Delta Electronics DVP06AD-S User's Manual
Contents
1. F CHI CH6 CH1 0 b2 b0 00 CH2 1 b5 b3 01 CH3 2 bg b6 10 CH4 3 b11 b9 11 CHS 0 bl1 b9 00 CH6 1 bl1 b9 01 CR 1 H O4E4 iiim b12 b15 1 H 4001 ORW 2 H4002 ORW cm CHI 9 mas O uw CH CHA CH3 4 H4004 O RW CH6 CHS CR 2 CR 4 pE RK BLER CHI CH6 Kl K20 CHI K10 CH2 K18 CR 2 H 120A CR 3 4 K10 H RES HOAOA 6 H 4006 x R CHI 7 H 4007 X R CH2 8 E4008 X R CH AAAS TEE CHI CHS 9 H 4009 x R CH4 410 H 400A x R CHS 11 H400B X R CH6 CR 6 CR 11 CH1 CH6 CR 2 CR 4 10 10 CH1 CH6 CR RS 4852. DIN 35mm DIN PLC PLC FEBR MEF PLC PLC PLC PLC PLC S E Lunas DBIBUAIEAERSR LO 22 16AWG mm rhaztst dtt RTA a zn PLC HFA 1 95 kg cm 1 7 b in ay mm 2 ERAT A RASA t od DARE RD HUE umm ie 3 GOTS C CR CR RS 485 as 0 H400 O R PEN b15 bl4 bl3 bl2 bll bl0 b9 bg b7 b6 bs b4 b3 b2 bl b0 8 b7 b0 DVP06AD S HC8 CH6 CH5 CH4 CH3 CH2 CHI 0000 0 CIOV 10V 1 6V 10V 2 CI2mA 20mA 3 C20mA 20mA CR 1
3. 330 H00E X R CR 30 1 EU d CHI CH6 GAIN K4 000 LSB K 3 2001s8 K16 000rsa K 3 200 Lsp K10 400rsa OFFSET GAIN bIS b8 b b6 bS bi b t2 bl b KI HD 0 0 0 0 0 0 0 1 K4 14 0 0 0 0 0 1 0 0 0 G K8 H8 0 0 0 0 1 0 0 0 K16 H 10 HE 0 0 0 1 0 0 0 0 K32 H 20 0 0 1 0 0 0 0 0 K64 H40 0 1 0 0 0 0 0 0 K128 H 80 0 0 0 0 0 0 0 Bes b0 b7 0 1 31 H 401F O RW RS 485 01 254 K1 RS 485 4 800 9 600 19 200bps 38 400 bps 57 600 bps 115 200 bps ASCI 7 bits ffr 1 stop bit 7 E 1 RTU 8 bits fft 1 stop bit 8 E D bO 4 800 bps
4. 8 H4008 X R CH3 ims CHI CH6 fi A 38878 PEUT 49 H 4009 X R CH4 10 H 400A X R CH5 411 H 400B X R CH6 CH1 CH6 CR 2 CR 4 N CHI CH6 CR 6 CR 11 810 EDEESES ERIT 10 7 3412 H 400C X R CHI HARRE 13 H400D X R CH2 14 H 400E X R CH3 CH1 CH6 5 55 Em 15 H 400F X R CH4 HAJRIE RASNON 416 H 4010 X R CHS amp jA 417 H40ll X R CH6 18 H 4012 C R W CHI OFFSET 19 H 4013 C R W CH2 LU OFFSET CHI CH6 OFFSET HIRSLI KO 45 LSB 20 H 4014 C R W CH3 amp dE OFFSET R ANS TASSE RUE K 4 O00n sn K4 000 1g 21 H 4015 C R W CH4 4i OFFSET amp PARZE SEE K 4 000 sa K4 0001sg lt 22 H4016 O R W CHS fet OFFSET H OFFSET GAIN SE E E SHURE FAHR lt 23 H 4017 C R W CH6 48 OFFSET amp 24 H 4018 R W CHI e GAIN 25 H 4019 C R W CH2 i8 GAIN i CH1 CH6 GAIN K4 000 Hfi LSB 26 H 401A C R W CH3 dH GAIN eres Ages K 3 2001s8 K16
5. H 4000 H 4022 RS 485 RRAK H RS 485 ARRAIO RS EAE 1 Function 03 H HE fras E lt 06H SAA word 10 H A A words 2 CR RS5 485 TO DTO HARANT O A D B GAIN 5V 4 000 ss OFFSET 0V Qss CR 1 0 f GAIN 6V 4 8005 OFFSET 2V 1 600 sg lt CR 1 1 5 A GINE EBEA EFS 4 000 M B i 3 200Lsa 16 0001 sp RANT EUM EEG 0 T A ll 4oon REER 4 000Lse 4 000 sg Ww ao ERO GAIN OFFSET H 4800 ss 12 000us LL CRH1 2 GAIN 20mA 4000 55 OFFSET 4mA 800 55 Eg E X aa CR 1 3 GAIN 20mA 4 000Lss OFFSET 0mA Oss B 4 000 GAIN 20mA 12mA 0 AAA A 2UmA GRIS SE 3 200 sg 10 400 sg Pd OFFSET GAIN 0 OFFSET HERE 4 000Lse 4 000 ss GAIN OFFSET ORAE 800Lss 464000 ZFS LT RUBER A FECE n AEST AD
