Delta Electronics DVP06XA-H2 User's Manual
Contents
1. R cm m mici 3j 15 H40D7 x R CHA 18 H 40DA O R W CHI d OFFSET 19 H A0DB O itf OFFSET f 20 H 40DC O R W CH3 425 OFFSET f 21 H 40DD O R W CH4 302 H 40DE O R W CHS OFFSET 303 H 40DF O R W CH6 itf OFFSET si 2 n Enca JBE CHI TAERE KI ZELS K10 4 EEE ANI BEHE CRAZ CRIS RAIRA K 5 H40CD 6 HA0CE x CHI j A 887555 1 R CH2 AA adu OET E 8 H 40D0 x R 9 4001 CH4 amp amp A SsitzS sl 10 4002 gt R W CH5 8 1838 CH5 CH6 808 JARE gE KO K4000 11 H40D3 x R W CH6 KO 95158 12 H 40D4 RAITAR 13 H 40D5 x R CH2 RARR X 1908 CH4 gite OFFSET KO Hfi LSB TERRAN PAE K 1 000 K1 000 EURAS TAERE K 1 000 K1 000 1908 CH5 CH6 2494 OFFSET 3925 TIAE 88 K 2 000 2 000 gt RES KO SERES LSB 24 H 40E0 O R W CHI JTA CHI CHA GAIN Size K1 000 gt 5158 25 40 1 CH2 fit EBRA TAE K 800 K4 000 26 H 40E2 O R W CH3 95 GAIN SEUCERLALES PARERE K 800 2 600 27 H A0E3 O R W CH4 415 GAIN 4 CR 24 CR 27 95912 GAIN OFFSET 3 20015 3 00015 5 20015 1 60015 21 5 gie SRH HERAT2. EMO CIRAS E HEREA BR Tio THEME 308 H 40E4 O R W CH5 945 GAIN 4 CHS CH6 GAIN ist TTE 88 KO K4 000 429 40 5 O R W CH6 E GAIN 2 000 SERT f3 LSB CR 28 CR 29 GAIN f OFFSET 8 40015 6 00015 HEREN Mate St BENT HERR HERRAR CAERHBO SEBSEQIDISICO 430 H40E6 x R 0 s bI5 b8 b b3 K1 r1 o o o 0 o 1 Er K2072 o o o Y o PARER K4 H4 o o 0 1 o OFFSET GAIN jg K8 8 o 0 0 0 1 0 0 0 xim 4 o 0 0 1 o 0 o K32 820 o 1 o 0 o o K64 H 40 o 1 o 0 o o K128 H 80 1 D o 0 o o TE RRE dn 1 UC bO bT A TERRE CO RRE RRR IRA AS EAE 4000 eio AA i c GAUEN HALA TOV s O2 ARAS KO CIE BR RI CAE ESO ANHE gt BESERGIB O1 254 KI SE B b2 19 200 bps b3 38 400 bps b4 57 600 bps b5 bps b6 b13 RE b14 CRC RTU E b15 0 ASCII st b15 1 RTU 5 ASCI RERE ES T bit 1 stop bit 7 E 1 gt RTU S S bit gt 072 gt 1 stop bit 8 E 1 55 H0002 5 bl4 b12 bll bl0 b9 8 b7 b6 b5 b
3. gt 1 stop bit 8 D RS A85 SIDVPPLC FRPR 0 ELT REX TERES i ECT FERE VO Rig JERES RS 485 m RU MERAMA 24V DC 204 DC 28 8V DC 15 20 3 5W git ESI Re 0 C 55 HE 50 95 RE 2 d 25 70 C 8 5 9596 GRE 61131 2 68 2 6 TEST 61131 2 amp 68 2 27 TEST fidens 5 485 dmt priu 15 14 bi2 bll 10 b9 8 b7 b6 b5 b4 b3 b2 bl b0 76604 SHE CH3 cm DVPOGXA H2 EFE Tea st ep CH6 CH5 CH4 CHI HERO BERAN 10 10V H 0000 01 6V 10 t2 CI2mA 420 Bota HRAS C20mA 20mA faris CHS CH6 ERO BRRR OV 10V Bst 1 ERRER 10V BEt2 ERT 4 20mA cst 3 Eih OmA 20mA CR b0 b11 AREE REL S SERA EEA BR BUD CHI CH4 SHEE CHI Bst 0 b2 50 000 CH2 651 b5 b3 00 CH3 Hs 2 b8 56 010 CHA 273 b11 b9 O11 A bO b11 3253 688 b12 b15 ERE T TES TERE PAOR CHS CH6 CHS S502 b13 b12 10 CH6 dist 1 15 bl4 01 gt 8 b12 b15 2255 H5 0 H 40C8 O R aaus CHI 1 H40C9 ORW
4. MULE K a00 K600 27 H 40E3 CH4 19 GAIN 85 485 iS REN AFRE GAIN OFFSET H 4200 ss 23 000 RU MUT RT MRKA EN PUNE 28 H 40E4 R W CH5 i GAIN 8 CHS CH6 f 5h GAIN 3132 TUE YEE K4 000 429 H A0ES R W CH6 4 GAIN h REJ 2 000 6775 LSB GAIN H OFFSET amp 3400 6 0001 CHEREHE ub kp ARA ATA FRE ERR PARLA 430 40 6 R FAAR WAAR AR b15 14 2 bll bl0 b9 b8 b7 b6 b5 b3 b2 bl b0 CHE 20015 1 60015 ef EDI APR ERKE GERR MPT CR 30 iij i Je PIRE 5 8 b7 b6 b5 b4 b2 GR Kir 0 o 0 0 0 o 0 1 AURA K2 H2 0 0 0 0 0 0 1 0 AREMA H 4 9 0 0 0 0 1 0 0 OFFSET GAIN 45 K8 8 0 0 o o 1 0 Li K16 10 0 o 0 1 0 o 0 0 K32 120 o o 1 o o 0 o K64 H 40 9 1 0 0 0 o 0 0 K128 80 1 0 0 0 0 0 0 0 EE EROR S ibd x t b7 ATEREA ERANLA RRE HRS A SaPA 4000 s sx Aib px os UH A 10 RI LEHRER X RAD K2 d MUR S AD R ARETA RTH 31 H40E7 O R W E 0 RS 485 ihik 01 254 PERAE 4800 115 200 bps 74 0 4 800 bps bl 9 600 bps CET REEE b2 19 200 bps b3 38 400 bps b4 57 600 bps b5 115 200 bps 6 613 E bl4
