Delta Electronics DVP04TC-H2 User's Manual
Contents
1. me Y REOGNEAVEdASUEC db CR 1 JDE WHERE DVP DVP04TC H2 4 K KK R S TAL 14 DVP PLC EH2 FROM TO KERRIE 49 CR Control Register 16 bits 0 1 C 0 18 F EEI kil SS NEUE E IE DIN j GSmm digo oc ORE SE DIN HEE 2t LER ICA IEN AIO RAUS HOUR TIK TR IS LT 2 TASAA R B2 HERE Ak S KAREI SIS ROLE RE ACT STI deae ZARRA M B TARA aJ A 195 kg cm 1 7 indbs 3 2 p RAA Ho SLD A GS RR 3 DVP04TC H2 RA EIMA O2. WEG 60175 C ioi ek i 24V DC 20 4V DC 28 8V DC 15 20 4 ETT type K type R type S type T type JEktbztI en guns HO p BARGE Ham Niz 14 bits 0 1 C 0 18 F AREE 3059 25 C TPF KEPALA 196 0 55 C 32 131 F REANA 200ms x ECRIRE 16 13 bits CR 2 CRIS thi K1 K20 ETERA GE i ASCIURTU RTJ 4 800 9 600 19 200 38 400 57 600 115 200 ASCII ists T bit 1 stop bit 7 E 1 RTU RERE 8 bit gt fL gt 1 stop bit 8 E D lt 488 PLC RS 485 AREE RS 485 DVPPLC PRERE 0 7 RATTE S ds EGRE VO BGERCK EEUU SE 24V DC 204V DC 28 8V DC 15 4209 2 5W 1 0 C 55 C QAR 50 95 CREE e 2 2 25 C 70 C 5 95 GRE rd IEC61131 2 IEC 68
3. 2 J type K type CHI CH4 CH1 0 b2 b0 000 CH2 1 b5 b3 2001 CH3 0 b8 b6 000 CH4 ist 1 bll b9 001 Rf Zi CR 1 EJ H 0208 b12 b15 0000 0 H4096 O R 1 HW097 O RIW 2 H4098 ORW CHI CH1 CH4 1 K20 3 H 409 O R W CH2 K10 PLC TO DTO 4 H 409A O R W CH3 LDP ILDF 45 409B O RW CH4 6 H40C 7 R CH 97 H40D X R CH hi CHI CHA 8 H 409E X R CH 0 1 C 9 H40F X R CH4 CR 6 CRH 9 CH1 CHA CR 2 CRES 10 10 CH1 CHA
4. V CR 1 C3 c e 2 DVP DVPOATC H 4 J K R S T 14 DVP PLC EH2 FROM TO 49 CR Control Register 16 bits 0 1 C 0 18 a Ei ER 8 TE TE B 8 E H 8L E aH de N Zh ES aH RH mm af DIN fih 35mm ejeje eje DIN p i mean onj gw i Kamno an Pp a 1 CH tds op pesi REE
5. OFFSET R W CH4 OFFSET R Kir o oljoj olo no o K20r2 0 0 0 0 0 0 1 0 K4 H 4 0 0 0 0 0 1 0 0 OFFSET GAIN K8 H s o ojo o 1 o o o K16 H 10 S 0 0 0 1 0 0 0 0 K32 H 20 0 0 1 0 0 0 0 0 K64 H 40 0 1 0 0 0 0 0 0 K128 H 80 ijejoljojol o ol o b0 b7 0 1 31 H40B5 O RW RS 485 01 254 K1 4 800 9 600 19 200 bps 38 400 bps 57 600 bps 115200 bps ASCII 7 bit 1 stop bit I E D RTU 8 bit 1 stop bit 8 E 1 H 0002 BO 4 800 bps B1 9 600 bps CHT ERED b2 19 200 bps B3 38400 bps I b4 57 600 bps B5 115 200 bps bl4 CRC
6. 7 bit 1 stop bit 7 E 1 RTU 8 bit 1 stop bit 8 EE 1 PLC RS 485 RS 485 a T Gpgpauipe t tam Bau Sb OST RATES VO A m 24V DC 204V DC 28 8V DC 15 42096 25W 1 O C 55 C 50 95 2 2 25 C TOC 5 95 TEC61131 2 IEC 68 2 6 TEST Fc IEC61131 2 amp IEC 68 2 27 TEST Ea d S b15 bl4 b13 bl2 bll bl0 b9 b8 b7 b6 b5 b4 b3 b2 bl b0 DVP04TC H2 H 6403 T CH4 cm cm CHI CHI 1 b2 bl bO 0 0 0 Tbype 2 b2 bl b0 0 0 D K type 3 b2 bl b0 0 1 0 type 4 b2 bl b0 0 1 D S type 5 b2 bl b0 1 0 W Ttype CR 1
7. RTU b15 ASCIURTU 0 ASCI H ERED bl5 bl4 bl3 bl2 bll bl0 b9 b8 b7 b6 b5 b4 b3 b2 bl b0 ERR cH CH3 cm CHI CHI 1 bO bl b2 1 ERR bl2 b15 1111 1 bl2 1 CHI ERR 2 bl3 1 CH2 ERR JT IRI 3 bl14 1 CH3 ERR 4 b15 1 CH4 ERR 32 H 40B6 O RIW 33 H 40B7 O R W WEHT RUHE I f I 34 H40B8 O R 16 1 0A H 010A 35 48 m PID CR SR CHI CH2 CH3 CH4 51 71 91 111 RW K 1 000 K8 000 K0 52 72 92 112 C RW 9 K1 K30 8 K2 53 73 93 13 O KP K121 354 74 94 114 C KI K2 098 55 475 495 115 KD K 29 56 16 9 16 O REIR K