6. bl5 bl4 bl3 bl2 bll bl0 b9 b8 b7 b6 b5 b4 b3 b2 bl b0 I2 HC X R 13 H 400D X R 14 H 400E X R CH3 CHI CH6 15 H 400F X R CH4 We 16 H 4010 X R CH5 17 H 4011 X R CH6 18 H 4012 O R W CHI fiiis OFFSET i 19 H 4013 O R W CH2 fiti OFFSET CHI CH6 OFFSET K0 LSB 20 H 4014 O R W CH3 OFFSET K 4 0001s8 K4 000 158 21 H4015 O R W CH4 OFFSET K4 0001s8 K4 000 sB 22 H 4016 O R W CHS OFFSET OFFSET GAIN 23 H 4017 O R W CH6 OFFSET s 324 H 4018 O R W CHI GAIN h 325 H a019 O R W CH2 GAIN amp 326 H 401A O R W CH3 GAIN H 3 7 H401B O R W CH4 GAIN 28 H 401C O R W CH5 GAIN 8 329 H 401D O R W CH6 GAIN H CR 18 CR 29 GAIN OFFSET fH 4800158 12 0001ss 8001ss 6 400rse
7. TIT A D OFFSET CR 18 CR423 GAIN CR 24 CR 29
8. 6 10V 320mA 8 000 224 000 14 bits lis 1 25mV 13 bits lisa 5hA 200KQ 2500 3msx 15V 332mA 16 14 bits 13 bits CRI2 CR 7 Kl1 K20 ASCIURTU 4 800 9 600 19 200 38 400 57 600 115 200 ASCII 7bits 1 stop bit 7 E 1 RTU RS 485 8 bits 1 stop bit 8 E 1 4 5 PLC RS 485 DVP PLC e SEHE UMOR 0 7 8 IO 24V DC 204V DC 28 8V DC 15 42096 2W 0 C 55 C 50 95 2 BORCEA 25 C 70 C 5 95 SECUS TEC 61131 2 IEC 68 2 6 TEST Fc IEC 61131 2 amp IEC 68 2 27 CTESTEa dni E O
9. 600 bps 19 200 bps b3 38 400 bps b4 57 600 bps 1 5 bS 115 200 bps Baud rate 32 H 4000 O RW b6 b13 bld CRC RTU b15 ASCIURTU CH6 CHS CH4 CH3 CH2 CHI CHI MH UBI XE n gp PO 0 1 vu E bl 0 1 1D b12 b15 1 CHI CH6 b12 b15 0 CR 33 OFFSET GAIN 65 CR 34 H4022 O R AER 16 100 H 0100 335 48 RS 485 R FROM RS 485 W TO RS 485 LSB Least Significant Bit
10. 1 lrss 10V 8 000 1 25mV 2 ltss 20mA 4 000 5hA K CR 0 CR 34 H4000 H 4022 RS 485 RS 485 1 Function 03H 06H word 10H words 2 CR RS 485 TO DTO 33 401 O RAW A D GAIN 5V 4 000 ss OFFSET 0V Oss GAIN 6V 4 800sa OFFSET 2V 1 600 se i 4 000 3 200 ss 16 000usa 0 4 000sa 4 0001 sa 8001 sg 12 000tse E CR 1 CR 1 GAIN OFFSET GAIN OFFSET CR 1 2 GAINZ20mA 4 000 5 OFFSET 4mA 800 so GAIN 20mA 4 000 55 OFFSET OmA Orss 4 000 3 200tse 10 400 sg 0 4 000 sg 44 000 s o mA mA JOFFSET GAIN
11. 320mA HEHE SpA 6000 340 EN LI0Y iov 1047K lem DENS Lux z X6 y A E a t H cow s gt 9 T T penc HSV a z wes Sy 1 CS TE E EO A d 2 PREREZE VAL Ie 3 D DVP06AD S O Makibddbsbssw dad Es 4 0 1 0 47hF25V hik SERES Voltage input SERA Current input TREE 24V DC 20 4V DC 28 8V DC 15 20 er WEA f 10V 420mA 8 000 44 000 14 bits 1LSB 1 25mV 13 bits ILSB 5uA 200K9 2500 5 25 C 771 WEE EINEN t dc 0 352 BID RBS 3msx RIR AERIANA E 15V 332mA 16 13 bits CR 2 CR 7 K1 K20 E FERI ASCIVRTU f st gt HEET 4 800 9 600 19 200 38 400 57 600 115 200 gt ASCI 7 bits
12. 1 stop bit 7 E 1 RTU 8 bits 1 stop bit 8 E 1 PLC XE petzen gt RS 485 j 0 7 8 IO Lu BARES RS 485 DVP PLC FPR a 24V DC 204V DC 28 8V DC 15 42096 2W 0C 55 C QAFE gt 50 9596 GRE 2 25C 70C 5 95 ORFE IEC 61131 2 IEC 68 2 6 TEST Fc IEC 61131 2 amp IEC 68 2 27 TEST Ea ze RT BOR SEUVIEHERRTR DIN 35mm DIN fath PLC PLC A j PLC Beth SR PLC gt PLC To X HEH DETRAN 6 ERRARTE Em THE PL ESORRPS ECPIPHRBSISGE FEDES PHS P N D 50mm PLC 1 1 KAHVA Boiss 22 16AWG 1 5mm ESRR STER o us TASA PLC HETAEEST7718S 195kg cm 1 71b in qmm 2