5. 1 000 se GAIN OFFSET Range 200 ss 3 000 ss Dial output CRimode2 GAIN 20 1 000 ss OFFSET 4mA 2004 Mode Tuose 2 mode3 GAIN 20mA 1 0005 OFFSET OMA 0 m The current output value when digital input value K1 000 Range 800 ss 42 600 ss The current output value when digital input value Range 1 000 ss 1 000 12 Qj Current input Boma FSET GAIN OFFSET LOS GAIN OFFSET Range 20015 1 600 5 Z You can adjust the OFFSET GAIN curve of voltage current input mode according to the actual needs by changing the OFFSET value 8418 CR 21 and GAIN value CR 24 CR 27 a Adjusting D A Conversion Curve at CH5 CH6 7 Vonage output 1 mode 0 GAIN 5V 2 000 sg OFFSET OV Orsa Mode 1 CRI mode 1 GAIN 6V 2 400 5 OFFSET 2V 800 sg Mojea m The voltage output value when digital input value K2 000 Range Orsa 44 000 ss The voltage output value when digital input value E 5 E E OFFSET Range 5V 5V 2 000 ss 42 000 ss 18 loigitatinput An m GAIN OFFSET Range 400 52 46 000 ss 7 7 mode2 t2mA 2 4005 OFFSET 4mA 800 5 zoni CR imode3 10mA 2 000 sa OFFSET OMA 0 The current output value when digital input value amp K2 000 Range 4 000
6. EREE 24V DC 20 4V DC 28 8V DC 15 42096 A SER 10V 320mA 32 000 1000 12 bits lisa 5mV 11 bits lisa 204A HAHH 200KQ DLE 2500 BORSE HE 305 E 25 C TPF iE Pri ALRERI 1 fE 0 55 32 131 F E AWAN sre 3ms AASR 45 16 99 11 bits Hp CRE2 CRES KI 20 2118 ETERON Mer DA EEM 2B Ero fepe 0 10V 0 20mA Exec pu 0 4 000 0 4000 12 bits 2 5mV 12 bits liso SuA BARER 305 25 C 77 F IEKA 31 e 0 55 C 32 131 F imt 050 345 sre 3ms x Es rg 20mA 1 2M9 AREH 0 5000 1645 bits EERE AEREE ENAT A RR 65 485 amp amp ASCI RTU Eit RHET 4 800 115 200 bps ASCI EC HE E st LR Og Tobit Rf 1 7 E 0 RTU Est HR Fest E S bit i 1 stop bit 8 E 1 PLC XjuBdEM 65 485 node HDVP LC DINOE Bali S ERO 317 RATERS At Lu ift 24V DC 204 DC 28 8V DC 15 209 3 5 0 55 GRE 50 95 ORE FRES 2 25 C 70 C GERD 5 95 GERD MHRS ec 61131 2 IEC 68 2 6 TEST 61131 2 amp 68 2 27 TEST Ea zs CR
7. URTU RAHO 32 H 40E8 O RAW b15 0 ASCII 1 bIS 1 RTU Est ASCIL est 222 T bit 1 stop bit 7 E 1 RTU Est Hg 8 8 EA 8 bit RY 1 stop bit 8 D H 0002 b15 bl4 12 bll bl0 b9 b8 b7 b6 b5 b4 b3 b2 bl b0 CH6 CH5 CH4 CH3 CH2 CHI 70000 CH4 L 19751418 1 iu 0 CR 18 CR 24 25 b0 2 3 1H 646 das 18 18 24 33 0 9 O R W piedad 2 b1 ERAS blo0 RAE HERR biR ERK 3 b2 EOS 1 MAA ARNE CH5 CH6 D CH5 b13 b12 00 TROR FER Ol TAR PEER 10 ERA 11 F b13 b12 3575 0 CR 33 d REEE SERE TUR UL E ER ISTE SURE SR EEEF A AERP 34 H A0EA O R WARK 16 RRENAK Bn LOA H OI0A 35 48 RAAEN HIEL ORTAR RARI RRA EREE h RS 485 HORS A AAE R 3t FROM ji CRUCE W AR i Aids RA RS 485 3E E S SOR LSB Least Significant Bi FISE Hfi HEHA dose 10 2 000 5mV HA lLss 20mA 1 000 20 HERH lise 10 4 000 2 5mV Hyt 1 5 20mA 4000 uA CRS0 CR 34 HIHA 40 8 H 40EA FI SE RS 485 iE TOR ES SHE RS 485 HAERERE 1 FFE KEE 4 800 9 600 19 200 38 400 57 600 115 200bps 2 Modbus ASCII S 5t RTU HEB IREROL ASCI REE y 7 bits 8 7 1 stop bit 7 E 1 E HEX GE 8 bits Mfr 1 stop bit 8 E D 3 27829 Function H 03 H O6
