Ladder Program Converter Operation Manual
Contents
1. M 17 AB cite iliac 18 D K 19 AB Ae n 20 21 PBR a 22 PO c PME 23 cM acter eee ine tc x 23 C eae eee ae oe ee ee eee 24 BEKMON Du 24 E E l 25 o ORE 26 ORR DVV 27 Sri T 28 ROR M otov 4 29 a ara are ree tales sonst 30 31 ROL DW 22 SUP uuu susto 33 MUR UTR RN NON 33 ROUND thi 34 un A 34 S mc 35 FOR ode MI REM 36 Appendix 3 Siemens I O Memory Convert Table 37 Appendix 1 Siemens Instruction Convert List Convert Solution 1 1 Convert Solution 1 1 1 N Convert Solution 1 No Convert Solution NS HM Dx2. To Omron ladder BCDLW59 TU 63 DBCD instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder DECI 01020 To Omron ladder CP1E DO wea Dri Lit To Omron ladder CP1L 1H DBCD instruction Operand 1 type are KX KY KS Operand 2 type are KY KS From Mitsubishi ladder DRO IR12 DRO 13 Ke 10 To Omron ladder MO 498 AF REDZ 1004 WI TEMP C 01 This is a te _ 01 TEMP 03 This a te This is a te AF RE62Z 1040 TEMP DW 03 This i a te 0 TEMP D w 01 This a te DBCDP instruction Operand 1 type and Operand 2 type are T C D V Z From Mitsubishi ladder pBCDP To co 1 To Omron ladder app Tb TU O 64 DBCDP instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder 1 D BCDP 00 0 01020 Omron ladder CP1E DO Lia Omron ladder CP1H CP1L 010 IR13 DBCDP instruction Operand 1 type are KX KY KM KS Operand 2 type are KY KM KS From Mitsubishi ladder 12 18 13 hau K3510 To Omron ladder TEMP 01 This te TEMP DO W 01 This te 059 TEMP Dw TEMP Os This a te This
3. 55 fame tw uu u Sa 56 BMOV INS eR 57 BMOVP co eti dmt ta on 59 BOD 5 u uuu au 61 DPipoumi 38iioi u u Q 62 sonent co 63 PD Hr 64 totae dieit 65 tou mop eret LED 66 PO Met TL 67 OBINE T D 68 PAID o mE 69 E 71 PAID DO OM 72 ais e o u tee ea ee eee P 73 5 75 liom Ri uu uum UR 76 SUD ADSUUCHON LP 78 gt 80 MUL iiu Fai ane pestes bete es 82 MULE TELS
4. Scan d et tae 83 me S 85 86 88 Du E un 90 BIB acudir RUN 92 SUC UIDES i i uot 93 uses sansa ties niet oh 95 INC uuu 96 DING TON assess 97 C u Zn ms usu manu 98 DEG u uu Esca itat etse d em 99 DECPINSTUCHON n a 100 DDEC 5 eT cR 101 102 VAIN 1S 103 WAND IS ICO cc Sect uu REL DLE 105 DAND INS TOUCIOM 106 B Sener nee ee cer E 108 VV O _____ __ 110 WORP INS TUCION u unu k u 111 113
5. Dw 0 TEMP Dw 03 TEMP Dw 05 This te This te This te AF RBB2 1000 TEMP 05 This 12 te 113 DOR instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 0020 01020 02020 To Omron ladder CP1E E wa Omron ladder CP1H CP1L D20 IR14 DRO IRIZ DRO IR13 DRO IR14 DORP instruction Operand 1 type and Operand 2 type are K H T C D V Z type T D V From Mitsubishi ladder H F 010 To Omron ladder D FU 010 114 DORP instruction Operand 1 type and Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder kan kai To Omron ladder id wir 1498 0 TEMP Ow 01 This is te iar 1000 TEMP C 0 This te id COE 0 TEMP D w 03 This a te RBG 1000 100 TEMP D w 03 This ig a te 5811 TEMP 01 TEMP 03 TEMP D w This te This ig a te This te mF RE U62 1000 TEMP DW 05 Ww This te DORP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder D RP 0020 01020 02020 To Omron ladder CP1E To Omron ladder CP1H CP1L ad 0 TEMP 01 This te FRE
6. Fd we NetWork _ NeWok2 ___ EE NetWork 2 STR VB0 No Step number SI STR VB0 END ORGANIZATION ENDP END BLOCK 26 54 Ladder Program Converter Operation Manual 6 ERROR List and Solutions Error List Choose the Generated a Converting list file conversion list and click the button when the path and The name is empty name of conversion list file is not designated The warning will be displayed If the converter destination PLC type is not supported the warning dialog box will display 27 1 54 Ladder Program Converter Operation Manual 7 Appendix 7 1 Instruction Convert list Conversion status Complete conversion A Incomplete conversion Restrict Condition No conversion Corresponding Mitsubish PLC 1 Mitsubishi PLC Instruction Convert List Note Specific conversion information refer to Appendix Mitsubishi Convert Specification _ Status 1 JLD Contact Instruction e e e e a a C _ 3 loadPuse Contact Instruction 4 LDF LoadFallingPulse_ Contact Instruction e o O 5 JAND Contactinstruction 6 JjAndinerse X jContctintrution 7 AndPulse Contact Instruction e e ej e o J 8 AndFaling Pulse ContactInstructi
7. Omron ladder CP1H CP1L 612 DRO 12 13 18 14 121 SFTR instruction From Mitsubishi ladder 000 KA m To Omron ladder AF RBG AF RBG SFTRP instruction From Mitsubishi ladder sF TRF 000 1004 KA m Omron ladder FREE fF RBS SFTL instruction From Mitsubishi ladder 000 KA Ke To Omron ladder FRB SFTLP instruction From Mitsubishi ladder F TLF 000 Ke To Omron ladder 62 FREG 122 SFWR instruction Operand 1 type are K H T C 0 V Z From Mitsubishi ladder 5 HI DIO Omron ladder CP1E To Omron ladder CP1H CP1L DR12 DR12 IR12 123 SFWR instruction Operand 1 type are KX KY KM KS From Mitsubishi ladder bow SFWR ARD Omron ladder CP1E ONT 0 TEMP GH 01 This te AF REOG 1000 TEMP CH 01 This te TEMP CH Ul 0111010 This te Omron ladder CP1H CP1L MONATE 0 TEMP This te AF RBS 1000 0 TEMP CH This te TEMP CH 01 11 LET D This te 124 SFWR instruction Operand 1 type are 02 DV From Mitsubishi ladder 00 0 y i To Omron ladder CP1E 011 1010 OV 405 010 To Om
8. GU aes cece aan 114 VV AOR IIS 116 E 117 DAOR MSU 119 DXORE ITI DL TTE 120 UES 122 SF LESEPHIBSUBOUOLE yu aa oral gees 122 SP TE ASITUCUOD e uW 122 122 SFEWR MS uyu u 123 eie Ecole UU desc EE RED M T 126 SIND INSTRUCTION ETT 129 SIS IMS CON uuu uum CCo ass 131 ION uuu u mm 133 134 DEC OAMSUUCTON 135 DEC ORMS C IO cos 139 e esses Su 145 TER Rh c 146 Appendix 3 Mitsubishi Memory Convert Table 148 Appendix 1 Mitsubishi Instruction Convert List Convert Solution 1 1 Convert Solution 1 1 1 N Convert Solution 1 N xs No Convert
9. 55 Detail Instruction Compare Instructions Compare And Byte N1 N2 From Siemens ladder Network 1 Network Comment 0 0 2 11 0 D Network Comment I 000 TEMP This i at TEMP GH This is at 18 SIEMENS 57 200 55 Detail Instruction AB lt Compare Instructions Compare And Byte N1 lt N2 From Siemens ladder Hetwork 2 Network Network Comment 10 0 IB 1 0 4 Network Comment I 0 00 TEMP This at TEMP CH This is at 19 SIEMENS 57 200 55 Detail Instruction AB gt Compare Instructions Compare And Byte N1 gt N2 From Siemens ladder Network 3 Network Title Hetwork Comment B 2 51 0 s IES To Omron ladder E Network Comment I 000 00 TEMP This i at 00 TEMP CH This Is at 20 SIEMENS 57 200 55 Detail Instruction Compare Instructions Compare And Byte 1 lt gt 2 From Siemens ladder Hetwork 4 Network Network Comment 10 0 IBZ 1 0 IB3 To Omron ladder CD Network Comment I 0 00 TEMP This ig a t TEMP GH This iz a t 21 SIEMENS 57 200 55 Detail Instruction Compare Instructions Compare And Byte 1 lt 2
10. TEMP This Iz at AMCs MEg THis Iz at 5827 01 TEMP This is at 28 SIEMENS 57 200 55 Detail Instruction ROR_W Shift and Rotate Instructions Rotate Right Word From Siemens ladder Network 1 Hetwork Comment 10 0 D Network Comment 100 TEMP GH This iz a t Moyo 1 100 TEMP GH This iz a t AN Oyo 100 000 TEMP This is a t 410 10 TEMP CH TEMP GH This i at This HASRIBS TEMP CH TEMP CH This ig a t This i a t NaS Libel TEMP CH TEMP This ig a t This i a TEMP TEMP This iz at This a t 29 SIEMENS 57 200 Class Detail Instruction ROL_W Shift and Rotate Instructions Rotate Left Word From Siemens ladder Hetwork 2 Network Network Comment 10 1 To Omron ladder CD Network Comment ONT 101 TEMP GH This iz at ON 101 TEMP This Is at AN CWO 100 000 TEMP This i at 410 10 TEMP CH TEMP This ig a t This ts a t TEMP CH TEMP CH This This ig a t HASRIBS TEMP TEMP GH Thee at This eat TEMP CH TEMP This i at This Is at 30
11. _ Pas wsne x x gt 147 SFWR Refer to Appendix 2 1 N 1 1 N Shift write FIFO FILO 148 SFWRP Refer to Appendix 2 1 N 1 Shift write FIFO FILO es 149 SFRD Refer to Appendix 2 1 N 1 N Shift Read FIFO Control 150 SFRDP Refer to Appendix 2 1 N 1 Shift Read FIFO Control ie aroma TS MO 151 ZRST Refer to Appendix 2 1 N 1 1 N Zone Reset __ 152 ZRSTP Refer to Appendix 2 1 N 1 N 1 N Zone Reset 153 Refer to Appendix 2 1 N 1 N Decode EE eed e 154 DECOP Refer to Appendix 2 1 N 1 N 1 N Decode Mmmm _ 155 ENCO Refer to Appendix 2 1 N 1 N 1 N Encode EMT mem 156 ENCOP Refer to Appendix 2 1 N 1 N 1 N Encode _ 158 SUMP SUMP x x x Sumof Active Bits 159 DSUM DSUM x x x Sumof Active Bits 160 DSUMP DSUMP x x Sumof Active Bits 161 MI BON x x Check Specified Bit Stauts 162 BONP x X X Check Specified Bit Stauts 163 DBON DBON x x x Check Specified Bit Stauts 164 DBONP DBONP x x x Check Specified Bit Stauts 171 ANRP x x x Annurciator Reset X X X X gt X X X X Z Z Z Z Z 2 12 12 1 1212 x X X 2 12 12 DSK X X M X X X X X X X x X X X X x x x x x x x Source Destination
12. SUB instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type KY KS From Mitsubishi ladder SUB 0 kann 4510 J To Omron ladder MONTI 0 TEMP This te OVI 0 TEMP GH 02 This te AFRE 1000 TEMP This te AFRBB2 1000 100 TEMP 2 This te TEME GHO2 TEMP 03 This te This te This te AFRE 1080 TEMP GH l3 This te 75 SUB instruction 1 type Operand 2 type and Operand type are DZ DV From Mitsubishi ladder sb 00 0 01040 0020 To Omron ladder CP1E a Omron ladder CP1H CP1L 010 IR13 D20 IR14 DRO IRIZ SUBP instruction Operand 1 type and 2 type K H T D V Z Operand 3 type T C D V Z From Mitsubishi ladder DRE O IR13 DRO IR14 SUBP Ke T j To Omron ladder 76 SUBP instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type KY KS From Mitsubishi ladder SUBP kan 4510 To Omron ladder mh 0 TEMP CH Ul This ig a te 1 TEMP GH 02 This iz te 62 1000 0 TEMP CH 01 This te iar RBG 1000 100 TEMP GH 02 This te TEMP CHI TEMP CH 03 This is te This te This te