8. 6 H409C x R 1 H409D x R CH E CHI CHA RPE RARP MUS 8 HAE x R CH OPC 9 H409F x R CH4 CR 6 CR amp 9 CHI CH4 CR CRAS z RAER 10 CHI CH4 RARA CC BSEISHN 2 10 H 40A0 x R CHI FRS RAER 11 40A1 x R CH2 CH1 CH4 ERE RAE PEAT 12 H 40A2 x R CH3 Mf 0 1 F 13 H 40A3 x R CHA CR 10 CR 13 HAER ARREA 10 HDERE A AE E ze CHI CH4 CR 2 CR S NACHI CH4 CF 14 H 40A4 x R CHI FR ORERE HIS H40AS x R CH2 CHI CHA 16 40A6 x R CH3 Ej nme 0TC 17 HW40A7 x R CH4 ERRARE 19 H40A9 x R CHI FRS EGREEBUfe 320 H40AA x R CHO Ese GR ES CHI CH4 21 H 40AB x R CH3 FP RERE OF 322 H 40AC x R CH4 FR AEREE 324 H 40AE CO R W CHI OFFSET CHI CHA je be E E rtt OFFSET 325 H AQAF C R W CH2 OFFSET f JABR 1 000 1 000 26 H 40B0 O R W CH3 OFFSET ERRUER KO OIC 2
9. EM Min C F Max C F Min C F Max C F Jtype 100 C 148 F 700 C 1 292 F K 1 000 K 1 480 K7 000 K12 920 Ktype 100C 148 F 1 000 C 1 832 F K 1 000 K 1 480 K10 000 K18 320 type 10 C 14 F 1 700 C 3 092 F K 100 K 140 K17 000 K30 920 Stype 10 C 14 F 1 700 C 3 092 F K 100 K 140 K17 000 K30 920 Ttype 100 C 148 F 350 C 662 F K 1 000 K 1 480 K3 500 K6 620 A Y OPENTYPE O
10. CC 10 H 40A0 X R CH1 11 H 40A1 X R CH2 CHI CHA 12 H 40A2 X R CH3 0 1F 13 H 40A3 XX R CH4 CR 10 CR 13 CHI CHA CR 2 CRES 10 10 CH1 CH4 CF 14 H 40A4 X R CHI BER EG REDE S 15 H40AS R CH2 WER RREME CH1 CHA 16 H 40A6 X R CH3 0 1 C 17 H 40A7 X R CH4 WER RRENEN 19 H 40A9 X R CHI 20 H 40AA X R CH2 CHI CH4 21 H 40AB X R CH3 OF 22 H40AC R CH4 b15 bl4 b13 bl2 bll bl0 b9 b8 b7 b6 bS b4 b3 b2 bl b0 R W CHI OFFSET fi R W CH2 OFFSET i 3 CHI CHA OFFSET 26 H 40BO O R W CH3 OFFSET o x 1000 1 000 K0 0 1 C OFFSET
11. QA A Sir cp mE zar 100D J K 1S1T BRADH FRH A 195 kg cm L7 in lbs 2 SLD iuis TR 3 DVP04TC H2 Bedv 60C 75 C BENE 24V DC 204V DC 28 8V DC 15 20 4 J type K type R type S type T type i 14 bits 0 1 C 0 18 F F 3059 25 C 77 F SEM 319 0 55 C 32 131 F 200ms x 16 13 bits CR 2 CR 5 Kl K20 ASCIIRTU 4 800 9 600 19 200 38 400 57 600 115 200 ASCI
12. OO AD SA Eaa See the table of error status for more information CR 30 Error status see the table below Error status Content bi5 b8 b7 be bs b4 b3 b2 bi bo Abnormal power supply Ki H1 e ojo oljo o o t Wiring to empty external contact K2 H2 0 o0 o0 0 0 o 1 o Incorrect mode setting K4 H4 0 o0 o0 0o0 o 1 o o OFFSET GAIN error K8 H8 0 o0 0o0 0 1 o o o Reserved Hardware malfunction K16 H 10 0 o0 o0 1 0 o o o Abnormal digital range K32 H 20 e o t1 o o o o o Incorrect average times setting K64 H 40 o 1 o o oj o o o Instruction error K128 H 80 1 ejoj oj o o oj o Note Each error status is determined by the corresponding bit b0 b7 and there may be more than 2 errors occurring at the same time 0 normal error For setting RS 485 communication address Range 01 254 Default K1 For setting up communication speed 4 800 9 600 19 200 38 400 57 600 115 200 bps ASCII data format 7 bit even bit 1 stop bit 7 E 1 RTU data format 8 bit even bit 1 stop bit 8 E 1 Default H 0002 b0 4 800 bps b 9 600 bps default Communication speed baud rate b2 19 200 bps setting b3 38 400 bps b4 57 600 bps b5 115 200 bps b14 High low bit exchange of CRC checksum only valid in RTU mode b15 Switch between ASCII RTU modes 0 ASCII mode default b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 bi b0 ERRLED CH4 CH3 CH2 CH1 Take the setting of C
