 23 Modbus eco rete gd Ce dete 5 17 Status 2 CompoWay F 3 23 SUX qm 2 2 sub address ws ecient e ette etg 2 2 T transmission procedure 2 1 3 troubleshooting metere A 3 troubleshooting during component communications 7 6 troubleshooting during copying operation under programless communications 6 14 troubleshooting during programless COMMUNICATIONS rp 6 20 Two byte Mode 4 7 5 2 type code variable type 2 6 U upload settings and
8. 6 Programless Communications 3 Select the USB connection Check Box and click the Connect Button Direct Online Goes online automatically Select connection type and press Connect button Connection Type Serial connection also when using USB Serial conversion cable r7 fe USB connection Connection will automatically be made to the PLC connected directly to the PC via USB cable Please select Serial connection when using USB Serial conversion cable Cancel 4 Select the Transfer IO table and Special Unit Setup Check Box and click the Yes Button Do you wish to transfer program from the PLC after onlined automatically 1 Transfer table and Special Unit Setup essel 5 After the data has been transferred click the OK Button CX Programmer v9 3 JI Upload successful Digital Temperature Controllers Communications Manual H175 6 23 S2d Saues q2 o1 4 9 dnjes 2 7 9 6 Programless Communications Communications Settings for the Serial Communications Option Board 1 The PLC operating mode must be changed to PROGRAM mode to enable changing the communications settings in the PLC Setup Select PLC Operating Mode Program from the menu bar A confirmation dialog box will be displayed Click the Yes Button Untitled CX Programmer NewPLC1 NewProgram1 Section1
9. pue 8 2 9 6 Programless Communications You can use the settings in the following table for the upload settings and download settings Set value 0 Nothing assigned 2 1 Communications Monitor 5 2 Status Upper Word 3 Status Lower Word 4 Status 2 Upper Word 5 Status 2 Lower Word 5 6 Decimal Point Monitor 3 7 Process Value 8 Internal Set Point g 9 Multi SP No Monitor 9 10 Remote SP Monitor 8 11 Heater Current 1 Value Monitor 12 Heater Current 2 Value Monitor 13 Leakage Current 1 Monitor 8 14 Leakage Current 2 Monitor 15 Soak Time Remain 2 16 MV Monitor Heating gt 17 MV Monitor Cooling 18 Valve Opening Monitor 19 Spare 2 30 Nothing assigned 31 Set Point 32 Alarm Value 1 8 33 Alarm Value Upper Limit 1 34 Alarm Value Lower Limit 1 8 35 Alarm Value 2 g 36 Alarm Value Upper Limit 2 37 Alarm Value Lower Limit 2 gt 38 Alarm Value 3 39 Alarm Value Upper Limit 3 40 Alarm Value Lower Limit 3 41 Alarm Value 4 42 Alarm Value Upper Limit 4 43 Alarm Value Lower Limit 4 44 Manual MV 45 Heater Burnout Detection 1 46 Heater Burnout Detection 2 47 HS Alarm 1 48 HS Alarm 2 49 SPO 50 SP 1 51 SP2 52 SP3 53 SP 4 Note 1
10. 7 Component Communications 120 Q 1 2 W 120 1 2 W terminating resistance B B B B terminating resistance 0H H GH M He M HOJA Cue 5 O AC 0 1 2 No n 7 1 3 5 JC Setup The parameters that are used for component communications are shown with a gray background in the following diagram All of these parameters are displayed if you set the Protocol Setting parameter to LMF Some of the parameters are always displayed This section describes the parameters that are used to calculate the set point The other parameters are the same as for programless communications Refer to 6 2 Setup To use component com munications the input type and if an analog input is used the decimal point position must be set to the same values for all of the EBL C Controllers The operation will not work correctly if the position of the decimal point is different Power Adjustment Level v L Adu Adjustment Level 1234 Display for less than 1 s Operation Level v 25 a AT Execute Cancel e Communications AN Writing Press 2 Key Press 2 Key for at least 3 s for at least 1 s Communications Setting Level Press 2 Key for less tha
11. Description Command too long The command is too long 2203 Operation error Non volatile memory error 2 3 6 Read Controller Status This service reads the operating status and error status Service Request PDU MRC SRC 0 6 0 1 2 2 Service Response PDU 1 Operating Status Operating status 00 running Description Control is being carried out error has not occurred in setup area 0 and the Controller is 01 Control is not being carried out state other than above 2 Related Information Bit position Heater overcurrent CT1 Heater current hold CT1 AD converter error Heater overcurrent CT2 Heater current hold CT2 Input error Potentiometer input error Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures 3 Response Code Normal Completion Responsecode Description 0000 Normal completion No errors were found Error Occurred Response code Emorname Description 1001 Command too long The command is too long 2203 Operation error Non volatile memory error SODIAIOS 99110 uondu s q 2 2 2 3 7 Echoback Test This service performs an echoback test Service Request PDU MRC SRC Test data 0181011 2 2 0 to 200 15 YORQOYOA Z c Service Response PDU MRC SRC Response Test data 0 to 200 1 Te
12. disce ioter ede DE eel e gite 2 3 2 1 4 RN 2 4 2 1 5 eR RD HIER EUM Eu S 2 4 2 2 Structure of Command Text iai eroe ee ce ad va doe 2 6 2 2 1 eins AMO As ak ee ee ees 2 6 2 2 2 Area Deflnitloris 5 eeu Uus 2 6 2 2 3 Type Code Variable Type 2 6 2 2 4 INO le EE 2 7 2 2 5 Numberot Elements nete pA Inch Eri 2 7 2 2 6 List of Services Main Request Codes and Sub Request 2 7 2 3 Detailed Description of the Services 2 8 2 3 1 Read Variable Area cere Inge T A d 2 8 2 3 2 Write Varlable Area t cele eel ics ttn 2 9 2 3 3 Composite Read from Variable Area sse nnns 2 10 E5LIC Digital Temperature Controllers Communications Manual H175 Section 3 2 4 Section 4 3 1 3 2 Section 5 4 1 4 2 4 3 4 4 Section 6 5 1 5 2 E 0 6 1 2 3 4 Composite Write to Variable Area nennen nennen 2 12 2 3 5 Read Controller Attributes n nennen n
13. MELSEC Q series L series and FX series PLCs Communications ports Name Model number 2 Corresponding Serial Communication QU71C24N RS 232C RS 422 485 Module Cannot be used QJ71C24N R4 RS 422 485 RS 422 485 L Corresponding Serial Communication RS 232C RS 422 485 LJ71C24 Module Cannot be used FX1N 1NC Corresponding Function FX2NC 485ADP RS 485 Expansion Board or Special Adapter FX1N 485 BD FX2N 2NC Corresponding Function FX2NC 485ADP Expansion Board or Special Adapter FX2N 485 BD Function Expansion Board or Special FX3U 485ADP MB Adapter for FX3S 3G 3GC FX3G 485 BD Function Expansion Board or Special FX3U 485ADP MB Adapter for FX3U 3UC FX3U 485 BD Upto 16 Controllers can be connected to an FX series PLC Keyence KV series PLCs Communications ports Port 2 RS 232C 422A 485 Model number KV L21V Name RS 232C Cannot be used Serial Communication Unit ESLIC Digital Temperature Controllers Communications Manual H175 6 5 suoneoiunuiulo 55 1 9 SO1d 5 6 1 9 6 Programless Communications 6 2 5 Setup The parameters that are used for programless communications are shown with a gray background in the following diagram These parameters will be displayed if you set the Protocol Setting parameter to LNG MLPU or Some of the parameters are always displayed The para
14. Seues x4 93S13MW 04 Bunoeuuo 9 dmes 2 9 6 Programless Communications 6 Click the Parameter Program Button and then click the Execute Button Online Data Operation r Connection Channel List Serial Port PLC Module Connection USB System Image L m wm 9 Read Write f PLC Module Verify Delete Execution Target Data No Yes Title mi Module Data Al Cancel All Selections Module Name Data Name Title Project Name Detail Last Change Target Memory PLC Parameter Device Data File Register Necessary Setting No Setting Already Set Set if itis needed Setting Already Set Related Functions Refresh 7 When the set values have been read click the Close Button dialog box Also close the above Read from PLC 100 100 Read from PLC Completed When processing ends close this window automatically E5 C Digital Temperature Controllers Communications Manual H175 5 6 Programless Communications Setting Up Communications for the Special Communication Adapter 1 Double click PC Parameter The FX Parameter Setting Dialog Box will be displayed e Global Device Comment 5 Program Setting 2 We will change the communications settings for CH1 Click the PC System Setup 2 Tab change the following set
15. 6 10 communications parameter setup 1 7 communications parameters 1 6 communications parity 1 6 1 8 communications protocol 1 6 1 8 communications specifications 1 2 communications stop bits 1 6 1 8 communications unit 6 7 communications unit number 1 6 1 8 communications writing 2 6 15 component communications 7 2 Composite Read from Variable Area CompoWay F 2 7 2 10 Composite Write to Variable Area CompoWay F 2 7 2 12 22 0 1 2 2 1 3 1 confirming operation of programless COMMUNICATIONS 0 0 2 eee 6 19 copying parameter settings 6 13 CRO den t di tet cem t tet 4 2 4 8 D O 4 2 data format tee n 2 2 ModblS ERE EE 4 2 dedicated protocol format 4 6 6 6 9 description of communications parameters 1 8 double word data esses 3 2 E5LIC Digital Temperature Controllers Communications Manual H175 E Echob
16. 6 56 6 8 1 Configuration and Procedure 6 56 6 8 2 S WINING RA eb EV 6 57 6 8 3 PEG Set p zs c ru ERIS Uma RR ERR UR ERRARE 6 57 6 8 4 5 Controller Setup 6 58 6 8 5 Checking Operation 6 58 E C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 1 Programless Communications 6 1 1 Introduction With programless communications you can read and write parameters or start and stop the 2506 from a Programmable Controller PLC Communications with the PLC are performed automati cally by the E5LIC so there is no need to program communications The 50 automatically reads and writes PLC memory ce 4 C C OOO 0 0 2 PLC Up to 32 5 1 Controllers on one communications line up to 16 Controllers for a Mitsubishi FX series PLC 6 1 2 Features You can connect to an OMRON CS CJ series or CP series PLC to a Mitsubishi Q series L series or FX series PLC or to a Keyence KV series PLC Up to 13 50 parameters can be assigned for reading and up to 13 EBLIC parameters can be assigned for writing in PLC memory Each EBLIC Controller is allocated 30 wor
17. Set the communications unit numbers starting pneg pue 2 2 9 PLC 5 Digital Temperature Controllers Communications Manual H175 6 7 6 Programless Communications Communications Setting Level Display condition The Protocol Setting parameter must be set to FENS ML P or F or the Protocol Setting parameter must be set to MF and the Communications Unit No parameter must be set to 0 master Parameter name Displayed characters Setting range Default Highest Communications Unit No 0 to 99 0 6 2 5 Areas and First Address of Linked Data Two areas are used in PLC memory by the E5 C an upload area and a download area The upload area is used to monitor the process value status and other information from the E5 area is used to write the set point alarm values and other values to the E5LIC Address Data in PLC memory C The download Response Flag This flag indicates the completion of processing for the Request Flag Communications Status The status that is given at this address is used in the PLC to check the operation of programless communications Upload Area Monitor Value 1 Monitor Value 2 Monitor Value 13 Information from the such as the PV or status is set at these addresses The parameters that are act
18. C Controller with unit number 2 will use the words that start from the specified starting address plus 60 words Address XXXX Data in PLC memory Response Flag Communications Status Monitor Value 1 1 Each Ye Controller is 704 allocated 30 15 Request Flag words 16 Operation Command Code 17 Set Value 1 30 Response Flag 31 Communications Status lt Communications Unit Number 0 No 1 Digital Temperature Controllers Communications Manual H175 Communications Setting Level 6 Programless Communications Display condition The Protocol Setting parameter must be set to NS MEL PU or F XP Parameter name Displayed characters Setting range Default Area RRER When Protocol Setting Parameter Is Set to FINS 0 0 DM 13 EMC 1 EMO 14 EMD 2 EM1 15 EME 3 EM2 16 EMF 4 EM3 17 10 5 4 18 11 6 5 19 12 7 EM6 20 EM13 8 EM7 21 EM14 9 8 22 15 10 9 23 16 11 24 17 12 25 18 D data registers W link registers R file registers Nae When Protocol Setting Parameter Is Set to 4 3 ZR file registers 4 to 25 D data registers When Protocol Setting Parameter Is Set to 4 D data registers DM 2 R expansion registers data memory registers FM file registers 1 None W link registers 3 to 25 Do not use Dev
19. This function is supported only for EBLIC version 2 1 or later 6 7 1 Configuration and Procedure The following configuration is used as an example in giving the setup and application procedures for programless communications All of the 5 Controllers must be the same model Copying parameter settings is not possible if the models are different DO to 089 are used in the PLC memory The default 5 parameter allocations are used A USB A mini B cable is used Terminating resistance switch 330 Q OPEN Set to 110 1100 Commercially available USB cable GX Works2 Programming Software Note Refer to the GX Works2 Installation Instructions BCN P5713 for information on installing the GX Works2 and to the GX Works2 Version 1 Operating Manual Common SH 080779ENG for information on installing the USB driver Seues x4 93S13MW 04 Bunoeuuo 9 The application procedure is given below C START einpeoo4g pue uoneunfijuoo 1 7 9 Wire the network Wire the FX3U 485ADP MB to the E5CC Controllers Set up the PLC Use GX Works to set up communications on the FX3U 485ADP MB to enable communicating with the E5CC Controllers Pam _ Set up the E5LIC Controllers Set up programless communications in the E5CC Controllers Check operation Use Works to confirm that programless communications ar
20. to the values that you recorded and then change to the operation level 4 Copy the parameter settings from the temporary master specifying the communications unit number of the new E5L 5 Reverse the communications unit numbers of the temporary master and the new 6 Return all of the slaves and the master in order to the operation level This completes the replacement The above step is not required for component communications 6 2 10 Communications Writing Writing can be enabled and disabled from the PLC or for component communications from the 50 master The Communications Writing parameter is normally left ON enabled However if it is neces sary to change set values from the display section of the in an emergency temporarily change the setting to OFF disabled If you disable communications when writing is being performed from the E5LIC Digital Temperature Controllers Communications Manual H175 6 15 dnies 20193 2 9 01 2 9 6 Programless Communications PLC an error will occur in the PLC An error code will be set in the Response Flag in PLC memory If you cycle the power supply to the EBLIC or move to the initial setting level and then go back to the oper ation level the Communications Writing parameter will automatically change to ON 6 2 11 Communications Monit
21. Humes ejqeueA L E 3 Communications Data for CompoWay F Variable type C3 83 0096 Highest H 00000000 to H 00000063 0 to 99 Communications Communications Unit setting No C3 83 0097 Area When Protocol Setting Parameter Is Set to FINS H 00000000 0 H 00000001 1 H 00000002 2 H 00000003 3 H 00000004 4 H 00000005 5 EM4 H 00000006 6 EM5 H 00000007 7 EM6 H 00000008 8 EM7 0 1 2 3 4 Address Parameter name Setting monitor value Level DM EMO EM1 EM2 EM3 H 00000009 9 EM8 H 00000004A EM9 H 0000000B H 0000000C H 0000000D H 0000000E H 0000000F H 00000010 H 0000001 1 H 00000012 H 00000013 H 00000014 EMA EMB EMC EMD 5 EME 6 EMF 7 EM10 8 EM11 9 EM12 0 EM13 H 00000015 21 H 00000016 22 H 00000017 23 H 00000018 24 H 00000019 25 5 6 7 8 9 1 1 1 1 1 1 1 1 1 1 2 21 EM14 22 EM15 23 EM16 24 EM17 25 EM18 When Protocol Setting Parameter Is Set to MCP4 H 00000000 0 D data registers H 00000001 1 W link registers H 00000002 2 R file registers H 00000003 3 ZR file registers Any other value specifies D data registers When Protocol Setting Parameter Is Set to FXP4 H 00000000 0 D data registers or DM data memory registers H 00000001 1 None or W link registers H 00000002 2 R expansion regi
22. etre Address Parameter name Setting monitor value Level C1 81 0000 Operation Adjustm H 00000000 0 No restrictions in operation and Protect ent Protect adjustment levels H 00000001 1 Move to adjustment level is prohibited H 00000002 2 Display and change of only PV and PV SP parameters is allowed H 00000003 3 Display of only PV and PV SP parameters is allowed C1 81 0001 Initial H 00000000 0 Move to initial Setting Communic setting communications setting ations Protect level is allowed Move to advanced function setting level is displayed H 00000001 1 Move to initial setting communications setting level is allowed Move to advanced function setting level is not displayed H 00000002 2 Move to initial setting communications setting level is prohibited C1 81 0002 Setting Change H 00000000 0 OFF Changing of setup on Protect Controller display is allowed H 00000001 1 ON Changing of setup on Controller display is prohibited C1 81 0003 Set Point SP lower limit to SP upper limit Operation C1 81 0004 Alarm Value 1 H FFFFF831 to H 0000270F 1999 to 9999 C1 81 0005 Alarm Value Upper H FFFFF831 to H 0000270F 1999 to 9999 Limit 1 C1 81 0006 Alarm Value Lower H FFFFF831 to H 0000270F 1999 to 9999 Limit 1 C1 81 0007 Alarm Value 2 H FFFFF831 to H 0000270F 1999 to 9999 C1 81 0008 Alarm Value Upper H FFFFF831 to H 0000270F 1999 to 9999 Limit 2 C1 81
23. 0009 Alarm Value Lower H FFFFF831 to H 0000270F 1999 to 9999 Limit 2 C1 81 000A Alarm Value 3 H FFFFF831 to H 0000270F 1999 to 9999 C1 81 000B Alarm Value Upper H FFFFF831 to H 0000270F 1999 to 9999 Limit 3 C1 81 000C Alarm Value Lower H FFFFF831 to H 0000270F 1999 to 9999 Limit 3 C1 81 0000 Heater Burnout H 00000000 to H 000001 F4 0 0 to 50 0 Adjustment Detection 1 C1 81 000E SP 0 SP lower limit to SP upper limit C1 81 OOOF SP 1 SP lower limit to SP upper limit C1 81 0010 SP 2 SP lower limit to SP upper limit C1 81 0011 SP 3 SP lower limit to SP upper limit C1 81 0012 Process Value H FFFFF831 to H 0000270F 1999 to 9999 Input Shift C1 81 0013 Process Value H 00000001 to H 0000270F 0 001 to 9 999 Slope Coefficient C1 81 0015 Proportional Band H 0000001 to H 0000270F 0 1 to 999 9 Note The alarm function can also be used in Digital Temperature Controllers that do not have any auxiliary outputs In this case confirm alarm occurrences via the status data E5LIC Digital Temperature Controllers Communications Manual H175 1sr Humes easy ejqeueA L E 3 Communications Data for CompoWay F Variable type Address Parameter name Setting monitor value C1 81 0016 Integral Time Standard heating cooling or close position proportional control H 00000000 to H 0000270F 0 to 9999 Integral derivative t
24. 1 Connect the computer to the KV series CPU Module with a USB cable and then start KV STUDIO 2 Select Communication Setup Communication Settings from the Monitor Simulator Menu on the KV STUDIO When the communications setup is displayed select USB for the computer communications port and click the OK Button 3 Select New Project from the File Menu specify the KV 700 enter a project name and click the OK Button 4 A Unit Configuration Confirmation Dialog Box will be displayed Click Read Unit Configuration 5 The Unit Editor will be displayed Double click the KV L21V and click the Unit Setup 2 Tab Make the following settings for port 2 and click the OK Button Use the default values for other settings Operating mode Protocol mode 4 Interface RS 485 2 wire Baud rate 57 600 bps Data bits 7 bits Stop bits 2 bits Checksum Use 6 Select PLC Transfer from the Monitor Simulator Menu to write the settings 7 The Program Transfer Dialog Box will be displayed Click the Execute Button The settings will be written This completes setting up the PLC Operation will be checked next so leave the KV STU DIO running E a C Digital Temperature Controllers Communications Manual H175 6 57 0 8 9 2 8 9 6 Programless Communications 6 8 4 Controller Setup Set up programless communications
25. 6 Programless Communications d Confirm that the setting of the parameter on the No 0 Controller changes to oF F i e copying completed and then return the No 0 Controller to the operation level e Programless communications should now be operating Confirm that the COMM indicator on the CP1W CIF11 is flashing If you are using the CJ1W SCU21 V1 the SD1 and RD1 indicators will flash If you are using the QJ71C24N R4 the SD and RD indicators for channel 1 CH1 will flash If you are using component communications change the SPs in the master and confirm that the SPs of the slaves change to the same values ALL flashes Copying starts Copying completed EIL No 0 No 0 IU No 0 L aF H No 0 i Press the PLL Waitfor3 5 Copying Key processed T Hi u u is displayed on the The Controllers are No 1 Controller and then automatically reset when the No 2 Controller copying is completed CP1W CIF11 CJ1W SCU21 V1 QJ71C24N R4 50021 i QJ71C24N R4 47 RUN ERR 406 EINEU RDA SDA SDB FG RDY ERH 502 RD oue SDC 150 Joe Pi RD 83 UNIT For a Mitsubishi PLC the ERR indicator on the Serial Communications Module will light during the copying process Ignore it and check the operation The ERR indicator will go out when the PLC is restarted Note Refe
26. Communications are not per formed until the power supply to the master is turned ON When the master starts communications the slaves the Controllers with a communications unit number other than 0 also start communications After communications have started they will continue for the remaining E5LIC Controllers even if one or more of them including the master stop However the communications cycle will increase while wait ing for communications from the stopped 5 1 Controllers 6 1 4 Timing of Turning Power ON and OFF Turning ON Power Turn ON the power supply to the 50 Controllers either after the PLC or at the same time as the PLC The following may occur if the power supply is turned ON to the PLC after programless communications have started The PLC may detect a communications error The Response Flag may change to once at startup Turning OFF Power to Mitsubishi PLCs To turn OFF the power supply while communications with the PLC are active change the EBLIC Controller to the initial setting level first and then turn OFF the power supply If you turn OFF the power supply to an E5LIC Controller during programless communications the PLC may detect a communications error e Restarting only the 5 1 Controllers Use the following procedure to restart the 50 Controllers 1 Move all of the
27. Note Same as for Event Input Assignment 1 OE1E 2E0F Event Input Assignment 6 H 00000000 to H 0000000D 0 to 13 Note Same as for Event Input Assignment 1 Level Initial setting 0 20 2 10 Auxiliary Output 1 Assignment H 00000000 0 Not assigned H 00000001 1 Control output heating H 00000002 2 Control output cooling H 00000003 3 Alarm 1 H 00000004 4 Alarm 2 H 00000005 5 Alarm 3 H 00000006 6 Alarm 4 H 00000007 7 Heater alarm H 00000008 8 HB alarm LI cL rer a 1 H 00000009 9 HS alarm H 0000000A 10 Input error H 0000000B 11 RSP input error H 0000000C 12 Program end output H 0000000D 13 RUN output H 0000000E 14 Integrated alarm H 0000000F Work bit 1 H 00000010 Work bit 2 H 0000001 1 Work bit 3 H 00000012 Work bit 4 H 00000013 Work bit 5 H 00000014 Work bit 6 H 00000015 Work bit 7 H 00000016 22 Work bit 8 a 2 3 4 5 6 7 8 9 1 1 1 1 1 1 1 1 1 1 2 2 0 22 2 11 Auxiliary Output 2 Assignment H 00000000 to H 00000016 0 to 22 Note Same as for the Auxiliary Output 1 Assignment parameter 0 24 2 12 Auxiliary Output 3 Assignment H 00000000 to H 00000016 0 to 22 Note Same as for the Auxiliary Output 1 Assignment parameter 0 26 2 13 Auxiliary Output 4 Assignment H 00000
28. Page 11 Change figures Pages 13 15 6 1 and 7 1 Removed version indication Page 13 Changed sentence at bottom of page Page 1 4 Changed model designations and added figure Pages 3 15 and 5 8 Added linear in two places on each page Pages 3 20 and 5 14 Added LCT Cooling Output Minimum ON Time Pages 6 1 and 7 1 Added version information Page 7 2 Changed model information and figure at bottom of page 07 December 2013 Added Mitsubishi s FX Series and Keyence s KV Series to programless communications Corrected mistakes 08 April 2014 Made revisions accompanying addition of the E5GC Corrected mistakes 09 July 2014 Added simple transfer function and status message function to the E5DC version 2 2 Added seconds as the unit for the soak time version 2 2 Added Lloyd s standards for the EBDC Corrected mistakes 10 11 August 2014 June 2015 Added the Valve Opening Monitor Selection and FB Moving Average Count parameters for E5EC E5AC PRL1 8 version 2 2 Page 3 11 Added note 4 and references to it in table Page 6 5 Added note 2 and changed references to notes in table Added RS 485 for port 2 of CP series CPU Units Digital Temperature Controllers Communications Manual H175 Sections in This Manual Sections in This Manual How This Manual is Organized Descriptions in this manual are separate
29. C1 81 0035 SP 4 SP lower limit to SP upper limit C1 81 0036 SP 5 SP lower limit to SP upper limit C1 81 0037 SP 6 SP lower limit to SP upper limit C1 81 0038 SP 7 SP lower limit to SP upper limit C1 81 0039 Proportional Band H 00000001 to H 0000270F 0 1 to 999 9 Cooling C1 81 003A Integral Time H 00000000 to H 0000270F Cooling 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s C1 81 003B Derivative Time H 00000000 to H 0000270F Cooling 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s E Level Adjustment C Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F ae Address Parameter name Setting monitor value Level C1 81 003C SP Ramp Fall H FFFFFFFF 1 Same Same as SP Ramp Set Adjustment Value Value H 00000000 0 OFF H 00000001 to H 0000270F 1 to 9999 C1 81 0030 Work Bit 1 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 003E Work Bit 1 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 Work Bit 2 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0040 Work Bit 2 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0041 Work Bit 3 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0042 Work Bit
30. Controllers to the initial setting level 2 Cycle the power supply in order to the slaves the Controllers with a communications unit number other than 0 and then to the master the Controller with a communications unit number of 0 or change the slaves and then the master back to the operation level Note If the above procedure is not followed and the PLC detects an error clear the error from the program in the PLC E Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 1 5 Connectable PLCs The PLCs that can be connected are given below SYSMAC CS CJ series and CP series PLCs Communications ports Name Model number TERT Port 2 Serial Communications Units CJ1W SCU21 V1 RS 232C RS 232C CJ1W SCU22 CJ1W SCUA1 V1 RS 422A 485 RS 232C CJ1W SCU42 Cannot be used CS1W SCU21 V1 RS 232C RS 232C Serial Communications Board CS1W SCB21 V1 RS 232C RS 232C CS1W SCB41 V1 RS 422A 485 Cannot be used CPU Units CS1 CJ1M CPU Units RS 232C CJ2 CPU Units RS 232C or option board slot CP series CPU Units RS 232C RS 485 2 or option board slot Serial Communications Option Boards CP1W CIF11 RS 422A 485 CP1W CIF12 Note The CJ1W CIF11 RS 422A Converter is required to use RS 232C port 1 The Option Board is mounted in the option board slot that is given above 2 RS 485 port is built into only the 51
31. Program Start gt H 00000004 4 Direct Reverse Operation 8 H 00000005 5 SP Mode Switch 2 9 H 00000006 6 100 AT Execute Cancel H 00000007 7 4096 AT Execute Cancel m H 00000008 8 Setting Change Enable Disable 8 H 00000009 9 Communications Writing Enable Disable 3 H 0000000A 10 Alarm Latch Cancel H 0000000B 11 Multi SP No Switch Bit O H 0000000C 12 Multi SP No Switch Bit 1 H 0000000D 13 Multi SP No Switch Bit 2 C3 83 0017 Event Input H 00000000 to H 0000000D 0 to 13 Assignment 2 4 Note Same as for Event Input Assignment 1 C3 83 0018 Event Input H 00000000 to H 0000000D 0 to 13 Assignment 34 Note Same as for Event Input Assignment 1 C3 83 0019 Event Input H 00000000 to H 0000000D 0 to 13 Assignment 44 Note Same as for Event Input Assignment 1 83 001A Number of H 00000001 1 OFF Advanced Multi SP Points H 00000002 to H 00000008 2 to 8 function C3 83 001B SP Ramp Time H 00000000 0 EU second setting Unit H 00000001 1 EU minute H 00000002 2 EU hour C3 83 001D Standby Sequence H 00000000 0 Condition A Reset H 00000001 1 Condition B 83 001 Auxiliary Output 1 H 00000000 0 Close alarm Open in Alarm H 00000001 1 Open in alarm 83 001F Alarm 1 Hysteresis H 00000001 to H 0000270F Initial 0 1 to 999 9 for temperature input setting 0 01 to 99 99 for analog input 1 PRST program start can be set even when the program
32. This product is designed for indoor use only Do not use or store the Digital Temperature Controller in any of the following places Places directly subject to heat radiated from heating equipment Places subject to splashing liquid or oil atmosphere Places subject to direct sunlight Places subject to dust or corrosive gas in particular sulfide gas and ammonia gas Places subject to intense temperature change Places subject to icing and condensation Places subject to vibration and large shocks Use and store the Digital Controller within the rated ambient temperature and humidity Gang mounting two or more Digital Controllers or mounting Digital Controllers above each other may cause heat to build up inside the Digital Controllers which will shorten their service life In such a case use forced cooling by fans or other means of air ventilation to cool down the Digital Controllers To allow heat to escape do not block the area around the product Do not block the ventilation holes on the product Be sure to wire properly with the correct signal name and polarity of terminals Use the specified size of crimped terminals M3 width of 5 8 mm or less to wire the E5CC EBEC E5AC or EBDC To connect bare wires to the terminal block of the E5CC E5EC E5AC or E5DC use copper braided or solid wires with a gauge of AWG24 to AWG18 equal to a cross sectional area of 0 205 to 0 823 mm The stripping length is 6 to 8 mm Up t
33. code Command content Communications writing 00 01 Related information OFF disabled ON enabled 01 RUN STOP 00 01 Run Stop 02 Multi SP 00 01 02 03 04 05 06 07 Set point 0 Set point 1 Set point 2 Set point 3 Set point 4 Set point 5 Set point 6 Set point 7 03 AT execute cancel 00 01 02 AT cancel 10096 AT execute 4096 AT execute 04 Write mode 00 01 Backup RAM write mode 05 Save RAM data 00 06 Software reset 00 07 Move to setup area 1 00 08 Move to protect level 00 09 Auto manual switch 00 01 Automatic mode Manual mode Parameter initialization 00 0 Alarm latch cancel 00 01 02 03 04 05 OF Alarm 1 latch cancel Alarm 2 latch cancel Alarm 3 latch cancel HB alarm latch cancel HS alarm latch cancel Alarm 4 latch cancel All alarm latch cancel 00 00 01 Local SP Mode Remote SP Mode Invert direct reverse operation 00 01 Not invert Invert 11 Program start E5LIC Digital Temperature Controllers Communications Manual H175 00 01 Reset Start suonounJ eui jo UM eiqeueA 4 Modbus Communications Procedure 3 Response Code Normal Completion Function code Errorco
34. gt 1 N m A Appendices A 2 Troubleshooting PEDES Before Requesting Repairs If communications are not functioning properly check the items in the following table before requesting repairs If normal operation cannot be restored even after checking everything return the product to your OMRON representative Problem Communications are not possible or communications errors occur Item Confirmation Page The communications wiring is not Correct the wiring 1 4 correct The communications line has Connect the communications line securely and tighten the become disconnected Screws The communications cable is Replace the cable broken The communications cable is too The total cable length is 500 m maximum for RS 485 1 4 long communications The wrong communications cable Use a shielded AWG24 to AWG18 cross sectional area of 1 4 has been used 0 205 to 0 823 mm twisted pair cable for the communications cable Too many communications When 1 N RS 485 communications are used a maximum 1 4 devices are connected to the of 32 nodes may be connected including the host node communications path gt An end node has not been setat Set or connect terminating resistance at each end of the 1 4 each end of the communications line If the is the end node 120 Q 1 2 W line terminating resistance is used Be sure that the combined 2 re
35. so we will initialize them with the set values from the E5CC Controllers Double click D15 Request Flag on the Device Memory Dialog Box The following dialog box is displayed Enter 2 Initialize Download Areas click the Set Button and then click the Close Button seues D 33S 13M 01 Bunoeuuo 9 9 Modify Value Device Label Buffer Memory Device Label 015 Data Word Sianed uone1edo 9 9 9 Settable Range 32768 to 32767 z ww Execution Result lt lt Execution Result Device Label Data Type Setting Value Reflect to Input Column Delete C 3 We will confirm that the download areas have been initialized When initialization is completed DO Response Flag will change to 1 Normal End and D15 Request Flag will automatically change to 1 Enable Writing Check the download area to see if it has been initialized to the values given in the above table Confirm this for the No 1 and No 2 Controllers as well C Digital Temperature Controllers Communications Manual H175 6 47 6 Programless Communications 4 We will change the set point for the No 0 Controller Double click D17 Set Point in the Device Memory Dialog Box enter 100 64 hex for the value click the Set Button and then click the Close Button Confirm that DO Request Flag remains at 1 Enable Writing and that the SV Display on the No 0 Controller changes to 100 Confi