13. gt ITI e e e I e s e e e a a a a I I 2 e Compare Load Byte 1 lt 2 Compare Load Byte 1 gt 2 Compare Load Word 1 2 Compare Load Word 1 lt 2 Compare Load Real 1 2 Compare Load Real 1 lt 2 Compare Load Real 1 gt 2 Compare And Byte 1 2 Compare And Byte 1 lt 2 Compare And Byte 1 gt 2 Compare And Byte 1 lt gt 2 Compare And Byte 1 lt 2 Compare And Byte 1 gt 2 Compare And Word 1 2 Compare Word N1 lt N2 Compare Word 1 gt 2 Compare And Word 1 lt gt 2 Compare And Word 1 lt 2 Compare Word 1 gt 2 Compare And Double Word 1 2 6 6 7 7 7 N T N O 5 7 0 1 2 3 4 5 Source Instruction Destination Instruction S7 200 AD lt AD gt AD lt gt 2 V II gt AR lt AR gt
14. x 400 DBK P Block Data Addition Block Data Operation 401 BK Block Data Block Data Operation Subtraction 40 54 X X DX XX Ladder Program Converter Operation Manual m _ Status RN ERR _ j Subtraction _ j Subtraction ___ Subtraction TR meet ___ 51 52 U Comes ___ 51 52 U 51 52 PPE ___ 51 52 memor ___ 51 gt 52 u ___ 51 gt 52 4 ___ 51 gt 52 4 ___ 51 gt 52 51 lt 52 eme 51 lt 52 eme o 51 lt 52 PPS 4 ___ 51 lt 52 _ j 51 lt gt 52 6 51 lt gt 52 ___ 51 lt gt 52 51 lt gt 52 mem 51 lt 52 ERE NM Compare 51 lt 52 to eem oS
15. 513 DSCL x x x Scaling 514 DSCLP MI DSCLP X x x Scaling 515 DABIN MI DABIN X X X Decimal ASCII to BIN ee 516 DABINP MI DABINP X x x Decimal ASCII to BIN ee ee 517 DDABIN MI DDABIN X X X Decimal ASCII to BIN RN 518 DDABINP MI DDABINP X x x Decimal ASCII to BIN ee 519 BINDA MI BINDA X X X BIN to Decimal ASCII NR NEN 520 BINDAP MI BINDAP X x x BIN to Decimal ASCII epee ee 521 DBINDA MI DBINDA x x BIN to Decimal ASCII 522 DBINDAP MI DBINDAP X x x BIN to Decimal ASCII epee ee ee 523 SCL2 SCL2 X x x Scaling 2 524 SCL2P MI SCL2P X x x Scaling 2 525 DSCL2 MI DSCL2 x x Scaling 2 ee 526 DSCL2P MI DSCL2P X x x Scaling 2 om wer x x mv x x X 529 IVRD MI IVRD x X x Inverter Parameter Read 530 MI IVWR X Inverter Parameter Write 531 IVBWR MI IVBWR x X Inverter Parameter Block Write 532 RBFM RBFM X Divided BFM Read 533 WBFM WBFM X Divided BFM Write 534 DHSCT MI DHSCT X X X High Speed Counter x X Compare With Data Table 535 LOADR LOADR X Load From ER 536 LOADRP LOADRP X Load From ER 20 79 79 Source Destination CP E Save to ER Initialize R and ER Initialize R and ER Logging R and ER 21 Ap
16. KS From Mitsubishi ladder DRO IRI DRO IRIS DBI HP 4510 Omron ladder 498 0 TEMP DO 01 This te FRB GY 1004 TEMP This te 4058 TEMP DW 01 TEMP 03 This te This te ir RBITBZ 1040 TEMP Dy 03 This te ADD instruction Operand 1 type 2 type are H T D V Z type From Mitsubishi ladder ann Ke 1 To Omron ladder 69 ADD instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type are KS From Mitsubishi ladder 00 kann kon R3510 To Omron ladder OV 0 TEMP GH 01 This is a te 0 TEMP CH 02 This is a te AF RBO62 1000 TEMP CHDI This 2 te FREES 1000 100 02 This is te TEMP 02 TEMP 03 This is te This 12 te This is a te XFRETUG2 1040 TEMP 03 This a te ADD instruction Operand 1 type Operand 2 type and Operand type are DZ DV From Mitsubishi ladder ADD 01020 02020 1 Omron ladder CP1H CP1L 12 DRO 13 18 14 70 ADDP instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type T C
17. TEMP This To Omron ladder CP1H CP1L 0 TEMP CH 01 300 DO TEMP 01 TEMP CH 01 0 DR IR13 DECO instruction Operand 1 type K H Operand 2 type are T C D From Mitsubishi ladder DECO HI h3 1 To Omron ladder WIL PO DECO instruction Operand 1 type K H Operand 2 type are Y M S From Mitsubishi ladder 3 TEMP This a te TEMP CH Ul 1 This te m Ba To Omron ladder ESTAS 100 SET 100 02 136 DECO instruction Operand 1 type K H Operand 2 type DZ DV From Mitsubishi ladder DECO i 00 0 Ka To Omron ladder CP1E Mov 1 2 TEMP CH 01 odd This te TEMP CH 01 0 This te To Omron ladder CP1H CP1L DECO instruction Operand 1 type are DZ DV 2 type T C D From Mitsubishi ladder DECU Ba To Omron ladder CP1E 0 This is a te AF REDZ 500 This ig a 0 7 TEMP SHD This i2 te To Omron ladder CP1H CP1L 0 TEMP 01 300 0801212 TEMP CH 01 TEMP CH 01 0 D10 137 DECO instruction Operand 1 type are DZ DV Operand 2 type are Y 5 From Mitsubishi ladder 0 0 00 0 KS
18. TZ CZ DV DZ KYZ KSZ KMZ NO conversion qm 9 Data 2 RENT Data 2 MIENNE Return BIEN _ _ Positioning em a Positioning Patong uae Perr Positioning Mode value read 342 ZRN Zeroreturn Positioning Control x 343 DZRN Zenreum Positioning Control x 344 PuseV Positioning Control x i 345 DPLSV ______ Positioning Contoi_ x M L 346 DRVI Drive to increment Positioning Control e e e e x P 347 DDRVI Drivetoincrement Positioning Conto 348 DDRVA Drive to absolute Positioning Control 349 DRVA Drive to absolute Positioning Conto x ee Control BENE NM Control X DX DX DXX Control ee ere coma Control epus 08 J Control emm Control eme omm Control fee IN c Control conversion Control conversion Control epe mre s L conversion Control me imme mre conversion Control em emen mee L conversion Control mmm mae
19. lt X Block Data Compare 423 lt MI DBKCMP X Block Data Compare mmm 16 Source Destination CP CP CP eon mae 424 DBKCMP lt P MI DBKCMP P X x x Block Data Compare 425 gt gt x x x Block Data Compare mmm TT ees 426 gt MI gt X X X Block Data Compare pees ese d 427 DBKCMP gt MI gt X x x Block Data Compare eee 428 DBKCMP gt P MI gt X X X Block Data Compare mm mmt s 429 STR MI STR X X X BIN to Character String mm 430 STRP MI STRP X X X BIN to Character String qmm em 431 DSTR MI DSTR X X X BIN to Character String mmm em 432 DSTRP MI DSTRP x x BIN to Character String 433 VAL MI VAL x x X Character String to BIN mtm 434 VALP x x X Character String to BIN ttt eme o 435 DVAL MI DVAL x x X Character String to BIN 436 DVALP MI DVALP x X X Character String to BIN tjt 439 LEN LEN 1 1 1 1 X Character String Length mmm RIT 440 LENP LEN 1 1 1 1 X Character String Length mm ITI 441 RIGHT RIGHT 1 1 1 1 Extracting Character String Data from the Right 442 RIGHTP RIGHT 1 1 1 1 X Extracting Character String Data from the Right 443 LEFT L
20. oe ors Z Register 152 6 Auxiliary Relay Convert Table Fx1 to CP1H CP1L CP1E 15 CP1H CP1L CP1E Name Relay Name Relay number number P On CF113 P ONT P 0 1s CF100 P 1s CF102 P 1s CF104 P EQCFS P UF CF10 P OF CF9 153 2 FX2 series memory Convert Table 1 memory Convert Table FX2 to CP1E NooDc x CP1E NooDo o Area Start Final Area number Area Start Final Bit width Bit CH Bit CH Bit CH Bit CH X000 X377 InputArea M De 15 15 16bit r relay M1600 M3071 Decimal Can not IE T246 T249 Decimal Can not ial call alll 200 255 not rpg Register Register 08192 D8255 Decimal Can not change Register Decimal Decimal E CH I O Area Frere mee ms Don t use this area when you add ladder TEMPCH 33 0 s ao 154 2 memory Convert Table FX2 to CP1E EooDo o CP1E EooDo o Area Start Final Area number Area Start Final Bit width Bit CH Bit CH Bit CH Bit CH 000 X377 Octal Input Area 15 15 16bit vr oss Ouputarea 10000 11545 wr relay M1600 M3071 Decimal Can not Lo EE Timer To T245 E T246 T249 Timer T245 not change _ Can not change State 991 H Holding Area mom Don t use this area when you
21. Thiz is a t FERT TEMP CH This is at 24 SIEMENS 7 200 Ladder Class Detail Instruction SHR W Shift and Rotate Instructions Shift Right Word From Siemens ladder Hetwork 1 Network Network Comment To Omron ladder D Network Comment I 0 00 F F TEMP This I at AM Duos NASRIBST D TEMP This iz a t 25 SIEMENS 57 200 55 Detail Instruction SHL_W Shift and Rotate Instructions Shift Left Word From Siemens ladder Network 2 Network Network Comment 10 1 To Omron ladder Network Comment 0 01 This AN Dwad NASLBSD 1 TEMP This is at 26 SIEMENS 57 200 55 Detail Instruction SHR_DW Shift and Rotate Instructions Shift Right Double Word From Siemens ladder Hetwork 1 Network Hetwork Comment 0 0 Omron ladder Network Comment 0 00 This Ig at ANDO 5891 Di TEMP This at 27 SIEMENS 57 200 55 Detail Instruction SHL_DW Shift and Rotate Instructions Shift Left Double Word From Siemens ladder Network 2 Network Tithe Network Comment 10 1 To Omron ladder Network Comment 0 01
22. te wF REDE 1040 TEMP Oy 03 This te BIN instruction Operand 1 type Operand 2 type are T D V 2 From Mitsubishi ladder EIN To Omron ladder kuis e LEE s 65 BIN instruction Operand 1 type and Operand 2 type DZ DV From Mitsubishi ladder BIN 0020 01020 To Omron ladder CP1E 23 ut 010024 Omron ladder CP1H CP1L BIN instruction Operand 1 type are KX KY KS Operand 2 type are KY KS From Mitsubishi ladder DRO IR12 DRO 13 EIN 4510 To Omron ladder Mni 0 TEMP GH 01 This a te 2 TEMP 1004 Ww This te 2 TEMP CH UT TEMP CH 02 This te This is a te AF RBI62 1040 TEMP CH 02 This te BINP instruction Operand 1 type and Operand 2 type are T C D V Z From Mitsubishi ladder BI HP TO To Omron ladder amp EINAIS TU GU 66 BINP instruction Operand 1 type and Operand 2 type are DZ DV From Mitsubishi ladder BINP 00 0 01020 Omron ladder CP1E WEIN 023 DOL CIO Lae To Omron ladder CP1L CP1H 80 1812 DRO IR13 BINP instruction Operand 1 type are KX KY KS Operand 2 type KY KS From Mitsubishi ladder EHP 4510 To Omron ladder TEMP CH 01 COPA