13. Heater 1 Cooler Default KO 60 80 100 4120 C RW Upper limit of output Range K 32 760 K32 760 Default K4 000 61 481 101 21 Lower limit of output Range K 32 760 K32 760 Default KO 62 82 02 120 x Output percentage Range KO K1 000 Unit 0 1 Default KO 63 83 103 23 Outputwidth ms Width of control output Unit ms Default KO 64 84 04 124 x 65 85 105 125 66 86 106 126 RW PID Run Stop Outputcycle ms Cycle of control output Unit ms Default KO 22m Output volume Default KO 0 Stop 1 Run Default KO 467 87 107 127 x RW AutoTune 0 Disabled 1 Auto tuning Default KO 3 CR 0 CR 127 The corresponding parameter address H 4096 H 4115 are for users to read write data by RS 485 communication When using RS 485 the user has to separate the module with MPU first 1 Modbus ASCII RTU communication protocol ASCII data format 7 bit even bit 1 stop bit 7 E 1 RTU data format 8 bit even bit 1 stop bit 8 E 1 2 Function H 03 read register data H 06 write 1 word datum into register H 10 write many word data into register 3 Latched CR should be written by RS 485 communication to stay latched CR will not be latched if written by MPU through TO DTO instruction 4 Symbols O Latched X Non latched R Able to read data by FROM instruction or RS 485 communication W Able to write data by TO instruction or RS 485 communicati
14. 1 stop bit 8 E 1 2 Function H 03 H 06 word H 10 word 3 CR RS 485 TO DTO 4 O R FROM RS 485 W TO RS 485 Jas MinCC F Max C F Min CC F Max C F ui Jtype 100 C 148 F 700 C 1292 F K L000 K L480 K7 000 K12 920 Ktype 100 C 148 F 1 000 C 1 832 F K LO00 K L480 K10 000 K18 320 LARREA Rtype 10 C 14 F 1 700 C 3 092 F K 100 K 140 K17 000 K30 920 Mor Stype 10 C 14 F 1 700 C 3 092 F K 100 K 140 K17 000 K30 920 Tepe lOYC lAPF 350 C 662 F K 1 000 K 1480 K3 500 K6 620
15. 2 6 TEST Fc IEC61131 2 amp IEC 68 2 27 TEST Ea CR Cm s bl5 bl4 bl3 bl2 bll bl0 b9 b8 b7 b6 b5 b4 b3 b2 bl b0 aee segun P8 es 0 H 4096 O R deut DVP04TC H2 H 6403 CH4 CH3 cm CHI 14 CHI Rises 1 02 bl bO 2 555 0 0 0 p SERI Type 2 82 bl b0 0 0 D ES ERE K type 3 82 bl b0 0 1 0 PF EF R type 4 62 bl b0 RES 0 1 1 ES FE S type 5 2 bl b0 BUER 1 0 0 i FE Type CRHL 2 ype K type 2748 rb CH1 CH4 75 A REE S CHI 0 b2 b0 000 CH2 1 65 b3 001 CH3 0 b8 b6 000 CH4 1 bl1 b9 001 CR 1 StF HP0208 bl2 b15 IURI HAUS H 0000 2 H4098 5 R W CHI 41 H4097 O RW BERUR Li CHI CHA D PS HEEK K20 3s mam O RIW CE TOA HERRER KIO GERE PLC TOIDTO EA Ao 4 HH409A O RW CH3 HAARLE BER ESETERHARIUdEA LDPILDF gt DI 45 H409B O R W CH4 CHI
16. 32 760 K32 760 HM Bk lg KO 57 77 97 17 C BIETE K 32 760 K32 760 ii RAIHA KO 58 78 98 118 x um KO 59 479 99 119 0 1 K0 60 80 100 120 K 32 760 K32 760 K4 000 61 81 101 4121 K 32 760 K32 760 KO 62 82 102 122 KO K1 000 0 1 K0 ms ms KO ms ms KO dunk H RIEA KO PID Run Stop 0 Stop 1 Run tJ REH KO 0 1 Auto tuning KO 63 83 103 123 64 84 104 124 65 85 105 125 66 86 106 126 8556222802228 x x x x x x o o 67 87 107 127 Auto Tune 3 CR 0 CR 127 H4096 H 4115 RS 485 RS 485 1 Modbus ASCII RTU ASCI 7 bit 1 stop bit 7 E 1 RTU 8 bit