36. 1 Heating and cooling control H FFFFFBE6 to H 00000000 105 0 to 0 0 C1 81 0028 Move to Protect H FFFFF831 to H 0000270F 1999 to 9999 Protect Level C1 81 0029 Password to Move H FFFFF831 to H 0000270F 1999 to 9999 to Protect Level Can only be set The monitor value is always H 00000000 C1 81 002A Parameter Mask H 00000000 0 OFF Enable H 00000001 1 ON C1 81 002B PF Key Protect H 00000000 0 OFF H 00000001 1 ON E5LIC Digital Temperature Controllers Communications Manual H175 3 5 Humes easy L E 3 Communications Data for CompoWay F rsen Address Parameter name Setting monitor value C1 81 002 MV Change Rate H 00000000 to H 000003E8 0 0 to 100 0 Limit C1 81 0020 Position H 00000001 to H 00000064 0 1 to 10 0 Proportional Dead Band C1 81 002 Open Close H 00000001 to H 000000C8 0 1 to 20 0 Hysteresis C1 81 002F Remote SP Input H FFFFF831 to H 0000270F 1999 to 9999 Shift C1 81 0030 Remote SP Slope H 00000001 to H 0000270F 0 001 to 9 999 Input Coefficient C1 81 0031 Extraction of H 00000000 to H 000003E8 0 0 to 100 0 Square Root Low cut Point C1 81 0032 Alarm Value 4 H FFFFF831 to H 0000270F 1999 to 9999 C1 81 0033 Alarm Value Upper H FFFFF831 to H 0000270F 1999 to 9999 Limit 4 C1 81 0034 Alarm Value Lower H FFFFF831 to H 0000270F 1999 to 9999 Limit 4
37. 1 ON Delay H 00000000 to H 000003E7 0 to 999 Advanced C3 83 0039 Alarm 2 ON Delay H 00000000 to H 000003E7 0 to 999 function C3 83 003A Alarm 3 ON Delay H 00000000 to H 000003E7 0 to 999 setting C3 83 003B Alarm 1 OFF Delay H 00000000 to H 000003E7 0 to 999 C3 83 003C Alarm 2 OFF Delay H 00000000 to H 000003E7 0 to 999 C3 83 0030 Alarm 3 OFF Delay H 00000000 to H 000003E7 0 to 999 83 003E Transfer Output H 00000000 0 OFF Initial Type H 00000001 1 Set point setting H 00000002 2 point during SP ramp H 00000003 3 P H 00000004 4 ii heating H 00000005 5 MV cooling H 00000006 6 Valve opening Only for Position proportional Models 83 Transfer Output H FFFFF831 to H 0000270F 1999 to 9999 Upper Limit 83 0040 Transfer Output H FFFFF831 to H 0000270F 1999 to 9999 Lower Limit C3 83 0041 Control Output 1 H 00000000 0 4 to 20 mA Signal H 00000001 1 0 to 20 mA C3 83 0043 MV at Stop and H 00000000 0 OFF Advanced Error Addition H 00000001 1 ON function C3 83 0044 Auto Manual H 00000000 0 OFF setting Select Addition H 00000001 1 ON C3 83 0045 RT H 00000000 0 OFF H 00000001 1 ON Note Valid only with temperature input C3 83 0046 HS Alarm Use H 00000000 0 id H 00000001 1 O C3 83 0047 HS Alarm Latch H 00000000 0 orm H 00000001 1 O C3 83 0048 HS Alarm H 00000001 to H 0000 F4 0 1 to 50
38. 1300 300 to 2300 F H 00000006 6 20 0 to 500 0 C 0 0 to 900 0 F H 00000007 7 J 100 to 850 C 100 to 1500 F H 00000008 8 J 20 0 to 400 0 C 0 0 to 750 0 F H 00000009 9 T 200 to 400 C 300 to 700 F H 0000000A 10 199 91 400 0 C 199 9 to 700 0 F H 0000000B 11 E 200 to 600 C 300 to 1100 F H 0000000C 12 L 100 to 850 C 100 to 1500 F H 0000000D 13 U 200 to 400 C 300 to 700 F H 0000000E 14 7199 9 to 400 0 C 199 9 to 700 0 F H 0000000F 15 N 200 to 1300 C 300 to 2300 F H 00000010 16 R 0 to 1700 C 0 to 3000 F H 00000011 17 5 0 1700 C 0 to 3000 F H 00000012 18 100 to 1800 C 300 3200 F H 00000013 19 W 0 to 2300 C 0 to 3200 F H 00000014 20 PL II 0 to 1300 C 0 to 2300 F H 00000015 21 Infrared temperature sensor 140 F 60 C H 00000016 22 Infrared temperature sensor 240 F 120 C H 00000017 23 Infrared temperature sensor 280 F 140 C H 00000018 24 Infrared temperature sensor 440 F 220 C H 00000019 25 410 20 H 0000001A 26 to 20 H 0000001B 27 1to5V H 0000001C 28 Oto5V H 0000001D 29 Oto10V H 0000001E 30 0 to 50 mV Selection is possible only for E5CC U Controllers and only if they are manufactured in May 2014 or later version 2 2 C3 83 0001 Scaling Upper Scaling lower limit 1 to H 0000270F Scaling lower limit Limit 1 to 9 999 C3 83 0002 Scal
39. 2 byte mode the leftmost 16 bits are read Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0500 2500 Operation Adjustment H 00000000 0 No restrictions in operation and adjustment levels Protect Protect H 00000001 1 _ Move to adjustment level is prohibited H 00000002 2 Display and change of only PV and PV SP parameters is allowed H 00000003 3 Display of only PV and PV SP parameters is allowed 0502 2501 Initial H 00000000 0 Move to initial setting communications setting Setting Communications level is allowed Move to advanced function Protect setting level is displayed T H 00000001 1 _ Move to initial setting communications setting 2 level is allowed Move to advanced function D setting level is not displayed 5 H 00000002 2 _ Move to initial setting communications setting o level is prohibited gt 0504 2502 Setting Change Protect H 00000000 0 OFF Changing of setup on controller display is ix allowed 9 H 00000001 1 ON Changing of setup on controller display is prohibited 0506 2503 H 00000000 0 OFF 2 H 00000001 1 ON 8 0508 2504 Move to Protect Level H FFFFF831 to H 0000270F 1999 to 9999 pd 050A 2505 Password to Move to H FFFFF831 to H 0000
40. 3 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0043 Work Bit 4 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0044 Work Bit 4 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0045 Work Bit 5 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0046 Work Bit 5 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0047 Work Bit 6 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0048 Work Bit 6 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 0049 Work Bit 7 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 004A Work Bit 7 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 004B Work Bit 8 ON H 00000000 to H 0000270F 0 to 9999 Delay C1 81 004C Work Bit 8 OFF H 00000000 to H 0000270F 0 to 9999 Delay C1 81 004D Changed H 00000000 0 OFF Protect Parameters Only H 00000001 1 ON E5LIC Digital Temperature Controllers Communications Manual H175 1sr Humes ejqeueA L E 3 Communications Data for CompoWay F Address parameter Setting monitor value Level type name C3 83 0000 Input Type H 00000000 0 Pt 200 to 850 300 to 1500 F Initial H 00000001 1 Pt 199 9 to 500 0 199 9 to setting 900 0 F H 00000002 2 Pt 0 0 to 100 0 C 0 0 to 210 0 F H 00000003 3 JPt 199 9 to 500 0 C 199 9 to 900 0 F H 00000004 4 JPt 0 0 to 100 0 C 0 0 to 210 0 F H 00000005 5 200 to
41. 4 3 Variable Write Single Operation Command sssssssseeeeeeeeeeenen eene 4 12 4 4 4 Echoback CI Io Fev E reta ru 4 15 Communications Data for Modbus Variable Area Setting Range nenne nenne nnn 5 2 IECUR A 5 17 Programless Communications Programless 6 3 6 1 1 eet eee tui aq d n E ed 6 3 6 1 2 6 3 6 1 3 Operation for Programless 6 4 6 1 4 Timing of Turning Power ON and 0 4 200 022200000000 6 4 6 1 5 6 E 6 5 EDUC Setup ete 6 6 6 2 1 Protocol SeA nie D DRM ERR Doe nte eed Dee 6 6 6 2 2 Communications Unit No and Communications Baud Rate 6 7 6 2 3 Send Data Walt Time et cies aac ceeded aed eee cee 6 7 6 2 4 Highest Communications Unit 6 7 6 2 5 Areas and First Address of Linked 6 8 6 2 6 Receive Data Walt Time oa ene oh e entendi ahead e d 6 10 6 2 7 Communications Node sisirin 6 10 6 2 8 Upload Settings and Downloa
42. 6 55 6 7 5 Checking Operation nine hire eie o Dc ina ae Ne 6 55 6 8 Connecting to Keyence KV series PLCS nennen nennen 6 56 6 8 1 Configuration and Procedure sese eene nnne nennen nennen nennen nnns 6 56 6 8 2 RE RERO RU SR CHER URP THERE NU DETERIUS 6 57 6 8 3 EIU 6 57 6 8 4 E5IG Controller Setups use iere ne e tote 6 58 6 8 5 Checking Operation 4 2 ire eee EHE n ete cet te eee rst 6 58 Section 7 Component Communications 7 1 Component Communications esses 7 2 7 1 1 loj ore eio PE wb ie ee heb 7 2 7 1 2 WIPING ciere ited pee eb Pep ee ey 7 2 7 1 3 Setup 7 3 7 2 Operation for Component reete nennen nnne 7 5 123 Troubleshootihng oot eruat Ede iL 7 6 Section A Appendices LEE cB mE 2 A 2 Troubleshooting sssi ressasiar darnia anaia Eanair aeaa A 3 Index 16 Digital Temperature Controllers Communications Manual H175 Communications Methods This section briefly describes the supported communications methods and h
43. Confirm this for the No 1 and No 2 Controllers as well For details on other operation command codes refer to 6 3 4 Operation Command Codes 0 8 9 uone1edo 9 8 9 5 Digital Temperature Controllers Communications Manual H175 6 61 6 Programless Communications E5 C Digital Temperature Controllers Communications Manual H175 Component Communications This section describes component communications for the E5LIC Component communications are not supported by version 1 0 of the 5 7 1 Component Communications 7 2 Zeb troduction su e Lee PEERS 7 2 4 2 tata cron CRURA NI tenets cals done RR mE 7 2 75483 E5 C Set p utet nk Bae RT ERE err e e haie 7 8 7 2 Operation for Component Communications 7 5 7 3 Troubleshooting 7 6 Digital Temperature Controllers Communications Manual H175 7 1 7 Component Communications 7 1 Component Communications 7 1 1 Introduction You can use component communications to connect two or more ESL IC Controllers via RS 485 and then change the set points or RUN STOP status for all of the Controllers at the same time If you change the set point or RUN STOP status o
44. Controller The switch or circuit breaker must be within easy reach of the operator and must be marked as a disconnecting means for the Digital Controller Wipe off any dirt from the Digital Controller with a soft dry cloth Never use thinners benzine alcohol or any cleaners that contain these or other organic solvents Deformation or discoloration may occur Design the system e g control panel considering the 2 seconds of delay in setting the Digital Controller s output after the power supply is turned ON The output will turn OFF when you move to the initial setting level Take this into consideration when performing control The number of non volatile memory write operations is limited Therefore use RAM write mode when frequently overwriting data e g through communications Use suitable tools when taking the Digital Controller apart for disposal Sharp parts inside the Digital Controller may cause injury Always touch a grounded piece of metal before touching the Digital Temperature Controller to discharge static electricity from your body For compliance with Lloyd s standards the E5CC U E5AC E5DC must be installed under the conditions that are specified in Shipping Standards in the 5 Digital Temperature Controller User s Manual Cat No H174 For the Digital Temperature Controller with two Setup Tool ports E5EC E5AC E5DC E5GC do not connect cables to both ports at the same time The Digita
45. Diagram FE File Edi view Ins Param Simulation Tools Window Help gt cR amp Work Online 457547 Auto Online e m Ed e Monitor ES Compile All PLC Programs Program Check Options 2 4 o CX Programmer v9 3 Make sure that there aren t any problems if the PLC is stopped Do you wish to switch the PLC into program mode 2 Double click Settings The PLC Setup Window will be displayed die NewProject NewPLCI CP1E Stop Program Mode H3 amp 3 PLC Clock Ed Memory 3 Click the Serial Option Port Tab select the Custom Option and set the baud rate to 57 600 Leave the other settings at their default values gt PLC Settings NewPLC1 File Options Help Startup CPU Settings Timings Input constant Built in RS232C Serial Option Port Built in Input Pul 4 gt Communications Settings Link Words Standard 9600 1 7 2 1 Custom Baud Format Mode 726 Host Link Defaut Start Code End Code c c c c E c c Response Timeout Unit Number Delay NT PC Link Max PC Link Unit No a 100 ms 10 ms a default 5000ms Note If you change the unit number refer to 6 2 7 Communications Node Number 6 24 Digital Temperature Controllers Communications Manual H175 6 Programless Communications 4 Select Option
46. Double click CJ1W SCU21 V1 The CJ1W SCU21 V1 Setting Window will be displayed i 1 PLC IO Table NewPLC1 File Edit View Options Help amp ja 212 CJ2M CPU33 dii Built in Port Inner Board 44 r2 Main P CU21 V Serial Communication Unit Ur 01 0000 Empty 02 0000 Empty Slot C Digital Temperature Controllers Communications Manual 175 6 34 E 5 6 Programless Communications 4 We will change the communications settings for port 1 Set Port 1 Port settings to User settings set Port 1 Baud rate to 57600 bps and then click the Transfer PC to Unit Button Use the defaults settings for the other parameters CJ1W SCU21 1 View Parameters Displayed Parameter All Parameters 52 Sel Value Port settings Serial communications mode Data length 7 hits Stop bits 2 bits Parity Baud rate Send delay Send delay user specified 18 ims CTS control 21 4 1 protocol setting 1 N protocol Host Link compatible device mod Default Mode A Host Link unit number No Protocol Start code 0 No Protocol End code E Default D efault S600bps Address W ord D 30201 Bit 0 3 Type List Transter Unit to PC Transfer PC to Unit Compare Restart Set Defaults Note If you change the unit number refer to 6 2 7 Communications Node Number Click the Yes Button The
47. H 00000062 0 to 98 C3 83 00A8 Upload Setting 13 H 00000000 to H 00000062 0 to 98 C3 83 00A9 Download Setting 1 H 0000001E to H 00000062 30 to 98 C3 83 OOAA Download Setting 2 H 0000001E to H 00000062 30 to 98 C3 83 00 Download Setting 3 H 0000001E to H 00000062 30 to 98 83 00 Download Setting 4 H 0000001E to H 00000062 30 to 98 83 00AD Download Setting 5 H 0000001E to H 00000062 30 to 98 C3 83 OOAE Download Setting 6 H 0000001E to H 00000062 30 to 98 C3 83 OOAF Download Setting 7 H 0000001E to H 00000062 30 to 98 83 00 0 Download Setting 8 H 0000001E to H 00000062 30 to 98 83 00B1 Download Setting 9 H 0000001E to H 00000062 30 to 98 C3 83 00 2 Download Setting 10 H 0000001E to H 00000062 30 to 98 83 00B3 Download Setting 11 H 0000001E to H 00000062 30 to 98 C3 83 00B4 Download Setting 12 H 0000001E to H 00000062 30 to 98 C3 83 00 5 Download Setting 13 H 0000001E to H 00000062 30 to 98 C3 83 0086 SP Slope H 00000001 to H 0000270F 0 001 to 9 999 C3 83 00B7 SP Offset H FFFFF831 to H 0000270F 7199 9 to 999 9 Input type Temperature input 71999 to 9999 Input type Analog input C3 83 00 8 LCT Cooling Output H 00000001 to H 0000000A 0 1 to 1 0 Advanced Minimum ON Time Not supported on version 2 0 or earlier of the EBCC E5EC or E5AC E5LIC Digital Temperature Controllers Communi
48. LSB is 1 an XOR is performed on the content of the CRC register and H A001 and the result is returned to the CRC register 5 Steps 3 and 4 are repeated until 8 bits are shifted 6 CRC processing continues to the end of the message as XOR operations are performed on the content of the CRC register and the next byte of the message step 3 is repeated and the result is returned to the CRC register 7 The result of the CRC calculation value in the CRC register is appended to the last byte of the message Example of Appending the Calculation Result When the calculated CRC value is H 1234 the CRC value is appended to the command frame as follows Slave Function address Data CRC 16 Low High H34 H2 1 1 2 bytes CRC 16 calculation range C Digital Temperature Controllers Communications Manual H175 4 3 eed 1 4 Modbus Communications Procedure 4 1 2 Response Frame Normal Response Frame Slave Function address code Data CRC 16 2 bytes CRC 16 calculation range Error Response Frame Slave Function Error address code code CRC 16 1 1 1 CRC 16 calculation range Slave address 2 bytes The number specified in the command frame is entered as is This is the unit number of the Unit returning the response Function code This is the received function code with the hexadecimal value of H 80 a
49. Limit 1 0 0000 hex D0024 D0054 D0084 Alarm Value 2 0 0000 hex D0025 D0055 D0085 Alarm Value Upper Limit 2 0 0000 hex D0026 D0056 00086 Alarm Value Lower Limit 2 0 0000 hex D0027 D0057 D0087 Heater Burnout Detection 1 0 0000 hex D0028 00058 00088 Process Value Input Shift 0 0000 hex D0029 D0059 D0089 SP Ramp Set Value 0 0000 hex 2 We will initialize the download areas with the set values from the E5CC Controllers 3 4 The download areas have not been initialized so we will initialize them with the set values from the E5CC Controllers Double click D0015 Request Flag in the PLC Memory Win dow The following dialog box is displayed Enter 2 Initialize Download Areas and click the OK Button Set Value Signed Decimal Value M Cancel Range We will confirm that the download areas have been initialized When initialization is completed D0000 Response Flag will change to 1 Normal End and D0015 Request Flag will automatically change to 1 Enable Writing Check the download area to see if it has been initialized to the values given in the above table Confirm this for the No 1 and No 2 Controllers as well We will change the set point for the No 0 Controller Double click D0017 Set Point in the PLC Memory Window enter 100 64 hex for the value and then click the OK Button Confirm that 00000 Request Flag remains at 1 Enable Writing and that the SV Display on the No 0 Contr
50. QJ71C24N R4 RUN ERR NEU NEU 4 CH1 SD SD 2 RD RD CH1 120 1 2 W i i inating resistance RS 422 485 VON Shield Shield a Shield 80 termina sal T zumo as SDB ME ce I 55 LI Note 1 Use a terminating resistance of least 54 2 The maximum transmission distance is 500 m 3 For wiring methods refer to 3 3 RS 422 485 Interface Specifications and 4 4 2 Connecting the RS 422 485 Interface in the Q Corresponding Serial Communication Module Users Manual Basic SH 080006 Terminating resistance puel 6 6 3 PLC Setup Set up communications on the QJ71C24N R4 to enable communicating with the E5CC Controllers PLC operation will stop and the power supply will be cycled during the setup procedure Make sure that this will not create any problems in the controlled system Connecting to the PLC 1 Connect the computer to the Q series CPU Module and then start GX Works2 2 Select Online Read from PLC from the menu bar MELSOFT Series GX Works2 Untitled Project Project Edit Find Replace Compile Online Debi 2 Ale E Read from Write to PLC ife eel EERE SST Verify with PLC javigation Diagnostics Tool Window Help Tom Bu Remote Operation 3 Select QCPU mode
51. Set point 4 05 Set point 5 06 Set point 6 07 Set point 7 AT Execute Cancel 00 AT cancel 03 01 10096 AT execute 02 4095 AT execute 04 Write Mode 00 Backup 01 RAM write mode 05 Save RAM Data 00 06 Software Reset 00 07 Move to Setup Area 1 00 08 Move to Protect Level 00 Auto Manual Switch 00 Automatic mode 09 01 Manual mode 0B Parameter Initialization 00 C Digital Temperature Controllers Communications Manual H175 2 16 E 2 CompoWay F Communications Procedures Command code Command content Related Information Alarm Latch Cancel 00 Alarm 1 latch cancel 01 Alarm 2 latch cancel 02 Alarm 3 latch cancel 0C 03 HB alarm latch cancel 04 HS alarm latch cancel 05 Alarm 4 latch cancel OF All alarm latch cancel SODIAIOS ou Jo uonduosoeg Z SP Mode 00 Local SP mode 01 Remote SP mode 0E Invert Direct Reverse Operation 00 Not invert 01 Invert 11 Program Start 00 Reset 01 Start 2 Response Code T Normal Completion 9 D Response code Name Description 5 0000 Normal completion No errors were found 9 3 8 Error Occurred Response code Error name Description 1001 Command too long The command is too long 1002 Command too short The command is too short 1100 Parameter error Command code and related information are wrong Operation error The Communications Writing parameter is set to OFF disabled The command is rec
52. Temperature Controllers Communications Manual H175 4 9 suonounj eui uonduosoeg paled 4 Modbus Communications Procedure 4 4 2 Variable Write Multiple To write data to the variable area set the required data in the command frame as shown in the follow ing diagram Command Frame Write data for th ber of CRC rne O id di MM 1 1 2 1 0 to 208 2 x 104 2 Name Description Slave address Specify the 5 1 unit number The unit number can be set between H 01 and H 63 hexadecimal 1 to 99 decimal Function code The Write Variable Area function s function code is H 10 Write start address Specify the starting address where the setting data will be written Refer to Section 5 Communications Data for Modbus for details on addresses Number of elements 4 byte Mode Specify 2 times the number of setting data items as the number of elements to be written The setting range for the number of elements is H 0002 to H 0068 2 to 104 When H 0068 is set 52 items of setting data can be read Example When writing 2 items of setting data set the number of elements to H 0004 2 byte Mode Specify the number of setting data items to be written as the number of elements The setting range for the number of elements is H 0001 to H 0068 1 to 104 When H 0068 is set 104 ite
53. Value Monitor 80 0007 Leakage Current 1 H 00000000 to H 00000226 0 0 to 55 0 Monitor 0 80 0008 Leakage Current 2 H 00000000 to H 00000226 0 0 to 55 0 Monitor 0 80 0009 Soak Time Remain H 00000000 to H 0000270F 0 to 9999 80 000A Valve Opening H FFFFFF9C to H 0000044C 10 0 to 110 0 Monitor Measured opening H 00000000 to H 000003E8 0 0 to 100 0 Estimated opening 4 80 000B Remote SP Monitor Remote SP lower limit 10 FS to Remote SP upper limit 10 FS 80 000C Multi SP No H 00000000 to H 00000007 0 to 7 Monitor CO 80 000E Decimal Point H 00000000 to H 00000003 0 to 3 Monitor 1 CO 80 0011 Status 27172 Refer to 3 2 Status and Status 2 CO 80 0012 Status 173 Refer to 3 2 Status and Status 2 CO 80 0013 Status 27173 Refer to 3 2 Status and Status 2 1 Not displayed on the Controller display 2 When the variable type is 80 word access the rightmost 16 bits are read 8 When the variable type is 80 word access the leftmost 16 bits are read 4 You can use this selection only with the 1 8 or 800 The Digital Controller must be manufactured in August 2014 or later version 2 2 or higher E Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F
54. Value Upper Limit 1 Address H 010A Write data H O00003E8 when 1000 Alarm Value Lower Limit 1 Address H 010C Write data H FFFFFC18 when 1000 Two byte Mode Alarm Value Upper Limit 1 Address H 2105 Write data H 03E8 when 1000 Alarm Value Lower Limit 1 Address H 2106 Write data H FC18 when 1000 4 4 3 Variable Write Single Operation Command This function performs operations such as writing to the variable area single and operation commands communications writing RUN STOP multi SP AT execute cancel write mode save RAM data soft ware reset move to setup area 1 move to protect level auto manual switch initialize settings alarm latch cancel invert direct reverse operation program start and SP mode Writing is enabled in only the 2 byte mode Command Frame Slave Function Write variable Write data CRC 16 address code address H 06 1 1 2 2 2 bytes Response Frame Slave Function Write variable CRC 16 address code address Write data H 06 1 1 2 2 2 bytes 1 Write variable address Specify the address of the setting data that is to be written For details on addresses refer to Section 5 Modbus Communications Procedure For an operation command specify 0000 or FFFF 4 12 C Digital Temperature Controllers Communications Manual H175 4 Modbus Communications Procedure 2 Command Code and Related Information Command 00
55. Write Start Address For details on variable types and write start addresses refer to Section 3 Communications Data for CompoWay F 2 Bit Position Bit access is not supported Fixed to 00 3 Number of Write Data Items Variable Type Write Address Bit Position Write Data Counted As 1 Item Write data length Number of write data items For double word variable type CO C1 or C3 12 max For word variable type 80 81 or 83 17 max Note The following table gives the maximum number of write data items when double word data and word data are used together Composite Write Composite Write Double word Word Double word Word variable type CO variable type 80 variable type CO variable type 80 C1 or C3 81 or 83 C1 or C3 81 or 83 12 0 5 10 12 1 4 11 11 2 3 12 10 3 3 13 9 4 2 14 5 1 15 8 6 0 16 7 7 0 17 6 8 6 9 Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures 4 Response Code Normal Completion Response code Description 0000 Normal completion No errors were found Error Occurred SODIAIOS 99110 uonduoseg 2 2 Response code Error name Cause 1002 Command too short The command is too short 1101 Area type error The variable type is wrong 1100 Parameter error Bit position is not 00 The write data is out of the setting range 3003 Read only
56. a Mitsubishi Q series or L series PLC for a Mitsubishi FX series or Keyence KV series PLC and for component communications Communications Unit No U Na 0 Communications Baud Rate 575 57 6 Set 19 2 for a Mitsubishi FX1 or FX2 PLC and set 38 4 for a Mitsubishi FX3 PLC Send Data Wait Time 1 Highest Communications Unit No MAXL 2 Do not return to the operation level even after you finish making the settings Here we will assume that all parameters other than those for communications have already been set If parameters other than those for communications need to be set change them first and then change the communications settings last 3 Perform the following procedure to copy the parameter settings in the No 0 Controller to the No 1 and No 2 Controllers a Display the parameter in the communications setting level on the No 0 Controller b Press the Up Key to select ALL and wait for three seconds The completion of the copy operation must be confirmed so do not move to any other levels or param eters If you do change to any other levels or parameters display the parameter again c The PV displays on the No 1 and No 2 Controllers will change to and then these Controllers will be reset E5LIC Digital Temperature Controllers Communications Manual H175 6 25 5 0 5 4 9 dnjes 19 10 09 O S3 t v 9
57. and then click the OK Button PLC Series Selection PLC Series Cancel Process CPU PH or Redundant CPU C Digital Temperature Controllers Communications Manual H175 6 38 6 Programless Communications 4 Click the OK Button Transfer Setup Connection1 IE Cont Cc Link Ethernet IE Field Q Series NET 10 H Board Board Board Bus Board Board CC IE Cont Ethernet GOT CC IE Field CC IE Field NET 10 H Module Mlaster Local Communication Module Module Head Module EI PLC Mode QCPU mode ES Connection Channel List No Specification Other Station Other Station X _ Single Network Co existence Network PLC Direct Coupled Setting Connection Test Time Out Sec Retry Times Jus PLC Type Detail 1 CC IE Cont CC IE Field Ethernet Cc Link NET 10 H System Image CC IE Cont CC IE Field Ethernet CC Link c24 NET 10 H Cancel Accessing Host Station m Multiple CPU Setting 3 3 3 J Target PLC Not Specified seues D 236131 01 Bunoeuuo 9 9 5 Click the Execute Button Online Data Operation Connection Channel List Serial Port PLC Module Connection USB System Image PLC Module Intelligent Function Module Execution Target Datat No Title Module Data Parameter Program Select All cancel All Selectio
58. be responsible for conformity with any standards codes or regulations which apply to the combination of the Product in the Buyer s application or use of the Product At Buyer s request Omron will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Product This information by itself is not sufficient for a com plete determination of the suitability of the Product in combination with the end product machine sys tem or other application or use Buyer shall be solely responsible for determining appropriateness of the particular Product with respect to Buyer s application product or system Buyer shall take applica tion responsibility in all cases NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS AND THAT THE OMRON PRODUCT S IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM Programmable Products Omron Companies shall not be responsible for the user s programming of a programmable Product or any consequence thereof Disclaimers Performance Data Data presented in Omron Company websites catalogs and other materials is provided as a guide for the user in determining suitability and does not constitute a warranty It may represent the result of Omron s test conditions and the user must correlate it to actual ap
59. bits and the communications stop bits must be 1 bit by setting the communications parity to Even Odd or it must be 2 bits by setting the parity to None These two parameters are not displayed on the Controller s display E Digital Temperature Controllers Communications Manual H175 a 1 Communications Methods 1 1 7 Communications Parameter Setup Before you carry out communications with the set up the communications unit number baud rate and other parameters by carrying out the following procedure For details on operations other than communications parameter setup refer to the E5 C Digital Temperature Controllers User s Manual Cat No H174 for the devices being used 1 Press the C Key for at least three seconds to move from the operation level to the initial setting level 2 Press the C Key for less than one second to move from the initial setting level to the communications setting level 3 Select the parameters as shown below by pressing the Key 4 Use the or 4 Keys to change the parameter set values Protocol Setting Nt Communications Unit pc Communications Baud Rate Communications Data Length u lq 3 Communications Stop Bits Ln Communications Parity Se Lc a Send Data Wait Time Ln D 5 Displ
60. check the area that is used to change 5 set values The area that is used to change the set value is called the download area 00015 to 00029 is the download area for the No 0 Controller 00045 to 00059 is the download area for the No 1 Controller and D0075 to D0089 is the download area for the No 2 Controller E PLC Memory NewPLCT1 D GF File Edit View Grid Online Window Help Siro 52 12 18 t sw aw e e eJ Sla os Hz Start Address 0 0 1 3 4 5 6 7 20000 D0010 H pooso 02 poosn o C Digital Temperature Controllers Communications Manual H175 S2d Saues q2 0 4 9 uone1edo 9 7 9 6 Programless Communications With the default settings the following parameters are set for the download areas 0 1 2 Parameter Value E5CC default settings D0015 D0045 D0075 Request Flag fixed 1 0001 hex D0016 D0046 D0076 Operation Command Code fixed 0 0000 hex D0017 D0047 D0077 Set Point 0 0000 hex D0018 D0048 D0078 Proportional Band 80 0050 hex D0019 D0049 D0079 Integral Time 233 00E9 hex D0020 D0050 00080 Derivative Time 40 0028 hex D0021 00051 00081 Alarm Value 1 0 0000 hex D0022 D0052 D0082 Alarm Value Upper Limit 1 0 0000 hex D0023 D0053 D0083 Alarm Value Lower
61. contains an out of range value Note If you change the station number setting refer to 6 2 7 Communications Node Number 3 Select Online Write to PLC A dialog box to write the set values will be displayed ME MELSOFT Series GX Works2 Untitled Project t Project Edit Find Replace Compile View COnline Debug Diagnostics Tool Read from PLC Sil Write to PLC verify with PLC Remote Operation Project E a Digital Temperature Controllers Communications Manual H175 6 41 seues D 2361341 0 Bunoeuuo 9 9 dmes 21d 9 9 6 Programless Communications 4 We will write set values to the PLC Click the Intelligent Function Module Tab and select the check box for the Serial Communication Module in the Valid Column Then click the PLC Module Tab select the check box for the parameters in the Target Column and then click the Execute Button Online Data Operation r Connection Channel List Serial Port PLC Module Connection USB System Image Read Write m C Verify Online Data Operation Connection Channel List Intelligent Function Module ytion Target Data o j Select All Yes Cancel All Selections r Module Overview Serial Communication Modem Interface Module Model Name QJ71C24N R4 Start XY 0000 Installation Slot D Title Parameter
62. could not be executed the service response PDU will contain only the MRC SRC and MRES SRES Service Response PDU Command Text Not Executed go Sao eres MRES SRES provides the response code MRES SRES are not output when processing ends in a normal completion 2 2 2 Area Definitions Areas comprise only the variable area 2 2 3 Type Code Variable Type The following figure shows the variable area type code Variable type 1 byte Read Write Access size 0 Setup area 0 11 Double word 1 Setup area 1 10 Word The following table summarizes setup areas 0 and 1 Description Setup area 0 This area groups together the protect manual control operation and adjustment levels Setup area 1 This area groups together the initial setting communications setting advanced function setting and calibration levels The type code depends on the parameter Refer to 3 1 Variable Area Setting Range List for details Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures The variable type is converted to 2 byte ASCII and loaded to the frame The following table shows the available variable types Variable type Description 0 80 R O read only parameter for setup area 0 C1 81 R W parameter for setup area 0 C3 83 R W parameter for setup area 1 Note Setup area 1 has no read only parameters so there is no variable t
63. current output Selection is possible only with the ESCC U E5DC and E5GC and only when there is a control output that is The EBCC U must be manufactured May 2014 or later version 2 2 or higher and the E5DC must be manufactured in July 2014 or later version 2 2 or higher E C Digital Temperature Controllers Communications Manual H175 Variable type C3 83 Address 0050 Parameter name Auxiliary Output 1 Assignment 3 Communications Data for CompoWay F Setting monitor value H 00000000 0 H 00000001 1 H 00000002 2 H 00000003 3 H 00000004 4 H 00000005 5 H 00000006 6 H 00000007 7 H 00000008 8 H 00000009 9 H 0000000A H 0000000B H 0000000C H 0000000D H 0000000E H 0000000F H 00000010 H 0000001 1 H 00000012 a Not assigned Control output heating Control output cooling Alarm 1 Alarm 2 Alarm 3 Alarm 4 Heater alarm HB alarm HS alarm Input error RSP input error were Se Program end output RUN output Integrated alarm Work bit 1 Work bit 2 Work bit 3 Work bit 4 Work bit 5 1 1 1 1 SOM 1 1 1 1 1 1 mee 602005 21 02 01 H 00000013 00000014 20 Work bit 6 H 00000015 21 Work bit 7 H 00000016 22 Work bit 8 C3 83 0051 Auxiliary Output 2 Assignment H 00000000 to H 00000016 0 to 22 Note Same as for the
64. data and word data are used together Composite Read Double Word Double word Word 9 variable type variable type 80 variable type CO variable type 80 E C1 or C3 81 or 83 C1 or C3 81 or 83 2 20 0 11 14 19 1 10 15 18 2 9 16 18 3 8 17 3 17 4 7 18 5 17 5 6 19 5 16 6 8 20 gt 15 7 4 21 8 15 8 3 22 14 9 2 23 14 10 1 24 13 11 0 25 12 12 12 13 4 Response Code Normal Completion Response code Name Description 0000 Normal completion No errors were found Error Occurred Response code Error name Cause 1002 Command too short The command is too short 1101 Area type error The variable type is wrong 110B Response too long The number of elements exceeds the maximum 1100 Parameter error Bit position is not 00 2203 Operation error Non volatile memory error Digital Temperature Controllers Communications Manual H175 2 11 2 CompoWay F Communications Procedures 2 34 Composite Write to Variable Area This service writes in order the contents of specified addresses to a variable area Service Request PDU SRC Variable Write Bit Write data type address position 011 1 3 010 2 2 2 4 2 Number of elements x8 4 Variable Write Bit Write data address position 010 2 4 2 Number of elements x8 or 4 1 Variable Type and