8. 1 RTU mode 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 b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b b0 CH6 CH5 CH3 CH2 Default H 0000 Take the setting of CH1 CH4 for example 1 When b0 0 the user is allowed to tune CR 18 OFFSET and CR 24 GAIN of CH1 When 50 1 the user is not allowed to tune CR 18 OFFSET and CR 24 GAIN of Returning to default setting 33 H40E9 RW OFFSET GAIN tuning 2 b1 represents whether the OFFSET GAIN tuning registers authorization are latched b1 0 default latched b1 1 non latched 3 When b2 1 all settings will return to default values Take the setting of CH5 for the settings of CH5 CH6 When b13 and b12 00 adjustable latched 01 adjustable non latched 10 not adjustable 11 returning to default setting and reset b13 and b12 as 0 CR 33 For authorizations some internal functions e g OFFSET GAIN tuning The latched function will store the output setting in the internal memory before the power is cut off Displaying the current firmware version hex e g version 431 H 40E7 O RW Communication address setting Communication speed baud 32 H40EB O RW rate setting Tet HAEA Fnit verior 1 0A is indicated as 10 35 48 For system use Symbols Latched when written in through RS 485 communication lt N
9. 8 P pam The current output value when digital input value KO E gt Rango 10mA 10 2 000 ss 4200045 Bom pota input o GAIN OFFSET Range 400 5 6 000 se You adjust the OFFSET GAIN curve of voltage current output mode according to the actual needs by changing the OFFSET value 14 CR 15 and GAIN value 18 CR 19 A OPENTYPE di E ILE FI OE LIS Cd OL SUAE TET A IET BERR CS RESTE MARELE MARENE RER Y RATRI DLAN DE Y OARGEEIAGdeugR O TEBA Eni DVP RIIA 2 MARAA 4 Fr 12 C BH WEER PLC FEY 2 48 12 7 TREE 2 RERE EC SNR REG A A 10 DC CRERTIEFS 5 ABUS 320mA HEEF 20 4 A EEA gt OV 10 DC 2 5 OMA 20mA SpA EA O Ue WEM i STER XE z10V i0v eur 100K HEL CAAA ARE 2 s VE
10. A word Ze E ati 64 word 7 dps 4 Bub REERH CR RS 485 RE HENA TO DTO 184 5 A JUS UB EUER n iB 2 AFHIR CHI CH4 ij A D 5 00 GAIN SV 1 00019 OFFSET OV 0 1 29561 GAIN 6V 1 200 OFFSET 2V 400 sg AN 258 y o K4 000 PATEE A i RESTE 00 5 4 00015 IGEESET 288948 A DR KO BE Eth WETE 10000 ss 41 000 GAIN OFFSET 200158 3 000 2 18 28202 GAIN 20 1 000 OFFSET 4mA 200 24 53 GAIN 20mA 1 00015 OFFSET Ouse 2886948 A DS 000 Bi tsi 800 42 600 sn GET 2848 AIDS KO WETE 1000 ss 1000 ss GAIN OFFSET 200158 21 600 218 ZFERHRCR LIEHLAEUL AD R Jem E ato unser Af OFFSET 18 CR 21 GAIN amp CR 24 27 cuti CH5 CH6 ijj D A HEPR PE htk Uo Bj agms 7 7 28250 5V 2 000 OFFSET OV 015 58351 GAIN 6V 2400 9 OFFSET 2V 80015 CONI 2535 788 A 8 K2 000 Pf rri Fh t t gie HEE Oss 4 00015 OFFSET KO oi s E WETE 2 000 42 000 GAIN OFFSET E 40015 6 00015 228 25552 GAIN 12 2 400 5 i 274850 3 10