17. 61 81 101 121 O RW HEETE TIRER K 32 760 K32 760 KO 62 82 02 122 XR iH KO K1 000 0 1 HERRES KO 63 83 103 8123 X R KHAR ms TIERE Y ims KO 64 84 104 124 XR HEB ms HAREA ms HERE T ES KO 65 85 105 125 X R HE EUR FS KO 366 86 106 4126 R W PID RuwStop 0 Stop gt 1 Run HERE E 8 KO 67 87 107 127 X R W Auto Tune 0 1 Auto tuning HERRE KO CR 0 CR 127 H 4096 H 4115 RS 485 HKS E h RS 485 BARKA AHSA ERA l Modbus ASCII RTU frm ASCH EEEH bit ET gt 1 stop bit 7 E 1 RTU 8 bit 1 stop bit 8 E 1 2 Function H 03 RAHE Ez Gs ere H 06 word H 10 RASH word SERES 3 CR Ah RS 485 TO DTO ERRANT 4 O X R FROM RS 485 ji RULES W TO RS 485 d GEO BAUER Berrea
18. CH4 10 H40AO x R Average f temp measured at CH1 R waon x R Average temp measured at CH2 Average Fahrenheit temperature measured at CH1 412 H40A2 x R Average T temp measured at CH3 Upit 01 F 13 H 40A3 x R Average f temp measured at CH4 CR 10 CR 13 The average Fahrenheit temperature measured at CH1 CH4 obtained from the average time settings in CR 2 CR 5 For example if the average time is set as 10 the content in CR 10 CR 13 will be the average of the most recent 10 temperature signals in Fahrenheit at CH1 CH4 14 H40A4 x R Present C temp measured at CH1 15 H40A5 R Present C temp measured at CH2 Present Celsius temperature measured at CH1 CH4 16 H 40A6 x R Present C temp measured at CH3 Unit 0 1 C 47 H40A7 R Present C temp measured at CH4 9 H40A9 R Present F temp measured at CH1 20 H40AA R Present F temp measured at CH2 Present Fahrenheit temperature measured at CH1 CH4 21 H40AB x R Present F temp measured at CH3 Unit 0 1 F 492 H40AC R Present F temp measured at CH4 CR RS485 Parameter Latched Register content b15 b14 b13 b12 b1 b10 b9 b8 b7 b6 b5 b4 b3 b2 bi bO address 24 H 40AE O RW OFFSET value of CH1 Adjustable OFFSET settings at CH1 CH4 25 H40AF O RW OFFSET value of CH2 Range 1 000 1 000 26 H 40B0 RW OFFSET value of CH3 Default KO 27 H 40B1 O RW OFFSET value of CH4 Unit 0 1 C Register for storing all error status
19. 0 19 200 38 400 57 600 115 200 bps ASCII data format 7 bit even bit 1 stop bit 7 E 1 RTU data format 8 bit even bit 1 stop bit 8 E 1 RS 485 cannot be used when connected to PLC MPU i The modules are numbered from 0 to 7 automatically by their distance from MPU No 0 is the closest to MPU and No 7 is the furthest Maximum 8 modules are allowed to connect to MPU DVP PLC MPU in seri and will not occupy any digital VO points a Other Specifications Communication mode RS 485 Power supply Max rated power consumpion 24V DC 20 4V DC 28 8V DC 15 20 2 5W supplied by external power Environment 1 Operation 0 C 55 C Temperature 50 95 Humidity pollution degree 2 2 Storage 25 C 70 C Temperature 5 95 Humidity Vibration shock immunity Standard IEC61131 2 IEC 68 2 6 TEST Fc IEC61131 2 amp IEC 