65. down load area To prevent initialization change the Request Flag to 0 Disable Writing after auto tuning starts If you change the Request Flag to 1 Enable Writing after the completion of auto tuning the values in PLC memory will be written to the E5LIC If you change the Request to 2 Initialize Download Areas after the completion of auto tuning the download area will be initialized with the set values from the ESL IC Precautions for ST Self tuning If you use self tuning and set PID constants in the download area always leave the Request Flag setto 1 Enable Writing If you change the Request Flag from 0 Disable Writing to 1 Enable Writ ing during operation the PID constants that were found with self tuning will be overwritten with the values from PLC memory You can change the Request Flag to 2 Initialize Download Areas at the start of programless communications E5 C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 3 3 Range of Operation for Programless Communications Programless communications start operating after the power supply is turned ON or after the EBLIC is reset They stop operating when the initial setting level is entered Programless communications Operates Operation level adjustment level manual control level Setting area 0 monitor setting item level and protect l
66. error z H 0000000C 12 Program end output gt H 0000000D 13 RUN output 5 H 0000000E 14 Integrated alarm 9 H 0000000F 15 Work bit 1 H 00000010 16 Work bit 2 H 00000011 17 Work bit 3 J H 00000012 18 Work bit 4 8 H 00000013 19 Work bit 5 H 00000014 20 Work bit 6 H 00000015 21 Work bit 7 H 00000016 22 Work bit 8 When control output 1 is a linear current output H FFFFFFFB 5 Simple transfer MV cooling 2 H FFFFFFFC 4 Simple transfer MV heating 2 H FFFFFFFD 3 Simple transfer PV H FFFFFFFE 2 Simple transfer ramp SP H FFFFFFFF 1 Simple transfer SP 2 H 00000000 0 Not assigned H 00000001 1 Control output heating H 00000002 2 Control output cooling OEOE 2E07 Control Output 2 Assign Control output 2 is a relay output or voltage output for driving SSR ment H 00000000 to H 0000006 0 to 22 Note Same as for the Control Output 1 Assignment parameter When control output 2 is a linear current output H 00000000 to H 00000002 0 to 2 Note Same as for the Control Output 1 Assignment parameter except for items marked with 2 1 REND program end output be set even when the program pattern is set to OFF but the function will be disabled 2 Selection is possible only with the E5CC U E5DC and E5GC and only when there is a control output that is a linear current output The E5CC U must be manufactured May 2014 or later version 2 2 or highe
67. higher error detection priority than the format error Example 2 No Command Text Command Node number Sub address SID BCC sx Response Node number Sub address End code BCC The end code is 14 format error Example 3 No Node Number Provided Command STX BCC mI The node number is lacking one character Response There is no response C Digital Temperature Controllers Communications Manual H175 2 4 a 2 CompoWay F Communications Procedures Example 4 No Sub address and Illegal BCC Command Node number BCC sx EX Response Node number Sub address End code BCC sub address is 00 the end code is 13 error C Digital Temperature Controllers Communications Manual H175 yewo eed 1 2 pu3 6 1 2 2 CompoWay F Communications Procedures 2 2 Structure of Command Text 2 2 1 PDU Structure transferred to the command text Service Request PDU MRC Main Request Code and SRC Sub Request Code followed by the various required data is MRES Main Response Code and SRES Sub Response Code are transferred to the response frame following the above MRC SRC Data is then transferred following the MRES and SRES Service Response PDU Normal Response If the specified command text
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69. leave it online Write to PLC HEEBSBEEZEEHEBHBE 22 Parameter Write Completed Program MAIN Write Completed Write to PLC Completed When processing ends close this window automatically 6 7 4 1 Controller Setup Set up programless communications Perform the procedure that is given in 6 4 4 5 Controller Setup 6 7 5 Checking Operation Perform the checking operation given in 6 6 5 Checking Operation Digital Temperature Controllers Communications Manual H175 6 55 Seues x4 93S13MW 04 Bunoeuuo 2 9 dnjas 9099 v 7 9 6 Programless Communications 6 8 Connecting to Keyence KV series PLCs 6 8 1 This function is supported only for ESL IC version 2 1 or later Configuration and Procedure The following configuration is used as an example in giving the setup and application procedures for programless communications All of the 5 Controllers must be the same model Copying parameter settings is not possible if the models are different DMO to DM89 are used in the PLC memory The default E5CC parameter allocations are used Acommercially available USB2 0 cable is used Turn ON the terminator switch KV L21V Commercially available USB cable IBM PC AT or compatible KV STUDIO Programming Software Note Refer to the KV STUDIO User s Manual for the installation procedure
70. of the Protocol Setting parameter Note The Communications Data Length Communications Stop Bits and Communications Parity parameters in the communications setting level are not displayed Protocol Setting Set the Protocol Setting parameter to FLNS to connect to an OMRON PLC to connect to a Mit subishi Q series or L series PLC F P to connect to a Mitsubishi FX series or Keyence KV series PLC and L to use component communications Refer to 6 7 5 Connectable PLCs for lists of the PLCs that can be connected Refer to 7 1 Component Communications for information on component communications Communications Setting Level Display condition None Parameter name Protocol Setting Displayed characters PSEL Setting range Default L WF CompoWay F Mad ModbusRTU P Component communications LNS Host Link FINS MC protocol format 4 x P Dedicated protocol format 4 Selection is possible only for version 2 1 or later Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 2 2 Communications Unit No and Communications Baud Rate Always assign communications unit numbers in order starting from 0 Do not skip any numbers Com munications unit number 0 is for the master The recommended communications baud rate is 19 2 for a Mitsubishi FX1 or FX2 PLC 38 4 for a Mitsubishi FX3 PLC and 57 6 for any other PL
71. pattern is set to OFF but the function will be disabled 2 Selection is possible only if there is a remote SP input 8 Selection is possible only if external communications is supported 4 Do not set the same set value for more than one event input assignment E5LIC Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F posse Address Parameter name Setting monitor value Level C3 83 0020 Auxiliary Output 2 H 00000000 0 Close in alarm Advanced Open in Alarm H 00000001 1 Open in alarm function setting C3 83 0021 Alarm 2 Hysteresis H 00000001 to H 0000270F Initial 0 1 to 999 9 for temperature input setting 0 01 to 99 99 for analog input C3 83 0022 Auxiliary Output 3 H 00000000 0 Close in alarm Advanced Open in Alarm H 00000001 1 Open in alarm function setting 83 0023 Alarm 3 Hysteresis H 00000001 to H 0000270F Initial 0 1 to 999 9 for temperature input setting 0 01 to 99 99 for analog input C3 83 0024 HB ON OFF H 00000000 0 4 Advanced H 00000001 1 O function C3 83 0025 Heater Burnout H 00000000 0 orm setting Latch H 00000001 1 O C3 83 0026 Heater Burnout H 00000001 to H 4 0 1 to 50 0 Hysteresis C3 83 0027 ST Stable Range H 00000001 to H 0000270F 0 1 to 999 9 C3 83 0028 H 00000000 to H 00000064 0 00 to 1 00 C3 83 002B Input Digital Filter
72. protocol 5 1 Variable Area Setting Range List 5 2 5 2 Status si uk ev tet ie ule sere nre 5 17 E5LIC Digital Temperature Controllers Communications Manual H175 5 1 5 Communications Data for Modbus 5 1 Variable Area Setting Range List Four byte Mode One element uses 4 bytes of data H 00000000 to H FFFFFFFF so specify two element units Reading and writing in 4 byte units is executed by specifying an even address and specifying the number of elements in multiples of 2 Two byte Mode One element uses 2 bytes of data H 0000 to H FFFF so specify one element units Reading and writing in 2 byte data units is executed by specifying 1 element units The following table lists the variable area Items expressed in hexadecimal in the Setting monitor value column are the setting range in the Modbus specifications Values in parentheses are the actual setting range When there is a section reference for a setting item refer to that reference for details Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0000 2000 PV Temperature Use the specified range for each sensor Operation Analog Scaling lower limit 5 FS to Scaling upper limit 5 FS 0002 2001 Status 172 Refer to 5 2 Status for details 0004 2002 Internal Set Point SP lower limit to SP
73. t Designed by OMRON MADE IN CHINA 1 02 EVI fr nn s USE EV2 5 Ps 2 7 E5LIC Digital Temperature Controllers Communications Manual H175 11 Revision History Revision History 12 A manual revision code appears as a suffix to the catalog number on the front cover of the manual Revision code 01 Date December 201 1 tf Revision code Revised content Original production 02 January 2012 Page 9 Made correction in Precautions for Safe Use 03 May 2012 Added the following sections Section 6 Programless Communications and Section 7 Component Communications Page 10 Added trademark information Page 11 Added version information Page 13 Added functional upgrade information Pages 3 17 to 3 18 CompoWay F variable area additions Corrected mistakes 04 December 2012 Added Digital Controllers with position proportional control 05 March 2013 Page 13 Corrected maximum number of Controllers in four locations and corrected last line Page 6 3 Corrected maximum number of Controllers in two locations and corrected total number of words in middle of page Pages 6 7 6 13 and 6 14 Corrected maximum number of Controllers in table Page 7 2 Corrected maximum number of Controllers in figure 06 July 2013 Added E5DC Digital Controllers Page 6 Changed notes and changed caution mark Pages 7 and 9 Added precautions
74. the operation command The Communications Writing parameter is set to OFF 6 15 The Response Flag changes to The power supply to the 50 Controllers was turned ON 6 4 EEEE before the power supply to the PLC The PLC memory address is out of range 6 8 There be noise interference Shield the communications line 6 22 or attach terminating resistance to the end of the 6 33 communications line 6 38 The communications The Highest Communications Unit No parameter is not set to 6 7 indicator on the PLC flashes the highest communications unit number that is actually set irregularly Communications unit numbers are not set consecutively from 6 7 The value of the 0 or the same communications unit number is set more than Communications Monitor once parameter in the 5 1 is too The setting of the Communications Baud Rate parameter is long not the same for all EBLIC Controllers The was moved to the initial setting level setting area 1 6 19 The communications The power supply is not turned ON to the 5 Controller with 6 4 indicator on the PLC is not lit communications unit number 0 The Communications The wiring is not correct 6 22 Monitor parameter in the 6 33 EBLIC is L ERR 6 38 The communications settings are not the same between the PLC 6 22 and the 6 33 6 38 6 25 The was moved to the initial setting level setting area 1 6 19 Check the cycle time of th
75. to see if they are the same as those that are given in the following table It is not necessary to check address for which is given in the Value column 0 1 2 Parameter Value DO D30 D60 Response Flag fixed 0 D01 D31 D61 Communications Status fixed Alternates between 0 and 1 D02 D32 D62 Communications Monitor Parameter 033 063 Status Upper Word 004 034 064 Status Lower Word D05 D35 D65 Status 2 Upper Word D06 D36 D66 Decimal Point Monitor 007 037 067 Process Value Process Value D08 D38 D68 Internal Set Point D09 D39 D69 Heater Current 1 Value Monitor D10 D40 D70 MV Monitor Heating D11 D41 D71 Not used 014 044 074 Not used 2 1 2 If the default settings are used and a sensor is not connected the PV display on the E5CC will show an input error 5 EPR and the process value in the upload area will be 1320 528 hex This area cannot be used for a Mitsubishi FX series PLC Changing E5CC Settings 1 We will check the area that is used to change 5 set values The area that is used to change the set value is called the download area D15 to D29 is the download area for the No 0 Controller D45 to D59 is the download area for the No 1 Controller and D75 to D89 is the download area for the No 2 Controller H Device Buffer Memory Bat Device
76. upper limit 0006 2003 Heater Current 1 Value H 00000000 to H 00000226 0 0 to 55 0 Monitor 0008 2004 MV Monitor Heating Standard H FFFFFFCE to H 0000041A 5 0 to 105 0 Heating and cooling H 00000000 to H 00000414 0 0 to 105 0 000A 2005 MV Monitor Cooling H 00000000 to H 0000041A 0 0 to 105 0 0106 2103 Set Point SP lower limit to SP upper limit 0108 2104 Alarm Value 1 H FFFFF831 to H 0000270F 1999 to 9999 010A 2105 Alarm Value Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 1 010C 2106 Alarm Value Lower Limit H FFFFF831 to H 0000270F 1999 to 9999 1 010E 2107 Alarm Value 2 H FFFFF831 to H 0000270F 1999 to 9999 0110 2108 Alarm Value Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 2 0112 2109 Alarm Value Lower Limit H FFFFF831 to H 0000270F 1999 to 9999 2 0404 2402 PV Temperature Use the specified range for each sensor Analog Scaling lower limit 596 FS to Scaling upper limit 5 FS 0406 2403 Internal Set Point SP lower limit to SP upper limit 0408 2404 Multi SP No Monitor H 00000000 to H 00000007 0 to 7 040C 2406 Status 172 Refer to 5 2 Status for details 040E 2407 Status 3 Refer to 5 2 Status for details 0410 2408 Status 2 12 Refer to 5 2 Status for details 0412 2409 Status 21 Refer to 5 2 Status for details 0420 2410 Decimal Point Monitor H 00000000 to H 00000003 0 to 3 21 Not displayed on the Controller display 2 In 2 byte mode the rightmost 16 bits are read 3 In
77. value of the Communications Status changes between 0 and 1 each time the upload area is updated E5LIC Digital Temperature Controllers Communications Manual H175 6 19 6 Programless Communications 6 3 6 Write Mode The normally writes the set values to non volatile memory i e in Backup Mode If you fre quently change set values with programless communications use an operation command to change to RAM Write Mode In RAM Write Mode however the set values will be restored to the values in non volatile memory every time the power supply is cycled If you need to maintain the current set values before the power supply is turned OFF use an operation command to save them to RAM before the power supply turns OFF 6 3 7 Troubleshooting Possible problems that can occur with programless communications and corrective actions are given in the following table Status Cause and corrective action Page The Response Flag changes to The write value for the set value for download setting is out of 3 3 to 3 7 range The Communications Writing parameter is set to OFF 6 15 The Response Flag changes to The operation command code is incorrect 6 19 8 hex or 9 hex The current status of the prevents it from acknowledging 2 17 to 2 20
78. with the E5DC and E5GC The D5DC must be manufactured in July 2014 or later version 2 2 or higher E Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F obs Address Parameter name Setting monitor value Level C3 83 008D Control Output 2 H 00000000 0 4 to 20 mA Initial setting Signal H 00000001 1 0 to 20 mA C3 83 008 Transfer Output H 00000000 0 4 to 20 mA Signal H 00000001 1 1 to 5 V C3 83 008 Auxiliary Output 4 H 00000000 to H 0000016 0 to 22 Advanced Assignment Note Same as for the Auxiliary Output 1 function setting Assignment parameter C3 83 0090 Remote SP Input H 00000000 0 4 to 20 mA H 00000001 1 0 to 20 mA H 00000002 2 1 to 5 V H 00000003 3 0 to 5 V H 00000004 4 0 to 10 V C3 83 0091 Integral Derivative H 00000000 0 1 s Time Unit H 00000001 1 0 1 s C3 83 0092 Manual Output H 00000000 0 HOLD Method H 00000001 1 INIT C3 83 0093 Manual MV Initial Standard control or close position proportional Value control H FFFFFFCE to H 0000041A 5 0 to 105 0 Heating and cooling control H FFFFFBE6 to 0000041 105 0 to 105 0 C3 83 0094 Minimum Output H 00000000 to H 000001F4 0 to 50 0 ON OFF Band C3 83 0095 Display Brightness H 00000001 to H 00000003 1 to 3 E5LIC Digital Temperature Controllers Communications Manual H175
79. 0 Hysteresis C3 83 0049 LBA Detection H 00000000 to H 0000270F 0 to 9999 Time C3 83 004A LBA Level H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input C3 83 004B LBA Band H 00000000 to H 0000270F 0 0 to 999 9 for temperature input 0 00 to 99 99 for analog input C3 83 004C Protocol Setting H 00000000 0 CompoWay F Communi H 00000001 1 Modbus cations H 00000002 2 Component communications setting H 00000003 3 Host Link FINS H 00000004 4 MC protocol Format 4 H 00000005 5 Dedicated protocol Format 4 C3 83 004D Send Data Wait H 00000000 to H 00000063 0 to 99 1 The setting monitor range depends on the transfer output type setting Refer to Section 5 Parameters in Time the E5 Digital Temperature Controllers User s Manual Cat No H174 2 After communications parameters have been changed reset the Digital Controller to enable them E5LIC Digital Temperature Controllers Communications Manual H175 Humes easy ejqeueA L E 3 Communications Data for CompoWay F ern Address Parameter name Setting monitor value Level 83 004 Control Output 1 Control output 1 is a relay output or voltage output for Advanced Assignment driving SSR function H 00000000 0 Not assigned setting H 00000001 1 Control output heating H 00000002 2 Control output cooling H 00000003 3
80. 00 0 C 199 9 to 700 0 F H 0000000F 15 N 200 to 1300 300 to 2300 H 00000010 16 R 0 to 1700 C 0 to 3000 F H 00000011 17 5 0 1700 C 0 to 3000 F H 00000012 18 100 to 1800 C 300 to 3200 F H 00000013 19 0 to 2 300 C 0 to 3 200 F H 00000014 20 PLII 0 to 1 300 C 0 to 2 300 F H 00000015 21 Infrared temperature sensor 140 F 60 C H 00000016 22 Infrared temperature sensor 240 F 120 C H 00000017 23 Infrared temperature sensor 280 F 140 C H 00000018 24 Infrared temperature sensor 440 F 220 C H 00000019 25 4to 20 H 0000001A 26 0to 20mA H 0000001B 27 1to5V H 0000001C 28 Oto5V H 0000001D 29 Oto 10V H 0000001E 30 0 to 50 mV Selection is possible only for E5CC U Controllers and only if they are manufactured in May 2014 or later version 2 2 0 02 2 01 Temperature Unit H 00000000 0 H 00000001 1 F 0C12 2C09 Scaling Lower Limit H FFFFF831 to scaling upper limit 1 71999 to scaling upper limit 1 0C16 2C0B Scaling Upper Limit Scaling lower limit 1 to H 0000270F Scaling lower limit 1 to 9999 0C18 2C0C Decimal Point H 00000000 to 00000003 0 to 3 2C0D Remote SP Upper limit Input range lower limit to Input range upper limit for temperature input Advanced Scaling lower limit to Scaling upper limit for analog input function 0C1C 2COE Remote SP Lower limit Input range lower limit to Input range upper limit for te
81. 000 to H 00000016 0 to 22 Note Same as for the Auxiliary Output 1 Assignment parameter Advanced function setting 0 28 2 14 Transfer Output Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 2 2 15 Transfer Output Lower Limit H FFFFF831 to H 0000270F 1999 to 9999 Initial setting 1 2 8 4 75 PRST program start can be set even when the program pattern is to OFF the function will be disabled Selection is possible only if there is a remote SP input Selection is possible only if external communications is supported The setting monitor range depends on the transfer output type setting Refer to Section 6 Parameters in the E5 Digital Temperature Controller User s Manual Cat No H174 P END program end output can be set even when the program pattern is set to OFF but the function will be disabled Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0 2 2 16 Simple Transfer Output 1 H FFFFF831 to H 0000270F 1999 to 9999 Initial setting Upper Limit 2 2E17 Simple Transfer Output 1 H FFFFF831 to H 0000270F 1999 to 9999 Lower Limit 1 Selection is possible only with the E5CC U E5DC and E5GC and only when there is a control output that is a linear current o
82. 0000001 to H 00000064 0 1 to 10 0 Adjustment Dead Band 0716 270B Open Close Hysteresis H 00000001 to 000000 8 0 1 to 20 0 0718 270C SP Ramp Time Unit H 00000000 0 EU second Advanced H 00000001 1 EU minute function H 00000002 2 EU hour setting 071A 270D SP Ramp Set Value H 00000000 0 OFF Adjustment H 00000001 to H 0000270F 1 to 9999 071C 270E SP Ramp Fall Value H FFFFFFFF 1 Same Same as SP Ramp Set Value H 00000000 0 OFF H 00000001 to H 0000270F 1 to 9999 071E 270F MV at Stop Standard Models 0722 2711 MV at PV Error Standard control H FFFFFFCE to H 0000041A 5 0 to 105 0 Heating and cooling control H FFFFFBE6 to H 0000041A 105 0 to 105 0 Position proportional Models Close position proportional control with the Direct Setting of Position Proportional MV parameter set to ON H FFFFFFCE to H 0000041A 5 0 to 105 0 Floating position proportional control or the Direct Setting of Position Proportional MV parameter set to OFF H FFFFFFFF to H 00000001 1 to 1 0726 2713 MV Change Rate Limit H 00000000 to H 000003E8 0 0 to 100 0 0730 2718 PV Input Slope H 00000001 to H 0000270F 0 001 to 9 999 Coefficient 0734 271A Heater Current 1 Value H 00000000 to H 00000226 0 0 to 55 0 Operation Monitor 0736 271B Heater Burnout Detection H 00000000 to H 000001F4 0 0 to 50 0 Adjustment 1 0738 271C Leakage Current 1 H 00000000 to H 00000226 0 0 to 55 0 Operation Monitor 073A 271D HS Alarm 1 H 00000000 to H 0000
83. 01F4 0 0 to 50 0 Adjustment 0746 2723 Process Value Input Shift H FFFFF831 to H 0000270F 1999 to 9999 0748 2724 Heater Current 2 Value H 00000000 to H 00000226 0 0 to 55 0 Operation Monitor Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 074A 2725 Heater Burnout Detection H 00000000 to H 000001F4 0 0 to 50 0 Adjustment 2 074C 2726 Leakage Current 2 H 00000000 to H 00000226 0 0 to 55 0 Operation Monitor 074E 2727 HS Alarm 2 H 00000000 to H 000001F4 0 0 to 50 0 Adjustment 0750 2728 Soak Time Remain H 00000000 to H 0000270F 0 to 9999 Operation 0752 2729 Soak Time H 00000001 to H 0000270F 1 to 9999 Adjustment 0754 272A Wait Band H 00000000 0 OFF H 00000001 to H 0000270F 0 1 to 999 9 for Temperature input 0 01 to 99 99 for Analog input 0756 272B Remote SP Input Shift H FFFFF831 to H 0000270F 1999 to 9999 0758 272C Remote SP input Slope H 00000001 to H 0000270F 0 001 to 9 999 Coefficient 0800 2800 Input Digital Filter H 00000000 to H 0000270F 0 0 to 999 9 Advanced 0808 2804 Moving Average Count H 00000000 0 OFF function H 00000001 1 2 times setting H 00000002 2 4 times H 00000003 3 8 times H 00000004 4 16 times H 00000005 5 32 times 081A 280D FB Moving Average H 00000000 0 OFF Count H 00000001 1 2
84. 0270F 1999 to 9999 3 0916 290B Alarm Value 4 H FFFFF831 to H 0000270F 1999 to 9999 0918 290C Alarm Value Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 4 091A 290D Alarm Value Lower Limit H FFFFF831 to H 0000270F 1999 to 9999 4 091C 290E SP 1 SP lower limit to SP upper limit Adjustment 0938 291C SP2 SP lower limit to SP upper limit 0954 292A SP3 SP lower limit to SP upper limit 0970 2938 SP 4 SP lower limit to SP upper limit 098C 2946 SP5 SP lower limit to SP upper limit 09A8 2954 SP 6 SP lower limit to SP upper limit 09C4 2962 SP7 SP lower limit to SP upper limit 0A00 2A00 Proportional Band H 00000001 to H 0000270F 0 1 to 999 9 0A02 2A01 Integral Time Standard heating cooling or close position proportional control H 00000000 to H 0000270F 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s Floating position proportional control H 00000001 to H 0000270F 1 to 9999 Integral derivative time unit is 1 s 0 1 to 999 9 Integral derivative time unit is 0 1 s 0A04 2A02 Derivative Time H 00000000 to H 0000270F 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s 0A0A 2A05 MV Upper Limit Standard control or close position proportional control MV lower limit 0 1 to H 0000041A MV lower limit 0 1 to 105 0 Heating and cooling control H 00000000 to H 0000041A 0 0 to 105 0 0 2 06 MV Lower Limit Sta
85. 1 Communications Methods 2 CompoWay F Commu nications Procedures Digital Temperature Controllers 3 Communications Data for CompoWay F 4 Communications Manual og 5 Communications Data for Modbus 6 Programless Communications 7 Component Communications A Appendices H175 E1 11 Preface Preface This Communications Manual describes the communications capabilities supported by the ESL IC Digi tal Controllers Read and understand this manual before using communications with the Digital Controllers and be sure you are performing communications correctly Keep this manual in a safe location where it will be available when needed OMRON 2011 All rights reserved No part of this publication may be reproduced stored in a retrieval system or transmitted in any form or by any means mechanical electronic photocopying recording or otherwise without the prior written permission of OMRON No patent liability is assumed with respect to the use of the information contained herein Moreover because OMRON is constantly striving to improve its high quality products the information contained in this manual is subject to change without notice Every precaution has been taken in the preparation of this manual Nevertheless OMRON assumes no responsibility for errors or omissions Neither is any liability assumed for damages resulting from the
86. 1 1 Command Frame on page 4 2 Response Code Function code H 90 Error code Error name Cause H 02 Variable address The write start address is incorrect error H 03 Variable data error The amount of data does not match the number of elements The byte count is not 2 times the number of elements The write data is out of the setting range H 04 Operation error The Controller cannot write the data in its present operating status The write data contents are not allowed in the present operation mode The Communications Writing parameter is set to OFF disabled Attempted to write to a parameter in setup area 1 from setup area O Attempted to write to a protect parameter from other than the protect level AT execution is in progress H0 Normal completion 5 Digital Temperature Controllers Communications Manual H175 No errors were found suonounj aui jo paled v v OM 2 4 Modbus Communications Procedure Writing Undisplayed Parameters It is possible to write the parameters that are not displayed due to display settings as well as the parameters that are never displayed in the Controller Example Command and Response The following example shows the command response when writing the Alarm Value Upper Limit 1 and Alarm Value Lower Limit 1 parameters In this case the slave address is H 01 Four byte Mode Alarm
87. 10 00050 0 0 jo 0 0 0 lo 0 jo 0 p 70 0 U 0 0 0 70 U U 0 0 0 0 lo lo lo 0 0 0 0 0 Digital Temperature Controllers Communications Manual H175 a 6 Programless Communications With the default settings the following parameters are set for the upload areas Check the values in the upload areas to see if they are the same as those that are given in the following table It is not necessary to check addresses for which is given in the Value column No 0 No 1 No 2 Parameter Value D0000 00030 00060 Response fixed 0 D0001 D0031 D0061 Communications Status fixed Alternates between 0 and 1 D0002 D0032 D0062 Communications Monitor D0003 D0033 D0063 Status Upper Word D0004 D0034 D0064 Status Lower Word D0005 D0035 D0065 Status 2 Upper Word D0006 D0036 D0066 Decimal Point Monitor D0007 D0037 D0067 Process Value Process Value D0008 D0038 D0068 Internal Set Point D0009 D0039 D0069 Heater Current 1 Value Monitor D0010 D0040 D0070 MV Monitor Heating s D0011 D0041 D0071 Nothing assigned D0014 D0044 D0074 Nothing assigned If the default settings are used and a sensor is not connected the PV display on the E5CC will show an input error 5 EPR and the process value in the upload area will be 1320 528 hex Changing E5CC Settings 1 We will
88. 1edo 9 7 9 ESLIC Digital Temperature Controllers Communications Manual H175 6 31 6 Programless Communications 6 5 Connecting to CJ series PLCs 6 5 1 Configuration and Procedure The following configuration is used as an example in giving the setup and application procedures for programless communications All of the 5 Controllers must be the same model Copying parameter settings is not possible if the models are different 00000 to 00089 are used in the PLC memory The default 5 parameter allocations are used Acommercially available USB2 0 cable is used CJ1W CIF11 P switch CJ2M CPU Unit um CX Programmer Support Software S Serial Communications Unit CJ1W SCU21 V1 am RS 422A Converter CJ1W CIF11 Commercially ve E5CC available USB cable 0 Peripheral USB port Nes BA tL We RS 485 Note Refer to the CX Programmer Operation Manual Cat No W446 for information on installing the CX Programmer and USB driver The application procedure is given below START Set the switches and wire the system Set the PLC Use the CX Programmer to set up communications on the CJ1W SCU21 V1 to enable communicating with the E5CC Control
89. 26 2016 Program Pattern H 00000000 0 OFF H 00000001 1 STOP H 00000002 2 CONT 0D30 2D18 Remote SP Input H 00000000 0 4 to 20 mA Advanced H 00000001 1 0 to 20 mA function H 00000002 2 1 to 5 V setting H 00000003 3 0 to 5 V H 00000004 4 0 to 10 V 0D32 2D19 Minimum Output ON OFF H 00000000 to H 000001F4 0 0 to 50 0 Band 0 00 2 00 Transfer Output Type H 00000000 0 OFF Initial setting H 00000001 1 Set point H 00000002 2 Set point during SP ramp H 00000003 3 PV H 00000004 4 MV heating H 00000005 5 MV cooling H 00000006 6 Valve opening Only for Position proportional Models 0202 2201 Transfer Output Signal H 00000000 0 4 to 20 mA H 00000001 1 1 to 5 V Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 2 06 Control Output 1 Assign Control output 1 is a relay output or voltage output for driving SSR Advanced ment H 00000000 0 Not assigned function H 00000001 1 Control output heating setting H 00000002 2 Control output cooling H 00000003 3 Alarm 1 H 00000004 4 Alarm 2 H 00000005 5 Alarm 3 H 00000006 6 Alarm 4 H 00000007 7 Heater alarm a H 00000008 8 HB alarm H 00000009 9 HS alarm 5 H 0000000A 10 Input error D H 0000000B 11 RSP input
90. 270F 1999 to 9999 2 Protect Level Can only be set The monitor value is always H 00000000 050C 2506 Parameter Mask Enable H 00000000 0 OFF H 00000001 1 ON 050E 2507 Changed Parameters H 00000000 0 OFF Only H 00000001 1 ON 0600 2600 Manual MV Standard Models Manual Standard control control H FFFFFFCE to H 0000041A 5 0 to 105 0 Heating and cooling control H FFFFFBE6 H 0000041A 105 0 to 105 0 Position proportional Models Close position proportional control with the Direct Setting of Position Proportional MV parameter set to ON H FFFFFFCE to H 0000041A 5 0 to 105 0 0602 2601 Set Point SP lower limit to SP upper limit Operation 0604 2602 Remote SP Monitor Remote SP lower limit 10 FS to Remote SP upper limit 10 FS 0608 2604 Heater Current 1 Value H 00000000 to H 00000226 0 0 to 55 0 Monitor 060A 2605 MV Monitor Heating Standard control H FFFFFFCE to H 0000041A 5 0 to 105 0 Heating and cooling control H 00000000 to H 0000041A 0 0 to 105 0 060C 2606 MV Monitor Cooling H 00000000 to H 00000414 0 0 to 105 0 060E 2607 Valve Opening Monitor H FFFFFF9C to H 0000044C 10 0 to 110 0 Measured opening H 00000000 to H 000003E8 0 0 to 100 0 Estimated opening You can use this selection only with the 1 8 or EBAC PR I 8LTL The Digital Controller must be manufactured in August 2014 or later version 2 2 or higher E
91. 4 1 3 Error CodeS eet PA ee ies ees 4 5 4 2 Function List deed Bae a 4 6 4 3 Variable Area Pe aad ee Re 4 7 4 4 Detailed Description of the Functions 4 8 4 4 1 Variable Read Multiple 4 8 4 4 2 Variable Write Multiple 4 10 4 43 Variable Write Single Operation Command 4 12 4 4 4 4 15 Digital Temperature Controllers Communications Manual H175 4 1 4 Modbus Communications Procedure 4 1 Data Format The data format complies with the Modbus RTU communications protocol so commands from the host and responses from the are contained in data blocks called frames The structure of the command and response frames is described below In the following explanations hexadecimal values are expressed by adding the prefix H before the number e g H 02 Numbers and alphabetic characters without the H prefix are ASCII characters 4 1 1 Command Frame When using RTU mode start with a silent interval of at least 3 5 character times and end with a silent interval of at least 3 5 character times Slave address Function code Data CRC 16 2 bytes CRC 16 calculation range Silent interval of 3 5 char
92. 41 105 0 to 105 0 Position proportional Models Close position proportional control with the Direct Setting of Position Proportional MV parameter set to ON H FFFFFFCE to H 0000041A 5 0 to 105 0 Floating position proportional control or the Direct Setting of Position Proportional MV parameter set to OFF Not valid for manual MV H FFFFFFFF to H 00000001 1 to 1 E Level Adjustment C Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F ipi Address Parameter name Setting monitor value Level C1 81 0024 Manual MV Standard Models Manual Standard control Control H FFFFFFCE to H 0000041A 5 0 to 105 0 Heating and cooling control H FFFFFBE6 to 0000041 105 0 to 105 0 Position proportional Models Close position proportional control with the Direct Setting of Position Proportional MV parameter set to ON H FFFFFFCE to H 0000041A 5 0 to 105 0 C1 81 0025 SP Ramp Set H 00000000 0 OFF Adjustment Value H 00000001 to H 0000270F 1 to 9999 C1 81 0026 MV Upper Limit Standard control or close position proportional control MV lower limit 0 1 to H 0000041A MV lower limit 0 1 to 105 0 Heating and cooling control H 00000000 to H 00000414 0 0 to 105 0 C1 81 0027 MV Lower Limit Standard control or close position proportional control H FFFFFFCE to MV upper limit 0 1 5 0 to MV upper limit 0