13. D bO 4 800 bps b1 9 600 bps CEREREM Baudrate b2 19 200 bps 1 32 H 4020 ORW uz b3 38 400 bps b 4 57 600 bps b 5 115 200 bps 57 8 b6 b13 b14 CRC 18 RTU b15 ASCIURTU 4 800 9 600 19 200 bps 38 400 bps 571 600 bps 115 200 bps ASCII 7 bits 1 stop prm HERA bl5 bl4 bl3 bl2 bll bl0 b9 bg b7 b6 b5 b4 b3 b2 bl b0 mh CH6 CHS CH4 CH3 CH2 CHI CHI EEERERRU pA b0 MAREARNE E TIRSETHEETUREBURR O 1 58D ERTER 333 H4021 O RW BD Aot GRE bl 0 ELE 1 JOPAR 1 bl2 bl15 1 CH1 CH6 AEREE IE EARR JEME b12 b15 MREEZHE TEER O CR 33 ARAE E SE RUE G E GA BUR SE PARERE gt OFFSET GAIN CR 4 maon O R a 163884 RERE BISHE gt 100 8 H0100 35 48 RS 485 XX R ARATE FROM RS 485 ARNEE W TO JE4 CAS RS 485 RARA E LSB Least Significant Bit LERRA 1 LZA 1Lsa 20mA 4 000 5 j A CR 0 CR 34
14. 000 s 27 H401B O R W CH4 d GAIN STEDERSE K 3 200 Lsa K10 400 ss OFFSET GAIN sus erac CR Cu GA E 309 H401D C R W CH6 8 GAIN CR 18 CR 29 GAIN f OFFSET 4800155 12 000 Lsn ZEE 8001sa 46400 rsa Be C HEAL REEE BAE BERL ERTIIRBCKDOHE SERIA 890 BET 30 H401E X R ARRIRA CR 30 BENERE RETE PUNIRE BERE f RIRE bIS b8 57 b6 b5 b4 b3 b2 bl bo TRR K1 1 0 0 0 0 0 0 0 1 K4 H 4 0 0 0 0 0 1 0 0 O G i K8 G8 0 0 0 0 1 0 0 0 K16 H10 0 0 0 1 0 0 0 0 ERTE K32 H 20 0 0 1 0 0 0 0 0 K64 H 40 0 1 0 0 0 0 0 0 EE K128 H 80 1 0 0 0 0 0 0 0 EE b0 b7 0 1 31 H 40IF C R W RS 485 SOSEREIEL 01 254 HRE KI RS 485 188 bit 7 E D RTU 8 bits 1 stop bit 8 E
15. 20 4V DC 28 8V DC 15 20 2W supplied by external power consumption Environment Operation 0 C 55 C temperature 50 95 humidity pollution degree 2 Oporaion storaga Storage 25 C 70 C temperature 5 95 humidity Vibration shock International standards IEC 61131 2 IEC 68 2 6 TEST Fc IEC 61131 2 amp IEC immunity 68 2 27 TEST Ea Installation amp Wiring m Mounting Arrangements and Wiring Notes How to install DIN rail DVP PLC can be secured to a cabinet by using the DIN rail of 35mm in height and 7 5mm in depth When mounting PLC to DIN rail be sure to use the end bracket to stop any side to side movement of PLC and reduce the chance of wires being loosen A small retaining clip is at the bottom of PLC To secure PLC to DIN rail place the clip onto the rail and gently push it up To remove it pull the retaining clip down and gently remove PLC from DIN rail as shown in the figure enclosure with sufficient space around it to allow heat dissipation as shown in the figure Wiring 1 Use 22 16AWG 1 5mm single or multiple core wire on I O wiring terminals The 2249 WG specification of the terminal is shown in the figure on the left The PLC terminal iz wm screws shall be tightened to 1 95 kg cm 1 7 in Ibs etsmm 2 DO NOT place the I O signal wires and power supply wire in the same wiring duct 3 Use 60 75 C copper wires only O Control Registers E