68 2 27 TEST Ea Operation storage Control Register CR RS485 y Parameter Latched Register content b15 b14 b13 b12 b11 b10 b9 bg b7 be b5 b4 b3 b2 bi bo address Set up by the system DVPO4TC H2 model code H 6403 You can read the model name from the program and see if the extension module exists Reserved CH4 CH3 CH2 CH Take the setting of CH1 for example 1 When b2 b1 b0 is set as 0 0 0 choose J type 2 When b2 b1 b0 is set as 0 0 1 choose K type 3 When b2 b1 b0 is set as 0 1 0 choose R type 4 When b2 b1 b0 is set as 0 1 1 choose
20. 2008 08 20 5011675902 TC02 AMELA DELTA ELECTRONICS INC ZNAT CFA INSTRUCTION SHEET A Temperature Measurement Module A A www delta com tw industrialautomation ENGLISH A Warning Please read this instruction sheet carefully before use V Switch off the power before wiring V DVPO4TC H2 is an OPEN TYPE device and therefore should be installed in an enclosure free of airborne dust humidity electric shock and vibration The enclosure should prevent non maintenance staf from operating the device e g key or specific tools are required to open the enclosure in case danger and damages on the device may occur DO NOT connect input AC power supply to any of the I O terminals otherwise serious damage may occur Check all the wiring again before switching on the power DO NOT touch any terminal when the power is switched on Y Make sure the ground termnial is correctly grounded in order to prevent electromagnetic interference V Keep the wire as short as possible between RTD and PLC and the power wire as far away as possible from I O wire to prevent interference V When setting the thermocouple temperature sensor mode please make sure that the setting of CR l is correct or it will cause serious errors 9 Introduction m Model Explanation amp Peripherals Thank you for choosing Delta s DVP series PLC DVPO4TC H2
21. 7 H40B1 R W CH4 OFFSET amp OFFSET ER OFFSET 30 H40B4 x R RAE CR 30 AA biS b8 b7 b6 bs b4 bi b bi bw LUC Kia 0 0 0 0 0 0 0 1 K2 H 2 0 0 0 0 0 0 1 0 K4 14 ojo o oj o 1 o o OFFSET GAIN jii Ks H 8 0 0 0 0 1 0 0 0 K16 H 10 E 0 0 0 1 0 0 0 0 TTE X32 720 0 o 1 ejoj o oj o IBISCBRSRSESHIR K64 H 40 0 1 0 0 0 0 0 0 K128 H 80 1 0 0 0 0 0 0 0 DO b7 0 1 431 H 40B5 O R W RUE RS 485 BUERE 01 254 HARE RES KI 4 800 9 600 19 200 bps 38 400 bps 57 600 bps 115 200 bps ASCI 7 bit gt 1 stop bit C E 1 RTU 8 bit 1stop bit S E D Ex ase f H 0002 bO 4 800 bps b2 19 200 bps b4 57 600 bps b14 CRC b15 ASCIURTU gt 0 ASCI HRED bl5 bl4 bl3 bl2 bll bl0 b9 b
22. 8 b7 b6 b5 b4 b3 b2 bl b0 ERR EE CH4 CH3 CH2 CHI CHI SEESREREH 1 b0 bl b2 LI AARE IS BEREE ERR EEA ERREI b12 b15 1111 1 bl2 1 CHI ERR PIRRE 2 bl CH2 Spini Bha Bass ERR PIRRE 3 bl4 1 CH3 SHADER RIEBE ERR PIRRE 332 H 40B6 O RIW FARRE bl 9 600 bps CHERERESET O 333 H 4087 O RW Hb REGE 4 d bL CHA ERR EPIR YE 34 H 40B8 O R ARA 16 ERE RSA 1 0A H OI0A 35 48 PID fL CE GIGS CR MG Lo CHI CH2 CH3 CH4 51 71 491 11 O R W BERGER TIZER K 1 000 K8 000 HRR KO 52 72 92 112 O RW BURRE s TAUER KI K30 s ERRUER K2 53 873 93 113 O RW KP HRS AS K121 54 14 94 14 O RW KI HSO LURERUETAUS K2 098 CR rm rd Feat Fd 3RUR 55 WIS 95 115 C RW KD RUNER HORSE RS K 29 56 76 896 116 O RW amp 5m ER IRSE REIS K 32 760 K32 760 iPRERSGE ES KO 57 77 897 117 O RW IRESEREIS K 32 760 K32 760 iPRERISEL ES KO 58 478 98 4118 R HHE EBUSLRISISZE RE HRRUEE KO 59 79 99 119 O RW BAIE 0 1 88088 HORESIGETEES KO 60 80 100 120 O RW HEE ERE TISERE K 32 760 K32 760 HSEEE F K4 000