23. 1 M To Omron ladder MODE 1 0 TEMF This is tem XFREIDEZJ 00 TEMP This tem MOi 0 TEMP This tem LS RN 100 This a tem 1 0 TEMP This iz a tem 400 WO TEMP CH UI This iz a tem m wm TEMF CH 03 his iz a tem Ve 43 ZCPP instruction Operand 1 type Operand 2 type and Operand 3 type DZ DV From Mitsubishi ladder 4CPP 0020 01020 0200 To Omron ladder CP1E B LPS RSET SET 4 020 010024 SET 44 Omron ladder CP1H CP1L Do MOVR S60 D10 14 DRO 12 250322 14 DRO IRIS WT 00 18 14 WO OO WO 02 SET WO O11 45 DZCP instruction Operand 1 type Operand 2 type and Operand 3 type are K H T C D Z From Mitsubishi ladder TO M To Omron ladder 254918 00 D a XLI SET 46 DZCP instruction Operand 1 type Operand 2 type and Operand 3 type are KX KY KM KS From Mitsubishi ladder kou 150 Omron ladder 498 0 TEMP This tem 400 O TERR
24. IRONI 00F F TEMP This E at 13 SIEMENS 57 200 55 Detail Instruction Compare Instructions Compare Load Byte N1 gt N2 From Siemens ladder Hetwork 3 Network Title Network Comment IE 11 0 Network Comment P TEMP This SONS TEMP This Iz at 14 SIEMENS 57 200 55 Detail Instruction LDB lt gt Compare Load Byte From Siemens ladder Hetwork 4 Network Title Network Comment 1 1 0 IB2 To Omron ladder Metwark Comment P Un TEMP This iz a t IRONI 00 TEMP GH This a t 15 SIEMENS 57 200 55 Detail Instruction LDB lt Compare Load Byte From Siemens ladder Network 5 Network Comment 1 1 0 s To Omron ladder 4 Network Comment TEMP This is a t RON IS TEMP GH This is a t 16 SIEMENS 57 200 55 Detail Instruction LDB gt Compare Load Byte From Siemens ladder Hetwork Network Title Network Comment IB1 41 0 IBZ To Omron ladder Network Comment TEMP zm This iz a t 50757 00 TEMP GH This ix a t TEMP CH This Iz at 17 SIEMENS 57 200
25. TEMP 140 DECOP instruction Operand 1 type are T C D V Z X Y M S Operand 2 type DZ DV From Mitsubishi ladder 00 0 ha To Omron ladder CP1E 0 TEMP CH hA E This te 300 D This iz a te PET 6 TEMP 0 TEMP CH Uf This ig a te To Omron ladder CP1H CP1L 0 TEMP CH 01 300 DO TEMP CH 01 TEMP CH 01 0 DPU IR13 141 DECOP instruction Operand 1 type K H Operand 2 type are T C D From Mitsubishi ladder DECOP n To Omron ladder re DECOP instruction Operand 1 type K H Operand 2 type are Y M S From Mitsubishi ladder TEMP CH 01 This te TEMP CGH D1 This te DECOP m R3 To Omron ladder MRS TAGS MET DECOP instruction Operand 1 type are K H Operand 2 type DZ DV From Mitsubishi ladder DECOP Ke 00 0 Ba To Omron ladder CP1E ia CV LPET To Omron ladder CP1H CP1L 2 TEMP CH 01 TEMP CH 01 0 DRO IRI3 2 TEMP CH 01 This is a te TEMP CH 1 This te 142 DECOP instruction Operand 1 type are DZ DV Operand 2 type T C D From Mitsubishi ladder To Omron ladder CP1E 0 TEMP a d This is a t
26. This a tem Haus a This 12 a tem FRELOG 400 100 TEMP This iz tem e This a tern xFREILE21 40 H TEMP rh This tem me This tem TEMP LV This a tem 80323 TEMP rh This a tem TEMP LV This a tem DZCP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder D2cP 0020 01020 02020 Omron ladder CP1E 5515313 2024 D we 48 Omron ladder CP1H CP1L SET WOOD DRO IR 14 Tm DRO 18 12 gt SL 323 14 DRO 13 WO 01 49 DZCPP instruction Operand 1 type Operand 2 type and Operand 3 type are K H T C D Z From Mitsubishi ladder 4 0ZCPP T To Omron ladder SL G3 1 ce SET WD D S G2 SET 5 50 DZCPP instruction Operand 1 type Operand 2 type and Operand 3 type are KX KY KS From Mitsubishi ladder 4 0ZCPP kix 1000 Omron ladder 1498 0 TEMP 400 TEMP This tem 4881 0 This tem 400 100 Dy This iz a tem MOLa 1 TEMP This iz a tem 400 WI TEMP This
27. This te MOVP instruction Operand 1 type are K H T C D V Z Operand 2 type T D V Z From Mitsubishi ladder Wp 010 To Omron ladder 510 D10 54 instruction Operand 1 type Operand 2 type DZ DV From Mitsubishi ladder 00 0 01020 To Omron ladder CP1E DIOL 24 To Omron ladder CP1H CP1L MOVP instruction 1 type are KX KY KS Operand 2 type KS From Mitsubishi ladder DRO 12 DRO IRIS KS 10 Omron ladder 0 TEMP 01 w hA Az This te FAR BOGS 1004 wut TEMP GH 01 This te TEMP TEMP 02 This te This te FR BOGS 1040 02 This te DMOV instruction Operand 1 type are K H T C D V Z Operand 2 type T D V Z From Mitsubishi ladder 10 010 To Omron ladder Mon 99 10 210 55 DMOV instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder T 0020 01020 Omron ladder CP1E MOL 498 DO uy 77024 Omron ladder CP1H CP1L DRO IR12 DRO IR13 m DMOV instruction 1 type are KX KY KM KS Operand 2 type are KY KS From Mitsubishi ladder 4510 Omron ladder 0
28. KS KM KXZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion 45 54 Ladder Program Converter Operation Manual Class Convert Status 495 OR 51 52 Inline Comparisons Operand includes KZ KV KX KS KM KXZ 2 KMZ CZ CV DZ DV NO conversion 496 ORD 51 52 Inline Comparisons Operand includes KZ KV KX KS KM KXZ KYZ KMZ TZ CZ DZ DV NO conversion 497 OR gt 51 52 Inline Comparisons Operand includes KZ KV KX KS KM KXZ KYZ KMZ CZ CV DZ DV NO conversion 498 ORD gt 51 52 Inline Comparisons Operand includes KZ KV KX KS KM KXZ KYZ KMZ TV CZ CV DZ DV NO conversion 499 LIMIT jLimtConro DataTable Operation e x 500 LIMITP LimtConro Data Table Operation 501 DLIMT Limit DataTable Operation x 502 DLIMITP LimtConro Data Table Operation 503 BAND Dead Band Control DataTable Operation x 504 Dead DataTable Operation amp 505 DBAND Dead Band Control_ DataTable Operation e x 506 DBANDP DeadBandContl DataTable Operation amp 507 Z
29. Mitsubishi Conversion Specification Siemens Conversion Specification 2 54 Ladder Program Converter Operation Manual Introduction This manual contains information required to use the Ladder Program Converter Please refer to the user s manual of PLC unit while you use Ladder Program Converter Intended Audience This manual is intended for the following personnel who must also have knowledge of electrical systems an electrical engineer or the equivalent e Personnel in charge of installing FA systems e Personnel in charge of designing FA systems e Personnel in charge of managing FA systems and facilities Note This manual contains information required to use the Ladder Program Converter Read this manual completely and be sure you understand the contents before attempting to use the Ladder Program Converter Pease keep the manual and always keep it at hand after reading Read and Understand this Manual 1 WARRANTY This software is used to convert the instructions of FX3 2 1N 1S series made by Mitsubishi Electric Corporation and 57 200 series made by Siemens to OMRON instructions according to the conversion rules as much as possible OMRON MAKES NO WARRANTY OR REPRESENTATION EXPRESS OR IMPLIED REGARDING NONINFRINGEMENT MERCHANTABILITY OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS After conversion operation the Programmable Logic Controller is responsible for the operation of CX Programmer Please
30. te This te This te AFREBB2 1040 TEMP GH 39 This te 82 MUL instruction Operand 1 type Operand 2 type and Operand 3 type are DZ DV From Mitsubishi ladder MUL 00 0 01020 02020 To Omron ladder CP1E Omron ladder CP1H CP1L DRO IR12 DRD IR13 DRO IR14 MULP instruction Operand 1 type and Operand 2 type K H T C D V Z Operand 3 type D V Z To Omron ladder From Mitsubishi ladder MILF Ke 4 83 MULPinstruction Operand 1 type and Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder kx kd van 4510 at Az 0 TEMP GH 01 This a Az 0 TEMP GH 02 This iz a te REDE 1000 TEMP CH 01 This te REDE 1000 100 TEMP 02 This te 20 TEMP GH 01 TEMP TEMP CH 03 This te This te This te RBG 1040 TEMP CH 03 This MULP instruction Operand 1 type Operand 2 type and Operand type DZ DV From Mitsubishi ladder MULP 0020 010 0 0200 To Omron ladder CP1E To Omron ladder CP1H CP1L 560 18 12 MMOVA SE0 BARI S60 D20 14 4207 DRO IR 12 DRO IF 13 DRO IR 14 Tm 84 DMUL instruction Operand 1 type and Operand 2 type are K H T C D V Z Operand 3
31. 0 This te mF RB 1004 TEMP CH 01 This te w BIND TEMP 01 TEMP GH 02 This te This te iE 1040 TEMP GH 02 This te DBIN instruction Operand 1 type Operand 2 type are C D V 2 From Mitsubishi ladder DBI W T To Omron ladder 058 TU 67 DBIN instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder DEIN 01020 Y To Omron ladder CP1E 059 DOL wit CTO Lae To Omron ladder CP1H CP1L DR IR1Z DRU IRIS DBIN instruction Operand 1 type are KX KY KS Operand 2 type are KY KS From Mitsubishi ladder EIN 4510 To Omron ladder 498 0 TEMP DO 01 This a te AF RE S52 1004 TEMP 01 This is a te 058 01 TEMP 03 This te This ts a te AF RB ifl62 1040 TEMP 03 This te DBINP instruction Operand 1 type and Operand 2 type are T C D V Z From Mitsubishi ladder UBI HP To Omron ladder i INL TU OU 68 DBINP instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder 00 0 01020 To Omron ladder CP1E mBINL n58 DO Luiz DOW To Omron ladder CP1H CP1L DBINP instruction Operand 1 type are KX KY KS 2 type are KY