11. A HH Ere ERTE E PEL TO DTO ERRANTE AID ELT EU E us CR 1 788550 GAIN 5V 1 000 OFFSET 0 3 i 71 GAIN 6V 1 200 sg OFFSET 2V 400 sg teras EBD RES 4 000 RATER AE 5 AUER 80015 4 00015 OFFSET Eger A RES KO ISTE RHEES 1 00015 41 000 sg 20015 43 0000 27 2780502 GAIN 20 1 000 5 OFFSET 4 200 5 X luz CR I 2200543 GAIN 20mA 1 000 s OFFSET Ose GUN 000 RAEN HIE 800 sg 2 600 p POL ZR AREI ABER ACRI KO IPIS EEG 1 000 sp 1 000 1000 GAIN OFFSET amp iE fr 20015 1 600 sn ZF Z EHAGRAENABASEAR UU AD EA ATIRAR ESA ER EH UAE RA uin 8 OFFSET CR amp 18 21 amp GAIN 4 amp CR824 CR827 CH5 CH6 254 D A ZIO 5V 2 000 a OFFSET OV 0155 251 GAIN 6V 2 400 lt OFFSET 2V 800 sg Gum A MOS K2 000 RS 8 REEL E FEEFEE Orsa 400 58 2 00015 2 000 sa GAIN OFFSET 172172 40015 6 00015 ZR 0277 GAIN I2mA 2 400 OFFSET 4 800 53 73 GAIN 10 2 000 OFFSET OMA 0 sg Gun
12. Recorder cable Scale valve Current output UR mA CH T 6 Please connect the terminal on both the EL power module and DVPO6XA H2 to the system eir earth point and ground system contact Power modula E connect it to the cover of power distribution aud cabinet ote DO NOT wire empty terminal 9 roo Specifications Analog Digital Power supply voltage Analog input channel Voltage input 24V DC 20 4V DC 28 8V DC 15 20 4 channels module Current input Range of analog input 320mA Range of digital conversion 2 000 21 000 Resolution 12 bits Tuss 5mV 11 bits 20 Input impedance 200KQ or higher 2500 30 5 when in full scale 25 C 77 Da E 31 when in full scale within the range of 0 55 C 32 131 F Responding time Sms x the number of channels Isolation Between analog and digital channels Range of absolute input 15V 32 Digital data format 11 significant bits out of 16 bits are available in 25 complement Average function Yes available for setting up CR 2 CR 5 range K1 20 Self diagnosis Upper and lower bound detection channel Digita Analog DA Voltage output Current output Analog output channel 2 channels module Range of analog output 10V 0 20 Range of digital data 0 4 000 0 4 000 R
13. 1 215 b12 b15 H H5 ix iE H 0000 R W CHI 40 R W CH2 0 t H40CC R W CH3 Fyk d H 40CD R W CH4 FEYK t 0 x Afi S388 CH2 SA fe 4000 x R fA fr S fA f SX EH H 40D2 gt 5 iiti f 11 H 40D3 R W CH6 312 H 40D4 R A S 3o TE i 13 H 40DS R 58A fe SME 14 H 40D6 R CH3 Afi SLE E 15 H 40D7 fff 418 H A0DA CHI ftti OFFSET i JB CHI i Afi K1 20 0 CRA CRES EAUS A K CHI ii SEHE Gs pU etn xo 10 644634 10 CHI 8 A fS RECO 8 CHS CH6 IDE K4 000 WOES HiH LSB JB CHI CHA i Afi SMEERT JB CHI f 9 hh OFFSET 1255 3s LSB 419 H 40DB CH2 414 OFFSET ji 4 id FT BHEIR K L000 KL000 200 H40DC R W CH3 RN OFFSET Amf TEETE K 1 000 K1 000 321 H 40DD R W 18 OFFSET i 22 H A0DE CHS 418 OFFSET 5 W CH5 CH6 4 5 f OFFSET 925 Fiti 2 000 2 000 303 H 40DF CH6 418 OFFSET 3X LSB 324 H 40E0 CHI 918 GAIN 325 H A0El 2 A ANE 3H CHI CH4 4E 0 GAIN viz 000 4472 LSB 26 40 2 CH3 419 GAIN AIHEEN K 800 K4000 BGAN