93. 4A 5 0 to 105 0 Heating and cooling control H FFFFFBE6 to H 0000041A 105 0 to 105 0 131E 330F AT Calculated Gain H 00000001 to H 00000064 0 1 to 10 0 1320 3310 AT Hysteresis H 00000001 to H 0000270F 0 1 to 999 9 for temperature input H 00000001 to H 000003E7 0 01 to 9 99 for analog input 1322 3311 Limit Cycle MV Amplitude H 00000032 to H 000001F4 5 0 to 50 0 1328 3314 Heater Burnout Latch H 00000000 0 OFF H 00000001 1 ON 132A 3315 Heater Burnout H 00000001 to H 000001F4 0 1 to 50 0 Hysteresis 132C 3316 HS Alarm Latch H 00000000 0 OFF H 00000001 1 ON 132E 3317 HS Alarm Hysteresis H 00000001 to H 000001F4 0 1 to 50 0 1336 331B Number of Multi SP H 00000001 1 OFF Points H 00000002 to H 00000008 2 to 8 1338 331C HB ON OFF H 00000000 0 OFF H 00000001 1 ON 133C 331E Integrated Alarm H 00000000 to H 000000FF 0 to 255 Assignment 1340 3320 MV at Stop and Error H 00000000 0 OFF Addition H 00000001 1 ON 1342 3321 ST Stable Range H 00000001 to H 0000270F 0 1 to 999 9 1344 3322 RT H 00000000 0 OFF H 00000001 1 ON Note Valid only with temperature input 1346 3323 HS Alarm Use H 00000000 0 OFF H 00000001 1 ON 1348 3324 LBA Detection Time H 00000000 to H 0000270F 0 to 9999 134A 3325 LBA Level H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input 134C 3326 LBA Band H 00000000 to H 0000270F 0 0 to 999 9 for temperature input 0 00 to 99 99 for anal
94. 6 1 6 Programless Communications 6 5 6 6 6 8 Connecting to CJ series 6 32 6 5 1 Configuration and Procedure 6 32 6 5 2 Switch Settings and Wiring 6 33 6 5 3 PLC Setup 2 tet be REED 6 33 6 5 4 E5 C Controller Setup 6 36 6 5 5 Checking Operation 1 6 36 Connecting to MELSEC Q series PLCs 6 37 6 6 1 Configuration and Procedure 6 37 6 6 2 WINING Ghd nl er gie Tee Me shemale deest elated 6 38 6 6 3 ink ac e ER RR orte a 6 38 6 6 4 5 Controller Setup 6 43 6 6 5 Checking Operation 1 6 44 Connecting to MELSEC FX series PLCs 6 49 6 7 1 Configuration and Procedure 6 49 6 7 2 Witlngi 33e eats waive eee Ms ee ee ak eats 6 50 627 3 PEC Setup es eae Sete Sian ale Ce 6 50 6 7 4 E5 C Controller Setup 6 55 6 7 5 Checking Operation 6 55 Connecting to Keyence KV series
95. 7 7 Alarm 1 to 4 OR status H 00000008 8 Heater alarm H 00000009 9 Status display message 83 0077 SV Status Display H 00000000 to H 00000009 0 to 9 Function Note Same as for PV Status Display Function C3 83 0083 Display Refresh H 00000000 0 OFF Period H 00000001 1 0 2 H 00000002 2 0 H 00000003 3 1 C3 83 0084 Alarm 4 Type H 00000000 to H 0000018 0 to 19 Initial setting Note Same settings as the Alarm 1 Type However the LBA loop burnout alarm cannot be set C3 83 0085 Event Input H 00000000 to H 0000000D 0 to 13 Assignment 5 Note Same as for Event Input Assignment 1 C3 83 0086 Event Input H 00000000 to H 0000000D 0 to 13 Assignment 6 Note Same as for Event Input Assignment 1 C3 83 0087 Auxiliary Output 4 H 00000000 0 Close in alarm Advanced Open in Alarm H 00000001 1 Open in alarm function setting C3 83 0088 Alarm 4 Hysteresis H 00000001 to H 0000270F Initial setting 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input C3 83 0089 Moving Average H 00000000 0 OFF Advanced Count H 00000001 1 2 times function setting H 00000002 2 4 times H 00000003 3 8 times H 00000004 4 16 times H 00000005 5 32 times C3 83 008A Alarm 4 Latch H 00000000 0 S H 00000001 1 O C3 83 008B Alarm 4 ON delay H 00000000 to H 000097 0 to 999 C3 83 008C Alarm 4 OFF delay H 00000000 to H 000003E7 0 to 999 1 Selection is possible only
96. Alarm 1 H 00000004 4 Alarm 2 H 00000005 5 Alarm 3 H 00000006 6 Alarm 4 H 00000007 7 Heater alarm H 00000008 8 HB alarm H 00000009 9 HS alarm H 0000000A 10 Input error H 0000000B 11 RSP input error H 0000000C 12 Program end output H 0000000D 13 RUN output H 0000000E 14 Integrated alarm H 0000000F 15 Work bit 1 H 00000010 16 Work bit 2 H 0000001 1 17 Work bit 3 H 00000012 18 Work bit 4 H 00000013 19 Work bit 5 H 0000001 4 20 Work bit 6 H 00000015 21 Work bit 7 H 00000016 22 Work bit 8 When control output 1 is a linear current output H FFFFFFFB 5 Simple transfer MV cooling H FFFFFFFC 4 Simple transfer MV heating H FFFFFFFD 3 Simple transfer PV H FFFFFFFE 2 Simple transfer ramp SP H FFFFFFFF 1 Simple transfer 5 2 H 00000000 0 Not assigned H 00000001 1 Control output heating H 00000002 2 Control output cooling 83 004 Control Output 2 Control output 2 is a relay output or voltage output for Assignment driving SSR H 00000000 to H 00000016 0 to 22 Same as for the Control Output 1 Assignment pa rameter When control output 2 is a linear current output H 00000000 to H 00000002 0 to 2 as for the Control Output 1 Assignment pa rameter except for items marked with 2 1 2 P END program end output can be set even when the program pattern is set to OFF but the function will be disabled a linear
97. Area CompoWay F n 2 7 2 10 Composite Write to Variable Area CompoWay F eee 2 7 2 12 4 0400 1 2 2 1 3 1 confirming operation of programless communicationis e e banh 6 19 copying parameter settings 6 13 CGRG 16 heh ss 4 2 4 3 D esie bs Beasties oe thee 4 2 data format ub Hi aed 2 2 4 2 dedicated protocol format 4 6 6 6 9 description of communications parameters 1 8 double word 3 2 2 Echoback Test 2 cce 2 7 2 15 979 9 fo ee en edo 4 6 4 15 end codes 2 3 2 4 error codes dee 4 5 ETX anui e M Ru e Rede 2 2 F EINS inihi eto a b tete me 1 2 Four byte 4 7 5 2 funi ction code s iine A d ate n e ce 4 2 functions Modbus detailed description 4 8 ic eene peret gei ndi 4 6 H highest communications unit 6 7 Host Link FINS 6 6 6 9 interface oe p err etus 1 3 M MC protocol format 4 6 6 6 9 adu
98. Auxiliary Output 1 Assignment parameter Level Advanced function setting C3 83 0053 Program Pattern H 00000000 0 OFF H 00000001 1 STOP H 00000002 2 CONT Initial setting C3 83 0054 Soak Time Unit H 00000000 0 Minutes H 00000002 2 Seconds C3 83 0055 Alarm SP Selection H 00000000 0 Set point during SP ramp 1 2 0 H 00000001 1 Hours 2 0 H 00000001 1 Set point C3 83 0056 Auxiliary Output 3 Assignment H 00000000 to H 00000016 0 to 22 Note Same as for the Auxiliary Output 1 Assignment parameter Advanced function setting C3 83 0057 Close Floating H 00000000 0 Floating H 00000001 1 Close C3 83 0058 Travel Time H 00000001 to H 000003E7 1 to 999 Initial setting 1 Selection is possible only with the E5DC and E5GC The D5DC must be manufactured in July 2014 or later version 2 2 or higher E5LIC Digital Temperature Controllers Communications Manual H175 1sr Humes ejqeueA L E 3 Communications Data for CompoWay F M bur Address Parameter name Setting monitor value Level C3 83 0059 PV Dead Band H 00000000 to H 0000270F 0 to 9999 Advanced C3 83 005B Manual MV Limit H 00000000 0 OFF function setting Enable H 00000001 1 ON C3 83 005 Direct Setting of H 00000000 0 OFF Position Propo
99. C Set the same communications baud rate for all of the Controllers and the PLC Setting the PLC is required only for programless communications Communications Setting Level Display condition None Parameter name Displayed characters Setting range Default Communications Unit 8 0 Master 1 No 1 to 31 Slaves Communications Baud 525 9 6 9600bps 9 6 Rate 19 2 19200bps 38 4 38400bps 57 6 57600bps 6 2 3 Send Data Wait Time This is the time that the will wait from the time that it receives a response from the PLC or for component communications from an slave until it sends the next command We recommend send data wait time setting of 1 Increase the set value of this parameter if the command is sent too soon to allow the PLC or for component communications the 5 1 slave to receive it dnies 20193 2 9 Communications Setting Level Display condition None Parameter name Displayed characters Setting range Default Send Data Wait Time 5d 0 to 99 ms 20 ms 6 2 4 Highest Communications Unit No Set the Highest Communications Unit No parameter to the highest communications unit number that is actually set on the connected Controllers Make sure that setting of the Highest Communications Unit No parameter agrees with the unit numbers of the EBLIC Controllers that are actually connected
100. C3 83 0070 Monitor Setting Item 3 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 C3 83 0071 Monitor Setting Item 4 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 C3 83 0072 Monitor Setting Item 5 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 E5LIC Digital Temperature Controllers Communications Manual H175 Level Advanced function setting 1517 L E 3 Communications Data for CompoWay F c Address Parameter name Setting monitor value Level C3 83 0073 PV SP No 1 Display H 00000000 0 Nothing displayed Advanced Selection H 00000001 1 PV SP function H 00000002 2 PV setting H 00000003 3 PV SP character display H 00000004 4 PV SP MV H 00000005 5 PV SP Multi SP No H 00000006 6 PV SP Soak time remain H 00000007 7 PV SP Internal SP ramp SP H 00000008 8 PV SP Alarm value 1 83 0074 MV Display Selection H 00000000 0 MV heating H 00000001 1 MV cooling C3 83 0075 PV Decimal Point H 00000000 0 OFF Display H 00000001 1 ON C3 83 0076 PV Status Display H 00000000 0 OFF Function H 00000001 1 Manual H 00000002 2 Stop H 00000003 3 1 H 00000004 4 Alarm 2 H 00000005 5 Alarm 3 H 00000006 6 Alarm 4 H 0000000
101. Communications 7 3 Troubleshooting Possible problems that can occur with component communications and corrective actions are given in the following table Status The set point or RUN STOP status will not change for a slave i e a Controller with a communications unit number other than 0 Cause and corrective action The wiring to the slave is not correct Page The communications settings for the slave are not correct The Protocol Setting parameter is not set to The Communications Unit No parameter is set to the same value as another slave The setting of the Communications Baud Rate parameter is not the same as the other slaves The Highest Communications Unit No parameter is not set to the highest communications unit number that is actually set The Communications Writing parameter is set to OFF 7 3 When the RUN STOP Does Not Change RUN STOP is assigned to an event input for the slave When the Set Point Does Not Change The set point from the master or the results of set point calculations exceeds the set point limiter of the slave 7 4 7 5 The set points or the RUN STOP status will not change for any of the slaves The wiring to the master i e the Controller with communications unit number 0 is not correct 7 2 The communications settings in the master are not correct The Protocol Setting parameter is not set to The Communication
102. D H 0000000E H 0000000F H 00000010 H 0000001 1 y 1 1 MV absolute value upper limit alarm MV absolute value lower limit alarm RSP absolute value upper limit alarm RSP absolute value lower limit alarm Valid only with a remote SP input H 00000012 H 00000013 1 1 16 17 18 19 Level Initial setting 2 2F01 Alarm 1 Latch H 00000000 0 OFF H 00000001 1 ON Advanced function Setting 0 04 2F02 Alarm 1 Hysteresis H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input OF06 2203 2 H 00000000 to H 00000013 0 to 19 Note Same settings as the Alarm 1 Type However the LBA loop burnout alarm cannot be set Initial setting OF08 2F04 Alarm 2 Latch H 00000000 0 OFF H 00000001 1 ON Advanced function setting OFOA 2F05 Alarm 2 Hysteresis H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input 2F06 Alarm 3 Type H 00000000 to H 00000013 0 to 19 Note Same settings as the Alarm 1 Type However the LBA loop burnout alarm cannot be set Initial setting OFOE 2F07 Alarm 3 Latch H 00000000 0 OFF H 00000001 1 ON Advanced function setting OF10 2F08 Alarm 3 Hysteresis H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog inpu
103. DM60 Response Flag fixed 0 DM1 DM31 DM61 Communications Status fixed Alternates between 0 and 1 DM2 DM32 DM62 Communications Monitor Parameter DM3 DM33 DM63 Status Upper Word DM4 DM34 DM64 Status Lower Word ae DM5 DM35 DM65 Status 2 Upper Word DM6 DM36 DM66 Decimal Point Monitor eds DM7 DM37 DM67 Process Value Process Value DM8 DM38 DM68 Internal Set Point DM9 DM39 DM69 Heater Current 1 Value Monitor DM10 DM40 DM70 MV Monitor Heating DM11 DM41 DM71 Not used DM13 DM43 DM73 Not used DM14 DM44 DM74 Do not use reserved If the default settings are used and a sensor is not connected the PV display on the 5 will show an input error 52 7 and the process value in the upload area will be 1320 528 hex Changing E5CC Settings 1 We will check the area that is used to change 5 set values The area that is used to change the set value is called the download area DM15 to DM29 is the download area for the No 0 Controller DM45 to DM59 is the download area for the No 1 Controller and DM75 to DM89 is the download area for the No 2 Controller E5LIC Digital Temperature Controllers Communications Manual H175 0 8 9 6 8 9 6 Programless Communications With the default settings the following parameters are set for the download areas
104. Data H 00000007 7 7 Length H 00000008 8 8 1108 3104 Communications Stop H 00000001 1 1 Bits H 00000002 2 2 110A 3105 Communications Parity H 00000000 0 None H 00000001 1 Even H 00000002 2 Odd 110C 3106 Send Data Wait Time H 00000000 to H 00000063 0 to 99 1200 3200 PF Setting H 00000000 0 Disabled Advanced H 00000001 1 Run function H 00000002 2 Stop setting H 00000003 3 RUN STOP H 00000004 4 100 AT execute cancel H 00000005 5 4096 AT execute cancel H 00000006 6 Alarm latch cancel H 00000007 7 Auto manual switch H 00000008 8 Monitor setting item H 00000009 9 Digit shift key 1204 3202 Monitor Setting Item 1 H 00000000 0 Disabled H 00000001 1 PV SP multi SP H 00000002 2 PV SP MV H 00000003 3 PV SP soak time remain H 00000004 4 Proportional band H 00000005 5 Integral time H 00000006 6 Derivative time H 00000007 7 Alarm value 1 H 00000008 8 Alarm value upper limit 1 H 00000009 9 Alarm value lower limit 1 H 0000000A 10 Alarm value 2 H 0000000B 11 Alarm value upper limit 2 H 0000000C 12 Alarm value lower limit 2 H 0000000D 13 Alarm value 3 H 0000000E 14 Alarm value upper limit 3 H 0000000F 15 Alarm value lower limit 3 H 00000010 16 Alarm value 4 H 0000001 1 17 Alarm value upper limit 4 H 00000012 18 Alarm value lower limit 4 H 00000013 19 PV SP Internal set point H 00000014 20 PV SP Alarm value 1 H 00000015 21 Proport
105. Device Name T C Set Value Reference Program 4 C Buffer Memory Display Format Modify value 2 32 32 16 f Open Save Do not dis Device 0 1 2 3 4 0 L 0 1 0 0 C Digital Temperature Controllers Communications Manual H175 a 6 Programless Communications With the default settings the following parameters are set for the download areas No 0 No 1 No 2 Parameter Value E5CC default settings D15 D45 D75 Request Flag fixed 1 0001 hex D16 D46 D76 Operation Command Code fixed 0 0000 hex D17 D47 D77 Set Point 0 0000 hex D18 D48 D78 Proportional Band 80 0050 hex D19 D49 D79 Integral Time 233 00E9 hex D20 D50 D80 Derivative Time 40 0028 hex D21 D51 D81 Alarm Value 1 0 0000 hex D22 D52 D82 Alarm Value Upper Limit 1 0 0000 hex D23 D53 D83 Alarm Value Lower Limit 1 0 0000 hex D24 D54 D84 Alarm Value 2 0 0000 hex D25 D55 D85 Alarm Value Upper Limit 2 0 0000 hex D26 D56 D86 Alarm Value Lower Limit 2 0 0000 hex D27 D57 D87 Heater Burnout Detection 1 0 0000 hex D28 D58 D88 Process Value Input Shift 0 0000 hex D29 D59 D89 SP Ramp Set Value 0 0000 hex 2 We will initialize the download areas with the set values from the 5 Controllers The download areas have not been initialized
106. Event input 1 OFF ON upper 17 Event input 2 OFF ON word 18 Event input OFF ON 19 Event input 4 OFF ON 20 Write mode Backup mode RAM write mode 21 Non volatile memory RAM Non volatile RAM z Non volatile memory memory 22 Setup area Setup area 0 Setup area 1 23 AT execute cancel AT canceled AT execution in progress 24 RUN STOP Run Stop 25 Communications writing OFF disabled ON enabled 26 Auto manual switch Automatic mode Manual mode 27 Program start Reset Start 28 Heater overcurrent CT2 Not generated Generated 29 Heater current hold CT2 Update Hold 30 Spare OFF 31 HS alarm 2 OFF ON Note 1 Spare bits are always OFF 2 When read in setup area 1 the status of the bits will be as follows Overcurrent A D converter error Input error HB and HS outputs Program end output Current hold Heating and cooling outputs Alarm outputs Last value held Last value held Last value held Cleared Cleared Last value held Cleared Cleared When the control output ON time is less than 30 ms for a control period of 0 1 s or 0 2 s or when it is less than 100 ms for any other control period the bit is set to 1 and the heater current is held at the last current value E5LIC Digital Temperature Controllers Communications Manual H175 2511816 pue sniels 0 6 3 Communications Data for CompoWay F Status 2 Details
107. F 3 1 Variable Area Setting Range List For communications using a variable type not enclosed in parentheses in the following table the set value is double word data 8 digits For communications using a variable type enclosed in parentheses the set value is single word data 4 digits For example variable type CO is double word data 8 digits and variable type 80 is single word data 4 digits Items expressed in hexadecimal in the Setting monitor value column are the setting range for CompoWay F communications The values in parentheses are the actual setting range When there is a section reference for a setting item refer to that reference for details Address Parameter Setting monitor value Level CO 80 0000 PV Temperature Use the specified range for each sensor Operation Analog Scaling lower limit 5 FS to Scaling upper limit 5 FS CO 80 0001 Status 172 Refer to 3 2 Status and Status 2 for details CO 80 0002 Internal Set Point 1 SP lower limit to SP upper limit CO 80 0003 Heater Current 1 H 00000000 to H 00000226 0 0 to 55 0 Value Monitor CO 80 0004 MV Monitor Standard H FFFFFFCE to H 0000041A Heating 5 0 to 105 0 Heating and cooling H 00000000 to H 0000041A 0 0 to 105 0 0 80 0005 MV Monitor H 00000000 to H 00000414 0 0 to 105 0 Cooling 80 0006 Heater Current 2 H 00000000 to H 00000226 0 0 to 55 0
108. H 00000000 to H 0000270F 0 0 to 999 9 C3 83 002 PV SP No 2 H 00000000 0 Nothing displayed Display Selection H 00000001 1 PV SP H 00000002 2 PV H 00000003 3 PV SP character display H 00000004 4 PV SP MV H 00000005 5 PV SP Multi SP No H 00000006 6 PV SP Soak time remain H 00000007 7 PV SP Internal SP ramp SP H 00000008 8 PV SP Alarm value 1 C3 83 002D MV Display H 00000000 0 H 00000001 1 83 002 Automatic Display H 00000000 0 a Return Time H 00000001 to H 00000063 1 to 99 C3 83 002F Alarm 1 Latch H 00000000 0 OFF H 00000001 1 ON C3 83 0030 Alarm 2 Latch H 00000000 0 OFF H 00000001 1 ON 83 0031 Alarm 3 Latch H 00000000 0 OFF H 00000001 1 ON C3 83 0032 Move to Protect H 00000001 to H 0000001E 1 to 30 Level Time C3 83 0033 Integrated Alarm H 00000000 to H 000000FF 0 to 255 Assignment C3 83 0034 Cold Junction H 00000000 0 Compensation Method OFF H 00000001 1 ON Note The alarm function can also be used in Digital Temperature Controllers that do not have any auxiliary outputs In this case confirm alarm occurrences via the status data E Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F joa Address Parameter name Setting monitor value Level C3 83 0038 Alarm
109. Manual Select H 00000000 0 OFF Addition H 00000001 1 ON 1022 3011 PV Status Display H 00000000 0 OFF Function H 00000001 1 Manual H 00000002 2 Stop H 00000003 3 Aun 1 H 00000004 4 Alarm 2 H 00000005 5 Alarm 3 H 00000006 6 Alarm 4 H 00000007 7 Alarm 1 to 4 OR status H 00000008 8 Heater alarm H 00000009 9 Status display message 1024 3012 SV Status Display H 00000000 to H 00000009 0 to 9 Function Note Same as for PV Status Display Function 1 Selection is possible only with the E5DC and E5GC D5DC must be manufactured in July 2014 or later version 2 2 or higher 2 You can use this parameter only with the E5EC PRL1 8 or E5AC PRL 8 manufactured in August 2014 or later version 2 2 or higher E5LIC Digital Temperature Controllers Communications Manual H175 The Digital Controller must be 1sr easy ejqeueA L G 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 1100 3100 Protocol Setting See H 00000000 0 CompoWay F Communicat note H 00000001 1 Modbus ions setting 1102 3101 Communications Unit No H 00000000 to H 00000063 0 to 99 1104 3102 Communications Baud H 00000003 3 9 6 Rate H 00000004 4 19 2 H 00000005 5 38 4 H 00000006 6 57 6 1106 3103 Communications
110. Manual is Qtganized zi m Pete Lat Hem PE EI Deis 13 Helated ien auia tie ete breite 13 Section 1 Communications Methods 1 1 Overview of Communications Methods eese eise esee eene nennen nennen nnns 1 2 1 1 1 La oTo Bre io a eel 1 2 1 1 2 Communications Specifications 22 23 23 2 1 2 1 1 3 Transmission Procedure 2 oio ete E eevee ens a oe me 1 3 1 1 4 nz gre 1 3 1 1 5 WING ahi eee es eas here ais eset ee epee a teens 1 4 1 1 6 Communications 4 000 00 000000 000 enne nennen nennen nennen nennen nens 1 6 1 1 7 Communications Parameter nennen nere nnne nennen nennen nnns 1 7 1 1 8 Description of Communications Parameters sessssseseeeeeeeenneee nennen 1 8 Section 2 CompoWay F Communications Procedures 14 241 Format tote 2 2 2 1 1 Command i tantu mus 2 2 2 1 2 BGG Calculation Example ret RU RR Rr 2 3 2 1 3 Response
111. N Download Setting 2 dN Download Setting 3 dN J Download Setting 4 dN Download Setting 5 dN 5 Download Setting 6 A Download Setting 7 7 Download Setting 8 dN A Download Setting 9 dN 9 Download Setting 10 iz Download Setting 11 dN ii Download Setting 12 dN i2 Download Setting 13 dN i3 This parameter cannot be used when the Protocol Setting parameter is set to Example of Changing a Setting Setting range 0 to 98 30 to 98 PY or Default 1 Communications Monitor 2 Status Upper Word 3 Status Lower Word 4 Status 2 Upper Word 6 Decimal Point Monitor 7 Process Value 8 Internal Set Point 11 Heater Current 1 Value Monitor 16 MV Monitor Heating 0 Nothing assigned 0 Nothing assigned 0 Nothing assigned 0 Nothing assigned 31 Set Point 61 Proportional Band 62 Integral Time 63 Derivative Time 32 Alarm Value 1 33 Alarm Value Upper Limit 1 34 Alarm Value Lower Limit 1 35 Alarm Value 2 36 Alarm Value Upper Limit 2 37 Alarm Value Lower Limit 2 45 Heater Burnout Detection 1 57 Process Value Input Shift 75 SP Ramp Set Value To set the Alarm Value 3 parameter for Download Setting 11 you would change the set value from 45 Heater Burnout Detection 1 to 38 Alarm Value 3 E5LIC Digital Temperature Controllers Communications Manual H175 dnies 0053 2 9
112. No 0 cable B jn Peripheral USB port S 9126 1 4 wor 5 CD UU Back of CP1W CIF11 DIP switch for operation settings oz RS 485 qr Ham mu Note Refer to the CX Programmer Operation Manual Cat No W446 for information on installing the CX Programmer and USB driver The application procedure is given below 4 START b Set the switches and wire the system Set the switches on the CP1W CIF11 and wire it to the E5CC Controllers Set up the PLC Use the CX Programmer to set up communications on the CP1E to enable communicating with the E5CC Controllers Set up the E5LIC Controllers Set up programless communications in the E5CC Controllers Check operation Use the CX Programmer to confirm that programless communications are operating Digital Temperature Controllers Communications Manual H175 6 21 S2d Saues q2 0 5 4 9 einpeoo4gd pue 9 6 Programless Communications 6 4 2 Switch Settings and Wiring Before you attach the CP1W CIF11 to the CP1E turn OFF pin 4 on the DIP switch for operation set tings on the back of the CP1W CIF11 and turn ON the rest of the pins Pin OFF ON Setting 1 No terminating resistance Terminating resistance on both Terminating resistance selection ends 2 4 wire 2 wire 2 wire
113. OFF the power supply before you start and never touch nor apply shock to the terminals or electric components When you insert the interior body of the Digital Controller do not allow the electronic components to touch the case Check for any corrosion on the terminals When you insert the interior body into the rear case confirm that the hooks on the top and bottom are securely engaged with the case E5LIC Digital Temperature Controllers Communications Manual H175 9 Trademarks Trademarks MELSEC and GX Works are trademarks of the Mitsubishi Electric Corporation Keyence KV STUDIO is a registered trademark of Keyence Corporation Other company names and product names in this document are the trademarks or registered trade marks of their respective companies C Digital Temperature Controllers Communications Manual H175 10 E Versions Versions Check the version on the nameplate on the ESL TIC Controller or on the label on the packing box If the version is not given the version of the EBLIC Controller is version 1 0 Product nameplate Package label The version is given here TYPE ESCC RXOASM 000 Ro DIGITAL CONTROLLER m INPUT MULT RANGE REM 6 The version is given here omron VOLTS 100 to 240 VAC 60 E5CC RX3ASM 00 50 60Hz FREQ DIGITAL CONTROLLER N LOT No DDMYYM 7 Kb E316989 E5000 ourt OMRON Corporation
114. Perform the procedure that is given in 6 4 4 5 Controller Setup 6 8 5 Checking Operation The SP and RUN STOP status of the EBL C Controllers will be changed to check operation Make sure that this will not create any problems in the controlled system Checking E5CC Monitor Values 1 Place the PLC into Monitor Mode Select Monitor Mode from the Monitor Simulator Menu on the KV STUDIO 2 The PLC Memory Dialog Box will be displayed Select Batch Monitor Mode from the Monitor Simulator Menu on the KV STUDIO 3 Change the display format to make the values easier to check Select the first display format and change it to Signed decimal 16 bits 4 We will check the E5CC monitor values The area where monitor values are checked is called the upload area DMO to DM 14 is the upload area for the No 0 Controller DM30 to DM44 is the upload area for the No 1 Controller and DM60 to DM74 is the upload area for the No 2 Controller Digital Temperature Controllers Communications Manual H175 6 58 6 Programless Communications With the default settings the following parameters are set for the upload areas Check the values in the upload areas to see if they are the same as those that are given in the following table It is not necessary to check address for which is given in the Value column No 0 No 1 No 2 Parameter Value DMO DM30
115. RC SRC not included in command text Sub address error Illegal unsupported sub address 16 There was no sub address SID and command text 6 Sub address was less than two characters and there was no SID and command text 18 Frame length error The received frame exceeds the specified supported 4 number of bytes end code is returned for each command frame received that was addressed to the local node No response will be returned unless the frame contained all elements up to the ETX and BCC Error Detection Priority indicates the priority when two or more errors occur simultaneously 5 Digital Temperature Controllers Communications Manual H175 2 3 yewo eed 1 2 298 2 1 2 2 CompoWay F Communications Procedures 2 1 4 Communications Data Communications Set monitor format values CompoWay F 8 digit hexadecimal 2 s complement Decimal point is removed and the result is converted to hexadecimal Example conversion 105 0 1050 gt H 0000041A Negative values Decimal point 2 1 5 End Code Example The following examples show the end code when a command did not end normally Example 1 Illegal Sub address No SID and No Command Text Command Node number Sub address BCC Response Node number Sub address End code BCC End code is 16 sub address error The sub address error code is used because the sub address error has a
116. SLIC Digital Temperature Controllers Communications Manual H175 5 3 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0702 2701 Proportional Band H 00000001 to H 0000270F 0 1 to 999 9 Adjustment Cooling 0704 2702 Integral Time Cooling H 00000000 to H 0000270F 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s 0706 2703 Derivative Time Cooling H 00000000 to H 0000270F 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s 0708 2704 Dead Band H FFFFF831 to H 0000270F 199 9 to 999 9 for temperature input 19 99 to 99 99 for analog input 070A 2705 Manual Reset Value H 00000000 to H 000003E8 0 0 to 100 0 070C 2706 Hysteresis Heating H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input 070E 2707 Hysteresis Cooling H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input 0710 2708 Control Period Heating H FFFFFFFE 2 0 1 s Initial setting H FFFFFFFF 1 0 2 s H 00000000 0 0 5 s H 00000001 to H 00000063 1 to 99 0712 2709 Control Period Cooling H FFFFFFFE 2 0 1s H FFFFFFFF 1 0 2 s H 00000000 0 0 5 s H 00000001 to H 00000063 1 to 99 0714 270A Position Proportional H 0
117. UTION avoided may result in minor or moderate injury or in prop erty damage Symbols Symbol Meaning General Caution Indicates non specific general cautions warnings and dangers Caution e Electrical Shock Caution Indicates possibility of electric shock under specific conditions General Prohibition Indicates non specific general prohibitions Prohibition Disassembly Prohibition Q Indicates prohibitions when there is a possibility of injury such as from electric shock as the result of disassembly Mandatory General Caution Caution Indicates non specific general cautions warnings and dangers 4 Digital Temperature Controllers Communications Manual H175 Safety Precautions Safety Precautions A CAUTION Minor injury due to electric shock may occasionally occur Do not touch the terminals while power is being supplied Electric shock fire or malfunction may occasionally occur Do not allow metal objects conductors cuttings from installation work or moisture to enter the Digital Controller or a Setup Tool port Attach the cover to the front panel Setup Tool port whenever you are not using it to prevent foreign objects from entering the port Minor injury from explosion may occasionally occur Do not use the product where subject to flammable or explosive gas Fire may occasionally occur Do not allow dirt or other foreign objects to enter a Setup Tool port or between th
118. ack Test GCompoWay F 2 7 2 15 6 p 4 6 4 15 end codes CompoWAy F eene 2 3 2 4 error codes Modbus eii tait tees 4 5 ETX icai doge Atto 2 2 F PINS iit e duit e Bich oe ae deu 1 2 Four byte 2 4 7 5 2 TUNCUON CODE ended 4 2 functions Modbus detailed description 2 0050 122 4 8 RE ER 4 6 H highest communications unit No 6 7 Host Link FINS 6 6 6 9 E 1 3 MC protocol format 4 6 6 6 9 Modbus 1 2 4 1 5 1 N rio response 2 m 4 5 node number hice Sanna gece 2 2 number of elements 2 7 Modbus i dit Bb me 4 7 operation command CompoWaY E dates 2 7 Modbus ies 4 12 operation command codes 6 19 P PDU str cture 2 6 PIG apt tma ue reddo odes 6 5 programless communications 6 3 protocol setting cried rete 1 8 6 6 l 3 R range of operation for programless COMMUNICATIONS eee 6 19 Read Controller Attributes CompoWay F 2 7 2 13 Read Controller Status CompoWay F 2 7 2 14 Read Variable Area CompoWay F
119. acter times minimum Slave address Specify the unit number The unit number can be set between H 00 to H 63 hexadecimal 0 to 99 decimal Specify H 00 for a broadcast transmission No responses will be returned for broadcast transmissions Function code The function code is a 1 byte hexadecimal code that indicates the type of command sent from the host device This is the text data associated with the specified function code Specify the required data such as the variable address or setting data Set hexadecimal Cyclic Redundancy Check CRC 16 This check code is calculated with the data from the slave address to the end of the data The check code is 2 byte hexadecimal Silent interval of 3 5 character times minimum E C Digital Temperature Controllers Communications Manual H175 a 4 Modbus Communications Procedure CRC 16 Calculation Example Messages are processed one byte at a time in the work memory a 16 bit register known as the CRC register 1 The CRC register is initialized to H FFFF 2 An XOR operation is performed on the content of the CRC register and the first byte of the message and the result is returned to the CRC register 3 The MSB is packed with zeroes and the CRC register is shifted 1 bit to the right 4 If the bit shifted from the LSB is 0 step is repeated next bit shift processing If the bit shifted from the
120. addresses CompoWay F 2 02 nete 2 7 Modb s iren eei inia 4 7 area definitions 2 8 2 6 areas and first address of linked data 6 8 ASUILITSt cioe eed A 2 B BGG 2 2 2 3 C command frame CompoWay F bere 2 2 Modbus RERO ids ERAI 4 2 command eter hid 2 2 communications baud rate 1 6 1 8 6 7 communications data CompoWAy F 2 4 3 1 Modbus 5 1 communications data length 1 6 1 8 communications monitor 2 2 22 6 16 communications node number 6 10 communications parameter setup 1 7 communications parameters 1 6 communications parity 1 6 1 8 communications protocol 1 6 1 8 communications specifications 1 2 communications stop bits 1 6 1 8 communications unit 6 7 communications unit number 1 6 1 8 communications writing 2 2 6 15 component communications 7 2 Composite Read from Variable
121. an the protect level AT auto tuning was in progress Non volatile memory error For details on AT auto tuning refer to the E5 Digital Temperature Controllers User s Manual Cat No H174 5 Precautions Alarm Function Even though alarms are not displayed on the Controller s display they function normally in communications 2 3 3 Composite Read from Variable Area This service reads in order the contents of specified addresses in the variable area Service Request PDU Bt 7 position Bit position 010 010 Number of elements x8 or 4 Read data 2 Number of elements x8 or 4 Note The read data is read together with the variable type in the order specified by the command 2 10 Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures 1 Variable Type and Read Start Address For details on variable types and read start addresses refer to Section 3 Communications Data for CompoWay F 2 Bit Position Bit access is not supported Fixed to 00 3 Number of Read Data Items Variable Type Read Data Bit Position Counted As 1 Item SODIAIOS JO uonduoseg 2 2 Read data length Number of read data items For double word variable type CO C1 or C3 20 max For word variable type 80 81 or 83 25 max Note The following table gives the maximum number of read data items when double word