32. Andimmediate O ANI ____ BitLogicinsivctons AndNotimmedste Bittogicinstvctons Orimmedate O OrNotimmedite O _ 14 ALD BStigewemeins Ana Block ______ o OD Bittogicinsivctons orse lo NOT Bittogicinsivctons Not EU Puse ED ____ BitLogicinsivctons FatingPuse Bittogictnstucions o 20 Outputimmedate O _ 21 s st o 22 R stesewemeon Rest o L2 nr muere _ SS Dominant Bistable 26 RS Bit Logic Instructions Z7 NOP ttopenstuetons ee 729 1086 compare Compare Load Byte O 30 Loss Compare instuctons Compare Load Byte O 31 UDB Compare instucions Compare O _ 32 fios Compare Compare oaa Bye _ 734 compare Instuctons Compare O _ 735 __ compare instuctons Compare Load Wort O _ 736 LDW ___ compare instuctons Compare Load Wort O _ owe compactors 38 Lowe compareinsrucens O _ Compare Instructions Instructions Compare Load Word N1 gt N2 Load Word 1 gt O L Double W LDD Compare Instructions compare oad Double Word 1 2 LDD Compare Instructions Compare Load Double Word N1
33. NewPLC1 NewProgram1 Section1 Diagram File Edit View Insert Program PLC Simulation Tools Window Help or x Dee ew mmm e lt Sls e 4k ur o Gel 22 tu ta 4 Re ps Fe REA i 8 2 53925 ES Gh P N H PLP gt NewProject 9 NewPLC1 CP1E Offline 3 Symbols Settings Memory El A Programs El S NewProgram1 00 Symbols 222 68 69 END ZZ22222222222227 E 2 z u rogo 752555555555 Tik k a tmp synbol for program Desthation Trans Bit Contol word Tik ka tmp synbol Tor come Mit bk bl program Firstsource word tiation word 1001 Timer BIN Type bd b 4 Project xl J AddressorValue 000 Comment X S50 Source step 5 Converted 50 lt lt lt lt lt lt lt Comment File converter log gt gt Converted TEMP 02 to 42 Compile Find Report Transfer ll 4 gt For Help press 1 NewPLC1 Net 0 Node 0 Offline rung 0 0 0 100 Smart NUM Fig 5 7 the result of conservation 16 54 Ladder Program Converter Operation Manual 9 Insert the temporary variable created during the conversion into the global variable table new CX Programmer NewPLC1 Symbols File Edit Vie
34. SET 38 ZCP instruction Operand 1 type Operand 2 type and Operand 3 type are KX KY KS From Mitsubishi ladder 26 kixz k 1H M To Omron ladder Mayo 1 0 TEMP 01 This te 400 TEMP GH 01 This te OV 0 TEMP 02 This te FRBW6 400 100 TEMP 2 This te 0 TEMP CH 09 This te AFRBWIBZ 400 TEMP CH 03 This te Lo qe RSET wi 01 RSET TEMP 09 This te TEMP This te S22 TEMP CH 03 This te TEMP 02 This te SET NOE ERR RR 39 ZCP instruction Operand 1 type Operand 2 type and Operand 3 type DZ DV From Mitsubishi ladder P 0020 01020 02020 Omron ladder CP1E 554312 D Lae 24 0 40 Omron ladder CP1H CP1L WD DD 5312 DREU IE 14 DRO 12 14 DRO IRIS SET 41 ZCPP instruction Operand 1 type Operand 2 type and Operand 3 type are K H T C D Z From Mitsubishi ladder 4 ZCPP k3 T 00 To Omron ladder S12 63 SET 5022 wi D SET LUE 42 ZCPP instruction Operand 1 type Operand 2 type and Operand 3 type are KX KY KS From Mitsubishi ladder T ZCPP k1z 1
35. SIEMENS 57 200 55 Detail Instruction ROR_DW Shift and Rotate Instructions Rotate Right Double Word From Siemens ladder Hetwork 3 Network Comment 10 2 To Omron ladder Network Comment 0 02 498 100 TEMP This is at 498 100 TEMP This is at AMD WwimT34 100 001 F TEMP GH This iz at 410 20 TEMP CH TEMP This isa t This is a t TEMP CH TEMP This isa t This ts a t 451582 TEMP GH TEMP This isa t This is a t 81154 TEMP CH TEMP CH This isa t This ig a t 31 SIEMENS 57 200 55 Detail Instruction ROL_DW Shift and Rotate Instructions Rotate Left Double Word From Siemens ladder Hetwork 4 Hetwork Comment 10 3 To Omron ladder Network Comment 0 03 498 101 TEMP This t at 498 101 TEMP This is at AMND Wwiq34 100 001 F TEMP GH This iz a t 410 20 TEMP GH TEMP This iga t This isa t TEMP GH TEMP This iga t This ts a t TEMP CH TEMP GH This dead Tt This 81144 TEMP CH TEMP CH This iga t This ig a t 32 SIEMENS 57 200 55 Detail Instruction Conversion Instructions BCD to Integer From Siemens
36. 1000 TEMP 01 This te AFRE 1000 100 TEMP O i 03 This te Lids TEMP 01 TEMP Dw 03 TEMP 05 This te This te This te AF REB2 1040 TEMP Dw 05 This te 92 DDIV instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 00 0 01020 02020 1 Omron ladder CP1E To Omron ladder CP1H CP1L DDIVP instruction DRO 12 DRO IRIS DRO IR 14 1 type and Operand 2 type are K H T C D V Z Operand 3 type are D V Z From Mitsubishi ladder 001 Ke To Omron ladder 93 DDIVP instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type KY KS From Mitsubishi ladder 00I kd krini KS 10 To Omron ladder 498 0 TEMP D 0 This te 498 0 TEMP D w 03 This a te 04 RBITBZ 1000 TEMP DO 01 This te FREDE 1000 100 TEMP D w 03 This te wr 451 TEMP Dw D TEMP Dw 03 TEMP 05 This is a te This te This te wF REDE 1040 TEMP Dw 05 This te 94 DDIVP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder DOT YP 0020 01020 02020 y To Omron ladder CP1E To Omron ladder CP1E DRD IR12 DRO IRS INC instruction Op
37. 14 fom 0 0 1 1 decrements the current value decrements the current value 14 A tt tt wl x Poi 6 79 O U O 79 Source Instruction Destination S7 200 Instruction meos Refer to Appendix 2 148 BLKMOV D Convert Solution vover smova 0 153 WOR B ORW 154 WXOR B XORW W L r gt m Move Real x Block Move Byte To ge 1 1 1 1 Block Move Word Block Move Double Word Shift Right Word I Swap Bytes Move Byte Immediate Read Move Byte Immediate Write 1 1 1 And Byte 1 1 Or Byte 1 1 Exclusive Or Byte And Word Or Word 1 1 Exclusive Or Word 1 1 And Double Word 1 1 Or Double Word 1 1 Exclusive Or Double Word Invert Byte nvert Word INV_DW COML 64 SHR B 5 SHR B 165 SHL B SI Refer to Appendix 2 166 SHR W Convert Solution Refer to Appendix 2 167 SHL W Convert Solution Refer to Appendix 2 168 SHR DW Convert Solution Refer to Appendix 2 169 SHL DW Convert Solution 170 ROR B 51 B 71 ROL B SI ROL B Refer to Appendix 2 172 ROR W Convert Solution Refer to Appendix 2 173 ROL W Convert Solution Refer to Appendix 2 174 ROR DW Convert Solution Refer to Appendi
38. 224 SET RTC READ RTCX HDEF NO NM N oa CO 225 226 SET RTCX 227 ATT 228 FND 229 230 FND lt gt FND lt 231 FND gt 232 FIFO 233 LIFO 234 FILL 235 236 ATCH DTCH 237 CRETI 238 ENI 239 DISI 240 241 242 NETW 243 XMT 244 RCV GET_ADDR SET_ADDR STR_LEN 248 STR_CPY 249 STR_CAT 245 246 247 250 SSTR_CPY UU U Z U NUJO Destination Instruction Refer to FOR Instruction SI END SI_DIAG_LED SI_STOP 1 WDR OUT TRO LD TRO LD TRO SI 10 51 HDEF SI_HSC READ S SET RTC READ RTCX SI SET RTCX 51 FND SI lt gt 51 FND S FND 51 FIFO 51 SI FILL 51 ATCH DTCH S ENI SI DISI 5 CEVNT S NETR S NETW S XMT SI S GET ADDR SI SET LEN MID CP CP CP 1H 1L 1E FOR NEXT loop number Included in FOR 1 1 1 1 1 1 when converted X X Stop x Watchdog Reset 300ms Logic Push Logic Read Logic Pop x Load Stack High Speed Counter Definition High Speed Counter Pulse Output Read Time Clock Set Read Time Clock Read Real Time Clock Extended Set Real Time Clock Extended Add to Table Table Find Table Find Table Find Table Find First In First Out Last In First Out Memory Fill Attach Interrupt Detach Interrupt Conditional Return
39. 5 conversion Control mm emer L conversion Control immer mam je ppl conversion Control mm mr emi Control 39 54 Ladder Program Converter Operation Manual eee Status mm qme mme peut 00 Control mm eee mx ad al aol Control mm emm Ex al al ol al Control mme em mx et 0 0 Control mme qe jme Control mpm mem m Code mm mee 44 5 Code mm mmm Ill Code mme meum e Code mm em pe a al Decimal mme Je 00117 Decimal mpm e Decimal mmm jene al al Decimal MM RR RR Dedicated Analog Block Dedicated Analog Block Analog Block imum _ 2 Analog Block ee dcm IN ee Function Function j Function nmm Function oT Comment Data le 05 1 1 Comment Data per dum m Generation Generation Generation mm mem Check mem mmm lO Check mme mem C SL ____ eee Move Adapter Others ______ E ek Data Addon 398 BK P Block Data Addition Block Data Operation 399 DBK Block Data Addition Block Data Operation
40. CZ CV NO conversion Move and Compare Operand includes KZ KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Move and Compare Operand includes KZ KXZ KYZ KMZ TZ CZ NO conversion Move and Compare Operand includes KZ KXZ KYZ KMZ CMPP Compare DCMP Compare DCMPP Compare _ ZCP Zone Compare 52 ZCPP Zone Compare 53 DZCP Zone Compare DZCPP Zone Compare Move O MOVP Move N DMOV Move Od CE 5 02 N DMOVP Move TZ CZ conversion SMOV SMOVP CML CMLP DCML DCMLP BMOV Shift Move Move and Compare x n y Shift Move Move and Compare e e x Complement Move and Compare Complement Move and Compare s O Complement Move Compare ToCP1E No Conversion Complement Move and Compare ToCP1E No Conversion Block Move Move and Compare Operand includes KZ KV KXZ KSZ KMZ TZ TV CZ CV NO conversion BMOVP Block Move Move and Compare Operand includes KZ KV KXZ KSZ KMZ TZ TV CZ CV NO conversion ill Move Move and Compare x y N MOV O O 2 lt M MOVP Fill Move Move and Compare e e x FMOV Fill Move Move a
41. Character String to 276 DEVALP FVAL Character to ZZ X X Pontto Scent DEBCDP x x estnoPoitioScenifc osn ScentfetoFioaing Point besme meene x X Sdemetrieino Pont oem M i Floating _ 284 DESUBP 14 1 1 Floating Point Subtract DEMUL 1 1 1 1 1 1 Point 286 DEMULP Point tee 290 DEXPP EM Floating Point Exponent EU EN 1 1 1 1 aaa Point Natural mom ep me 292 DLOGEP LOG Point Natural mm ee mme 293 DLOG10 MI DLOG10 Point eee 294 DLOG10P MI DLOG10P p Point Common mm EU X X X X 295 DESQR SQRT Floating Point Square 296 DESQRP SQRT Floating Point Square rr Gam Gss me w m fox fee anu Pt ito ger 12 Source Destination CP CP CP Instruction Instruction 1H 1L 1E 315 DRAD RAD 1 1 1 1 X Floating Point Degrees to EN 316 DRADP RAD 1 1 1 1 X Floating Point Degrees to U U 317 DDEG DEG 1 1 1 1 x Floating Point Radians to 318 DDEGP DEG 1 1 1 1 X Floating Point Radians to NNNM 327 UNI 4 bit Linking of Word Data 328 UNIP 4 bit Linking of Word