14. 2008 06 24 5011676001 01 AZ N INSTRUCTION SHEET Z RRA xc i Bj A Mixed Analog I O Module a RIO A HR MELTA DELTA ELECTRONICS INC www dolta com tw industrialautomation ENGLISI A Warning Y Please read this instruction sheet carefully before use DO NOT touch any terminal when the power is switched on Switch off the power before wiring Y DVPOGXA 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 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 DO NOT connect input AC power supply to any of the I O terminals otherwise serious damage may occur Check the wiring again before switching on the power DO NOT touch the internal circuit for 1 minute after the power is switched off Make sure the ground terminal is correctly grounded in order to prevent electromagnetic interference 9 Introduction m Model Explanation amp Peripherals Thank you for choosing Delta DVP series PLC DVPO6XA H2 is able to receive 4 points of analog input signals voltage or current and convert them into 12 bit digital signals DVPO6XA H receives 2 groups of 12 bit digital data from PLC MPU and converts them into 2 points of analog
15. 3 b2 bl b0 CH6 CH5 cm cm EERI H 0000 CH4 2 l3 00 30 j EERE 8 CRH24 5505 185 CH1 CRAS CRH24 2 bl bl O HURTS SERE RO bl IGEEHEPRRD 3 b2 RUER 1 REPARER ES CH5 CH6 D CH5 42 94685 b13 b12 32 H 40E8 ORW HAE VeL REGE R 33 HUE ORW 00 TARIA 01 10 11 6 b13 bI2 TRES O CRI33 HERR SE EUR TSE FARRO EIRE RRISE T CMT EUR ze B ba 34 H 40EA O 16301 0 LOA H OIOA 35 48 KEME HER O x AE RS 485 R utt Fd FROM W zr Ss ERRARE RHA 65 485 LSB Least Significant Bit tst duse 10V 2 000 5mV lss 20mA 1 000 204A PERS diss 10 4 000 2 5mV Irsa 20mA 4000 SA CRI34 4 277 fih H A0C8 H A0EA n FI RS 485 ji BEAT i RS 485 4 00 9 600 19 200 38 400 57 600 115 200 bps 2 nj Hj Modbus ASCII f amp z RTU i ERIE ASCH EnA RHEES Tbit 86776 1 stop bit 7 E D RTU 8 bits gt ff gt 1 stop bit 8 E D 3 278805 Function H 03 H 06 89 word GEERT aS gt 10 SA34 word 44 SENS 4 RS 485
16. 5 C temperature 50 95 humidity pollution degree 2 Storage 25 C 70 C temperature 5 95 humidity International standards IEC 61131 2 IEC 68 2 6 TEST Fc IEC 61131 2 amp IEC 68 2 27 TEST Ea Operation storage Vibration shock immunity 9 Control Register RS 485 99 parameter Latched Register content 615 614613 612 611 b10 b9 b8 b7 b6 b5 b4 b3 b2 bi b0 address Set up by the system DVP06XA H2 model code H 6604 0 H 40C8 R You can read the model name from the program and see if the extension module exists CH6 CH5 CH3 CH2 Input mode CH1 CH4 Mode 0 Voltage input 10V 10V Default H 0000 Mode 1 Voltage input 6 10V Mode 2 Current input 12mA 20mA Mode 3 Current input 20mA 20mA Output mode CH5 CH6 Mode 0 Voltage output 0V 10V Mode 1 Voltage output 2V 10V Mode 2 Current output 4 20 Mode 3 Current output 20mAJ CR 1 60 b11 are used for setting up the working mode of the 4 channels in analog input A D 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 bO 000 CH2 mode 1 b5 b3 001 CH3 mode 2 b8 b6 010 and CH4 mode 3 11 b9 011 bO b11 have to be set 1o H688 b12 b15 are used for setting up the working mode of the 2 channels in analog output D A There are 4 modes for each c