122. ayed only when the Protocol Setting parameter is set to CompoWay F C Digital Temperature Controllers Communications Manual H175 1 7 BOIUNWILWOD JO L L 5 suon dnjeg 7 L L 1 1 Communications Methods 1 8 Description of Communications Parameters When communications parameter settings have been changed the new settings must be enabled by resetting the Controller e Protocol Setting PSEL The communications protocol can be selected Set CompoWay F or Modbus e Communications Unit No L Na This parameter is for setting a unique unit number for each of the Digital Controllers This unit num ber is set so that the host can identify the Digital Controller when communications are carried out with the host The unit number can be set to an integer value between 0 and 99 The default is 1 When two or more Digital Controllers are used do not set the same unit number Doing so will pre vent normal operation e Communications Baud Rate 575 This parameter is for setting the baud rate for communications with the host The communications baud rate settings are as follows 9 6 9600 bps 19 2 19200 bps 38 4 38400 bps or 57 6 57600 bps Communications Data Length i EN This parameter is for setting the number of communications data bits Set either 7 bits or 8 bits e Communications Stop Bits 55 This parameter is for
123. be set 5 Digital Temperature Controllers Communications Manual H175 Level Initial setting 1sr Humes L E 3 Communications Data for CompoWay F Address Farameisi Setting monitor value type name C3 83 0010 Communications H 00000000 to H 00000063 0 to 99 Unit No C3 83 0011 Communications H 00000003 3 9 Baud Rate H 00000004 4 2 H 00000005 5 En H 00000006 6 5 C3 83 0012 Communications H 00000007 7 T Data Length H 00000008 8 8 C3 83 0013 Communications H 00000001 1 1 Stop H 00000002 2 2 C3 83 0014 Communications H 00000000 0 None Parity H 00000001 1 Even 1 After communications parameters have been changed reset the Digital Controller to enable them H 00000002 2 Odd Level Commu nications setting Note The alarm function can also be used in Digital Temperature Controllers that do not have any auxiliary outputs In this case confirm alarm occurrences via the status data E Digital Temperature Controllers Communications Manual H175 3 Communications Data for CompoWay F Sena Address Parameter name Setting monitor value Level 5 C3 83 0016 Event Input H 00000000 0 None Initial 2 Assignment 14 H 00000001 1 RUN STOP setting 5 H 00000002 2 Auto Manual Switch 5 H 00000003 3
124. box select the Word Multi point Option in the Monitor Format Area select the 10 Points Option in the Word Device Word Multi point Format Area and then click the OK Button Display Format Monitor Format Display Value Switch No of Points Points of word device that display in 1 line Bit 16bit Integer DEC Bit Device Bit and Word Format 32bit Integer HEX C Bit and Word 10Points 16 Points C Real Number 32Bit Bit Order Word Device Word Multi point Format C 0 Word Mult point gt C ASCII C p g 8 Points Display Examples xoan x140 C Bit Multi point seues D 236141 0 Bunoeuuo 9 9 4 We will check the E5CC monitor values The area where monitor values are checked is called the upload area DO to D14 is the upload area for the No 0 Controller D30 to D44 is the upload area for the No 1 Controller and D60 to D74 is the upload area for the No 2 Controller 2 9 9 9 Device Device Name 00 T C Set Value Reference Program C Buffer Memory E Display Format Open Save Do not dis Modify Value 2 wW ia 32 32 esc C Digital Temperature Controllers Communications Manual H175 6 45 6 Programless Communications With the default settings the following parameters are set for the upload areas Check the values in the upload areas
125. cations Manual H175 function setting 1sr Humes L E 3 Communications Data for CompoWay F Variable type Address Parameter name Setting monitor value Level C3 83 00 Simple Transfer H FFFFF831 to H 0000270F 1999 to 9999 Initial setting Output 1 Upper Limit 83 00 Simple Transfer H FFFFF831 to H 0000270F 1999 to 9999 Output 1 Lower Limit C3 83 00 FB Moving Average H 00000000 0 OFF Advanced Count 2 H 00000001 1 2 times function setting H 00000002 2 4 times H 00000003 3 8 times H 00000004 4 16 times H 00000005 5 32 times C3 83 00CD Valve Opening H 00000000 0 Measured opening Initial setting Monitor Selection 2 H 00000001 1 Estimated opening d 1 Selection is possible only with the ESCC U E5DC and E5GC and only when there is a control output that is a linear current output The EBCC U must be manufactured 2014 or later version 2 2 or higher and the E5DC must be manufactured in July 2014 or later version 2 2 or higher 2 Youcan use this parameter only with the E5EC PRL1 8 or EBAC PRLI 8LILT The Digital Controller must be manufactured in August 2014 or later version 2 2 or higher Digital Temperature Controllers Communications Manual H175 3 22 E 3 Communications Data for CompoWay F 3 2 Status a
126. cessing The write operation is not performed do not append write 0000 data to the service request PDU and processing ends in a normal completion Double word 0001 to 0018 The write operation is performed and processing ends in a variable type CO C1 or C3 1 to 24 normal completion Word 0001 to 0030 variable type 80 81 or 83 1 to 48 5 Digital Temperature Controllers Communications Manual H175 2 9 2 CompoWay F Communications Procedures 4 Response Code Normal Completion Responsecode Name _ Description 0000 Normal completion No errors were found Error Occurred Response code Error name Cause 1002 Command too short The command is too short 1101 Area type error The variable type is wrong 1103 Start address out of range error Write start address is out of range End address out of range error The write end address write start address 1104 number of elements exceeds the final address of the variable area 1003 Number of elements data The number of data does not match the number of mismatch elements Parameter error Bit position is not 00 1100 The write data is out of the setting range 3003 Read only error Variable type CO was written to Operation error The Communications Writing parameter is set to OFF disabled Attempted to write to a parameter in setup area 1 from setup area O 2203 Attempted to write to a protect parameter from other th
127. ch the communications specifications of the EBLIC the host When using a 1 N connection set the same communications specifications in all of the Units Each Communications Unit must have a unique unit number This section explains how to set the E5L C s communications specifications For details on the host refer to the user s manual provided with the host C Digital Temperature Controllers Communications Manual H175 1 5 BOIUNLILWOD JO L L 5 suon 9 1 1 1 Communications Methods 1 1 6 Communications Parameters The EBLIC s communications specifications are set the communications setting level These parame ters are set on the E5 C s front panel The following table shows the communications parameters and their setting ranges Item Code Settings Set Values Communications protocol PSEL CompoWay F Modbus EWF Mad setting Communications unit number 01099 0 1 to 99 Communications baud rate bPS 9 6 19 2 38 4 57 6 kbit s 9 6 19 2 38 4 57 6 kbit s Communications data length LEN 7 8 bit 7 8 bit Communications stop bits Shek 1 2 1 2 Communications parity PREY None Even Odd NaNE EVEN add Send data wait time 0 to 99 0 to 99 ms default time 20 ms Highlighted values indicate default settings When the Protocol Setting parameter is set to Modbus the communications data length must be 8
128. d Settings 24400040 00 6 11 6 2 9 Copying Parameter Settings ceo cef reete re terere tits eed ds 6 13 6 2 10 Communications nnne nnne nnne nennen nne AAEN 6 15 6 2 11 Communications Monitor Parameter ssessseseeeeeeeennee nene nere 6 16 Controlling Programless nennen nnne nnne 6 17 6 3 1 Controlling Programless Communications with the Request 6 17 6 3 2 Response Flag iia iem e gere cep Peste is nepal 6 18 C Digital Temperature Controllers Communications Manual H175 15 6 3 3 Range of Operation for Programless 6 19 6 3 4 Operation Command Godes REED I HE PRU Oder a 6 19 6 3 5 Confirming Operation of Programless Communications eeeeeeeeeenes 6 19 6 3 6 Write Mode n RP RR ERR TR ERROR DINE 6 20 6 3 7 Troubleshooting m ener etu eel wl eee 6 20 6 4 Connecting to CP series 6 21 6 4 1 Configuration and Procedure sese eene nnne nnne nennen nennen enne nnns 6 21 6 4 2 Switch Settings and Writ
129. d by the communications method Read the sections that are applicable to the system being used Communications Methods CompoWay F Communications Procedures Communications Data for CompoWay F Modbus Communications Procedure Communications Data for Modbus Programless Communications Component Communications Appendices Related Manuals For details on the functions of the Digital Controllers refer to the E5 Digital Temperature Con trollers User s Manual Cat No H174 E a Digital Temperature Controllers Communications Manual H175 13 5 EEE uiris 1 Terms and Conditions Agreement eese nennen 2 Warranty Limitations of Liability 2 Application Gonsideratlons 5 p ociteno e paa ieu iioi itd 3 3 Safety Precautioni Scania Fe ETRAS SACER RAT suU EE 4 Definition of Precautionary Information 4 Symbols ue E et ert GU p e es eite ut 4 Precautions Tor Sale pen yox pi coin a 7 P 10 lip Ame 11 12 Sections in This Mariual aUe E rex Pao 13 How This
130. d execute the copy operation If you select ALL the parameters settings will be copied to all of the slaves If you select number the parameters settings will be copied to the slave with the selected communications unit number Set value F r Description Copying is not in progress The display will automatically return to aF F when the copy operation is completed normally If the copy operation fails will be displayed instead of oF F The asterisks will be replaced with the communications unit number of the slave where copying failed This value will be maintained until the copy operation is completed normally or until you return to the operation level Example If copying failed at the slave with communications unit number 2 002 will be displayed r The parameter settings are copied to the slaves starting with the slave with communications unit number 1 and continuing on to the slave with the communications unit number that is set in the Highest Communications Unit No parameter When copying is started the PV display on the slave will change to The copying operation is completed when all of the slaves are reset 1 to 31 The parameter settings are copied to the slave with the specified communications unit number and then all of the slaves are automatically reset Note 1 You cannot cancel copying once the copying operation has been started Even if you change the set valu
131. d specifying the number of elements in multiples of 2 Two byte Mode One element uses 2 bytes of data so specify one element units Reading and writing in 2 byte data units is executed by specifying 1 element units Set Values The values read from the variable area or written to the variable area are expressed in hexadecimal ignoring the decimal point position Negative values are expressed in 2 s complement format Example D 105 0 H 0000041A The variables are 4 digit or 8 digit hexadecimal values Negative values are expressed in 2 s complement format The values are hexadecimal values with no decimal point indication For example if the 5 process value is read in 4 byte mode when the process value is 105 0 the read value will be H 0000041A 105 0 1050 H 00000414 E a C Digital Temperature Controllers Communications Manual H175 4 7 4 Modbus Communications Procedure 4 4 Detailed Description of the Functions 4 4 1 Variable Read Multiple To read from the variable area set the required data in the command frame as shown in the following diagram Command Frame Slave Function Number of CRC 16 address code Read start address Elements H 03 1 1 2 2 2 bytes Name Description Slave address Specify the 5 unit number The unit number can be set between H 01 and H 63 hexadecimal 1 to 99 decimal Function code The Read Variable Area function s f
132. dded to indicate that the response is an error response Example Received function code H 03 Function code in response frame when an error occurred H 83 Error code This code indicates the kind of error that occurred Cyclic Redundancy Check CRC 16 This check code is calculated with the data from the slave address to the end of the data The check code is 2 byte hexadecimal Digital Temperature Controllers Communications Manual H175 4 Modbus Communications Procedure 4 1 3 Error Codes Error End code Name Description detection priority H 01 Function code An unsupported function code was received 1 error H 02 Variable address The specified variable area address is out of range 2 error H 03 Variable data The amount of data does not match the number of 3 error elements The byte count is not 2 times the number of elements The response length exceeds the size of the communications buffer The command code or related information in the operation command is wrong or the write data is not in the setting range H 04 Operation error The write data contents are not allowed in the present 4 operation mode The Communications Writing parameter is set to OFF disabled Attempted to write to a parameter in setup area 1 from setup area 0 Attempted to write to a protect parameter from other than the protect level AT execution is in progress The command cannot be proce
133. de Name Description H 06 Normal No errors were found completion Error Occurred Error Function code Name Description code H 86 H 02 Variable The write variable address is incorrect address error H 03 Variable data The write data is incorrect error The write data is out of the setting range Command code or related information are incorrect H 04 Operation The Controller cannot write the data in its error present operating status The Communications Writing parameter is set to OFF disabled The command is received regardless of the Communications Writing parameter setting ON OFF Attempted to write to a parameter in setup area 1 from setup area O Attempted to write to a protect parameter from other than the protect level AT execution is in progress The command cannot be processed For details refer to 5 Operation Commands and Precautions following this table Note For details on variable writing refer to4 4 2 Variable Write Multiple For details on AT refer to the E5 Digital Temperature Controllers User s Manual Basic Type Cat No H174 4 Example Command and Response The following example shows the command response for a Stop command In this case the slave address is 01 Stop command command code 01 related information 01 Address H 0000 fixed Write data H 0101 Run Stop Stop command 5 Operation Commands and Precautions This infor
134. download settings 6 11 V Variable area un Date qu eene 4 7 variable area setting range list CompoWay F nete er cea qu eie iet 3 2 5 m onines 5 2 Variable Read Multiple Modbus 4 8 variable type 2 6 4 Variable Write Multiple Modbus 4 10 Variable Write Single Operation Command ModbUs nie EIE peer 4 12 WOISIONS cisco edP Ree RS 1 11 WIN Gees st E 1 4 Write rident 6 20 Write Variable Area CompoWay F 2 7 2 9 E5LIC Digital Temperature Controllers Communications Manual H175 Authorized Distributor
135. ds of PLC memory Only 12 parameters can be read for Mitsubishi FX series or Keyence KV series PLOs You can set the PLC memory area and addresses to use for programless communications You can copy settings between 50 Controllers to greatly reduce setup work and setting mistakes Up to 13 parameters can be set for reading and You can change the PLC up to 13 parameters can be set for writing memory area and addresses PLC memory E5CC No 0 PV status etc No 0 Upload Area t Each Controller is allocated 30 words n sv Set point alarm value etc e ele No 0 o Download Area No 1 i Upload Area t d isv No 1 M Download Area No 2 i Upload Area No 2 Download Area Settings can be copied 5 Digital Temperature Controllers Communications Manual H175 6 3 suoneoiunuiulo 55 1 9 9 6 Programless Communications 6 1 3 Operation for Programless Communications Programless communications are performed in the following order of communications unit numbers 0 master 1 2 gt gt Highest communications unit number gt 0 1 The master the Controller with communications unit number 0 starts programless communications approximately five seconds after the power supply to it is turned ON
136. e those for which is not displayed by specifying their communications unit numbers individually other than ls the Protocol Setting parameter set to something Are the communications unit numbers incorrect ls the communications baud rate set to something other than 9 6 YES Y The communications unit number of the slave where the error occurred is also being used by a downstream slave YES Correct the set values return to the operation level and then execute the copy again from the master using ALL E5 C Digital Temperature Controllers Communications Manual H175 6 Programless Communications Note 1 If you cycle the power supply to the Controllers after the error occurs perform procedure a given above 2 f you cannot solve the problem with the above flowchart or if the situation becomes too confusing cycle the power supply to all of the 50 Controllers and then perform procedure a given above to copy the parameter settings to all of the slaves Copying Procedure When Replacing a Controller Replacing a Slave i e a Controller with a Communications Unit Number Other Than 0 1 Replace the wire it and then turn ON the power supply 2 Change all of the ESL IC Controllers to the initial setting level and stop programless communications The above step is not req
137. e during the copying operation the current processing will be continued 2 If copying fails the copying operation will be aborted and the parameter settings will not be copied to the remaining slaves For a Mitsubishi PLC the ERR indicator on the Serial Communications Module will light during the copying process but this does not indicate an error The ERR indicator will go out when the PLC is restarted Refer to 6 4 4 E5 C Controller Setup for specific copying procedures Troubleshooting Check the slave where the error occurred Y displayed YES Execute the copy again from the master using ALL Y from the master Is the model number of the slave different YES Copying is not possible Copy the parameter settings to the remaining slaves by specifying Y o their communications unit numbers individually Is the wiring incorrect YES Turn OFF the power supply and correct the wiring a If there are a lot of slaves to which the settings NO were not copied set the Protocol Setting parameter to and the Communications Baud Rate parameter to 9 6 return to the operation level Set the communications baud rate of the master to 9 6 return to the operation level and then execute the copy again using LE b If there are only a few slaves to which the settings were not copied copy the parameter settings to the remaining slaves i
138. e PLC If it is longer than the value set 6 10 for the Receive Data Wait Time parameter change the set value of this parameter so that it is longer than the cycle time The ERR indicator on the The power supply to the Controllers was not turned ON or 6 4 Serial Communications Module is lit for a Mitsubishi PLC OFF at the proper time Note For information on other problems refer to A 2 Troubleshooting Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 4 Connecting to CP series PLCs 6 4 1 Configuration and Procedure The following configuration is used as an example in giving the setup and application procedures for programless communications All of the E5CC Controllers must be the same model Copying parameter settings is not possible if the models are different 00000 to 00089 are used in the PLC memory The default 5 parameter allocations are used A commercially available USB2 0 cable is used IBM PC AT or compatible USB port CX Programmer CP1E CPU Unit RS 422A RS 485 Option Board CP1E N30DL Support Software 1 11 5 Commercially available USB Dm
139. e Re uo eR RUP ore Rus 2 6 2 2 2 Area Definitions 2 6 2 2 3 Code Variable Type 2 6 2 2 A AddressesS EUER eR AU A ORE BA OR RR 2 7 2 2 5 2 7 2 2 6 List of Services Main Request Codes and Sub Request Codes 2 7 2 3 Detailed Description of the Services 2 8 2 3 1 Read Variable 2 8 2 3 2 Write Variable 2 9 2 3 3 Composite Read from Variable Area 2 10 2 3 4 Composite Write to Variable Area 2 12 2 3 5 Read Controller 2 13 2 3 6 Read Controller Status 2 14 22857 Echoback Test eden esce prede 2 15 2 3 8 Operation 2 16 2 4 Response Code 151 2 21 Digital Temperature Controllers Communications Manual H175 2 1 2 CompoWay F Communications Procedures 2 1 2 1 1 Data Format Hexadecimal values are expressed by adding the prefix H before the number e g H 02 Numbers shown witho
140. e front panel of the Controller When the mode is switched from RAM write mode to backup mode the parameters in the operation adjustment levels excluding read only parameters are written to non volatile memory The RAM write mode is enabled only when the Communications Writing parameter is set to ON enabled Consequently when the Communications Writing parameter setting is changed to OFF disabled the parameters in the operation adjustment levels excluding read only parameters are written to non volatile memory even if the mode is set to RAM write mode Save RAM Data This command writes the parameters in the operation adjustment levels excluding read only parameters to non volatile memory The setting can be accepted in both setup area 0 and setup area 1 E Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures Software Reset Restarts processing from the point when power is turned ON The setting can be accepted in both setup area 0 and setup area 1 Move to Setup Area 1 This command moves to setup area 1 and can be accepted at both setup areas 0 and 1 If the initial setting communications protect is set to 2 an operation error will be generated and the move to setup area 1 will be prohibited When this move is carried out from setup area 0 the display indicates the Input Type parameter in the initial setting level When
141. e operating END 5 Digital Temperature Controllers Communications Manual H175 6 49 6 Programless Communications 6 7 2 Wiring Set the terminating resistance switch on the front panel of the FX3U 485ADP MB to 110 3300 OPEN 1100 Wire the FX3U 485ADP MB to the 5 Controllers as shown below 120 1 2 W FX3U 485ADP MB Shield B Shield B Shield B terminating resistance olo RDB SDA SDB O SG Note 1 Use a terminating resistance of at least 54 Q 2 3 The maximum transmission distance is 500 m For wiring methods refer to 4 5 1 One pair wiring under D Computer Link in the FX Series User s Manual Data Communication Edition JY997D16901 6 7 3 PLC Setup Set up communications on the FX3U 485ADP MB to enable communicating with the E5CC Controllers PLC operation will stop and the power supply will be cycled during the setup procedure Make sure that this will not create any problems in the controlled system Connecting to the PLC 1 Connect the computer to the FX series CPU Module with a USB cable and then start GX Works2 2 Select Online Read from PLC from the menu bar MELSOFT Series GX Works2 Untitled Project i Project Edit Find Replace Compile Online Deby Diagnostics Tool Window K Read from PLC Write to PLC Verify with PLC
142. e pins on the connectors on the Setup Tool cable Minor electric shock fire or malfunction may occasionally occur Never disassemble modify or repair the product or touch any of the internal parts CAUTION Risk of Fire and Electric Shock a This product is UL listed as Open Type Process Control Equipment It must be mounted in an enclosure that does not allow fire to escape externally b More than one disconnect switch may be required to de energize the equipment before servicing c Signal inputs are SELV limited energy d Caution To reduce the risk of fire or electric shock do not interconnect the outputs of different Class 2 circuits If the output relays are used past their life expectancy contact fusing or burning may occasionally occur Always consider the application conditions and use the output relays within their rated load and electrical life expectancy The life expectancy of output relays varies considerably with the output load and switching conditions gt gt 1 An SELV separated extra low voltage system is one with a power supply that has double or reinforced insulation between the primary and the secondary circuits and has an output voltage of 30 V r m s max and 42 4 V peak max or 60 VDC max 2 A class 2 circuit is one tested and certified by UL as having the current and voltage of the secondary out put restricted to specific levels 5 Digital Temperature Controllers Comm
143. e values given in the above table Confirm this for the No 1 and No 2 Controllers as well We will change the set point for the No 0 Controller Double click DM17 Set Point on the Batch Monitor Dialog Box enter 100 64 hex as the value and press the Enter Key Confirm that DMO Request Flag remains at 1 Enable Writing and that the SV Display on the No 0 Controller changes to 100 Confirm this for the No 1 and No 2 Controllers as well Stopping the E5CC Controllers 1 2 We will run the No 0 Controller Change the RUN STOP parameter 7 5 in the operation level of the 5 to RUN AUN For a Controller with event inputs the Event Input 2 Assignment parameter Ev 2 in the initial setting level is set to RUN STOP 5257 so the RUN STOP parameter will be dis played Change the Event Input 2 Assignment parameter to NONE NaNE and then change the RUN STOP parameter to RUN We will switch the No 0 Controller to STOP Change the display format to Hexadecimal 16 bit on the Batch Monitor Dialog Box Then confirm that DM15 Request Flag is 1 Enable Writing double click DM16 Operation Command Code enter 0101 hex Stop and press the Enter Key DM16 will change to 0 DMO Response Flag will remain at 1 Enable Writing and STOP will be displayed on the No 0 Controller E Digital Temperature Controllers Communications Manual H175 6 Programless Communications
144. eived regardless of the Communications Writing 2203 parameter setting ON OFF Processing could not be performed For details refer to 3 Operation Commands and Precautions below Non volatile memory error 3 Operation Commands and Precautions Communications Writing Set the Communications Writing parameter to ON enabled or OFF disabled with the related information setting The setting can be accepted in both setup area 0 and setup area 1 An operation error will occur however if enabling or disabling communications writing is set for an event input e RUN STOP Set control to run or stop with the related information setting The setting can be accepted in both setup area 0 and setup area 1 An operation error will occur however if RUN STOP is set for an event input Digital Temperature Controllers Communications Manual H175 2 17 2 CompoWay F Communications Procedures Multi SP Set eight set points beforehand in the adjustment level so that you can switch to a desired set point The setting can be accepted in both setup area 0 and setup area 1 An operation error will occur in the following situations When AT is being executed When the Number of Multi SP Points parameter is set to OFF When the Number of Multi SP Points parameter is not set to OFF but Multi SP No Switch is set for an event input AT Execute Cancel Set AT auto tuning to execute or cancel with the related
145. endix G CJ1W CIF11 RS 422A Converter in the SYSMAC CJ NSJ Series Operation Manual Cat No W393 6 5 3 PLC Setup Set up communications on the CJ1W SCU21 V1 to enable communicating with the E5CC Controllers PLC operation will stop and the power supply will be cycled during the setup procedure Make sure that this will not create any problems in the controlled system BuuiM pue sDumes 2 5 9 Connecting to the PLC Refer to Connecting to the PLC in 6 4 3 PLC Setup 5 Digital Temperature Controllers Communications Manual H175 6 33 6 Programless Communications Communications Settings in the Serial Communications Unit SCU 1 The PLC operating mode must be changed to PROGRAM mode to enable changing the SCU communications settings Select PLC Operating Mode Program from the menu bar A confirmation dialog box will be displayed Click the Yes Button 22 CX Programmer Running NewPLC1 NewProgram1 Section1 Diagram n File Edit View Insert PLC Program Simulation Tools Window Help ra m amp amp Work Online Crow 1 v Auto Online zs HEU Monitor FI Run Program Check Options v9 3 Make sure that there aren t any problems if the PLC is stopped Do you wish to switch the PLC into program mode NewProject NewPLC1 CJ2M Stop Program Mode mE Data Types 3
146. enne nrnnnnnnnrn nnns 2 13 2 3 6 Read Gontroller 2 14 2 3 7 2 15 2 3 8 Operation GCommarid Menten See ice beet ey 2 16 Response Code LISL eee iua se eta Dese cu 2 21 Communications Data for CompoWay F Variable Area Setting Range nennen nenne nnn nn nnns nnn 3 2 yd DL 3 23 Modbus Communications Procedure Data Format aie deris cider E E E 4 2 4 1 1 Gommiand 3 222 bi cee M LL E 4 2 4 1 2 Response Frame ae ieee ied ats eed 4 4 4 1 3 Error Codes cie ted enr tatc 4 5 Function LISt coetu kar ceo nona ora E A A A E AE 4 6 NEUEN NIRE 4 7 Detailed Description of the 4 8 4 4 1 Variable Read 404022 4 00 60000010 4 8 4 4 2 Variable Write deaur onsite rcr hee aah ree 4 10 4
147. er en 1 2 4 1 5 1 N o esporise intet EORR CERIS 4 5 node Number 2 2 number of elements GompoWay F ee RS 2 7 MOGDUS zr RTI 4 7 operation command GompoWay E 2 7 eco emet 4 12 operation command codes 6 19 P PDU str ct re ete 2 6 jc E 6 5 programless communications 6 3 protocol Settlrig etii ete ee tup 1 8 6 6 E5LIC Digital Temperature Controllers Communications Manual H175 addresses dette eei ee 2 7 Modb S cites vn nile eine nde etes 4 7 area definitions n 2 6 areas and first address of linked data 6 8 ASCII list rhet ead A 2 B 2 2 2 8 C command frame GCGompoWAVy F 5 ioc it cei it ete ete 2 2 Modbus d 4 2 command text 2 2 communications baud rate 1 6 1 8 6 7 communications data GompoWAy F 2 4 3 1 ModblS7 dU 5 1 communications data length 1 6 1 8 communications monitor 2 2 2 2 6 16 communications node number
148. error Variable type CO was written to Operation error The Communications Writing parameter is set to OFF disabled Attempted to write to a parameter in setup area 1 from setup area 0 Attempted to write to a protect parameter from other than the protect level AT auto tuning was in progress Non volatile memory error For details AT auto tuning refer to the E5 C Digital Temperature Controllers User s Manual Cat No H174 2203 S e c 2 3 5 Read Controller Attributes This service reads the model number and communications buffer size Service Request PDU MRC SRC 01510 3 2 2 Service Response PDU SRC Response Model No Buffer size code 015 043 0101019 2 2 4 10 1 Model Number The model number is expressed in 10 byte ASCII Example The model is given as shown below for the E5CC RX2ASM 000 relay output 2 auxiliary outputs and no options Ej5 C C R X42 A4 8S 2 Buffer Size The communications buffer size is expressed in 2 byte hexadecimal and read after being converted to 4 byte ASCII Buffer size 217 bytes 0009 Digital Temperature Controllers Communications Manual H175 2 13 2 CompoWay F Communications Procedures 3 Response Code Normal Completion Response code 0000 Error Occurred Response code 1001 Description Normal completion No errors were found _______
149. es the PLC setup procedure You will use GX Works2 to check operation so leave it online Write to PLC 5 5 0000 QJ71C24N R4 Write Completed Parameter Write Completed Boot File Write Completed Remote Password Write Completed Program MAIN Write Completed Write to PLC Completed seues D 236131 0 Bunoeuuo 9 9 When processing ends close this window automatically d gt dnjas 9099 7 9 9 6 6 4 Controller Setup Set up programless communications Perform the procedure that is given 6 4 4 E5 C Controller Setup C Digital Temperature Controllers Communications Manual H175 6 43 6 Programless Communications The SP and RUN STOP status of the Controllers will be changed to check operation Make sure that this will not create any problems in the controlled system Checking E5CC Monitor Values 1 We will display PLC memory in a dialog box Select Online Monitor Device Buffer Memory Batch Monitor MELSOFT Series Works2 Untitled Project Project Edit Find Replace Compile Online Dug Diagnostics Parameter PLC Parameter Network Parameter Ethernet CC IE ME CC Link ip Remote Password E B Intelligent Function Module dh D0000 QJ71C24N R4 Switch Setting Various Control Spe gt PLC Mon
150. evel Initial setting level communications setting level advanced function setting level and calibration level Setting area 1 Stops o 6 3 4 Operation Command Codes The following table gives the operation command codes that can be set For details on operation commands refer to 2 3 8 Operation Command Operation command Operation command code Switch 2 RUN STOP 0100 RUN 3 0101 STOP 3 Multi SP 0200 SPO 2 0201 SP 1 9 0202 SP 2 3 0203 SP 3 S 0204 SP 4 8 0205 SP 5 9 0206 SP 6 d 0207 SP7 AT Execute Cancel 0300 AT Cancel 0301 10096 AT Execute 0302 4096 AT Execute Write Mode 0400 Backup Mode T 0401 RAM Write Mode Save RAM Data 0500 Save RAM Data 2 Software Reset 0600 Software Reset Auto Manual 0900 Automatic Mode 0901 Alarm Latch Cancel 0C00 Alarm 1 Latch Cancel 0 01 Alarm 2 Latch Cancel 0C02 Alarm 3 Latch Cancel 0C03 Heater Burnout Latch Cancel 5 0C04 HS Alarm Latch Cancel 0C05 Alarm 4 Latch Cancel OCOF All Latch Cancel 9 SP Mode 0000 Local SP Mode 0001 Remote SP Mode E Invert Direct Reverse 0 00 Do Not Invert 5 Operation 1 Invert S Program Start 1100 Reset S 1101 Start 6 3 5 Confirming Operation of Programless Communications You can check the operation of programless communications in the Communications Status in the upload area The