16. CR Control Register 16 bits 10V DC 1 25mV 320mA SpA 3 TEDIN US 35mm aze arma n Ku cm eu EX SEM PE PW isi AG e anma EN cul eek lcu eS BU Id ak a T P lt E ae amp d sima amp E Feo A eir sone me ms E sm Sisy M E 1 2 V 3 C DVP06AD S C 4 0 1 0 47HF25V fer Voltage input Current input 24V DC 20 4V DC 28 8V DC 15 20
17. TERCAN a R RS SA EE EON CERTE RE Fe RIPE 15mm 3 60 75 C HRR O CR CR RS 485 iem bl5 bl4 bl3 bl2 bll bl0 bg b8 b7 b6 bs b4 b3 b2 bl b 0 H4000 O R 8 67 b0 DVPOSAD S amp amp rii rs H CR CH6 CH5 cm cm cm CHI HERRER H OO00 1 H4001 ORW HARRESE 0 WRR 10V 10V 1 ARRAT C6V 10V 2 SCELUS CI2mA 20mA 3 BURAT C20mA 20mA CR 1 CHI CH6 4 585 A 8858 FS CHI 0 b2 b0 00 CH2 1 b5 b3 01 CH3 2 b8 b6 10 CHA 3 b11 b9 11 CHS 0 bl1 b9 00 CH6 1 b11 bg 01 f ii CRAL 3275 H O4EA b12 b15 42 H4002 ORW CH2 CHI CHI CH6 3 H 4003 C RW m CH4 CH3 4 H 4004 ORW CH6 CH5 RAIRA BR SE H 120A CR 3 CRI2 CRI CHI XI10 CH2 RS KIO HERRIEI E HIOAOA CHI CH6 1 IGEA KIS BUS CRH 6 H 4006 X R CHI amp j A Ses 7 H 4007 X R CH2
18. that causes noise interference on the wiring connect the wiring to 0 1 0 47uF 25V capacitor Note DO NOT wire empty terminals 8 Specifications m Functions PERITI Vataga mpat S Power supply voltage 24V DC 20 4V DC 28 8V DC 15 20 Analog input channel 6 channels module Range of analog input 10V 320mA a ae m Resolution 14 bits 1Lse 1 25mV 18 bits 1Lse 5pA Input impedance 200KQ or more 2500 i 0 5 when in full scale 25 C 77 F 1 when in full scale in the range of 0 55 C 32 131 F Response time Sms x the number of channels Isolation Isolation between digital area and analog area No isolation among channels Range of absolute input 15V 32mA Digital data format 13 significant bits out of 16 bits are available in 2 s complement Average function Yes Available for setting up in CR 2 CR 7 range K1 K20 Selfdiagnosis Upper and lower bound detection channel ASCII RTU mode Communication speed 4 800 9 600 19 200 38 400 57 600 115 200 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 in series The modules are numbered from 0 to 7 automatically by their distance from MPU Maximum 8 modules are allowed to connect to MPU and will not occupy any digital I O points Communication mode RS 485 When connected to DVP PLC MPU in series 2 Others Power supply Max rated power 24V DC
19. 2007 12 27 2 5011671300 AD60 A MELTA DELTA ELECTRONICS INC ZY OAAS INSTRUCTION SHEET A Analog Input Module A a www delta com tw industrlalautomation ENGLISH A Warning V Please read this instruction carefully before use V DO NOT tough any terminal when the power is switched on Switch off the power before wiring V DVPOGAD S 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 staff from operating the device e g key or specific tools are required to open the enclosure in case danger and damage on the device may occur V 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 Y DO NOT touch any internal