42. Compare 51 lt 52 t roe pon 51 lt 52 51 gt 52 oo 51 gt 52 Compare stss 51 gt 52 a ls aaa 51 gt 52 429 STR BIN to Character Character String Conversion 430 STRP BIN to Character Character String String Control Conversion 431 DSTR BIN to Character Character String String Control Conversion 432 DSTRP BIN to Character Character String String Control Conversion Ladder Program Converter Operation Manual min orm Status Character String to BIN Conversion Character String to BIN Conversion Character String to BIN Conversion Character String to BIN Conversion Character String Control Character String Control Character String Control Character String Control m err gu 4 e Strings Control jme mn ep eee Strings Control B Character String Length Detection Character String Length Detection Extracting Character String Data from the Right Extracting Character String Data from the Right Extracting Character String Data from the Left Extracting Character String Data from the Left Random Selection of Character otrings Random Selection of Character otrings Random Replacement of Character Strings
43. From Siemens ladder Network 5 Network Comment 10 0 IBZ 1 0 gt IB3 To Omron ladder CD Network Comment 0 00 O0FF This ig a t TEMP GH This is at 22 SIEMENS 57 200 55 Detail Instruction Compare Instructions Compare And Byte N1 gt N2 From Siemens ladder Network Network Title Hetwork Comment 10 0 2 01 0 m IBS To Omron ladder D Network Comment 0 00 TEMP This is a t TEMP This is at SIEMENS 7 200 Ladder Class Detail Instruction TONR Timer Instructions Retentive On Delay Timer From Siemens ladder Hetwork 1 Network Title Network Comment 0 0 Omron ladder 2 Network Comment 0 00 005 ROFF 23 SIEMENS 7 200 Ladder Class Detail Instruction Counter Instructions CU increments the current value From Siemens ladder Network 1 Network Network Comment 10 2 C1 CTU 10 3 To Omron ladder Network Comment I 002 001 1003 SIEMENS 7 200 Ladder Class Detail Instruction BLKMOV_D Move Instructions Block Move Double Word From Siemens ladder Network 1 Network Comment 10 0 BLEMOY_D To Omron ladder gt Metwork Comment 000 TEMP CH
44. KS From Mitsubishi ladder TIHE KB 17000 To Omron ladder 0 Lv This iz a tem 400 100 TERR This tern This tem FRE TEMP DV This is a tem DINCP instruction Operand 1 type are T C D V 2 From Mitsubishi ladder DINCP Tu To Omron ladder 98 DINCP instruction Operand 1 type is DZ From Mitsubishi ladder DIHCP Dozo Omron ladder CP1E 591 DO yt To Omron ladder CP1H CP1L DINCP instruction Operand 1 type are KY KS From Mitsubishi ladder kiyigi I To Omron ladder MOVs TEMP OVO This tem This iz tem 4 4 591 TEMP OW This is a ad x emm This is a tem DEC instruction Operand 1 type are T C D V Z From Mitsubishi ladder DEC T To Omron ladder 99 DEC instruction Operand 1 type are DV DZ From Mitsubishi ladder 0020 i To Omron ladder CP1E To Omron ladder CP1H CP1L DEC instruction Operand 1 type are KY KM KS From Mitsubishi ladder J K 1000 To Omron ladder 0 CH ut This 12 a tem FREE 400 100 TEME CH Ul This iz tem nhu2 This a tem FRELOG 400 DECP instruction Operand 1 type are T C D V 2 From
45. N2 48 54 Ladder Program Converter Operation Manual Instruction ONE S7 200 Status 43 LDD lt gt Compare insinichons Compare Load Double Word N1 lt gt N2 44 LDD lt Compare inetuctions Compare Load Double Word N1 lt N2 46 Compare Compare Load Real O _ compare instructions Compare Loa Rear 48 ipte compare mstuctons Compa Loea Rea 749 LORS compare metucions Compere Loea Rea oo 51 LDR gt compare mstuctons Loea Reanna O 52 compare ayena O 752 ___ compare Compare ana svene O 760 aws compare Compare And Word 64 AD Compare Instructions Compare ANA moun Won N1 N2 A 65 AD lt Compare Instructions 1 lt 2 I Compare And Double Word gt 66 Compare Instructions N12N2 67 lt gt Compare Instructions Compare And Double Word N1 lt gt N2 Compare And Double Word lt 770 AR ____ compare Ana Real _ 771 am compare compare And Real 772 gt compare instucsons compare and Real O 74 Compare nstucons compare And Reel O 75 ame Compare instucons compare And Reel 76 08 Compare instucions 777 compare instu
46. To Omron ladder 4044 Hie BMOVP instruction Operand 1 type are KX KY KS Operand 2 type are D Operand 3 type are K H From Mitsubishi ladder BM k10 To Omron ladder 4004 v TIU BMOVP instruction Operand 1 type are T C D Operand 2 type KX KS Operand 3 type are K H From Mitsubishi ladder BHO 10 k10 To Omron ladder 4040 vut BMOVP instruction Operand 1 type are KX KY KM KS Operand 2 type are KY KS Operand 3 type K H From Mitsubishi ladder BOP KS 10 To Omron ladder 4044 Hie 60 BMOVP instruction Operand 1 type are KX KY KS Operand 2 type are T D Operand 3 type are K H From Mitsubishi ladder BMP k10 To Omron ladder v TIU BMOVP instruction Operand 1 type T C D Operand 2 type KX KY KS Operand 3 type are K H From Mitsubishi ladder BHO 10 k10 To Omron ladder 4040 TiQ vu BCD instruction Operand 1 type and Operand 2 type are T C D V Z From Mitsubishi ladder T1BCD TO To Omron ladder BGD D24 T 61 BCD instruction Operand 1 type and Operand 2 type DZ DV From Mitsubishi ladder BCD 00 0 01020 To Omron ladder CP1E 850024 DOTW24 210024
47. To Omron ladder 1 TEMP 021 082 0 5 100 TOO OOTTEME To Omron ladder CP1H CP1L APRBU 0627 300 DRO IR 12 TEMP CH Ul Movie TEMP CH DR 13 RSTA 531 und B i IRIS TEMP CH Ul This is a MON 2 EM This is a te 138 DECO instruction Operand 1 type DZ DV 2 type are DZ DV From Mitsubishi ladder DECD 01020 Omron ladder CP1E 0 TEMP CH Ul This ig a te AFRBIDBZ 300 00024 This iz a te MLPEDTG TEMP 0 0100024 TEMP CH Uf This te To Omron ladder CP1H CP1L AFRBIOSZ 300 DRO IR 12 TEMP CH Ul TEMP 0 DRO 13 DECOP instruction Operand 1 type are T C D V Z X Y S Operand 2 type are T D From Mitsubishi ladder DECOP HI 010 To Omron ladder 0 TEMP This te FR BOGS 300 00 TEMP CH 01 This te TEMP CH 01 0 010 This te 139 DECOP instruction Operand 1 type are T C D V Z X Y S Operand 2 type are Y M S From Mitsubishi ladder DEGOP DU Omron ladder CP1E 0 TEMP CH 1 This a te ax 300 00 This te MAS TALS 100 0 9 Omron ladder CP1H CP1L
48. To Omron ladder CP1H CP1L S60 FOR S12 DRO IR 12 Always Flag 24 FOR instruction Operand type are KX KY KS From Mitsubishi ladder _ FoR To Omron ladder CH Ul Always ON Flag TEMP CH Ot CMP instruction Operand 1 type and Operand 2 type are K H T C D V Z From Mitsubishi ladder 010 15 Yun To Omron ladder KEEPTIT1 100 00 011 100 01 Equals EG F PEG Equals EG F 11 100 02 25 CMP instruction Operand 1 type Operand 2 type are KX KY KM KS From Mitsubishi ladder Che kx kou To Omron ladder ON 0 TEMP GH 01 This iz a te MEn 0 TEMP 02 This a te 2 1000 TEMP 01 This te AF RE62 1000 100 TEMP CH 02 THis is a GPS 14 TEMP CH 01 TEMP GH 02 This te This te 11 11 0 01 26 CMP instruction Operand 1 type and Operand 2 type DZ DV From Mitsubishi ladder 3 0020 01021 Omron ladder CP1E un Omron ladder CP1H CP1L P ar 117 0 00 11 01 KEEP O1 1 wi 02 Less Than LT 27 instruction Operand 1 type Operand 2 type are K H T C D V Z F
49. a tem pm T Per wm his iz a tem TEMP LV his iz a tem Ve E Bull 51 DZCPP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 0020 01020 02020 Omron ladder CP1E RSET RSET WHO SET WD Da S 23 224 D wU DD SET 52 To Omron ladder CP1H CP1L MOVRIBEU DO IR 12 UP 521 560 010 IR13 MOVRIB U IR14 RSET WO 00 RSET WU UT RSET WO 02 SET WO 00 z5L 313 DRO IR 14 DRO 18 12 SET 0 02 51 323 DRO IR 14 DRO 13 w0 00 SET 0 01 MOV instruction Operand 1 type are H D V Z Operand 2 are T D V Z From Mitsubishi ladder HW k10 10 To Omron ladder 1 amp 10 53 MOV instruction Operand 1 type and Operand 2 type DZ DV From Mitsubishi ladder plo Mov 0020 01020 Omron ladder CP1E MONI 0100 24 Omron ladder CP1E MOV instruction 1 type are KX KY KS Operand 2 type are KY KS From Mitsubishi ladder DRO 12 IRIS 510 Omron ladder ONT 0 TEMP GH 01 This te 2 1004 Ww TEMP GH 01 This te OV TEMP 01 TEMP 02 This te This te AF RBJ62 1040 TEMP GH 02
50. conversion e 294 CZ CV NO conversion sm ee ee epe e CZ CV NO conversion Decode Data Operation Operand includes KZ KX KY KS KM KXZ KYZ KSZ KMZ TZ CZ CV NO conversion 154 DECOP Decode Data Operation Operand includes KZ KX KY KS KM KXZ KYZ KSZ 4 TZ TV CZ CV NO conversion 155 ENCO Encode Data Operation Operand 1 isnt T C D V Z DZ DV NO conversion Operand 2 isnt T C D V Z DV DZ NO conversion 33 54 Ladder Program Converter Operation Manual Class Convert Status 156 ENCOP Encode Data Operation Operand 1 isnt T C D V Z DV NO conversion Operand 2 isnt T C D V Z DV DZ NO conversion 157 SUM 7 Sum of Active Bits_ Data Operation e x 158 SUMP Sum of Active Bits_ DataOperation e e x 159 DSUM 7 Sum of Active Bits_ Data Operation x 160 DSUMP Data Operation p io 7 Stauts Stauts ee ee ee et 7 Stauts i o C X X Mean Data Operation x G e 9 o ao E M a bad lt 172 SOR Square Root Data Operation _ x X v O 173 SORP__ Square Root__ Data Operation 15 _________ Eme