17. 85 485 AE 15 14 b12 bli bl0 b9 58 b7 b6 b5 b4 b3 b2 bl b0 J DVPOSXA H2 12645 6604 fees oUm gars 1223 CH5 cm cm CHI GRO MEHAR CIOV OV BAHA 0000 RL PEHAR C6V 10V 1 H40C9 O R W HA MERRE 52 EIMA CI2mA 420mA HRI ERAI C20mA 20mA 5 CH6 RO BEHER OV 10V HRL BEHER 2 10 R2 AmA 20mA Erst 3 Est mA 20mA DIN sid 35mm MEE ejejejie Td RRR RETI Ign AGR S vs cil Xp s pepe 2 VeA Te MP Mo LX TW puedas MAE 46 IE DARE AL ADR RER RRS 0 m E 0 1 0474F 25 8 lo i b0 bll P TE EROR OGE BHO S S 38A CAD SPA FUA RGB DT ERG FUR AER SH CHI A575 3825 0 b2 50 000 CH2 26 1 5 b3 001 CH3 5 2 b8 b6 010 CH4 203 1 9 011 Hf bO b11 55 H 688 b12 b15 py 8 D A TRR AME PALEE CHS CH6 4 Siti ihe y CH5 44352 613 b12 10 CH6 1 15 bl4 0
18. EUST A MS K2 000 paar ginti Okse 4 0001s8 KO IRE EH LE BRGERR E 2 000 sa 2 0001 sn Suse ah U GAIN OFESET 40015 600005 21 TUE M UR A Pg oc d DA dbi cd ACT RRR TU COR EM LA Eak en 141 OFFSET f CR 14 CR 15 GAIN 4 amp CR 18 CR 19 R847 A MEES LEETE EES AERE E OPENTYPE jui Bibi XA GET ER F MORE T THA BERPA REFRE Sor dif dok EI AUR A ool Bic Er AARAA RR az Y TRE PARRE p WARR E G1 DVP AJ i DVPOSXA H2 LA R AEA n BRE T 4 ARN SA C lit Ee 482 Fort 12 Rr BNE PLC ENY 2 4 12 Art FRE 2 HUC tB EERE o HIS ALPE ERAREMA KERANA 10V DC mV WU 20mA C HO 20840 S405 hio tb n BO ARE Fs ot scr uA t OV 10V DC HREH 2 5mV OmA 20mA AEA SpA m P OUR ee BAT AE i4 nds Ho IS ES diuo in deat AREFE EHE 01 047 25 e DVPOGXA H2 6 22 imig Scy BERA
19. R Ie p I haod DAR LACE SR E ioni SCALE Mot tk cm 0 1 O47uF 25V 2 m Ha i Lj REUS FEES cp css 95 dic Aib SUR ARTIE 5 0 1 0 47 25 2 M 6 93 TIR i2 DVPOSXA H2 381545 Noir Qo ERA desi Fi A eik shrike ops Donc aum AG mus 7246 Wb Et Bru AD Bota ERRA BE 24V DC 204V DC 28 8V DC 15 209 320 RRE 32 000 31 000 12 bits lysp 5mV 11 bits 204A SABER 200KO i 2500 TREE 305 H 25 C 77 F ARPA 1 de 0 55 C 32 131 F 8 81 Eius 3ms x 880 REIR ELARA Li 15 332mA bits 2 CR 5 273035 20 TERE TE 0 10V 0 4000 12 bits 2 5mV 305 25 C 77 F SEDE 196 de 0 55 32 I3I F MEH 050 or Eius 3ms 880 20 IKO 2M9 0 5000 1607088 bits PATE PAHE RERE 2 ASCIURTU Eit AEST 4 800 115 200 bps gt ASCII amp T bit 86272 1 stop bit 7 E 1 RTU st E
20. alue of CH6 Default Unit LSB Adjusted GAIN value of CH1 OFFSET settings at CH1 CH4 Default Unit LSB When voltage input range K 1 000 K1 000 When current input range K 1 000 K1 000 GAIN settings at CH1 CH4 Default 1 000 Unit LSB 05 H40E1 Adjusted GAIN value of 2 i To 826 H 40E2 Adjusted GAIN value of CH3 D idis Mind 4 en T Ps eh d 07 40 Adjusted GAIN value of putrtenges RS 485 parameter Latched address Note GAIN value OFFSET value 4200 sy 3 000 voltage or 200 51 600 zsp 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 428 H40E4 1 Adjusted GAIN value of CH5 GAIN settings at CH5 CH6 Range K4 000 429 H40E5 C Adjusted GAIN value of CH6 Default K2 000 Unit LSB Note GAIN value OFFSET value 400 15 6 000 zsa voltage or current When GAIN OFFSET is small steep oblique the resolution of output signal will be finer and variation on the digital value will be greater When GAIN OFFSET is big gradual oblique the resolution of output signal will be rougher and variation on the digital value will be smaller 430 0 6 x R Er