151. execute 4096 AT execute Alarm latch cancel Auto manual switch Monitor setting item Digit shift key H 00000000 0 H 00000001 1 H 00000002 2 H 00000003 3 H 00000004 4 H 00000005 5 H 00000006 6 H 00000007 7 H 00000008 8 H 00000009 9 C3 83 006E Monitor Setting Item 1 y y y y y H 00000000 0 Disabled H 00000001 1 PV SP Multi SP H 00000002 2 PV SP MV H 00000003 3 PV SP soak time remain H 00000004 4 Proportional band H 00000005 5 Integral time H 00000006 6 Derivative time H 00000007 7 Alarm value 1 H 00000008 8 Alarm value upper limit 1 H 00000009 9 Alarm value lower limit 1 H 0000000A 10 1 2 3 4 10 Alarm value 2 H 0000000B 1 1 1 y Alarm value upper limit 2 H 0000000C 12 Alarm value lower limit 2 H 0000000D 13 H 0000000E 14 H 0000000F H 00000010 H 0000001 1 H 00000012 H 00000013 Alarm value 3 Alarm value upper limit 3 Alarm value lower limit 3 Alarm value 4 Alarm value upper limit 4 Alarm value lower limit 4 PV SP Internal set point PV SP Alarm value 1 H 00000015 21 Proportional band cooling H 00000016 22 Integral time cooling H 00000017 23 Derivative time cooling 1 15 16 17 18 19 y y y y H 00000014 20 y y C3 83 006F Monitor Setting Item 2 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1
152. f the master i e the Controller with a communications unit number of 0 the set points or RUN STOP status of all of the slaves i e the Controllers with communi cations unit numbers other than 0 that are connected via RS 485 will change automatically When you change the set points the set point from the master can be multiplied by a factor or offset at each slave You can also copy the parameter settings in the master to the slaves All slaves from 1 to n are automatically changed in order to RUN status 0 Master 1 Slave n Slave Y Up to 32 Controllers 2 4 The set point of each Set point of mas slave can be calculated changed to 100 0 Master 1 Slave n Slave Note To use component communications the input type and if an analog input is used the decimal point position must set to the same values for all of the ESL IC Controllers The operation will not work correctly if the position of the decimal point is different 7 1 2 Wiring Wire the EBLIC Controllers as shown below E5CC EC AC 120 Q 1 2 W 120 Q 1 2 W terminating resistance terminating resistance AC AC AC 0 1 2 No n 120 Q 1 2 W 120 Q 1 2 W terminating resistance terminating resistance Digital Temperature Controllers Communications Manual H175
153. ftware reset commands 2 17 error after broadcasting a 4 2 command or sending a software 4 14 reset command The host device sent another Always read the response after sending a command command before receiving a except for broadcast or software reset commands response from the Controller The host device sent the next Wait for at least 2 ms after receiving a response before 1 2 command too soon after receiving a response from the Controller sending the next command The communications line became unstable when the Controller s power was turned ON or interrupted and the host device read the unstable status as data Initialize the reception buffer in the host device before sending the first command and after turning OFF the power to the Controller The communications data was corrupted by noise from the environment Try using a slower baud rate Separate the communications cable from the source of noise Use a shielded twisted pair cable for the communications cable Use as short a communications cable as possible and no not lay or loop extra cable Do not run the communications cable parallel to a power line to prevent inductive noise If noise countermeasures are difficult to implement use an Optical Interface Digital Temperature Controllers Communications Manual H175 Index E5LIC Digital Temperature Controllers Communications Manual H175
154. he BCC Block Check Character is determined by calculating the exclusive OR of the bytes from the node number up to ETX The 8 bit result is written to the BCC byte at the end of the frame STX Node number Sub address Command text BCC 30H 380H330H380H 380HGB0H385H380H383H303H 35H The result of the calculation 35 hex is written to the BCC byte The symbols indicate exclusive OR operations 2 1 3 Response Frame Node number Sub address End code Command text BCC OL 1 2 2 2 1 1 End code Name Description EUST dele 00 Normal completion The command ended normally without error None FINS command error The specified FINS command could not be executed The FINS response code should indicate why the command 8 could not be executed Parity error The sum total of bits whose received data is 1 does not 10 ue Seded 2 match the set value of the communications parity bit 11 Framing error Stop bit is 0 1 12 Overrun error An attempt was made to transfer new data when the 3 reception data buffer was already full 13 BCC error The calculated BCC value is different from the received BCC 5 value Format error The command text contains characters other than 0 to 9 and A to F This error does not apply to Echoback Tests 14 Refer to 2 3 7 Echoback Test for details 7 There was no SID and command text There was no command text e M
155. hen a memory error RAM error has occurred or the Controller is initializing until the Controller recognizes the process value after the power is turned ON Digital Temperature Controllers Communications Manual H175 2 7 Jo Z Z 2 2 2 CompoWay F Communications Procedures 2 3 Detailed Description of the Services 2 3 1 Read Variable Area This service reads data from the variable area Service Request PDU MR RC Variable Read start Bit Number of C S type address position elements 011101 1 010 2 2 2 4 2 4 Service Request PDU MRC SRC Response Read data for number code of elements 0 1 0 1 2 2 4 Number of elements x80r4 1 Variable Type and Read Start Address For details on variable types and read start addresses refer to Section 3 Communications Data for CompoWay F 2 Bit Position Bit access is not supported Fixed to 00 3 Number of Elements Number of elements Processing The read operation is not performed read data is not 0000 appended to the service response PDU and processing ends in a normal completion Double word 0001 to 0019 The read operation is performed and processing ends in a variable type CO C1 or 1 to 25 normal completion Word 0001 to 0032 variable type 80 81 or 83 1 to 50 4 Response Code Normal Completion Response code Descrip
156. ice names in parentheses are for Keyence dnies 20193 2 9 KV series PLCs First Address Upper Word AldRH 0 to 99 0 First Address Lower Word Note 1 The First Address Upper Word and First Address Lower Word parameters together specify the first address HdRL 0 to 9999 0 Example 1 If the first address of the PLC is 123456 set the First Address Upper Word parameter to 12 and the First Address Lower Word parameter to 3456 in the IC 2 If you use an area labeled with 1 convert the first address of the PLC hexadecimal to 2 Setthe same first address in all of the E5 a decimal number and set the decimal value in the EBLIC If the first address of the PLC is 12345 set the First Address Upper Word parameter to 7 and the First Address Lower Word parameter to 4565 in the E5LIC for the ESL IC with communications unit number 0 Applicable PLC Memory Addresses Protocol setting Area C Controllers e g set the same value as the value that is set Applicable address range 2 Host Link FINS DM 0 to 32767 EMO to EM18 MC protocol format 4 D data registers 0 to 12287 W link registers 0 to 8191 1FFF hex R file registers 0 to 32767 ZR file registers 0 to 999999 F423F hex Dedicated protocol format 4 D data registers 0 to 7999 DM data memory registers W link registers 0 t
157. ime unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s Floating position proportional control H 00000001 to H 0000270F 1 to 9999 Integral derivative time unit is 1 s 0 1 to 999 9 Integral derivative time unit is 0 1 s C1 81 0017 Derivative Time H 00000000 to H 0000270F 0 to 9999 Integral derivative time unit is 1 s 0 0 to 999 9 Integral derivative time unit is 0 1 s C1 81 0019 Dead Band H FFFFF831 to H 0000270F 7199 9 to 999 9 for temperature input 719 99 to 99 99 for analog input C1 81 001A Manual Reset H 00000000 to H 000003E8 0 0 to 100 0 Value C1 81 001B Hysteresis H 00000001 to H 0000270F Heating 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input C1 81 001C Hysteresis H 00000001 to H 0000270F Cooling 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input C1 81 001D Heater Burnout H 00000000 to H 000001 F4 0 0 to 50 0 Detection 2 C1 81 001 HS Alarm 1 H 00000000 to H 000001 F4 0 0 to 50 0 C1 81 001 HS Alarm 2 H 00000000 to H 000001 F4 0 0 to 50 0 C1 81 0020 Soak Time H 00000001 to H 0000270F 1 to 9999 C1 81 0021 Wait Band H 00000000 0 OFF H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input C1 81 0022 MV at Stop Standard Models C1 81 0023 MV at PV Error Standard control H FFFFFFCE to 0000041 5 0 to 105 0 Heating and cooling control H FFFFFBE6 to 00000
158. information setting This command can be accepted in setup area 0 only An operation error will be generated in the following instances When the RUN STOP parameter is set to stop When the command is executed in setup area 1 When ON OFF control is being used When 40 AT is specified during 100 AT execution When 100 AT is specified during 4096 AT execution A parameter error will occur if 40 AT is specified during heating and cooling control or floating position proportional control Note If the same type of AT execution is specified during AT execution e g if 100 AT is specified during 10096 AT execution the AT will not be restarted and the operation will end in normal completion with no processing Write Mode Set either the backup mode or RAM write mode with the related information setting The setting can be accepted in both setup area 0 and setup area 1 The number of non volatile memory write operations is limited Therefore use RAM write mode when frequently overwriting data Write mode Description Backup mode The data is written to non volatile memory when the parameters in the operation adjustment levels excluding read only parameters are written by communications RAM write mode The data is not written to non volatile memory when the parameters in the operation adjustment levels excluding read only parameters are written by communications Parameters can be changed by operating the keys on th
159. ing Lower H FFFFF831 to Scaling upper limit 1 1999 to Scaling Limit upper limit 1 C3 83 0003 Decimal Point H 00000000 to 00000003 0 to 3 C3 83 0004 Temperature H 00000000 0 C Unit H 00000001 1 F C3 83 0005 SP Upper Limit The range of values without decimal point is as follows Temperature input SP lower limit 1 to Input range upper limit Analog input SP lower limit 1 to Scaling upper limit Digital Temperature Controllers Communications Manual H175 3 8 E 3 Communications Data for CompoWay F Vatlahig Address Parametar Setting monitor value type name C3 83 0006 SP Lower Limit The range of values without decimal point is as follows Temperature input Input range lower limit to SP upper limit 1 Analog input Scaling lower limit to SP upper limit 1 C3 83 0007 PID ON OFF H 00000000 0 ON OFF H 00000001 1 2 PID control C3 83 0008 Standard or H 00000000 0 Standard Heating Cooling H 00000001 1 Heating and cooling C3 83 0009 ST H 00000000 0 OFF H 00000001 1 ON C3 83 000A Control Period H FFFFFFFE 2 0 1 s Heating H FFFFFFFF 1 0 2 s H 00000000 0 0 5 s H 00000001 to H 00000063 1 to 99 83 000B Control Period H FFFFFFFE 2 0 1 s Cooling H FFFFFFFF 1 0 2 s H 00000000 0 0 5 s H 00000001 to H 00000063 1 to 99 C3 83 000 Direct Reverse H 00000000 0 Reverse o
160. ion Module 0000 Q371C24N R4 ar Various Control Spe m PLC Monitoring Func m Liser Register Frame Llser Register Frame Auto Refresh E C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 2 We will change the communications settings for CH1 Change the following settings and then click the OK Button Use the defaults settings for the other parameters Parity Bit Exist Even odd parity Even Stop bit 2 Sum check code Exist Online Change Enable Setting modifications Enable Communication rate setting 57600 bps This setting can be changed after you change the communication protocol setting Communication protocol setting MC protocol Format 4 Item EE m Operation setting Independent Independent Data Bit 7 Parity Bit i None Transmission Evenjodd parity Odd Setting Stopbit 1 Sum check code i None OnlineChange Disable Setting modifications Disable Communication rate setting 57600bps Auto Setting Communication protocol setting MELSOFT Connection Station number setting 0 to 31 The following setting is available For product information 101220000000000 B or later Communication protocol setting Predefined protocol This dialog setting is linked to the Switch Setting of the PLC parameter Default value will be shown in the dialog if the Switch Setting of the PLC parameter
161. ional Band Cooling H 00000016 22 Integral Time Cooling H 00000017 23 Derivative Time Cooling 1206 3203 Monitor Setting Item 2 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 1208 3204 Monitor Setting Item 3 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 120A 3205 Monitor Setting Item 4 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 120C 3206 Monitor Setting Item 5 H 00000000 to H 00000017 0 to 23 Note Same as for Monitor Setting Item 1 After communications parameters have been changed reset the Digital Controller to enable them Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value mode mode 1302 3301 SP Tracking H 00000000 0 OFF H 00000001 1 ON 1308 3304 PV Dead Band H 00000000 to H 0000270F 0 to 9999 130A 3305 Cold Junction H 00000000 0 id Compensation Method H 00000001 1 O 1312 3309 Integral Derivative Time H 00000000 0 1 Unit H 00000001 1 0 1 S 1314 330A H 00000000 to H 00000064 0 00 to 1 00 1318 330C Manual Output Method H 00000000 0 HOLD H 00000001 1 INIT 131A 330D Manual MV Initial Value Standard control or close position proportional control H FFFFFFCE to H 0000041
162. itoring Fund SP User Register Frame gt Liser Register Auto Refresh Global Device Comment e Program Setting EH Device Memory Device Initial Value Read from PLC Write to PLC Verify with PLC Remote Operation Password Keyword PLC Memory Operation Delete PLC Data PLC User Data Export to ROM Format Program Memory Batch Download Latch Data Backup PLC Module Change Set Clock Register Cancel Display Module Menu Monitor Mode Watch Monitor write Mode Local Device Batch Read Save CSV Start Monitoring All Windows Stop Monitoring All Windows Start Monitoring F3 Stop Monitoring Alt F3 Change Value Format Decimal Change Value Format Hexadecimal DevicelBuffer Memory Batch 1 Program List 2 We will monitor PLC memory in a dialog box Enter DO for in the Device Name Box and press the Enter Key on the computer s keyboard Monitoring of DO will be started Modify value Device Mame zy Set Value 7 Buffer Memory Module Start Display Format 2 32 dz Pse 10 16 Details Digital Temperature Controllers Communications Manual H175 6 Programless Communications 3 To make the value easier to check we will change the values that are displayed to decimal values Click the Display Format Button in the above dialog
163. l Temperature Controller may be damaged or may malfunction Do not exceed the communications distance that is given in the specifications and use the specified communications cable Refer to the 5 Digital Temperature Controllers User s Manual Cat No H174 for the communications distance and cable specifications Do not turn the power supply to the Digital Controller ON or OFF while the USB Serial Conversion Cable is connected The Digital Controller may malfunction Do not bend the communications cables past their natural bending radius Do not pull on the communications cables For the E5DC when you attach the Main Unit to the Terminal Unit make sure that the hooks on the Main Unit are securely inserted into the Terminal Unit Install the DIN Track vertically to the ground For the EBDC always turn OFF the power supply before connecting the Main Unit to or disconnecting the Main Unit from the Terminal Unit and never touch nor apply shock to the terminals or electronic components When connecting or disconnecting the Main Unit do not allow the electronic components to touch the case Observe the following precautions when you remove the terminal block or pulling out draw out the interior of the E5GC Always follow the instructions provided in the E5 C Digital Controllers User s Manual Cat No H174 E Digital Temperature Controllers Communications Manual H175 Precautions for Safe Use Turn
164. l be valid The other download setting will be treated as if nothing was assigned All upload set tings are valid even if the same value is set more than once C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 2 9 Copying Parameter Settings You can copy the settings of all parameters except for the Communications Unit No parameter from the master i e the Controller with communications unit number 0 to one or more of the slaves i e the Controllers with communications unit numbers other than 0 Copying parameters is possible only between Controllers with the same model number and the same version All of the slaves are automati cally reset after the copying operation is completed Make sure that the system will not be adversely affected before you copy parameter settings Case in which copying The model numbers and versions are the same is possible Example E5CC RX2ASM 002 V1 1 gt E5CC RX2ASM 002 V1 1 The model numbers are different Cases in which copying 5 2 5 002 E5CC X2ASM 002 is not possible The versions are different Example E5CC RX2ASM 002 V1 E5CC RX2ASM 002 V1 0 Communications Setting Level Display condition The Protocol Setting parameter must be set to CMP 5 MELP or and the Communications Unit No parameter must be set to 0 master Parameter name Setting range Default characters Cop
165. larm 3 ON delay H 00000000 to H 000003E7 0 to 999 OF28 2F14 Alarm 4 ON delay H 00000000 to H 000003E7 0 to 999 OF2A 2F15 Alarm 1 OFF delay H 00000000 to H 000003E7 0 to 999 OF2C 2F16 Alarm 2 OFF delay H 00000000 to H 000003E7 0 to 999 OF2E 2F17 Alarm 3 OFF delay H 00000000 to H 000003E7 0 to 999 2F18 Alarm 4 OFF delay H 00000000 to H 000003E7 0 to 999 1000 3000 PV SP No 1 Display H 00000000 0 Nothing displayed Selection H 00000001 1 Bd H 00000002 2 P H 00000003 3 SUBE character display H 00000004 4 PV SP MV H 00000005 5 PV SP Multi SP No H 00000006 6 PV SP Soak time remain H 00000007 7 PV SP Ramp SP H 00000008 8 PV SP Alarm value 1 1002 3001 MV Display Selection H 00000000 0 MV heating H 00000001 1 MV cooling 1006 3003 Automatic Display Return H 00000000 0 OFF Time H 00000001 to H 00000063 1 to 99 1008 3004 Display Refresh Period H 00000000 0 OFF H 00000001 1 0 E H 00000002 2 0 H 00000003 3 1 1010 3008 PV SP No 2 Display H 00000000 to H 25605056 0 8 Selection Note Same as PV SP No 1 Display Selection 1012 3009 Valve Opening Monitor H 00000000 0 Measured opening Initial setting Selection 2 H 00000001 1 Estimated opening 1014 300A Display Brightness H 00000001 to H 00000003 1 to 3 Advanced 1016 300B MV Display H 00000000 0 OFF function H 00000001 1 ON setting 1018 300C Move to Protect Level H 00000001 to H 0000001E 1 to 30 Time 101E 300F Auto
166. lers Set the switches on the CJ1W CIF11 and wire it to the 5 Controllers Set up the E5L IC Controllers Set up programless communications in the E5CC Controllers Check operation Use the CX Programmer to confirm that programless communications are operating C w 6 32 ESLIC Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 5 2 Switch Settings and Wiring Before you attach the CJ1W CIF11 to the CJ1W SCU21 V1 turn OFF pin 4 on the DIP switch on the back of the CJ1W CIF11 and turn ON the rest of the pins Pin OFF ON Setting 1 No terminating resistance Terminating resistance on Terminating resistance selection both ends 2 4 wire 2 wire 2 wire or 4 wire selection 3 4 wire 2 wire Same as above 4 Not used 5 RS control disabled Signal RS control enabled RS control selection for RD always received 6 RS control disabled Signal RS control enabled RS control selection for SD always sent Wire the CJ1W CIF11 to the E5CC Controllers as shown below CJ1W CIF11 FG 120 Q 1 2 W terminating resistance S2d Seues f2 Bunoeuuo2 c 9 shone eet of Shield AC Shield Shield AC ESCC 5 5 0 No 1 No 2 Note 1 The maximum transmission distance is 50 m 2 For wiring methods refer to App
167. lter to peripheral devices that generate noise in particular motors transformers solenoids magnetic coils or other equipment that have an inductance component When a noise filter is used at the power supply first check the voltage or current and attach the noise filter as close as possible to the Digital Controller E5LIC Digital Temperature Controllers Communications Manual H175 7 Precautions for Safe Use Allow as much space as possible between the Digital Controller and devices that generate powerful high frequencies high frequency welders high frequency sewing machines etc or surge Use the Digital Temperature Controller within the rated load and power supply Make sure that the rated voltage is attained within 2 seconds of turning ON the power using a switch or relay contact If the voltage is applied gradually the power may not be reset or output malfunctions may occur Make sure that the Digital Controller has 30 minutes or more to warm up after turning ON the power before starting actual control operations to ensure the correct temperature display When executing self tuning turn ON power for the load e g heater at the same time as or before supplying power to the Digital Controller If power is turned ON for the Digital Controller before turning ON power for the load self tuning will not be performed properly and optimum control will not be achieved A switch or circuit breaker must be provided close to the Digital
168. m latch can be cleared with the related information setting The setting can be accepted in both setup area 0 and setup area 1 An operation error will occur if communications writing is disabled or if an non volatile memory error occurs Invert Direct Reverse Operation Inverting or not inverting direct reverse operation can be selected with the related information setting The setting can be accepted in both setup area 0 and setup area 1 The related information specifications are written to non volatile memory according to the write mode settings An operation error will occur in the following situations When AT is being executed When inverting direct reverse operation is set for an event input When executed in manual mode Program Start The simple program function can be reset started with the related information setting The setting can be accepted in both setup area 0 and setup area 1 An operation error will be generated if program start has been set in the event input Setting Areas Control operation is executed in setting area In this state you can perform operations that are permitted only during control or those that cause no problems even if control is in progress These operations include reading PVs writing SPs and changing RUN STOP status Setting area 0 however prohibits operations that affect control including writing data at the initial setting level Reading setting data is always allowed In setting a
169. mation is the same as that for CompoWay F Refer to page 2 17 4 14 Digital Temperature Controllers Communications Manual H175 4 Modbus Communications Procedure 4 4 4 Echoback Test Command Frame Slave Function CRC 16 address code Fixed data Test data H 08 H 00 H 00 i 1 1 2 2 2 bytes Response Frame Slave Function 16 address code Fixed data Test data H 08 H 00 H 00 1 1 2 2 2 bytes Note When the command is executed normally the response returns the same data sent in the command 1 Test Data Enter any 2 byte hexadecimal data 2 Response Code Function code Description H 88 H 03 Variable data error A different value not 00 H 00 was returned H 08 Normal completion No errors were found 3 Example Command and Response The following example shows the command response for an Echoback Test command In this case the test data is H 1234 In this case the slave address is 01 Digital Temperature Controllers Communications Manual H175 4 15 suonounj aui jo paled v v 159 4 Modbus Communications Procedure E C Digital Temperature Controllers Communications Manual H175 Communications Data for Modbus This section lists the details of the communications data the Modbus communications
170. meters in the commu nications setting level are described first followed by those in the adjustment level Adjustment Level Power ON Press 2 Key for less than 1 s Amem Fever Work Bit 8 OFF Delay ispiay n 25 AT Execute Cancel PL EM Communications 0 Monitor Communications aN Writing Je 1 Operation Level Press S Key for at least 1 s Press c Key for at least 3 s Communications Setting Level Press Key for Y less than 1 s BGEL Protocol Setting AREA D EV x u Upload Setting 1 Initial Setting Level FENS 0 1 Ic le le Communications First Address Upper 2 Upload Setting 2 0 Unit No 0 Word 3 le o 5 Communications First Address Lower Download Setting 1 516 Baud Rate 0 Word 3l ce Dg NE Send Data Wait Receive Data Wait g Download Setting 2 20 Time 1000 Time ME 11 Highest INT i E NEXU LING E Communications Communications 1 Node Number Unit No co These parameters displayed regardless of the setting
171. mmand It is also possible to write to a single parameter by specifying the address in 2 byte mode This is not supported in 4 byte mode It is also possible to broadcast this function broadcast transmission 08 H 08 Echoback Test This function performs an echoback test 4 6 Digital Temperature Controllers Communications Manual H175 4 Modbus Communications Procedure 4 3 Variable Area The variable area is the region of memory used to exchange data with the ESL IC through communica tions Operations such as reading the process value and reading writing parameters are performed on the variable area On the other hand operation commands do not use the variable area Operation Microcomputer commands etc Variable area p When accessing the variable area the position of a variable in the variable area is specified with a word identifier area number and address in the area Addresses An address is appended to each of the variable types Express addresses in 2 byte hexadecimal and append them for the specified access size e Number of Elements The number of elements is expressed in 2 byte hexadecimal The setting range for the number of elements varies according to the command Four byte Mode One element uses 2 bytes of data so specify two element units Reading and writing in 4 byte units is executed by specifying an even address an
172. mperature input Setting Scaling lower limit to Scaling upper limit for analog input OC1E 2COF PV Decimal Point Display H 00000000 0 OFF H 00000001 1 ON 0006 2003 Control Output 1 Signal H 00000000 0 4 to 20 mA Initial setting H 00000001 1 0 to 20 mA 0D08 2D04 Control Output 2 Signal H 00000000 0 4 to 20 mA H 00000001 1 0 to 20 mA OD1E 2D0F SP Upper Limit The range of values without decimal point is as follows Temperature input SP lower limit 1 to Input range upper limit Analog input SP lower limit 1 to Scaling upper limit 0D20 2D10 SP Lower Limit The range of values without decimal point is as follows Temperature input Input range lower limit to SP upper limit 1 Analog input Scaling lower limit to SP upper limit 1 0D22 2D11 Standard or Heat H 00000000 0 Standard ing Cooling H 00000001 1 Heating and cooling E5LIC Digital Temperature Controllers Communications Manual H175 1sr Humes easy ejqeueA L G 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0024 2012 Direct Reverse Operation H 00000000 0 Reverse operation Initial setting H 00000001 1 Direct operation 0026 2013 Close Floating H 00000000 0 Floating H 00000001 1 Close 0D28 2D14 PID ON OFF H 00000000 0 ON OFF H 00000001 1 2 PID control 0D2A 2D15 ST H 00000000 0 OFF H 00000001 1 ON 00
173. ms of setting data can be read Example When reading two items of setting data set the number of elements to H 0002 Byte count Specify the number of bytes of write data CRC 16 This check code is calculated with the data from the slave address to the end of the data For details on the CRC 16 calculation refer to CRC 16 Calculation Example in 4 1 1 Command Frame on page 4 2 4 10 Digital Temperature Controllers Communications Manual H175 e Response Frame 4 Modbus Communications Procedure Slave Function write start add Number of CRC 16 address code 16 Start agdress Elements H 10 1 1 2 2 2 bytes Name Description Slave address The value from the command frame is entered as is Function code This is the received function code When the function ended normally the function code is left as is When an error occurred the hexadecimal value of H 80 is added to the function code to indicate that the response is an error response Example Received function code H 10 Function code in response frame when an error occurred H 90 Write start address This is the received write start address Number of elements This is the received number of elements CRC 16 This check code is calculated with the data from the slave address to the end of the data For details on the CRC 16 calculation refer to CRC 16 Calculation Example in 4
174. n 1 s v p Protocol Setting Initial Setting Level Communications 5 0 Unit No bP5 Communications 5 5 Baud Rate yo Send Data Wait 20 Time Communications unit No 0 master Communications unit 0 slave Highest MB MAKU Communications GPS SP Slope Unit No 1000 v ce i9 Receive Data SP offset iggg Wait Time m y 59 co These parameters are displayed regardless of the setting of the Protocol Setting parameter Note The Communications Data Length Communications Stop Bits and Communications Parity parameters in the communications setting level are not displayed 5 Digital Temperature Controllers Communications Manual H175 7 3 1 1 7 dnies 9099 L Z 7 Component Communications SP Calculations The set point SP of a slave can be calculated from the set point of the master as shown below The slave performs the calculation only during operation The value is not written to the slave if it exceeds the set point limiter During operation Slave SP Master SP x SP Slope SP Offset When stopped Slave SP Master SP Communications Setting Level Display condition The Protocol Setting parameter must be set to LMF and the Communications Unit No paramete
175. n setting level and calibration level For component communications the master sends the value in order starting from slave 1 There will be a delay of up to 30 ms between when the set point or RUN STOP status is sent to all of the slaves If this delay is too long consider using event inputs to change the set points or to change the RUN STOP status If communications with a slave fail the master will retry communications twice If communications still fail it will move to processing the next slave To see if the value was sent correctly check the display of the Set Point or STOP parameter on each slave 1ueuoduio 10 Z Z im Exception Processing f the multi SP is changed the set point is sent to each slave This function is disabled in the following cases During operation with a remote SP When changing the set point for SP tracking SPs are not calculated when operation is stopped The value from the master is not received in the following cases When the set point from the master or the results of set point calculation exceeds the set point limiter of the slave When Communications Writing parameter is set to OFF When RUN STOP is assigned to an event input Changes in the set point will be received When a communications error occurs three times in a row Master Slaves E5LIC Digital Temperature Controllers Communications Manual H175 7 5 7 Component
176. nd Status 2 The figure below shows the structure of the status data Status Structure e N o Outputs Input error Error status 5 6 1615 14 131211109 8 7 65 43 2 10 Bit position o 0 o N _ Heater overcurrent Heater current hold CT1 A D converter error HS alarm CT1 RSP input error Input error Potentiometer input error Control output heating open output Control output cooling close output HB heater burnout alarm CT1 HB heater burnout alarm CT2 Alarm 1 Alarm 2 Alarm 3 Program end output Error status Operating status Event inputs 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 Bit position _ Event input 1 Event input 2 Event input 3 Event input 4 Write mode Non volatile memory Setup area AT execute cancel RUN STOP Communications writing Auto manual switch Program start Heater overcurrent CT2 Heater current hold CT2 IT HS alarm CT2 E a C Digital Temperature Controllers Communications Manual H175 3 23 3 Communications Data for CompoWay F Status 2 Structure Spare Operating status 1615 14 131211109 8 765 43 2 1 0 Bit posi
177. ndard control or close position proportional control H FFFFFFCE to MV upper limit 0 1 5 0 to MV upper limit 0 1 Heating and cooling control H FFFFFBE6 to H 00000000 105 0 to 0 0 Note The alarm function can also be used in Digital Temperature Controllers that do not have any auxiliary outputs In this case confirm alarm occurrences via the status data Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0C00 2C00 Input Type H 00000000 0 200 to 850 C 300 to 1500 F Initial setting H 00000001 1 199 9 to 500 0 199 9 to 900 0 F H 00000002 2 0 0 to 100 0 C 0 0 to 210 0 F H 00000003 3 JPt 199 9 to 500 0 C 199 9 to 900 0 F H 00000004 4 0 0 to 100 0 C 0 0 to 210 0 F H 00000005 5 200 to 1300 C 300 to 2300 F H 00000006 6 20 0 to 500 0 C 0 0 to 900 0 F H 00000007 7 J 100 to 850 C 100 to 1500 F H 00000008 8 20 0 to 400 0 C 0 0 to 750 0 F H 00000009 9 200 to 400 300 to 700 F H 0000000A 10 T 199 9 to 400 0 C 199 9 to 700 0 F H 0000000B 11 200 to 600 300 to 1100 F H 0000000C 12 L 100 to 850 C 100 to 1500 F H 0000000D 13 U 200 to 400 300 to 700 F H 0000000E 14 U 199 9 to 4