51. o O 38 5 Subroutine Return ProgamFow 39 InterruptRetum ProgamFow x Q dO 40 El Enable PrgamFow ee o J c J Disable Interrupt PrgamFow o X at p C mem RR OT mp e 0 Refresh ee ee a lal Refresh 28 54 Ladder Program Converter Operation Manual Class Convert Status 45 FOR Start of a For Next Program Flow Operand includes KZ loop KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion dm je P U C loop CMP Compare Move and Compare Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Move and Compare Operand includes KZ KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Move and Compare Operand includes KZ KXZ KYZ KMZ TZ CZ NO conversion Move and Compare Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ NO conversion Move and Compare Operand includes KZ KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Move and Compare Operand includes KZ KV KXZ KYZ KMZ TZ TV CZ CV NO conversion Move and Compare Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ NO conversion Move and Compare Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ NO conversion Move and Compare Operand includes KZ KXZ KYZ KMZ TZ TV
52. 02047 ru Cannot conver VW2046 16bit DO 02046 t6bit Cannotconvert VD2044 32bit DO 02044 32bit t ean not conet W Work Area r wo few _ TE AM 32bit NES Ta modb db TRE 18 T65 T2 d e db ______ PR o 2 2 1255 MW30 16bit wo pwo 16bit C mBo MDO MD28 32 mo e ON 16 T64 1766 79 T ___ Local memory iss C255 Counter 255 500 Holding Area CIO Area bit abit a 264 16bit H 16bit LDO 1D29 32 264 32bit ru 32bit rea iwo _ LW24 5 Sequential Work Area W32 00 bit control relay L tae abit swo 160 16bit SDO AWO E T mE LW25 LW62 16bit SD28 32bit PE 32bit AW Analoginput AIWO AIW62 16bit 78 16bit Analog output AQWO AQWe2 16bit Output Area 116 16bit i di all oM ll register Em counter WorkArea Can not convert Can not convert TEMP BIT H48 00 48 07 H47 Don t use this area when you add ladder TEMP DW H40 Tere ee memory Convert Table 57 200 to CP1E _ pea nh Bit CH Bit CH width Era Bit CH Input register 10 0 115 7 Input Area __ 1815 E 8bit 44 16bit AM IDO 32
53. 03 This is a te 147 01 TEMP Dw s3 TEMP 05 This te This te This is a te REDE 1040 TEMP 05 This te 87 DMULP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder DMULP 0020 01020 07020 Omron ladder CP1E To Omron ladder CP1H CP1L DIV instruction DRO IRIS DRO IR14 18 12 Operand 1 type Operand 2 type K H T D V Z Operand 3 type are T D V Z From Mitsubishi ladder iuI v Ke To Omron ladder 88 DIV instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type are KY KS From Mitsubishi ladder k dx KS 10 To Omron ladder MGi 0 TEMP CH This te 0 TEMP 02 This te AFREB2Z 1000 TEMP This te FRBO62 1000 100 TEMP 02 This te TEMP 1 TEMP GHO TEMP 03 This is a te This te This te AFREB52Z 1040 TEMP 03 This 15 a te DIV instruction Operand 1 type Operand 2 type and Operand 3 type are DZ DV From Mitsubishi ladder DIY 0020 01020 02020 Omron ladder CP1E To Omron ladder CP1H CP1L 010 IR13 020 IR14 DRO IR12 DRO 13 14 89 DIVP instruction Operand 1 type and Operand 2 t
54. 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 Source Destination CP CP CP T t ron x x gt ReeRgk _ x x gt ook moron x X x X gt _ mra x x gt Ror x X gt oo wp x mos x x gt Rotalontet x X X Rotation Right win Cary Rere x Right wth Cary MD x X gt Rotation Right wth Cary oce morore x X gt Roon Right wth Cary rea x X gt RelenietwhCany _ Ree was x X gt ReenietwhCany _ MD x X Roon tet win Cary _ ue x X gt Rowton Letwin Cary _ SFTL Refer to Appendix 2 1 N 1 N 1 N Bit Shift Left T asas SFTLP Refer to Appendix 2 1 N 1 N 1 N Bit Shift Left C asas SFTR Refer to Appendix 2 1 N 1 N 1 N Bit Shift Right X 2 28 2S 2S L2 25 26 2 21702 x 2S AS EAS 2 e e X X lt X X X Source Destination CP CP CP uU 142 SFTRP Refer to Appendix 2 1 N 1 N Bit Shift Right menm D werk were _ x x gt x x gt wossitron ms ws mws x x
55. Absolute Drum X Handy Instructions x 201 DABSD Absolute Drum Handy Instructions 202 INCD Incremental Drum Handy Instructions x AA 203 TeachigTimer Handy Instructions x 204 STMR Special Timer Handy Instructions Definable e Altermate State Handy Instructions e e e Value CNN RR Control 209 SORT Sort Data Handy Instructions e _ Devices ele Iu TIT Devices ped Devices ee Devices fee e IT Devices mem eR Decoder Devices mem eme Jeep Decoder Devices mm urn mm dmm Devices mee e Devices zr eee e e L AL Devices 221 FROM Read From A External MT Special Function Devices Block Read From A External FX I O Special Function Devices Block Read From A External FX I O Special Function Devices x X X x x x x x x x x x x 222 FROMP 223 DFROM Block NO gt DFROMP Read From A External FX I O Special Function Devices Block T Function Block Devices NL EF GENE Function Block Devices DTO External FX I O Function Block Devices 228 DTOP External FX I O Function Block Devices PNE Communications Devices 225 27
56. CP CP CP MAL M 176 FLT FLT 1 1 1 1 1 1 Conversion to Floating HN 177 FLTP FLT 1 1 1 1 1 1 Conversion to Floating 418 178 DFLT FLTL 1 1 1 1 1 1 Conversion to Floating E Ce 179 DFLTP FLTL 1 1 1 1 1 1 Conversion to Floating XI X X 2 21 x X X X 2X 2 1021 X x X x x Source Destination 217 SEGL MI SEGL 218 ARWS MI ARWS 9 A O r gt m wien Seven Segment With Latch x Arrow Switch ASCII Code Print To A Display x Read From A Special x Read From A Special x x Read From A Special ka x Read From A Special x Write To A Special X Write To A Special x Write To A Special ias X Write To A Special Check Code Volume Read 10 x x O y 0 79 Source Destination 267 DECMP MI DECMP 268 DECMPP MI DECMPP 269 DEZCP DEZCP DEZCPP DEZCPP DEMOV MOVL 1 1 272 DEMOVP MOVL 1 1 273 DESTR MI DESTR CP x Batch Store of Index X Batch Store of Index x Batch POP of Index x Batch POP of Index Floating Point Zone x Floating Point Zone 1 1 Floating Point Move 1 1 Floating Point Move Floating Point to x 1 1 1 1 Character String Conversion 11 Source Destination Me DESTRP MI DESTRP Floating Point to Character String aiii M DEVAL FVAL
57. DREZ IE13 133 ZRSTP instruction Operand 1 type and Operand 2 type T D From Mitsubishi ladder zRsTP Td To Omron ladder NNNM ZRSTP instruction Operand 1 type and Operand 2 type are Y M 5 From Mitsubishi ladder 8 O00 YOOS Ei To Omron ladder itp ZRSTP instruction Operand 1 type and Operand 2 type are DZ DV From Mitsubishi ladder 2RSTP 0020 0321 Omron ladder CP1E To Omron ladder CP1E 0 DPU IR12 DRZ IRI3 134 DECO instruction Operand 1 type T C D V Z X Y S Operand 2 type areT C D From Mitsubishi ladder DECO HI DIO KS To Omron ladder Mode 0 TEMP CH 01 This te 2 DECO instruction 300 DO TEMP CH 01 This is a te TEMP 0 010 This te Operand 1 type T C D V Z X Y M S 2 type are Y From Mitsubishi ladder DECO HI KS 1 TEMP CH Uf ONT 0 TEMP GH 01 This te DO This te XFREBTIEZ RSTAGS TODODTTEMP To Omron ladder 135 DECO instruction Operand 1 type are T C D V Z X Y M S Operand 2 type are DZ DV From Mitsubishi ladder DECO HI To Omron ladder CP1E MOVIE 0 TEMP CH 01 This te AF REIB2 300 d This is a te MLPRUUITO TEMP CH ll 0 DO yd
58. Data 329 DIS MI DIS 4 bit Grouping of Word J 330 DISP MI DISP x 4 bit Grouping of Word ole 13 KX X eA 121 1 x X X XIXIXIXIXI X x x x Source Destination CP CP CP 340 DTBL x x X Batch Data Positioning mm ttt mm 341 DABS MI DABS x X X Absolute current value mom tttm HTOS MI HTOS X Hour to second mmm ee 359 HTOSP MI HTOSP X X X Hour to second BINNEN NN 360 DHTOS MI DHTOS X x x Hour to second 361 DHTOSP DHTOSP X X X Hour to second fee NN 366 _ X X X X X X X x x X X X X X X x x x x X x X xX x X x x 362 STOH STOH X x X Second to hour __ __ _ 363 STOHP STOHP X x X Second to hour 364 DSTOH MI DSTOH gt x x x Second to hour ee ee 365 DSTOHP MI DSTOHP X x X Second to hour 14 Source Destination RD3A MI_RD3A RD3AP RD3AP WR3A MI WR3A 9 A O r gt m Code 1o Decima Code to Decimal Read form Dedicated Read form Dedicated X Write to Dedicated Analog X Write to Dedicated Analog MF n X Read Device Comment Bl dE X Read Device Comment x Random Number x Random Number Block Data Addition Block Data Subtraction 15 x x 383 MI WR3AP r Source Destination CP CP CP Instruction In
59. FP 010 To Omron ladder 117 WXORP instruction Operand 1 type and Operand 2 type KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder 4 WARP 4 0 kan hdd To Omron ladder 0 GHI This te ax 1000 TEMP GH Ul This te p Az 0 TEMP 02 This te FREDE 1000 100 TEMP GH 02 This te fare RATE TEMP GH 01 TEMP TEMP 03 This iz ate This iz ate This te 1000 TEMP CH 03 Wi This 4 te WXORP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ DV From Mitsubishi ladder WARP 0020 01020 02020 To Omron ladder CP1E od Omron ladder CP1H CP1L a IR 14 DRO IRI DRO 13 16 14 118 DXOR instruction Operand 1 type Operand 2 type are K H T C D V Z Operand type are D 7722 From Mitsubishi ladder H F 10 To Omron ladder DXOR instruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KS From Mitsubishi ladder kan kan o To Omron ladder MOV 498 0 TEMP n This iz a te 2 1000 0 TEMP 01 This te TEMP DW 03 This te 2 1000 100 TEMP Ow