23. H1 for example 1 bO is reserved 2 biis reserved 3 When b2 is set as 1 all the settings will return to default settings ERR LED definition default of b12 b15 1111 1 When b12 1 CH1 wiring to empty external contact ERR LED will flash 2 When b13 1 CH2 wiring to empty external contact ERR LED will flash 3 When b14 1 CH3 wiring to emply external contact ERR LED will flash 4 When b15 1 CH2 wiring to empty external contact ERR LED will flash Displaying the current firmware version in hex e g version 1 0A is indicated as H010A 31 H 40B5 C RW Communication address setting 432 H 40B6 O RW 33 H40B7 C RW Returning to default setting 34 H 40B8 R Firmware version 35 48 For system use PID Control Registers CR Latched Registercontent Explanation CHI CH2 CH3 CH4 51 71 91 11 O RW Temperature SV Range K 1 000 K8 000 Default KO 52 72 92 112 R W Sampling time s Range K1 K30 s Default K2 53 473 493 113 RW KP Default K121 54 74 494 114 RW KI Integralconstant Default K2 098 55 75 95 15 RW KD Derivativeconstant Default K 29 56 76 96 116 O RW Upperlimitoflvalue Range K 32 760 K32 760 Default KO 57 77 97 117 O RW Lower limit of I value Range K 32 760 K32 760 Default KO 58 78 98 118 R lvalue 59 479 499 19 Current accumulated offset value Default KO Heating coolingcontrol 0
24. S type 5 When b2 b1 b0 is set as 1 0 0 choose T type CR 1 The working mode of the 4 channels in the sensors selected by the temperature measurement module There are 2 modes J type and K type for each channel which can be set up separately For example if the user needs to set up CH1 mode 0 b2 b0 100 CH2 mode 1 b5 b3 001 CH3 mode 0 b8 b6 000 and CH4 mode 1 b11 b9 001 CR 1 has to be set as H0208 and the higher bits b12 b15 have to be reserved The default value H 0000 42 H4098 O RW CH1 average time Range of settings in CH1 CH4 K1 K20 Default K10 0 H4096 R Model name 1 H 4097 O RW Thermocouple type 3 H4099 O RW CH2 average time Please note that when PLC MPU writes in the average 4 H409A O BAw CHO average time go contaci detection instructions DPILDF ncace 5 H409B RW CH4 average time you may not obtain the correct average temperature 6 H409C x R Average C temp measured at CH1 7 H 409D x R Average C temp measured at CH2 Average Celsius temperature measured at CH1 CH4 8 H409E x R Average C temp measured at CH3 Unit 0 1 C 49 H409F x R Average C temp measured at CH4 CR 6 CR 9 The average Celsius temperature measured at CH1 CH4 obtained from the average time settings in CR 2 CR 5 For example if the average time is set as 10 the content in CR 6 CR 9 will be the average of the most recent 10 temperature signals in Celsius at CH1