circuit in 1 minute after the power is switched off V Make sure the groud terminal amp is correctly grounded in order to prevent electromagnetic interference 9 Introduction m Model Explanation amp Peripherals Thank you for choosing Delta DVP series The analog signal input module DVPO6AD S is able to receive 6 points of external analog signal inputs both in voltage and current and convert the signals into 14 bit digital ones It is able to read and write the data in the module thro
20. EHAE HERR EE E GP REDE ER KEHRA ERTE OFFSET CR 18 CR 23 GAIN ii CR 24 CR 29 A Y OPEN TYPE Y Y O OREA DVP DVP06AD S 6 14 DVP PLC SS SA SX SC SV FROM TO 49
21. N curves according to the actual needs by changing the OFFSET value CR 18 CR 23 and GAIN value CR 24 CR 29 S Y Y OPENTYPE Wt MEA ARARA LALER E A RATRE A Peor PARECEN X LARREA Go LRE Tir EJERNE A ARER PR PAR S S RE RLIUR Y lt ANAE ARRE DVP DVP06AD S EAA AE M 6 MRENA RERE 14 froe eirfa 1838 DVP PLC SS SA SX SC SV FROM TO ESRAR LEE HARA 49 CR Control Register 16 bits 10V DC 125mV
22. S parameter Latched address Register content b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b b0 Set by the system Data length 8 bits b7 b0 DVP06AD S model code H C8 Reserved CH6 CH5 CH4 CH3 CH2 CH1 Input mode Default H 0000 Mode 0 Voltage input 10V 10V Mode 1 Voltage input 5V 10V Mode 2 Current input 12mA 20mA Mode 3 Current input 20mA 20mA CR 1 The working mode of the 6 channels in the analog input module There are 4 modes for each channel which can be set up separately For example if the user needs to set up CH1 mode 0 b2 b0 00 and CH2 mode 1 b5 b3 01 CH3 mode 2 b8 b6 10 CH4 mode 3 b11 b9 11 CH5 mode 0 b11 b9 00 CH6 mode 1 b11 b9 01 CR 1 has to be set as H O4EA and the higher bits b12 b15 have to be reserved Default value H 0000 0 H4000 O R Model name H4001 O RW Input mode setting 2 H4002 ORW CH1 cHe CH2 CH1 3 H4003 ORW k i CH4 CH3 Average times setting 4 H4004 ORW CH6 CH5 CR 2 CR 4 Range of settings in CH1 CH6 K1 K20 The settings of average times of the signals at CH1 CH6 Range K1 K20 For example if the average time at CH1 is to be set as K10 and CH2 as K18 CR 2 has to be set as H 120A CR 3 4 apply the same rule The default setting of each channel K10 Default settings of CR 2 CR 4 are all H OAOA 6 H4006 7 H4007 x 48 H4008 x 49 H4009 x 0 H400A x 1 H400B gt CR 6 CR 11 The
23. a by TO instruction or RS 485 communication LSB Least Significant Bit 1 For voltage input 1 55 10V 8 000 1 25mV 2 For current input 11ss 20mA 4 000 5uA s CR 0 CR 34 The corresponding parameter addresses H 4000 H 4022 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 a Function codes 03 H read register data 06 H write 1 word datum to register 10 H write many words data to register b 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 Adjusting A D Conversion Curve Voltage input mode PT wee Z1 S m was CRH mode