60. Fl Het 0 0 Offline rung 0 Fig 5 13 OMRON CX Programmer 6 Paste the source program in the Diagram view or Mnemonics view And the in following dialogue box will be displayed Ladder Program Converter 2 This software iz only supporting tool for ladder program conversion So you should review and debue the conversion result in real application source PLO Type Generate conversion File path of the conversion list Browse Fig 5 14 Ladder Conversion Dialogue box 21 54 Ladder Program Converter Operation Manual 7 Click the Browse Button Designate the name and path of conversion list file Save In Documents t Save as type Converting list csv Fig 5 15 conversion list file selection Dialogue box 8 Select the conversion destination PLC type Click the OK Button and the Converting progress bar will be displayed Fig 5 16 Converting Progress Bar 22 1 54 Ladder Program Converter Operation Manual 9 The converted program will be displayed in the CX Programmer Corresponding converter information will display in the output window If the conversion list file designated in step 6 the conversion results will be output to this file new CX Programmer 1 Section Diagraml l File Edit View Insert Program PLC Simu
61. KMZ TZ CZ NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KV 2 KYZ KSZ TZ TV CZ CV NO conversion Decimal Conversion to Binary Coded Decimal BIN Conversion to Binary N DBCDP Move and Compare N N cO Move and Compare BINP Conversion to Binary Move and Compare 81 DBIN Conversion to Binary Move and Compare N DBINP Conversion to Binary ADD Addition Arithmetic and Logical operations ADDP Addition Arithmetic and Logical operations DADD Addition Arithmetic and Logical operations DADDP Addition Arithmetic and Logical operations SUB Subtraction Arithmetic and Logical operations SUBP Subtraction Arithmetic and Logical operations DSUB Subtraction Arithmetic and Logical operations DSUBP Subtraction Arithmetic and Logical operations MUL Multiplication Arithmetic and Logical operations Move and Compare 84 85 N N N 88 92 MULP Arithmetic and Logical operations Multiplication 30 54 DMUL Multiplication DMULP Multip
62. KY KM KS From Mitsubishi ladder 4 k1x k1vOO Omron ladder 4983 0 C8 0 TEMP DW L This is a tem FRE 400 TEMP This tem LS NN 100 TEMP DW Cr This is tem 15 DW I DW This tem This is tem KEEP O 1 KEEP O 1 KEEF 1 Less Than LT 35 DCMPP instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder DCHPP 0020 01020 Omron ladder CP1E Equals EG F PEG Equals EG F PET To Omron ladder CP1H CP1L MOVR BBU D IR12 0 521 MOVR BBU 10 kasi B 511115 DRO IR 12 13 KEEP O1 1 WO 00 Greater Than P ur Greater Than KEEP O 1 wn 1 Equals EQ Flag P EO Equals EQ Flag P_LT 1 WE 02 Less Than LT P IT Less Than LT 36 ZCP instruction Operand 1 type Operand 2 type and Operand 3 type are K H T C D Z From Mitsubishi ladder T VO M To Omron ladder CP1E li K 25 SET Omron ladder CP1H CP1L RSET RSET RSET 4542312 DR 1 250322 DR 1 WO OO WO WO OO
63. Mitsubishi ladder This tem TO To Omron ladder Mul 100 DECP instruction Operand 1 type are DV DZ From Mitsubishi ladder ECR 0020 Omron ladder CP1E a To Omron ladder CP1H CP1L DECP instruction Operand 1 type are KY KS From Mitsubishi ladder ilBECP 1000 I To Omron ladder TEMF CH Ul This tern This tem age This iz terr ENG This a tem DDEC instruction Operand 1 type are T C D V Z From Mitsubishi ladder DDEC T To Omron ladder iud 101 DDEC instruction Operand 1 type are DZ From Mitsubishi ladder DEC 0020 To Omron ladder Omron ladder CP1H CP1L MOVR S60 593 DRO IR 12 DDEC instruction Operand 1 type are KY KS From Mitsubishi ladder kiyigi To Omron ladder 4957 TEMP This tem XF REXDBZ Dw m This a tem This iz a tem LS RN OVA This tem DDECP instruction Operand 1 type are T C D V Z From Mitsubishi ladder TO To Omron ladder 102 DDECP instruction Operand 1 type are DZ From Mitsubishi ladder DDECP 0020 Omron ladder CP1E 505 DO yt To Omron ladder CP
64. Random Replacement of Character Strings Character String Control Character String Control Character String Control Character String Control Character String Control Character String Control Character String Control Character String Control Character String Control Character String Control CP1E No Conversion CP1E No Conversion Operand includes address out of converter range and KM KS TV TZ CV CZ DV DZ KXZ KYZ KSZ KMZ NO conversion To CP1E No Conversion Operand includes address out of converter range and KM KS TV TZ CV CZ DV DZ KXZ KYZ KSZ NO conversion To CP1E No Conversion Operand includes address out of converter range and KM KS TV TZ CV CZ DV DZ KXZ KYZ KSZ KMZ NO conversion To CP1E No Conversion Operand includes address out of converter range and KM KS TV TZ CV CZ DV DZ KXZ KYZ KSZ NO conversion To CP1E No Conversion mem ime ge search Control lem c search Control mpe T esos Control 42 54 Ladder Program Converter Operation Manual mem nmm _ Status e jme amem eem Transfer Control 453 FDEL Deleting Data from Data Operation 3 Operand includes address Tables out of converter range and TZ CV CZ DV DZ NO con
65. S7 200 Instruction 1L oR sa o ume fiean je e ___ om e ms mis em min E Hb ___ ____ RI ResetZoneimmedate Zone immediate to Appendix 2 Convert Solution 1 N SLRS ERE NOP SNP X _ to Appendix 2 LDB Convert Solution Refer to Appendix 2 LDB lt Convert Solution 1 N Set Register Reset a Nop Compare Load Byte 1 2 m Compare Load Byte N1 N2 m Compare Load Byte 1 gt 2 MM Compare Load Byte 1 lt gt 2 Refer to Appendix 2 LDB gt Convert Solution 1 N Refer to Appendix 2 LDB lt gt Convert Solution 1 N Source Instruction Destination S7 200 Instruction Refer to Appendix 2 LDB lt Convert Solution Refer to Appendix 2 LDB gt Convert Solution N Co 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 0 1 5 5 N Refer to Appendix 2 AB Convert Solution Refer to Appendix 2 AB lt Convert Solution Refer to Appendix 2 AB gt Convert Solution Refer to Appendix 2 lt gt Convert Solution Refer to Appendix 2 AB lt Convert Solution Refer to Appendix 2 AB gt Convert Solution gt N O 58 59 O 79 O U O U
66. Start Final Bit width Bit CH Bit CH Bit CH z Output 000 Ws essa Output Area 16bit ie M384 M511 Holding Area H8 00 15 15 16bit Decimal Can not C Counter Decimal C Counter ses 235 255 Decimal Can not eee Data D255 Decimal Data Register DO 0255 Register 08000 08255 Decimal not V0 Decimal W Work Area 22 we ws ws 23 WO _ Z4 V4 Decimal 25 V5 __ Decimal wa 26 V6 Decimal wa WS __ 27 A Decimal J 02 S 60 127 HodmgAs Hooo Mri Don t use this area when you add ladder TEMPCH w4o W wo war 148 2 memory Convert Table FX1N to CP1E EnaoDn n FX1N CP1E EooDo o Area Start Final Area Area Start Final Bit width Bit CH Bit CH number NN Bit CH X000 177 Octal 16bit M Output yooo 177 E Output Area E NM 107 15 16bit M Auxiliary M383 wo 00 W23 15 16bit relay M384 M511 H Holding Area H8 00 H15 15 16bit M512 M1055 H16 00 H49 15 16bit M1056 M1535 Decimal Can not convert 1246 1249 Decimal Can not convert me _ C C200 C255 Decimal Can not convert Register D128 D2047 Register D128 02047 D2048 D
67. Table 57 200 to CP1L L 110 n 1 E eer Bit CH Bit CH width a Bit CH Input 100 HM57 Input Area register _ 11815 8bit a LEM ENS M 14 Jj dat ID12 32bit 32bit Output 000 Q157 1bit Output Area register 080 15 Bbit 16bit Variable Data Register Cannotconver memory Can not convert vo veoees wb Do 09999 8bit _____ D32639 VWO VW9999 DO 09999 1666 VW 10238 VDO VD9998 DO ___ 09998 32bt woes Tet Can not convert Bit memory W Work Area MWO MW30 f16bit 16bit MDO MD28 32bit Timer E EMEN MK T Timer _____ TM 5 TM 7 322 4 1 __ T33 73 __ 735 T65 J __ T2 __ T To __ 5 _ To 76 TO de qe Ior ms T97 T255 ___ 0600 625 C Counter ___ CO C255 Local CIO Area memory LBO LB63 85 LWO ___ Lw62__ 16bit_ a Sequential W Work Area control relay SB31 Bbit swo SW30 16bit SD 5028 3261 W32 We60 AIW62 Zu _____ mm mo output Hr wass register RR RN counter gt WorkArea TEMP BIT H4800 H487 TEMP CH __ 7 J TEMP DW H40 Don t use this area w
68. To Omron ladder MOV 96 0 TEMP 01 This te AF REB2 1000 TEMP Dw 01 This te i48 0 TEMP 03 This te 2 1000 100 TEMP Dw 03 This te AMHDL BIU TEMP 1 TEMP 03 TEMP 05 This te This te This te 2 1000 TEMP 05 This te 107 DAND instruction Operand 1 type Operand 2 type and Operand 3 tyep are DZ From Mitsubishi ladder DAND 0020 01020 02020 Omron ladder CP1E To Omron ladder CP1H CP1L 010 IR13 020 IR14 DRO IR12 DRO IRS DANDPinstruction DRO IR 14 Operand 1 type and Operand 2 type are K H T C D V Z Operand type are D V From Mitsubishi ladder D HDP 00 010 To Omron ladder 108 DANDP instruction Operand 1 type Operand 2 type are KX KY KS 3 type are KY KM KS From Mitsubishi ladder D HDP kx kan To Omron ladder id VL 0 TEMP 01 This iz a te FRB 1000 TEMP DW 0 This te 498 0 TEMP Dw 03 This te ir 1000 100 TEMP Dw 03 This te TEMP O 01 TEMP Dw 03 TEMP 05 This te This i a te This te 04 RBG 1000 TEMP Lh 05 This te DANDP instruction Operand 1 type Operand 2 type and Ope
69. To Omron ladder CP1H CP1L S60 DO IR12 MOvR S60 Di BCD D241 DRO IR12 DRD IF 13 BCD instruction Operand 1 type are KX KY KM KS Operand 2 type are KY KM KS From Mitsubishi ladder BCD khi Kas 10 To Omron ladder 0 Mavi 1 GHI This te AF RB ifl62 1004 _ Ul This te BODUgEPA TEMP 01 TEMP 02 This a te This te 2 1040 TEMP CH 02 This te BCDP instruction Operand 1 type and Operand 2 type are T C D V Z From Mitsubishi ladder YI To Omron ladder EC DTE TU GU 62 BCDP instruction Operand 1 type and Operand 2 type are DZ DV From Mitsubishi ladder T1B UDP 01020 1 DO Lay 010624 Omron ladder CP1H CP1L D10 IR13 BCDP instruction Operand 1 type are KX KY KM KS Operand 2 type are KY KM KS From Mitsubishi ladder 18 12 DRO 18 153 4510 To Omron ladder PU UB ETE VN ias FRBUB2 1004 Ww TEMP This is 0 024 TEMP CH D1 TEMP CH 02 This is This is a te ias FRBUB2 1040 TEMP CH 02 This is a te DBCD instruction Operand 1 type and Operand 2 type are T C D V Z From Mitsubishi ladder 0 TEMP CH 01 This a te