25. is able to receive 4 points of external thermocouple temperature sensors J type K type R type S type T type and convert them into 14 bit digital signals Besides through FROM TO instructions in DVP EH2 MPU program the data in DVP04TC H2 can be read or written There are 49 16 bit control registers CR in DVPO4TC H2 DVP04TC H2 displays temperatures in Celsius resolution 0 1 C and Fahrenheit resolution 0 18 F m Product Profile Indicators Terminal Block I O Terminals i J sov cu Ho zho EE IS EIE SENI guo Unit mm Terminals Mounting hole VO terminals D DIN rail 35mm Connection port for extension unit module Model name amp POWER ERROR A D indicator DIN rail clip G Mounting port for extension unit module Thermocouple Shielding i cahla i CE 0000 Thermocouple Shielding Y cable 1 CH4 i T i Eam ama i i qd tei i ted tion i compensatio e amp Terminal of power module A 3 441 T bo System E27 1 1 grounding Convelt i isv Earth L 1000 or less I The wiring used for analog input should adopts the connection cable or shielding cable of thermocouple temperatu
26. on O Temperature Digital Curve C F Temperature Measurement Mode Biniak Thermo Range of input temperature Range of digital conversion r couple Min G F Max C F Min C F Max C F P i Jtype 100 C 148 F 70070 1 292 K 1 000 K 1 480 K7 000 K12 920 l Ktype 100 148F 1 000 1 832F K 1 000 K 1 480 K10 000 K18 320 heus Tis Rtype 10 C 4 F 1 700 3 092F K 100 K 140 K17 000 30 920 W we epu mureipa Sype 10C 14F 1700 3092 K 100 K 140 K17 000 K30 920 Ttype 100 C 148 F 350 682 T K 1 000 K 1 480 K3 500 K6 620 A Y Y RER ALMAE Y KRAMAN OPENTYPE YO Y Y O Y
27. re sensor J type K type R type S type T type and should be separated from other power cable or wirings that may cause interference The screw torque of the terminal should be 1 95 kg cm 1 7 in Ibs 2 Terminal SLD is the ground location for noise suppression 3 Please connect the amp terminal on both the power module and DVPO4TC H2 to the system earth point and ground the system contact or connect it to the cover of power distribution cabinet Note DO NOT wire empty terminal Use 60 75 C copper conductor only 9 Specifications Temperature z measurement module Explanation Power supply voltage 24V DC 20 4V DC 28 8V DC 15 20 Analog output channel 4 channels module Applicable sensortypes J type K type R type S type T type Floating thermocouple sensor et en See the table in Section temperature Range ot cit See the table in Section conversion Resolution 14 bits 0 1 C 0 18 F 40 5 when in full scale 25 C 77 F 1 when in full scale within the range of 0 55 C 32 1319F 200ms x the number of channels Overall accuracy Response time Isolation Isolation between digital area and analog area No isolation among channels Digital data format 13 significant bits out of 16 bits are available in 2s complement Average function Yes available for setting up in CR 2 CR 5 range K1 K20 Self diagnosis Upper and lower bound detection channel ASCWRTU mode Communication speed 4 800 9 60
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