21. esolution 12 bits 15 2 5mV 12 bits fis 54A 40 5 when in full scale 25 77 F 31 when in full scale within the range 0 55 C 32 131 0 50 or lower Overall accuracy Output impedance Response time 3ms the number of channels Max output current 20mA 1KQ 2M0 Tolerable load impedance 0 5000 Digital data format 11 significant bits out of 16 bits are available in 25 complement Internal circuit and analog output terminals are isolated by optical coupler Isolation dus No isolation among analog channels The voltage output is protected by short circuit Please also be aware that being short Protection circuit for too long period of time may cause damage on internal circuit The current output can be open circuit ASCI RTU mode Communication speed 4 800 115 200 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 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 will not occupy any digital points Communication mode RS 485 When connected to DVP PLC MPU in series Other Specifications Power supply 24V DC 20 4V DC 28 8V DC 15 20 3 5W supplied by external power consumption Environment Operation 0 5
22. hannel which can be set up separately For example if the user needs to set CH5 mode 2 b13 b12 10 and CH6 mode 1 b15 b14 01 612 b15 have to be set to CH5 Default value H 0000 1 H 40C9 O VO mode setting 2 RW CHI average time Range of settings in CH1 CH4 K1 K20 H400B O RW CH average time Default K10 4 H40CC O RW CH3 average time Please note that the average time settings at CR 2 CR 5 35 40 0 O RW CHA average time only need to be written in once 46 40 x input average Average of input signals at CH1 CH4 47 H40CF CH2 input average For example if the settings in CR 2 CR 5 are 10 the 48 H40DO x CH3 input average content in CR 6 CR 9 will be the average of the most recent 49 H40Di x R CH4 input average 10 signals at CH1 CH4 10 H40D2 x RW CH5 output value Output value at CH5 CH6 Range KO K4 000 11 H40D3 gt RW CH6 output value Default Unit LSB 12 H40D4 x input present value EH E x a een ve Present value of input signals at CH1 CH4 415 H 40D7 x 418 H40DA 419 H40DB 420 H40DC O 421 H40DD 422 H40DE O 423 H40DF O 24 H40E0 O CH4 input present value Adjusted OFFSET value of CH1 Adjusted OFFSET value of CH2 Adjusted OFFSET value of CH3 Adjusted OFFSET value of CH4 Adjusted OFFSET value of 5 OFFSET settings at CH5 CH6 Range K 2 000 K2 000 Adjusted OFFSET v
23. mA 2 000 5 2 PIR A 0 K2 000 p i ith t dt 2 T pn SEES Orsa 4 000158 OFFSI A 8 KO BE t uit t i E ESRB 2 000 s 2 00015 aser 599 ao GAIN OFESET 400 360004 228 eom EH Rat d szk X OFFSET CR 14 CR IS A GAIN CR IS CRI9 4
24. on latched R Able to read data by FROM instruction W Able to write data by TO instruction or RS 485 communication LSB Least Significant Bit For voltage input Tuse 10V 2 000 mV For current input tusa 20mA 1 000 20uA For voltage output 11 10V 4 000 2 5mV For current input 11s 20mA 4 000 5 CR 0 CR 34 The corresponding parameter addresses H 40C8 H40EA are for you to read write data by RS 485 Communication When using RS 485 You have to separate the module with MPU first Communication baud rate 4 800 9 600 19 200 38 400 57 