178. ns dmes 9 9 Module Name Data Name Title Project Name Target Detail Last Change Target Memory 2012 03 09 09 51 52 2140 Bytes 2012 03 09 09 51 52 630 Bytes f n ag eMe RR O Device Data Necessary Setting No Setting Already Set Set if it is needed No Setting Already Set Acquire Symbolic Information Project Name Writing Size Free Volume Use Volume Bytes 1 1 026 048 6 144Bytes Refresh Related Functions lt lt G E Remote Set Clock PLC User Data Write Title Format PLC Clear PLC Memory Arrange PLC Operation Memory Memory Digital Temperature Controllers Communications Manual H175 6 39 6 Programless Communications 6 When the set values have been read click the Close Button Also close the above dialog box Read from PLC EBEZEEBEHEBEBEHONHI 55 0 0000 QJ71C24N R4 Read Completed Parameter Read Completed Boot File Read Completed Remote Password Read Completed Program MAIN Read Completed Read from PLC Completed When processing ends close this window automatically Communications Settings in the Serial Communication Module 1 Double click Switch Setting The Switch Setting Dialog Box for communications will be displayed Project 8 Eig Parameter PLC Parameter BR Network Parameter Ethernet CC IE CC Link n Remote Password Intelligent Funct
179. ntrollers in OMRON FA networks Modbus is a standard communications control method that conforms to the Modicon Company s RTU mode Modbus Protocol PI MBUS 300 Revision J Modbus is a registered trademark of Schneider Electric It supports functions equivalent to the CompoWay F Read Variable Area Write Variable Area Opera tion Command and Echoback Test functions The supports the following communications functions Reading writing of parameters Operation instructions Selection of setup levels Communications are subject to the following condition Parameters can be written only when the Communications Writing parameter is set to ON enabled 1 1 2 Communications Specifications Transmission line connection Communications method Synchronization method Communications baud rate RS 485 Multidrop RS 485 2 wire half duplex Start stop synchronization 91600 19 200 38 400 or 57 600 bps Communications code Communications data length Mor 8 bits Communications stop bits 1 or Vertical parity none 6 6 BCC Block Check Character with CompoWay F communications CRC 16 Cyclic Redundancy Check 16 with Modbus communications Error detection Flow control None Interface RS 485 Retry function None Communications buffer 217 bytes Send data wait time 0 to 99 ms default time 20 ms Communications baud rate data length stop bits and ver
180. nual status is written to non volatile memory Write mode Description Backup mode When the auto manual mode is switched by communications the auto manual status is written to non volatile memory RAM write mode When the auto manual mode is switched by communications the auto manual status is not written to non volatile memory The status can be written with the Controller key operation Note When the auto manual mode is switched with an operation command through communications and the Controller is in RAM write mode the auto manual status is not stored in non volatile memory Consequently if the Controller is restarted by performing a software reset or turning the power OFF and ON again the auto manual mode is set to the last saved status Switching to Manual Mode during Auto tuning If the mode is switched during auto tuning AT the AT will be cancelled and the Controller will be switched to manual mode Parameter Initialization The present settings are returned to the default values and written to non volatile memory This command can be accepted in setup area 1 only When this command is issued in setup area 0 an Digital Temperature Controllers Communications Manual H175 2 19 2 CompoWay F Communications Procedures operation error will be generated These settings are the same as the ones used when FACT is selected for the setting data s set value initialization Alarm Latch Cancel The applicable alar
181. o 16383 3FFF hex R expansion registers FM file registers 1 These device names are for Keyence KV series PLOs E5LIC Digital Temperature Controllers Communications Manual H175 0 to 9999 ejeg jo 1514 pue seal 9 2 9 6 Programless Communications 2 The address ranges depend on the type of PLC Refer to the manual for your PLC and set the first address within an applicable range The last address that is used by the E5LIC is calculated as follows Last address First address highest communication unit number 1 x 30 1 Example The following example is for three E5LIC Controllers highest communications unit number 2 The first address is set to 100 Last address 100 3 x 30 1 189 6 2 6 Receive Data Wait Time The receive data wait time is the time that the 50 waits for a response from the PLC or for compo nent communications from an E5LIC slave You can normally use the default setting If you change the receive data wait time the time at which programless communications start will change after the power supply is cycled Use the following formula to calculate the start time Start time Approx 1 s Receive data wait time x 4 Example For the default setting of 1 000 ms the start time is approximately 5 s Communications Setting Level Display condition The Protocol Setting parameter must be set to FENS ML P or F XP o
182. o two wires of the same size and type or two crimped terminals can be inserted into a single terminal Use the specified size of crimped terminals width of 5 8 mm or less to wire the E5GC To connect bare wires to the terminal block of the E5GC use copper braided or solid wires with a gauge of AWG24 to AWG18 equal to a cross sectional area of 0 205 to 0 823 mm The stripping length for Digital Temperature Controllers with screw terminal blocks is 6 to 8 mm The stripping length for Digital Temperature Controllers with screwless clamp terminal blocks is 8 to 12 mm Up to two wires of the same size and type or two crimped terminals can be inserted into a single terminal When connecting two wires into one terminal of a Digital Temperature Controller with a screwless clamp terminal block use ferrules with a diameter of 0 8 to 1 4 mm and an exposed conductor length of 8 to 12 mm that two wires are crimped for a ferrule The Digital Temperature Controller with screwless clamp terminals underwent UL testing with one braided wire connected Do not wire the terminals that are not used To avoid inductive noise keep the wiring for the Digital Controller s terminal block away from power cables that carry high voltages or large currents Also do not wire power lines together with or parallel to Digital Controller wiring Using shielded cables and using separate conduits or ducts are recommended Attach a surge suppressor or noise fi
183. og input 134E 3327 Soak Time Unit H 00000000 0 Minutes H 00000001 1 Hours H 00000002 2 Seconds 1350 3328 Alarm SP Selection H 00000000 0 Set point during SP ramp H 00000001 1 Set point 1352 3329 Remote SP Enable H 00000000 0 S H 00000001 1 O 1356 332B Manual MV Limit Enable H 00000000 0 om H 00000001 1 O 1358 332C Direct Setting of Position H 00000000 0 orm Proportional MV H 00000001 1 O 135A 332D PV Rate of Change H 00000001 to H 000003E7 1 to 999 Calculation Period 1 Selection is possible only with the E5DC and E5GC The D5DC must be manufactured in July 2014 or later version 2 2 or higher E5LIC Digital Temperature Controllers Communications Manual H175 Level Advanced function setting 1sr Humes easy ejqeueA L G 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 135C 332E Heating Cooling Tuning H 00000000 0 Same as heating control Advanced Method H 00000001 1 Linear function H 00000002 2 Air cooling setting H 00000003 3 Water cooling 136A 3335 LCT Cooling Output H 00000001 to H 0000000A 0 1 to 1 0 Minimum ON Time Not supported on version 2 0 or earlier of the E5CC E5EC or E5AC Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus 5 2 Status The status data for Modbus i
184. oller changes to 100 Confirm this for the No 1 and No 2 Controllers as well Set Value Signed Decimal Value C_x y Cancel Range E C Digital Temperature Controllers Communications Manual H175 6 Programless Communications Stopping the E5CC Controllers 1 We will change the values that are displayed for PLC memory to hexadecimal values In the PLC Memory Window select View Display Hexadecimal from the menu bar 2 We will stop the No 0 Controller Change the RUN STOP parameter 5 in the operation level of the E5CC to RUN ALIN For a Controller with event inputs the Event Input 2 Assignment parameter Ev 2 in the initial setting level is set to RUN STOP 5522 so the RUN STOP parameter will not be dis played Change the Event Input 2 Assignment parameter to NONE NaNE and then change the RUN STOP parameter to RUN 3 We will switch the No 0 Controller to STOP Confirm that D0015 Request Flag in the PLC Memory Window is 0001 Enable Writing double click D0016 Operation Command Code enter 0101 hex STOP and then click the OK Button D0016 will change to 0000 D0000 Response Flag will remain at 0001 Enable Writing and STOP will be displayed on the No 0 Controller Confirm this for the No 1 and No 2 Controllers as well For details on other operation command codes refer to 6 3 4 Operation Command Codes S2d 5 0 5 4 9 uone
185. or 4 wire selection 3 4 wire 2 wire Same as above 4 Not used 5 RS control disabled Signal RS control enabled RS control selection for RD always received 6 RS control disabled Signal RS control enabled RS control selection for SD always sent Wire the CP1W CIF11 to the E5CC Controllers as shown below CP1W CIF11 RDA RDB SDA SDB FG 120 o 1 2 W terminating resistance m mm ae ee eee eee Shield AC Shield xi Shield O E5CC E5CC 5 0 No 1 No 2 Note 1 The maximum transmission distance is 50 m for the CP1W CIF11 and 500 m for the CP1W CIF21 2 For wiring methods refer to A 3 2 Recommended RS 422A 485 Wiring in the CP1E CPU Unit Hardware User s Manual Cat No W479 6 4 3 PLC Setup Set up communications on the CP1E to enable communicating with the E5CC Controllers PLC operation will stop and the power supply will be cycled during the setup procedure Make sure that this will not create any problems in the controlled system Connecting to the PLC 1 Connect the computer to the CP1E with a USB cable and then start the CX Programmer 2 Select PLC Auto Online Direct Online from the menu bar CX Programmer EtherNet IP Node Online Digital Temperature Controllers Communications Manual H175 5
186. or Parameter This parameter displays the communications cycle time of the E5LIC If communications with the PLC are not possible is displayed and then the cycle time is displayed again when communications are restored Order of communications Cycle time of E5CC with communications unit number 0 Adjustment Level Display condition The Protocol Setting parameter must be set to FL 5 ME PU or F XP Parameter name Default Communications PLEM Normal operation 0 to 9999 ms If 9 999 ms is exceeded 22243 is displayed Error Note If this parameter is monitored in PLC memory the cycle time is given as 0 to FFFF hex 0 to 65 535 decimal An error is indicated by FFFF hex E C Digital Temperature Controllers Communications Manual 175 6 Programless Communications 6 3 Controlling Programless Communications The section describes the methods that are used to control programless communications from the PLC 6 3 1 Controlling Programless Communications with the Request Flag There are the following three ways to control programless communications The Request Flag in PLC memory is used to change the control method 1 Updating Monitor Values Disable Writing Request The monitor values are repeatedly updated PLC memory PLC memory Response Flag Response Flag 0 SN Upload 2 Communications Status Communications Status Area Monito
187. ory PLC memory Response Flag Response Flag 1 Communications Status Communications Status Monitor Value Monitor Value 4 1 eui 2 9 Request 2 Request 1 Operation Command Code Operation Command Code Set Value Set Value The set values are initialized to the values in the ESL C and writing is enabled If you set the Request Flag to 2 the set values in the download area will be initialized to the values from the EBLIC and then the Request Flag and Response Flag will change to 1 Finally the operation described above for control method 2 is performed E a C Digital Temperature Controllers Communications Manual H175 6 17 6 Programless Communications 6 3 2 Response Flag The Response Flag changes as shown below for the values of the Request Flag Response Flag Reqyest Error 0 Disable Writing 0 EEEE 1 Enable Writing 1 EDO to EB 3 8000 or Operation Command Code 2 Initialize Download Areas 1 EEEE Ifa communications error prevents reading data for the Request Flag the Response Flag will change to EEEE Response Flag at error EEEE Cause of error There was no response or a communications error occurred when reading the download area Ho EO 31 The write data is out of the setting range The Communications Writing
188. ow to wire equipment Refer to this section when setting up equipment CONDOR OW P 1 1 Overview of Communications Methods 1 2 Introduction RE er a a 1 2 Communications Specifications 1 2 Transmission Procedure 1 3 Interface Decor oves aae E oae dtr 1 3 tS t SR LU SULLO Ss 1 4 Communications Parameters 1 6 Communications Parameter Setup 1 7 Description of Communications Parameters 1 8 Digital Temperature Controllers Communications Manual H175 1 1 1 Communications Methods 1 1 Overview of Communications Methods 1 1 1 Introduction The program for the communications functions is created on the host personal computer PLC or other type of communications master and the 5 parameters are monitored or set from the host Therefore the description provided here is from the viewpoint of the host CompoWay F is OMRON s standard communications format for general serial communications This format uses a standard frame format as well as the well established FINS commands used for OMRON s PLCs Therefore it can simplify communications between components and the host FINS Factory Interface Network service The FINS protocol provides message communications between co
189. parameter is set to OFF 8000 hex or Operation Command Code 2 The operation command code is incorrect The current status of the E5 C prevents it from acknowledging the operation command 1 2 The Communications Writing parameter is set to OFF The Response Flag gives the number of the download setting where the error occurred If more than one error occurs the largest number is given first When the error is cleared the next error number is given Writing the remaining data is continued even if an error occurs during communications Example If errors occur for download settings 10 and 12 the Response Flag will be EH 12 An OR of 8000 and the operation command code is given If a setting range error occurs at the same time indicating the operation command error will be given priority Example If an error occurs for operation command code 1101 the Response Flag will be 9 1 Precautions for AT Auto tuning Do not change the set values in the download area from the start of auto tuning until auto tuning is completed or canceled Programless communications cannot be used to change the set values of the E5LIC after auto tuning starts Also if the Request Flag is set to 1 Enable Writing at the com pletion of auto tuning the set values in the download area are initialized to the set values from the EBLIC This is to update the PID constants It occurs even if PID constants are not set in the
190. peration Operation H 00000001 1 Direct operation C3 83 0000 Alarm 1 Type H 00000000 0 Alarm function OFF H 00000001 1 X Upper and lower limit alarm H 00000002 2 X Upper limit alarm H 00000003 3 Lower limit alarm H 00000004 4 Upper and lower limit range alarm H 00000005 5 Upper and lower limit alarm with standby sequence H 00000006 6 _ Upper limit alarm with standby sequence H 00000007 7 Lower limit alarm with standby Sequence H 00000008 8 Absolute value upper limit alarm H 00000009 9 X Absolute value lower limit alarm H 0000000A 10 Absolute value upper limit alarm with standby sequence H 0000000B 11 Absolute value lower limit alarm with standby sequence H 0000000C 12 LBA Loop Burnout Alarm H 0000000D 13 PV change rate alarm H 0000000E 14 SP absolute value upper limit alarm H 0000000F 15 SP absolute value lower limit alarm H 00000010 16 MV absolute value upper limit alarm H 00000011 17 MV absolute value lower limit alarm H 00000012 18 RSP absolute value upper limit alarm H 00000013 19 RSP absolute value lower limit alarm Valid only with a remote SP input C3 83 000 Alarm 2 Type H 00000000 to H 00000013 0 to 19 Note Same settings as the Alarm 1 Type However the LBA loop burnout alarm cannot be set C3 83 OOOF Alarm 3 Type H 00000000 to H 00000013 0 to 19 Note Same settings as the Alarm 1 Type However the LBA loop burnout alarm cannot
191. plication requirements Actual perfor mance is subject to the Omron s Warranty and Limitations of Liability Change in Specifications Product specifications and accessories may be changed at any time based on improvements and other reasons It is our practice to change part numbers when published ratings or features are changed or when significant construction changes are made However some specifications of the Product may be changed without any notice When in doubt special part numbers may be assigned to fix or establish key specifications for your application Please consult with your Omron s representative at any time to confirm actual specifications of purchased Product Errors and Omissions Information presented by Omron Companies has been checked and is believed to be accurate how ever no responsibility is assumed for clerical typographical or proofreading errors or omissions E5LIC Digital Temperature Controllers Communications Manual H175 3 Safety Precautions Safety Precautions Definition of Precautionary Information The following notation is used in this manual to provide precautions required to ensure safe usage of the Digital Controllers The safety precautions that are provided are extremely important to safety Always read and heed the information provided in all safety precautions The following notation is used Indicates a potentially hazardous situation which if not A CA
192. r and the E5DC must be manufactured in July 2014 or later version 2 2 or higher ESLIC Digital Temperature Controllers Communications Manual H175 5 9 5 Communications Data for Modbus Address Four byte mode Two byte mode 0 14 2E0A Parameter name Event Input Assignment 1 Setting monitor value H 00000000 H 00000001 H 00000002 H 00000003 H 00000004 0 None H 00000005 RUN STOP Auto Manual Switch Program Start Direct Reverse Operation SP Mode Switch 2 10096 AT Execute Cancel 40 AT Execute Cancel Setting Change Enable Disable Communications Writing Enable Disable 3 0000000 10 Alarm Latch Cancel H 0000000B 11 Multi SP No Switch Bit 0 H 0000000C 12 Multi SP No Switch Bit 1 H 0000000D 13 Multi SP No Switch Bit 2 gt H 00000006 H 00000007 H 00000008 H 00000009 gt 0 1 2 3 4 5 6 7 8 9 OE16 2E0B Event Input Assignment 2 H 00000000 to H 0000000D 0 to 13 Note Same as for Event Input Assignment 1 0E18 2E0C Event Input Assignment 3 H 00000000 to H 0000000D 0 to 13 Note Same as for Event Input Assignment 1 OE1A 2E0D Event Input Assignment 4 H 00000000 to H 0000000D 0 to 13 Note Same as for Event Input Assignment 1 OE1C 2E0E Event Input Assignment 5 H 00000000 to H 0000000D 0 to 13
193. r Value Monitor Value Request Flag 0 Request Flag 0 Download 2 Operation Command Code Operation Command Code Area Set Value Set Value If you set the Request Flag to 0 the Response Flag will change to 0 and the monitor values will be updated 2 Writing Set Values and Updating Monitor Values Enable Writing Request 9 b Monitor values are updated PLC memory PLC memory and then is performed Response Flag Response Flag 1 Communications Status Communications Status Monitor Value Monitor Value E 2 d Request Flag 1 Request Flag 1 4 Operation Command Code Operation Command Code Set Value Set Value If you set the Request to 1 the set values will be written to the and then the operation com mand will be written to the E5LIC Finally the Response Flag will change to 1 and the monitor values will be updated The operation command is processed only the first time but the set values are written each time Therefore you cannot change the parameters that are specified for download settings at the EBLIC To change parameters that are specified for download settings at the refer to 6 2 10 Communications Writing 3 Initializing the Download Area a The set values are written to the ESLIC PLC mem
194. r must not be set to 0 0 master Parameter name Setting range Default characters SP Slope SPS 0 001 to 9 999 None 1 000 SP Offset 5225 Temperature input 199 9 to 999 9 EU 0 0 Analog input 1 999 to 9 999 The decimal point position depends on the Decimal Point parameter setting E Digital Temperature Controllers Communications Manual H175 7 Component Communications 7 2 Operation for Component Communications Only two parameter settings can be sent from the master to the slaves the Set Point SP and the RUN STOP parameters If the set point or the RUN STOP status is changed at the master the new value is sent to the slaves starting with the slave with communications unit number 1 and continuing on to the slave with the high est communications unit number The master sends values only during operation Values are not sent while in the initial setting level If the set point or the RUN STOP status is changed again while sending a previous value to the slaves the original value will not be transferred correctly Always wait for a value to be sent to all of the slaves before you change the set point or RUN STOP status again Component Levels M communications Operation level adjustment level manual control level Setting area 0 Operates monitor setting item level and protect level Initial setting level communications setting level advanced Setting area 1 Stops functio
195. r the Protocol Setting parameter must be set to MF and the Communications Unit No parameter must be set to 0 master Parameter name Setting range Default characters Receive Data Wait Time 100 to 9999 ms 1000 ms 6 2 7 Communications Node Number Set the communications node number to the Host Link unit number for an OMRON PLC and to the sta tion number for a Mitsubishi PLC You can normally use the default setting Communications Setting Level Display condition The Protocol Setting parameter must be set to N5 EL PU or Parameter name Setting range Default characters Communications 0 to 99 Node Number E Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 2 8 Upload Settings and Download Settings There are 13 upload settings and 13 download settings Communications Setting Level Display condition The Protocol Setting parameter must be set to NS Parameter name Displayed characters Upload Setting 1 uP Upload Setting 2 uP Upload Setting 3 uP 3 Upload Setting 4 UF 4 Upload Setting 5 5 Upload Setting 6 Upload Setting 7 Upload Setting 8 A Upload Setting 9 9 Upload Setting 10 uP 10 Upload Setting 11 LIP ii Upload Setting 12 uP ig Upload Setting 13 uP i3 Download Setting 1 d
196. r to 6 2 9 Copying Parameter Settings for details on the copying operation C Digital Temperature Controllers Communications Manual H175 6 26 E 6 Programless Communications 6 4 5 Checking Operation The SP and RUN STOP status of the EBL IC Controllers will be changed to check operation Make sure a that this will not create any problems in the controlled system Checking E5CC Monitor Values 1 The PLC operating mode must be changed to PROGRAM mode to enable changing values in PLC memory Perform step 1 in Communications Settings for the Serial Communications Option Board in 6 4 3 PLC Setup to move to PROGRAM mode 2 Double click Memory The PLC Memory Window will be displayed xi NewProject E NewPLC1 CP1E Stop Program Mode 2 Symbols 222 Settings Error log DL c Slack OIM Programs 3 We will monitor memory in the PLC Memory Window Double click D to select the DM Area in the left pane and then select Online Monitor from the menu bar The Monitor Memory Areas Dialog Box will be displayed Click the Mon itor Button Es PLC Memory NewPLC1 D File Edit View WiNdow Help Transfer PLC Bo tal Transfer From PLC 2 s les Compare With PLC p o c Force b Sel CP1E N40 Monitor Memory Areas Digital Temperature Controller
197. rea 1 control operation is stopped In this state you can perform operations that are not allowed in setting area 0 These operations include writing data at the initial setting level At power ON the Digital Controller is set in setting area 0 To move to setting area 1 use the move to setting area 1 command To return to setting area 0 turn the power OFF and ON again or use the software reset command Software reset command Setting area 0 Move to setting Setting area 1 area 1 command Control in progress Control stopped E C Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures 2 4 Response Code List Normal Completion Response code NE Error detection priority 0000 No errors were found None Error Occurred Error Response code Name Description detection priority 0401 Unsupported command The service function for the relevant 1 command is not supported 1001 Command too long The command is too long 2 1002 Command too short The command is too short 3 1101 Area type error Wrong variable type 4 1103 Start address out of range The read write start address is out of range 5 error End address out of range The write end address write start address 1104 error number of elements exceeds the final 6 address of the variable area 1003 Number of elements data The amount of data does not match the 7 misma
198. rm this for the No 1 and No 2 Controllers as well Modify Value Device Label Buffer Memory Device Label 017 word Signed C HEX Settable Range 32768 to 32767 Execution Result lt lt cose D Stopping the E5CC Controllers 1 2 We will run the No 0 Controller Change the RUN STOP parameter 7 5 in the operation level of the 5 to RUN AUN For a Controller with event inputs the Event Input 2 Assignment parameter Ev 2 in the initial setting level is set to RUN STOP 5622 so the RUN STOP parameter will not be dis played Change the Event Input 2 Assignment parameter to NONE and then change the RUN STOP parameter to RUN We will switch the No 0 Controller to STOP In the Device Memory Dialog Box make sure that D15 Request Flag is 1 Enable Writing and then double click D16 Operation Command Code Select the HEX Option enter 0101 hex STOP click the Set Button and then click the Close Button D16 will change to 0 DO Response Flag will remain at 1 Enable Writing and STOP will be displayed on the No 0 Controller Confirm this for the No 1 and No 2 Controllers as well For details on other operation command codes refer to 6 3 4 Operation Command Codes E C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 Connecting to MELSEC FX series PLCs
199. rtional H 00000001 1 ON MV C3 83 005D AT Calculated Gain H 00000001 to H 00000064 0 1 to 10 0 83 005E AT Hysteresis H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 9 99 for analog input 83 005 Limit Cycle MV H 00000032 to H 000001 F4 5 0 to 50 0 Amplitude C3 83 0060 Remote SP Enable H 00000000 0 OFF H 00000001 1 ON C3 83 0061 Remote SP Upper Input range lower limit to Input range upper limit limit for temperature input Scaling lower limit to Scaling upper limit for analog input C3 83 0062 Remote SP Lower Input range lower limit to Input range upper Advanced limit limit for temperature input function setting Scaling lower limit to Scaling upper limit for analog input C3 83 0063 SP Tracking H 00000000 0 OFF H 00000001 1 ON C3 83 0067 PV Rate of Change H 00000001 to H 000003E7 1 to 999 Calculation Period 83 0068 Heating Cooling H 00000000 0 Same Same as for heating Tuning Method H 00000001 1 Linear H 00000002 2 Air cooling H 00000003 3 Water cooling C3 83 006C Extraction of Square H 00000000 0 OFF Initial setting Root Enable H 00000001 1 ON E Digital Temperature Controllers Communications Manual H175 Variable type C3 83 Address 006D Parameter name PF Setting 3 Communications Data for CompoWay F Setting monitor value Disabled Run Stop RUN STOP 100 AT
200. s Transfer to PLC from the menu bar in the window that is shown above The settings will be transferred Close the window and cycle the power to the PLC This completes the PLC setup pro cedure You will use the CX Programmer to check operation so leave it online 6 4 4 JC Controller Setup This section describes the setup for programless communications or components communications Refer to 6 2 E5 C Setup for the procedure to display parameters Refer to 7 1 3 E5 C Setup for component communications as well Here we will assume that all parameters other than those for com munications have already been set Make sure that all of the EBLIC Controllers are the same model The parameter settings cannot be copied if the models are different 1 Set the Communications Unit No parameter i No in the communications setting level to 1 for the No 1 Controller and set it to 2 for the No 2 Controller Leave the other communications settings at their default values The default communications unit number is 1 so the Communications Unit No parameter for the No 1 Controller does not need to be changed Always set the communications unit numbers of the slaves in order from 1 To enable the changes to the settings always return to the operation level 2 Change the parameter settings in the communications setting level of the No 0 Controller to the values that are given below Protocol Setting P5EL FANS Set ML P for
201. s Communications Manual H175 S2d Saues q2 0 5 4 9 G p 9 6 Programless Communications 4 5 We will change the values that are displayed for PLC memory to signed decimal values Select View Display Signed Decimal from the menu bar You can select View Dis play Hexadecimal to return the display to hexadecimal values Es PLC Memory NewPLC1 D File o Online Window Help T Always Toolbars 2 38 v Status Bar 4 Data Area WorkSpace J C PEE Binary Coded Decimal Zoom In Ctrl PqDn Decimal Zoom Out Ctrl PgUp 100 Signed Decimal gt Floating point Resize Columns Hexadecimal Text Double Floating Point os Preferences We will check the E5CC monitor values The area where monitor values are checked is called the upload area D0000 to 00014 is the upload area for the No 0 Controller 00030 to 00044 is the upload area for the No 1 Controller and 00060 to 00074 is the upload area for the No 2 Controller Es PLC Memory NewPLC1 D File Edit Grid Online Window Help Sila le lejeje sale a e aJ 45 qm 00080 00090 AT 00000 0 0 0 0 0 0 0 0 C 00010 0 No 0 0 2 0 0 0 0 100020 0 0 0 0 o 0 o i lo in 0 0 0 10 10 U 10
202. s Unit No parameter is not set to 0 The Communications Baud Rate parameter is not set to the same value as the slaves The Highest Communications Unit No parameter is not set to the highest communications unit number that is actually set The set point is not calculated The SP Slope or SP Offset parameter is not set correctly The set point was changed at the master when the slave was stopped setting area 1 74 It is sometimes not possible to change the set points or RUN STOP status There may be noise interference Connect terminating resistance to both ends of the communications line Note For information on other problems refer to A 2 Troubleshooting 7 2 Digital Temperature Controllers Communications Manual H175 Appendices A T ASCID EISE 2x52 a tahoe eee MEE uae ee zu A 2 2 Troubleshooting A 3 Digital Temperature Controllers Communications Manual H175 1 A Appendices 1 ASCIIList SPE PPLE ET DEBE obol 6 fo epe Inns I epe ER lofe p Jetse bree no Even parity T Digital Temperature Controllers Communications Manual H175
203. s for the KV STUDIO and USB driver c 4 Qoodocd o 2 USB port RS 485 The application procedure is given below Wire the network Wire the KV L21V to the E5CC Controllers Set up the PLC Use KV STUDIO to set up communications on the KV L21V to enable communicating with the E5CC Controllers Set up the E5LIC Controllers Set up programless communications the E5CC Controllers Check operation Use the KV STUDIO to confirm that programless communications are operating C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 8 2 Wiring Set the terminator switch on the front panel of the KV L21V to TERM and wire the 5 Controllers as shown below SG S R 586 120 1 2 W terminating resistance Shield Shield Shield peroneal NEL amem RNC amen Regn RA Note 1 Usea terminating resistance of at least 54 2 The maximum transmission distance is 500 m 3 For wiring methods refer to 2 6 Connecting External Devices in the KV L21V Serial Communication Unit User s Manual 254GB 6 8 3 PLC Setup Set up communications on the KV L21V to enable communicating with the E5CC Controllers The procedure to use when you create a new project is given below If you use an existing project set up communications after you read the data from the PLC
204. s the same as that for CompoWay F Refer to page 3 23 snjejg Z S E5LIC Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus E C Digital Temperature Controllers Communications Manual H175 Programless Communications This section describes programless communications for the EBLIC Programless communications are not supported by version 1 0 of the 5 6 1 Programless Communications 6 3 6 151 IfitrOQUClOR zinc ete beer E eR 6 3 621 2 olli e bee DR 6 3 6 1 3 Operation for Programless Communications 6 4 6 1 4 Timing of Turning Power ON and OFF 6 4 6 1 5 Connectable PLCs 6 5 6 2 Setup icone eee 6 6 6 2 1 Protocol Setting Lusso bue Wb i ue Ep nO 6 6 6 2 2 Communications Unit No and Communications Baud Rate 6 7 6 2 3 Send Data Wait Time 6 7 6 2 4 Highest Communications Unit No 6 7 6 2 5 Areas and First Address of Linked Data 6 8 6 2 6 Receive Data Wait Time 6 10 6 2 7 Communications Node Number
205. setting the number of communications stop bits Set either 1 or 2 Communications Parity FFE This parameter is for setting the communications parity Set the parity to none 0 o even or odd Send Data Wait Time Sct The send data wait time is the delay from when the Controller receives a command from the host computer until it returns a response If the response is returned too quickly the host computer may not be able to receive the response Change the send data wait time as required To increase the response speed for communications reduce the send data wait time The send data wait time can be set in 1 ms increments between 0 and 99 ms The default is 20 ms E Digital Temperature Controllers Communications Manual H175 CompoWay F Communications Procedures Read this section if you are to communicate using the CompoWay F format 2 1 Bata Format uel EE IDEE AMT ER RA 2 2 24 4 Command Frame iios p DR Y PIT Ex and 2 2 2 1 2 BCC Calculation Example 2 3 2 1 3 Response Frame 2 3 2 1 4 Communications 2 4 2 1 5 2 4 2 2 Structure of Command Text 2 6 2 2 1 PDU Structure ce ee