CR mode 0 GAIN 5V 4 000usaj OFFSET 0V 0usa GAIN 6V 4 800 ss OFFSET 2V 1 600 so igital input value 4 000 The voltage input value when the di gei e Range 3 200 ss 16 000Lse orkser cA The voltage output value when the digital input valu Lem OFFSET Range 4 000 ss 44 000 ss oem GAIN OFFSET Range 800 se 12 000 ss CRit mode 2 GAIN 20mA 4 000 ss OFFSET 4mA 800 ss 4 000 The current input value when the digital input valu Range 3 200 ss 10 400 so The current input value when the digital input value 0 Range 4 000 ss 44 000 ss Lam lange 4800 se 46 400 ss The user can adjust the OFFSET GAI
24. average of the signals at CH1 CH6 obtained from the settings in CR 2 CR 4 For example if the settings in CR 2 CR 4 is 10 the content in CR 6 CR 11 will be the average of the most recent 10 signals at CH1 CH6 CH input average CH2 input average CH3 input average CH4 input average CH5 input average CH6 input average Average of input signals at CH1 CH6 222222 Please install PLG inan RS 485 P parameter Latched Register content b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 bo address 412 H400C x R CH input present value 413 H400D gt R CH2 input present value 414 H400E gt R CH3 input present value Present value of input signals at CH1 CH6 415 H400F x R CH4 input present value 416 H4010 R CH5 input present value 417 H401 x R CH6 input present value 418 H4012 O RW Adjusted OFFSET value of CH1 19 H4013 O RW Adjusted OFFSET value of CH2 OFFSET settings at CH1 CH6 Default K0 Unit LSB 20 H4014 RW Adjusted OFFSET value of CH3 m vnus ug range po A opea len current input range K 4 000 sa K 000 se 21 H4015 O FUW Adjusted OFFSET value of CH4 Please rafer to bes eon sheet hen setting OFFSET and 422 H4016 O RW Adjusted OFFSET value of CH5 GAIN 429 H4017 RW Adjusted OFFSET value of CH6 424 H4018 O RW Adjusted GAIN value of CH1 25 H4019 O RAW Adjusted GAIN value of CH2 GAIN settings at CH1 CH6 Default K4 000 Unit LSB 26 H401A RW Adjusted GAIN value ofCH3 When voltage input ra
25. nge 01 254 Default K1 For setting up RS 485 communication speed 4 800 9 600 19 200 38 400 57 600 115 200bps 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 1 800 bps b1 9 600 bps default 31 H401F O RW Communication address setting Communication speed baud 392 H4020 O RW rate setting 77 600 bps b6 b13 Reserved b14 High low bit exchange of CRC checksum only valid in RTU mode b15 Switch between ASCI RTU mode Return to defaut CH6 CH5 CH4 CH3 CH2 CH1 Take the setting of CH1 for example 1 bO Switch for upper lower bound alarm on the input value for the channel 0 disabled 1 enabled default 2 b1 OFFSET GAIN tuning 0 forbidden 1 allowed default 3 When b12 b15 1 all values in CH1 CH6 will return to default settings b12 b15 will return to 0 automatically after the setting is completed Return to default setting 33 H4021 O RW OFFSET GAIN tuning authorization CR for input mode setting of average times OFFSET value and GAIN value will be reset after returning to default settings Displaying the current firmware version in hex e g version uini buds Fr firmware Version 1 00 is indicated as H 0100 35 48 For system use Symbols Latched when written in through RS 485 communication X lt Non latched R Able to read data by FROM instruction or RS 485 communication ble to write dat