600 115 200 bps b Modbus ASCI RTU communication protocols ASCII data format 7 01 even bit 1 stop bit 7 E 1 RTU data format 8 bit even bit 1 stop bit 8 E 1 c Function H 03 read register data H 06 write 1 word datum to register H 10 write many word data to register d 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 Temperature Digital Characteristic Curve Adjusting A D Conversion Curve at CH1 CH4 CR 1 modeO 5V 1 000 ss OFFSET OV Ose CR 1 mode GAIN 6V 1 200 OFFSET 2V 400 5 The voltage input value when the digital output value K4 000 Range 800 sa 4 000 se Digital output aono ERN mL The voltage output value when digital input value i Range 1 000 ss
25. ror status Register content b15 614 613 612 611 b10 b9 b8 b7 b6 b5 b4 b3 b2 bi 50 Register for storing all error status See the table of error status for more information CR 30 Error status value see the table below Error status Content bi5 b8 b7 06 b5 b3 b2 bi bO Abnormal power supply K1 H1 09 0 0 0 0 0 0 1 Incorrect analog input value K2 H2 1 Incorrect mode setting H4 1 OFFSET GAIN error K8 H 8 msewd 0 0 0 0 1 0 0 0 Hardware malfunction K16 H10 0 0 1 Abnormal conversion value range 2 20 0 1 0 Incorrect average times setting K64 40 914191091909 Instruction error K128 H 80 1 0 0 0 0 0 0 90 Note Each error status is determined by the corresponding bit bO b7 and there may be more than 2 errors occurring at the time 0 normal 1 error Example If the digital input exceeds 4 000 error K2 will occur If the analog output exceeds 10V both analog input value error K2 and K32 will occur A D does not support displaying error K2 For setting RS 485 communication address Range 01 254 Default K1 For setting up communication speed 4 800 115 200bps 50 4 800 bps 61 9 600 bps default b2 19 200 bps b3 38 400 bps b4 57 600 bps b5 115 200 bps b6 b13 reserved b14 higllow bit exchange of CRC checksum only valid in RTU mode b15 0 ASCII mode b15
26. signal for output in voltage current You can select voltage current input by wiring Range of voltage input 10V DC resolution 5mV Range of current input 20 resolution 204A You also select voltage current output wiring Range of voltage output OV 10V DC resolution 2 5mV Range of current output OmA 20 resolution 5 m Product Profile Indicators Terminal Block I O Terminals DIN rail 35mm Terminals Connection port for extension uniU module G Mounting hole un T Eo G name terminals POWER ERROR 0 indicator G Connection port for extension uniumodule ODIN rail cli i External Wiring Voltage input 20V 10V 1 When performing analog input please isolate other power wirings 2 Short circuit V and I terminal when connecting currentsignals 3 Ifthe ripples at the input voltage cause noise interference connect the wiring to 0 1 0 47uF 25V capacitor shielding cable 1 Current input 20 20mMA 4 When performing analog output please isolate other power wirings 5 If the ripples at the loaded output are too significant that cause noise interference connect the wiring to 0 1 0 47uF 25V capacitor E d 4 1 bonoa fanais
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