206. settings is not possible if the models are different DO to 089 are used in the PLC memory The default 5 parameter allocations are used A commercially available USB2 0 cable is used IBM PC AT or compatible QJ71C24N R4 GX Works2 Programming Software o 000000 Commercially available USB cable USB connector seues D 236131 0 Bunoeuuo 9 9 RS 485 Note Refer to the GX Works2 Installation Instructions BCN P5713 for information on installing the GX Works2 and to the GX Works2 Version 1 Operating Manual Common SH 080779ENG for information on installing the USB driver The application procedure is given below START Wire the network Set up the PLC Use GX Works2 to set up communications on the QU71C24N R4 V1 to enable communicating with the E5CC Controllers Write the QU71C24N R4 to the E5CC Controllers pue 1 9 9 Set up the E5LIC Controllers Set up programless communications in the E5CC Controllers Check operation Use GX Works2 to confirm that programless communications are operating ESLIC Digital Temperature Controllers Communications Manual H175 6 37 6 Programless Communications 6 6 2 Wiring Wire the QJ71C24N R4 to the 5 Controllers as shown below QJ71C24N R4
207. settings will be transferred After the data has been transferred click the OK Button Edit Parameters Edit Parameters Downloads parameters to the unit Are you sure you want to continue Transfer successful Digital Temperature Controllers Communications Manual H175 6 35 S2d Bunoeuuo2 c 9 dnjes 2 5 9 6 Programless Communications Click the Yes Button to restart the Unit Select All ports and then click the OK Button A dialog box will be displayed when the Unit has been restarted Click the OK Button This completes the PLC setup procedure You will use the CX Programmer to check operation so leave it online Edit Parameters Select Port It is necessary to restart the unit to transfer the setting effectively Do you wish to restart the unit HostLink2 Edit Parameters W The unit was restarted Set up programless communications Perform the procedure that is given in 6 4 4 E5 C Controller Setup Perform the procedure that is given in 6 4 5 Checking Operation o m C Digital Temperature Controllers Communications Manual H175 6 Programless Communications 6 6 Connecting to MELSEC Q series PLCs 6 6 1 Configuration and Procedure The following configuration is used as an example in giving the setup and application procedures for programless communications All of the 5 Controllers must be the same model Copying parameter
208. sistance with the host device is 54 minimum The specified power supply Supply the specified power supply voltage voltage is not being supplied to the Controller The specified power supply Supply the specified power supply voltage voltage is being supplied to an Interface Converter e g the K3SC The same baud rate and Set the same values for the following on all nodes baud 1 2 communications method are not rate protocol data length stop bits and parity being used by all of the Controllers host devices and other nodes on the same communications line The unit number specified in the Use the same unit number 2 2 command frame is different from 4 2 the unit number set for the Controller The same unit number as the Set each unit number for only one node 1 4 Controller is being used for another node on the same communications line There is a mistake in Use a line monitor to check the commands programming in the host device The host device is detecting the Shorten the send data wait time in the Controller or 1 5 absence of a response as an increase the response wait time in the host device error before it receives the response from the Controller E5LIC Digital Temperature Controllers Communications Manual H175 A 3 A Appendices Item Confirmation Page The host device is detecting the The Controller does not return responses for broadcast 2 2 absence of a response as an so
209. ssed ewo eed 1 S9p02 L r No Response In the following cases the received command will not be processed and a response will not be returned Consequently a timeout error will occur at the host device The slave address in the received command does not match the communications unit number A parity error framing error or overrun error occurred due to a problem such as a transfer error A CRC 16 code error occurred in the received command frame There was a time interval of more than 3 5 character times between data packets that make up the command frame Furthermore the specified function s processing will be performed but no response will be returned for broadcast functions slave address H 00 E5LIC Digital Temperature Controllers Communications Manual H175 4 5 4 Modbus Communications Procedure 4 2 Function List The following table lists the function codes Function Code List Function code Name Process 03 H 03 Read variable This function reads from the variable area multiple It is possible to read two or more consecutive variables 16 H 10 Write variable This function writes to the variable area multiple It is possible to write two or more consecutive variables It is also possible to broadcast this function broadcast transmission 06 H 06 Write variable This function writes to the variable area and writes operation Single operation commands co
210. st Data Set between 0 and 200 bytes of user defined test data Set a value for the test data within the ranges shown below according to the communications data length Communications data length 8 bits ASCII data H 20 to H 7E or H A1 to H FE 7 bits ASCII data H 20 to H 7E Test Data 2 Response Code Normal Completion Response code Name Description 0000 Normal completion No errors were found Error Occurred Response code Emormame Description 1001 Command too long The command is too long 2203 Operation error Non volatile memory error Digital Temperature Controllers Communications Manual H175 2 15 2 CompoWay F Communications Procedures 2 3 8 Operation Command Communications Writing RUN STOP Multi SP AT Execute Cancel Write Mode Save RAM Data Software Reset Move to Setup Area 1 Move to Protect Level Auto Manual Switch Parameter Initialization Alarm Latch Cancel Invert Direct Reverse Program Start SP Mode Operation Service Request PDU Com Related MRC SRC mand informa code 0 0 5 SRC Response code 0 0 5 1 Command Code and Related Information Command code Command content Related Information 00 Communications Writing 00 OFF disabled 01 ON enabled 01 RUN STOP 00 Run 01 Stop Multi SP 00 Set point 0 01 Set point 1 02 Set point 2 02 03 Set point 3 04
211. sters or FM file registers Do not use any other values C3 83 0098 First Address Upper H 00000000 to H 00000063 0 to 99 Word C3 83 0099 First Address Lower H 00000000 to H 0000270F 0 to 9999 Word C3 83 009A Receive Data Wait H 00000064 to H 0000270F 100 to 9999 Time Digital Temperature Controllers Communications Manual H175 3 20 3 Communications Data for CompoWay F ee Address Parameter name Setting monitor value Level C3 83 009B Communications H 00000000 to H 00000063 0 to 99 Communications Node Number setting C3 83 009C Upload Setting 1 H 00000000 to H 00000062 0 to 98 C3 83 009D Upload Setting 2 H 00000000 to H 00000062 0 to 98 83 009 Upload Setting 3 H 00000000 to H 00000062 0 to 98 83 009 Upload Setting 4 H 00000000 to H 00000062 0 to 98 C3 83 00A0 Upload Setting 5 H 00000000 to H 00000062 0 to 98 C3 83 00A1 Upload Setting 6 H 00000000 to H 00000062 0 to 98 C3 83 00 2 Upload Setting 7 H 00000000 to H 00000062 0 to 98 83 00 Upload Setting 8 H 00000000 to H 00000062 0 to 98 C3 83 00 4 Upload Setting 9 H 00000000 to H 00000062 0 to 98 C3 83 00A5 Upload Setting 10 H 00000000 to H 00000062 0 to 98 C3 83 00A6 Upload Setting 11 H 00000000 to H 00000062 0 to 98 C3 83 00A7 Upload Setting 12 H 00000000 to
212. t OF12 2F09 Alarm 4 Type H 00000000 to H 00000013 0 to 19 Note Same settings as the Alarm 1 Type However the LBA loop burnout alarm cannot be set Initial setting OF 14 2F0A Alarm 4 Latch H 00000000 0 OFF H 00000001 1 ON Advanced function setting OF16 2F0B Alarm 4 Hysteresis H 00000001 to H 0000270F 0 1 to 999 9 for temperature input 0 01 to 99 99 for analog input Initial setting OF18 2F0C Standby Sequence Reset H 00000000 0 Condition A H 00000001 Condition B OF1A 2F0D Auxiliary Output 1 Open in Alarm 1 H 00000000 0 Close in alarm H 00000001 1 Open in alarm Advanced function setting Digital Temperature Controllers Communications Manual H175 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode OF1C 2FOE Auxiliary Output 2 Open H 00000000 0 Close in alarm Advanced in Alarm H 00000001 1 Open in alarm function OF1E 2FOF Auxiliary Output 3 Open H 00000000 0 Close in alarm setting in Alarm H 00000001 1 Open in alarm 0 20 2F10 Auxiliary Output 4 Open H 00000000 0 Close in alarm in Alarm H 00000001 1 Open in alarm OF22 2F11 Alarm 1 ON delay H 00000000 to H 000003E7 0 to 999 OF24 2F12 Alarm 2 ON delay H 00000000 to H 000003E7 0 to 999 OF26 2F13 A
213. tch number of elements Response too long The response length exceeds the communications buffer size when the number 110B 8 of elements is greater than the maximum number of elements for that service Parameter error Bit position is not 00 1100 The write data is out of the setting range 9 The command code or related information in the operation command is wrong 3003 Read only error Variable type CO was written to 10 Operation error The Communications Writing parameter is set to OFF disabled Attempted to write to a parameter in setup area 1 from setup area O Attempted to write to a protect parameter 2203 from other than the protect level 11 E5LIC Digital Temperature Controllers Communications Manual H175 Writing was carried out during AT execution Processing is not possible by operation command Non volatile memory error 1SI esuodsey 2 2 CompoWay F Communications Procedures E C Digital Temperature Controllers Communications Manual H175 Communications Data for CompoWay F This section lists the details of the communications data in the CompoWay F communications protocol 3 1 Variable Area Setting Range List 3 2 3 2 Status and Status 2 3 23 E5LIC Digital Temperature Controllers Communications Manual H175 3 1 3 Communications Data for CompoWay
214. this operation command is executed in setup area 1 the display will not change SODIAIOS ou JO uonduosoeg 2 2 Move to Protect Level This command moves to the protect level and can be accepted only in setup area 0 When this command is issued in setup area 1 an operation error will be generated and the move to the protect level will be prohibited Moving to Protect Level in Manual Mode When this operation command is issued in manual mode an operation error will be generated and the move to the protect level will be prohibited puewwoy 8 2 2 Auto Manual Switch This operation command switches the mode to manual mode or automatic mode based on the related information setting This command can be accepted in setup area 0 only An operation error will be generated in the following instances When the command is executed in setup area 1 When the Controller is switched to manual mode the manual manipulated variable will be displayed When the Controller is switched from manual mode to automatic mode the operation level s first parameter will be displayed When the Controller is switched to auto mode while already in auto mode or switched to manual mode while already in manual mode the command will be completed normally and the display will not change the contents will not be refreshed Writing Auto Manual Status in Non volatile memory The write mode determines whether the auto ma
215. tical parity can each be set independently in the communications setting level Highlighted values indicate default settings 1 2 ESLIC Digital Temperature Controllers Communications Manual H175 1 Communications Methods 1 1 3 Transmission Procedure When the host transmits a command frame the transmits a response frame that corresponds to the command frame A single response frame is returned for each command frame The following dia E gram shows the operation of the command and response frames Command frame Response frame Allow a wait time of at least 2 ms before the next command is sent after the host receives a response from the E5LIC 1 1 4 Interface Communications with the host are carried out through a standard RS 485 interface Use a K3SC Inter a face Converter for RS 485 interface conversion Digital Temperature Controllers Communications Manual H175 Command frame BOIUNLWILWOD JO L L 5 suon UOISSIWSULIL L L 1 Communications Methods 1 1 5 Wiring Specify both ends of the transmission path including the host as the end node that is connect terminators to both ends Use a terminating resistance of at least 54 O Shield e RS 485 The RS 485 connection can be either one to one or one to N Up to 32 units including the host can be connected in a one to N s
216. times H 00000002 2 4 times H 00000003 3 8 times H 00000004 4 16 times H 00000005 5 32 times 8 or EBAC PRLI 8 1 You can use this parameter only with the E5EC PR The Digital Controller must be manufactured in August 2014 or later version 2 2 or higher E5LIC Digital Temperature Controllers Communications Manual H175 1sr Humes easy ejqeueA L G 5 Communications Data for Modbus Address Four byte Two byte Parameter name Setting monitor value Level mode mode 0810 2808 Extraction of Square Root H 00000000 to H 000003E8 0 0 to 100 0 Adjustment Low cut Point 0900 2900 SPO SP lower limit to SP upper limit 0904 2902 Alarm Value 1 H FFFFF831 to H 0000270F 1999 to 9999 Operation 0906 2903 Alarm Value Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 1 0908 2904 Alarm Value Lower Limit H FFFFF831 to H 0000270F 1999 to 9999 1 090A 2905 Alarm Value 2 H FFFFF831 to H 0000270F 1999 to 9999 090C 2906 Alarm Value Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 2 090E 2907 Alarm Value Lower Limit H FFFFF831 to H 0000270F 1999 to 9999 2 0910 2908 Alarm Value 3 H FFFFF831 to H 0000270F 1999 to 9999 0912 2909 Alarm Value Upper Limit H FFFFF831 to H 0000270F 1999 to 9999 3 0914 290A Alarm Value Lower Limit H FFFFF831 to H 000
217. tings and click the Finish Setup Button Use the defaults settings for the other parameters Operate Communication Setting Selected Protocol Dedicated Protocol Parity Even Stop Bit 2Bit Transmission Speed 38 400 H W Type RS 485 Sum Check Selected Transmission Control Procedure Form4 With CR LF FX Parameter Memory Capacity Device PLC Name PLC System 1 PLC System 2 Special Function Block Positioning CH1 7 Operate v Communication Setting The setting contents cleared when unchecked When communicate with GX Works2 GOT etc by PLC using optional board For FX etc the D8120 special register of PLC must be 0 cleared and must be unchecked Protocol Dedicated Protocol Data Length H W 7 5 485 Parity Control Mode Even 2Bit x Stop Bit Transmission Speed Transmission Control Procedure 38400 bps Form4 With CR LF Station Number Setting 00 H DDH 0FH Time Out Judge Time 1 X10ms 1 255 Print Window Print Window Preview Default Check D 4 Note If you change the station number setting refer to 6 2 7 Communications Node Number C Digital Temperature Controllers Communications Manual H175 6 53 Seues x4 93S13MW 04 Bunoeuuo 9 dnies 21d 7 9 6 Programless Communications 3 Select Online Write to PLC A dialog bo
218. tion Work bit 1 Work bit 2 Work bit Work bit 4 Work bit 5 Work bit 6 Work bit 7 Work bit 8 28 ale Operating vent Spare 8 8 E Spare inputs amp 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 Bit position 0 0 0 0 0 L Event input 5 Event input 6 Invert direct reverse operation SP ramp SP Mode Alarm 4 Digital Temperature Controllers Communications Manual H175 Status Details 3 Communications Data for CompoWay F Bit Description Bit position Status 0 1 Status 0 Heater overcurrent CT1 Not generated Generated lower 1 Heater current hold CT1 Update Hold word 2 A D converter error Not generated Generated 3 HS alarm CT1 OFF ON 4 RSP input error Not generated Generated 5 Spare OFF 6 Input error Not generated Generated 7 Potentiometer input error Not generated Generated 8 Control output heating open output OFF ON 9 Control output cooling close output OFF ON 10 HB heater burnout alarm CT1 OFF ON 11 HB heater burnout alarm CT2 OFF ON 12 Alarm 1 OFF ON 13 Alarm 2 OFF ON 14 Alarm 3 OFF ON 15 Program end output OFF ON Status 16
219. tion 0000 Normal completion No errors were found 2 8 Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures m 5 Error Occurred 5 Response code Error name Cause 1001 Command too long The command is too long 1002 Command too short The command is too short E 1101 Area type error The variable type is wrong 3 1103 Start address out of range error The read start address is out of 110B Response too long The number of elements exceeds 3 the maximum 1100 Parameter error Bit position is not 00 2203 Operation error Non volatile memory error 5 Precautions Alarm Function Even though alarms are not displayed on the Controller s display they function normally in communications 2 3 2 Write Variable Area This service writes data to the variable area Service Request PDU Leay SIUM c c MRC SRC Variable Start write Bit Number of Write Data for number address position elements of elements 012 0 0 011 Number of elements x80or4 SRC Response code 0 1 0 2 1 Variable Type and Write Start Address For details on variable types and write start addresses refer to Section 3 Communications Data for CompoWay F 2 Bit Position Bit access is not supported Fixed to 00 3 Number of Elements Number of elements Pro
220. ually used are set in the upload settings Request Flag This flag is used to control programless communications Operation The operation command that corresponds to the code is sent Command Code dires Set Value 1 The set values at these addresses are written to the such as to the set point or alarm values The parameters that are actually used are set in the download settings Set Value 2 Set Value 13 The Response Flag Communications Status Request Flag and Operation Command Code all have special functions that cannot be changed Refer to the following sections for application methods Request Flag 6 3 1 Controlling Programless Communications with the Request Flag Response Flag 6 3 2 Response Flag Operation Command Code 6 3 4 Operation Command Codes Communications Status 6 3 5 Confirming Operation of Programless Communications The portion of PLC memory to use is set with the Area First Address Upper Word and First Address Lower Word parameters Note If more than one E5LIC Controller is connected to the same communications line set the starting address to the same value for all of them The E5 that start from the specified starting address the E5 C Controller with communications unit number 0 will use the words C Controller with unit number 1 will use the words that start from the specified starting address plus 30 words and the E5
221. uired for component communications 3 Set the Communications Unit No parameter and Communications Baud Rate parameter to 19 2 for a Mitsubishi FX1 or FX2 PLC 38 4 for a Mitsubishi FX3 PLC and 57 6 for any other PLC in the new 5 Controller and then return to the operation level 4 Copy the parameter set values from the master to the new E5 C Controller by specifying the number of the Controller 5 Return all of the slaves and the master in order to the operation level This completes the replacement The above step is not required for component communications e Replacing the Master i e the Controller with a Communications Unit Number of 0 To copy the parameter settings one of the slaves will function as the master which means that the No 0 Upload Area and the No 1 Upload Area will temporarily change in PLC memory Turn OFF the power supply to the PLC or otherwise make sure that the system will not be adversely affected before you perform the following procedure 1 Perform steps 1 and 2 in the above procedure 2 Record the communications unit number and communications baud rate of the slave with communications unit number 1 and then temporarily change the communications unit number to 0 master Do not return to the operation level after you change the communications unit number 3 Set the Communications Unit No parameter and the Communications Baud Rate parameter of the new
222. unction code When the function ended normally the function code is left as is When an error occurred the hexadecimal value of H 80 is added to the function code to indicate that the response is an error response Example Received function code H 03 Function code in response frame when an error occurred 83 Byte count Contains the number of bytes of read data Read data Contains the number of setting data items that were read CRC 16 This check code is calculated with the data from the slave address to the end of the data For details on the CRC 16 calculation refer to CRC 16 Calculation Example in 4 1 1 Command Frame on page 4 2 Response Code Function code Error code Error name Cause H 83 H 02 Variable address The read start address is incorrect error H 03 Variable data error The number of elements exceeds the allowed range H 03 Normal completion No errors were found Reading Undisplayed Parameters It is possible to read the parameters that are not displayed due to display settings as well as the parameters that are never displayed in the Controller Example Command and Response The following example shows the command and response when reading the process value slave address 01 Process Value in 4 byte Mode Address H 0000 Read data H 000003E8 100 0 C Process Value in 2 byte Mode Address H 2000 Read data H 03E8 100 0 C 5 Digital
223. unction code is H 03 Read start address Specify the address containing the data to be read Refer to Section 5 Communications Data for Modbus for details on addresses Number of elements 4 byte Mode Specify 2 times the number of setting data items as the number of elements to be read The setting range for the number of elements is H 0002 to H 006A 2 to 106 When H 0064 is set 53 items of setting data can be read Example When reading 2 items of setting data set the number of elements to H 0004 2 byte Mode Specify the number of setting data items to be read as the number of elements The setting range for the number of elements is H 0001 to H 006A 1 to 106 When H 0064 is set 106 items of setting data can be read Example When reading two items of setting data set the number of elements to H 0002 CRC 16 This check code is calculated with the data from the slave address to the end of the data For details on the CRC 16 calculation refer to CRC 16 Calculation Example in 4 1 1 Command Frame on page 4 2 4 8 Digital Temperature Controllers Communications Manual H175 4 Modbus Communications Procedure Response Frame Slave Function Byte Read data for the number of CRC 16 address code count elements H 03 1 1 1 010 212 2 106 2 Description Slave address The value from the command frame is entered as is Function code This is the received f
224. unications Manual H175 5 Safety Precautions A CAUTION If you replace only the Main Unit of the E5DC check the condition of the Terminal Unit If corroded terminals are used contact failure in the terminals may cause the temperature inside the Digital Controller to increase possibly resulting in fire If the terminals are corroded replace the Terminal Unit as well Loose screws may occasionally result in fire Tighten the terminal screws to the specified torque of 0 43 to 0 58 N m Set the parameters of the product so that they are suitable for the system being controlled If they are not suitable unexpected operation may occasionally result in property damage or accidents A malfunction in the Digital Controller may occasionally make control operations impossible or prevent alarm outputs resulting in property damage To maintain safety in the event of malfunction of the Digital Controller take appropriate safety measures such as installing a monitoring device on a separate line ooo gt The specified torque is 0 5 N m for the E5CC U Digital Temperature Controllers Communications Manual H175 Precautions for Safe Use Precautions for Safe Use Be sure to observe the following precautions to prevent operation failure malfunction or adverse affects on the performance and functions of the product Not doing so may occasionally result in unex pected events Use the product within specifications
225. use of the information contained in this publication E5LIC Digital Temperature Controllers Communications Manual H175 1 Terms and Conditions Agreement Terms and Conditions Agreement Warranty Limitations of Liability Warranties Exclusive Warranty Omron s exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron or such other period expressed in writing by Omron Omron disclaims all other warranties express or implied Limitations OMRON MAKES NO WARRANTY OR REPRESENTATION EXPRESS OR IMPLIED ABOUT NON INFRINGEMENT MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE PRODUCTS BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE Omron further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Products or otherwise of any intellectual property right e Buyer Remedy Omron s sole obligation hereunder shall be at Omron s election to i replace in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof the non complying Product ii repair the non complying Product or iii repay or credit Buyer an amount equal to the purchase price of the non complying Product provided that in no event shall Omron be responsible for warranty repair
226. ut the H prefix are ASCII characters The number underneath each item in a frame indicates the number of bytes Command Frame Text Node number Sub address SID Command text BCC e a E 2 1 TE STX BCC calculation range This code H 02 indicates the beginning of the communications frame text Always set this character in the first byte When STX is received again during reception reception is carried out again from the point where STX was received Node number This number specifies the transmission s destination Specify the 5 1 communications unit number A BCD value between 00 and 99 or an ASCII value of XX can be set Specify XX for a broadcast transmission No responses will be returned for broadcast transmissions No responses will be returned from node numbers other than the ones in the above range Sub address Always set the sub address to 00 SID Service ID Always set the service ID to 0 Command text This is the command text area For details refer to 2 2 Structure of Command Text ETX This code H 03 indicates the end of the text This is the Block Check Character BCC The BCC result is found by calculating the exclusive OR of the bytes from the node number up to ETX Digital Temperature Controllers Communications Manual H175 2 CompoWay F Communications Procedures 2 1 2 BCC Calculation Example T
227. utput The E5CC U must be manufactured in May 2014 or later version 2 2 or higher and the E5DC must be manufactured in July 2014 or later version 2 2 or higher Digital Temperature Controllers Communications Manual H175 5 11 1sr easy ejqeueA L G 5 Communications Data for Modbus Address Four byte mode OE48 Two byte mode 2E24 Parameter name Extraction of Square Root Enable Setting monitor value H 00000000 0 OFF H 00000001 1 ON OE60 2E30 Travel Time H 00000001 to H 000003E7 1 to 999 OFOO 2F00 Alarm 1 Type H 00000000 0 Alarm function OFF H 00000001 1 Upper and lower limit alarm H 00000002 2 Upper limit alarm H 00000003 3 Lower limit alarm H 00000004 4 Upper and lower limit range alarm H 00000005 5 Upper and lower limit alarm with standby sequence H 00000006 6 Upper limit alarm with standby sequence H 00000007 7 Lower limit alarm with standby sequence H 00000008 8 Absolute value upper limit alarm H 00000009 9 Absolute value lower limit alarm H 0000000A 10 Absolute value upper limit alarm with standby sequence H 0000000B 11 Absolute value lower limit alarm with standby sequence 2 LBA Loop Burnout Alarm 3 PV change rate alarm 4 SP absolute value upper limit alarm 5 SP absolute value lower limit alarm y y H 0000000C H 0000000
228. will be written to buffer memory flash ROM Serial Port PLC Module Connection USB System Image Write Verify Delete Module Tite Sena Edit Data Module Name Data Name Necessary Setting Mo Setting Already Set Writing Size 6 144Bytes Related Functions lt lt 208 Set Clock PLC Liser Data fis Remote Write Title Operation 5 itelligent Function Module Execution Target Data No f Parameter Program Select All Cancel all Selections Title Yes Target Detail Last Change Target Memory Getal 2012 03 12 11 04 29 2012 03 12 11 03 28 pe msi Detail 2012 03 12 11 03 29 m Oet _____ _______ 2012 03 12 11 03 29 2140 Bytes 630 Bytes Set if itis needed No Setting Already Set Free Volume 1 026 048 Use Volume 6 144Bytes Refresh fl Format PLC Memory Clear PLC Memory Arrange PLC Memory C Digital Temperature Controllers Communications Manual H175 a 6 Programless Communications 5 We will write set values to the PLC Some dialog boxes will be displayed before and after the following dialog box Click the Yes Button for of them or click the Yes to All Button When the following dialog box is displayed click the Close Button Also close the dialog box to write set values and then cycle the power supply to the PLC This complet
229. x to write the set values will be displayed ME MELSOFT Series GX Works2 Untitled Project Project Edit Find Replace Compile View COnline Debug Diagnostics Tool Verify with PLC Remote Operation Project 4 We will write set values to the PLC Confirm that PC Parameters is selected and click the Execute Button Online Data Operation r Connection Channel List Serial Port PLC Module Connection USB System Image PLC Module Execution Target Data No Yes Title 1218 Edit Data Parameter Program Select All Cancel All Selections Module Name Data Name Title Target Detail Last Change Target Memory a ee ET ig MAIN 2013 10 23 10 00 29 D PLC Parameter 2013 10 23 09 50 24 zu Sa Ween cima ata comment Detail 2013 10 23 09 50 25 no JE ______ ore Soman 2013 10 23 09 50 25 Necessary Setting No Setting Already Set Setifitisneeded No Setting Already Set Program Size 1 Steps 4 000 Steps Refresh Related Functions gt gt Digital Temperature Controllers Communications Manual H175 a 6 Programless Communications 5 We will write set values to the PLC When the following dialog box is displayed click the Close Button to close it and cycle the power to the PLC This completes the PLC setup procedure You will use GX Works2 to check operation so
230. y aFF Copying failed E Copying Procedure Starting from the Initial Status 1 Connect the master and slaves with RS 485 connections and turn ON the power supply 2 Set the Communications Unit No parameters of the slaves in order starting from 1 and then return to the operation level 3 Set all of the parameters in the master except for those in the communications setting level 4 Change the master to the communications setting level and change the communications settings as given below Change the Protocol Setting parameter set the Communications Unit No parameter to 0 set the Communications Baud Rate parameter to 19 2 for a Mitsubishi FX1 or FX2 PLC 38 4 for a Mitsubishi FX3 PLC and 57 6 for any other PLC set the Send Data Wait Time parameter to 1 and set the Highest Communications Unit No parameter to the highest communications unit number that is set Change the other parameters in the communications setting level as required Do not return to the operation level while you are changing the parameter settings If you mistakenly return to the communications setting level return the Communications Baud Rate parameter to 9 6 return to the operation level and then set the Communications Baud Rate parameter again E5LIC Digital Temperature Controllers Communications Manual H175 6 13 dnies 00153 2 9 6 2 9 6 Programless Communications 5 Laf an
231. ype C2 2 2 4 Addresses An address is appended to each of the variable types Express addresses in 2 byte hexadecimal and append them for the specified access size The address depends on the parameter Refer to 3 1 Vari able Area Setting Range List for details 2 2 5 Number of Elements The number of elements is expressed in 2 byte hexadecimal The range that can be specified for the number of elements depends on the command Refer to 2 3 Detailed Description of the Services for details 2 2 6 List of Services Main Request Codes and Sub Request Codes MRC SRC Name of service Processing 01 01 Read Variable Area This service reads from the variable area 01 02 Write Variable Area This service writes to the variable area 01 04 Composite Read from Variable Area This service reads from the variable area in the order specified by the parameters 01 13 Composite Write to Variable Area This service writes to the variable area in the order specified by the parameters 05 03 Read Controller Attributes This service reads the model number and communications buffer size 06 01 Read Controller Status This service reads the operating status 08 01 Echoback Test This service performs an echoback test 30 05 Operation Command This service performs operations such as RUN STOP executing stopping AT auto tuning and moving to Setup Area 1 Note No commands will be accepted and no responses will be returned w
232. ystem The total cable length is 500 m max Use shielded twisted pair cable with a wire gauge of AWG24 to AWG18 cross sectional area of 0 205 to 0 823 mm E5CC EC AC Host RS 485 Abbreviation Communications transceiver TX RX lt 1 Mark gt 0 Shield Terminator 1200 End node RS 485 Use a 120 1 2 W terminator Digital Temperature Controllers Communications Manual H175 5 1 Communications Methods E5DC Communications transceiver RS 485 lt B 1 Mark gt 0 Space Terminator 50 1200 Endnode 1 2 W RS 485 Specify both ends of the transmission path including the host as the end node that is connect terminators to both ends Use a terminating resistance of at least 54 Shield Use a 120 Q 1 2 W terminator E5GC Communications transceiver Host RS 485 IX AP RX iei 5 A lt B 1 Mark A B 0 Space 120 Q 1 2 W E5GC terminating resistance Specify both ends of the transmission path including the host as the end node that is connect terminators to both ends Use a terminating resistance of at least 54 Shield Use 120 Q 1 2 W terminator Mat

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