26. nge K 3 200 ss K16 000 s 27 H 401B O RW Adjusted GAIN value of CH4 Wha Gurat put renges Ks eni as KI OOD Please refer to this instruction sheet when setting OFFSET and 428 H401C RW Adjusted GAIN value of CHS GAIN 429 H401D O RW Adjusted GAIN value of CH6 CR 18 CR 29 Please note that GAIN value OFFSET value 800Lsa 12 000Lss voltage or 800Lse 6 400Lsa current When GAIN OFFSET is small steep oblique the resolution of input signal will be finer and variation on the digital value will be greater When GAIN OFFSET is big gradual oblique the resolution of input signal will be rougher and variation on the digital value will be smaller Register for storing all error status wil H4o1E a E Errorstetus See the table of error status for more information CR 30 Error status value see the table below Error status Content bi5 b8 b7 b6 b5 b b3 b2 bi bo Abnormal power supply Ki H 1 e ojojojojo o t Incorrect mode setting K4 H4 e o o o o 1 oj o Offset Gain error K8 H8 0 o0 o o 1 o o o Hardware malfunction KI6 H10 Reseved 0 0 0 1 0 0 0 0 Abnormal digital range K32 H 20 lelte elole Incorrect average times setting K64 H 40 oe 1 ojo oj o oj o Instruction error K128 H 80 1 o ojoj o oj o 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 1 error For setting RS 485 communication address Ra
27. ugh FROM TO instructions given by the program of DVP PLC SS SA SX SC SV series MPU There are 49 16 bit control registers in the module The user can select voltage or current output by wiring Range of voltage output 10V DC resolution 1 25mV Range of current output 20mA resolution 54A m Product Profile amp Outline t 3 T 2 DIN rail clip E 3 Terminals k P Exter j 7N 9 RS 485 communication port B9 10 Extension unit Unit mim 11 Power input port 12 Extension unit module connection port m External Wiring pre nA 1047K ent DVP06AD S i DeC Low a om IW E lo suiangcnde a z amp ep oso se be EE RU MI A seing cant amp E n Connecledto 2 termina Sn 7 Q 3 Dues 24 L conor RAS sy pisos Eann 500 for less 1 When performing analog input please isolate other power wirings 2 When connecting to current signals please make sure to short circuit V and T terminals 3 Please connect the terminal on both the power module and DVPOGAD S to the system earth point and ground the system contact or connect it to the cover of power distribution cabinet 4 Ifthe ripples at the loaded input terminal are too significant
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