70. X Y Data 526 DSCL2P Scaling 2 Data Table Operation I Coordinate by X Y Data SH j Check Communication epee fee Communication Read Communication A n Write Communication Block Write Communication 532 Divided BFM Read DataTransfer _ a IT Counter Compare Processing 2 With Data Table Register Control Register Control Register Control SSN Register Control Register Control IHNEN EN Register Control Register Control Register Control Register Control pme Register Control gt Register Control 47 54 Ladder Program Converter Operation Manual 2 Siemens PLC Instruction Convert List Note Specific conversion information refer to Appendix Siemens Convert Specification S7 200 Status 2 uo atten ow 471 7 38 TS an o Bittogicinsivctons o ON Bittogictnstucions Jone O 8 im etiegewemeions Loadimmediate 9 Stiogeiemwions LoadNotimmedate _ A BitLogicinsivctons
71. Y Each point of Mitsubishi area X Y corresponds a physical I O gt area CIO Not every point of Omron area CIO corresponds a physical Mitsubishi area The area 200 255 of Mitsubishi is 32 bits length C200 C255 2 Omron area The area C200 C255 of Omron is 16 bits length C200 C255 When data is beyond max range in Mitsubishi the result is recalculated from O The carry flag is active When data is less than min range in Mitsubishi the result is recalculated from 0 The borrow flag is active The flag couldn t reset until changing next time Ex when the operand is 16 bit length 32767 1 0 32768 1 0 The carry and borrow flag is the same flag CF in Omron marker bit and the It s the difference with that in Mitsubishi structure of arithmetic is CF is active when data changes from plus to negative or from difference negative to plus When data is beyond max range in Omron the data is cycle operation The overflow flag is active When data is less than min range in Omron the data is cycle operation The underflow flag is active The flag will reset next cycle Ex when the operand is 16 bit length 32767 1 32768 32768 1 32767 pulse instruction of Mitsubishi P instruction will execute one time after contact M8000 Mitsubishi is difference with Omron instruction won t execute after cotact on that of Omron Sequence Control Mitsubishi s sequence control logo can t be converted So Function Instr
72. ________ Area Start Final Area Area Start Final Bit width Fam P __ __ 000 ons Mb _ E wr oust wom wes wa M512 M1055 Decimal Area Can not r IEEE 1 M1056 M1535 Decimal Can not Ee 1246 17249 Can not change C200 LM Register D128 D7999 Register D128 D7999 CEN Can not change D8000 D8255 Decimal Can not change Decimal Index Decimal Register LN Kas va _ Decimal va Decimal Decimal _ mz ors _ mu os ___ moo Don t use this area when you add ladder TEMPCH W24 W wa ws _ mw m5 tempor ors os 151 5 memory Convert Table FX1S to CP1H CP1L 0 Start Final Area Area Start Final Bit width Fani ol rise me m fon De 512 1055 Decimal Can not m E M1056 M1535 Decimal Can not M d d z s T m 9 owma T Timer 0 _ D8000 D8255 Decimal Can not change ors o os os ow fora om zr vr peame ora ous State 127 Decimal Holding Area H8 00 H15 15 16bit relays sit moo 207 Don t use this area when you add ladder eT ee wa wat m m5
73. a te This is a This is a AF REDZ 1040 TEMP 05 This te DADD instruction Operand 1 type Operand 2 type Operand 3 type are DZ From Mitsubishi ladder DADC 00 0 01020 07020 1 DADDP instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type T C D V Z From Mitsubishi ladder DADDP Ke T To Omron ladder 73 DADDP instruction Operand 1 type and Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder ka kan 4510 To Omron ladder idus 0 TEMP This te a MaL uqa 0 TEMP DW 03 This te FR BOGS 1000 TEMP 01 This te iar RBIUIBZ 1000 100 TEMP D w 03 This is a te a 401 01 TEMP 03 TEMP 05 This is a te This te This te fF RBS 1040 TEMP 05 This DADDP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder DADDP 01020 02020 Omron ladder CP1E Omron ladder CP1H CP1L DRO 12 IRIS 18 14 74 SUB instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type T D V 2 From Mitsubishi ladder SUB hz e To Omron ladder
74. above install step 2 4 3 2 Uninstall Please perform the Uninstall of Ladder Program Converter through the Add Remove Programs Select Start Setting Control Panel Add Remove Programs select Ladder Program Converter from the dialogue box Click the Remove Button And then finish uninstall under the instruction of install shield wizard Note 1 Please don t delete the folder where Ladder Program Converter is installed directly otherwise the operation of reinstall and uninstall can t carry out correctly 2 If the converter tool is installed updated in the CX Programmer 9 0 it can t be uninstalled without CX Programmer 9 0 When uninstalling CX Programmer 9 0 the converter tool will be uninstalled at the same time 9 54 Ladder Program Converter Operation Manual 4 Notice about the conversion 4 1 Notice of the Copy Paste Conversion Method 1 Setting FX3 2 1N 1S series of Mitsubishi as the copy source has been tested The program of other series PLC could not be identified 2 In Omron CX P paste can be performed in the Diagram view and Mnemonic view of Section 3 The UNDEFINST will be output when Instruction of Mitsubishi can not be identified The UNDEFOPER will be output to substitute for the operand of Mitsubishi which can not be identified 4 When the Source instruction can not been converted to the OMRON instruction a Mi will be added before the Mitsubishi instruction and a Si will be added before the
75. is at AMNDWiYS4 100 0007 TEMP This ig at FSTR4448 wu TEMP CH D The is at 35 SIEMENS 57 200 Class Detail Instruction FOR Program Control For Next Loop Instructions Form Siemens ladder Hetwork 1 Network Network Comment 12 Hetwork 2 n NEXT To Omron ladder 2 00 This i temp e mbol for converting Siemens program al amp 100 81 TEMP This is a t 1590 TEMP This ig at TEMP m This is a t 81 0100 1 2 TEMP This is a t 2 TEMP BIT 01 10 H 1 2 This ix te 12 Network Comment TEMP 0100 This te 36 Appendix 3 Siemens I O Memory Convert Table conver tere memory Convert Table 57 200 to CP1E E mz 200 CP1E EooDo o Area Start Final Area Start Final Bit width Upa uama C a Input register 4157 7 Input Area 45 07 07 di 815 a __ ___ rm __ iDo iDi2 325 abit Output register Q0 0 Q157 _ fbit Output Area qe eme _ QB15 ru abit QWi4 16bit _ Variable V20477 7 Data Register F fee Can not convert memory 4bit TEL Can not convert veo 27 bt DO
76. ladder Hetwork 1 Network Network Comment 0 3 Omron ladder Network Comment 1003 4123 100 100 SIEMENS 7 200 Ladder 55 Detail Instruction BCD Conversion Instructions Integer to BCD From Siemens ladder Network 2 Hetwork Comment 10 3 Omron ladder D Network Comment 1003 BGD D24 100 100 33 SIEMENS 57 200 Class Detail Instruction ROUND Conversion Instructions Real to Double Word Round From Siemens ladder Network 3 Network Network Comment 2 0 Omron ladder Network Comment 2 00 P 454 05 TEMP This is a t i451 TEMP This i SIEMENS 7 200 Ladder Class Detail Instruction Conversion Instructions Integer to Double Integer From Siemens ladder Hetwork 4 M etwoark Network Comment 0 0 Omron ladder Network Comment 0 00 2 010 AMNDWITISA 010 2000 34 SIEMENS 57 200 55 Detail Instruction Conversion Instructions Real to String From Siemens ladder Network 1 Network Network Comment 10 0 Omron ladder Network Comment 10 00 021 0000 TEMP This is at AMNDWiYS4 100 TEMP This is at 430 TEMP GH 0010 TEMP This is at This
77. lt gt gt gt D v A 77 lt T T 8 8 8 8 8 8 9 9 9 co O e 9 9 2 3 5 7 OQ N gt 5 7 N 103 104 105 OB gt OB lt gt O O UJ UJ OW OW OW lt gt OW lt OW gt OD lt OD gt OD lt gt OD lt OD gt OR lt OR gt OR lt gt OR lt OR gt LDS lt gt AS AS lt gt OS OS lt gt AND lt SL AND gt SL AND lt gt SL AND lt SL AND gt SL AND F AND lt F AND gt F AND lt gt AND lt F AND gt F 5 OB 51 OB S OB SI lt gt 5 OB S OB Q o lt 5 gt 5 lt gt 5 OR lt S OR gt S OR SL OR lt SL OR gt SL OR lt gt SL OR lt SL OB gt SL Q 1 lt OR gt F OR lt gt F OR lt F OR gt F 1 LDS 51 108 lt gt SI 5 5 lt gt 5 OS 5 0 lt gt I VU lI _ xv o 0 lI l o l o O 1E 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 B 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Compare And Double Word N1 lt N2 Compare And Dou
78. nem Instruction i C j Instruction m Index Register spe meme pem L Index Register eee emm Register le a Register 36 54 Ladder Program Converter Operation Manual mn rn SIE S _ _ Status le dum ee ____ 19419 Compare lema _ 5 Ll o s Compare we o om o s Move 273 DESTR Floating Point to Floating Point Character String Conversion 274 DESTRP Floating Point to Floating Point Character String Conversion 275 DEVAL Character String to Floating Point Floating Point Conversion 276 DEVALP Character String to Floating Point Floating Point Conversion _ Scientific Scientific O ramea 99 Floating Point kiku wa SS Floating Point DEADD Floating Point Add Floating Point DEADDP Floating Point Add Floating Point Kara F 6 Subtract sie Subtract wama er fee Multiplication wm gt ___ Multiplication Z PEN fima gt Division 01 Division ma a FeO fmm Exponent e Terie Ne Coreen Exponent saratam o Natural
79. oF RBG 1040 TEMP CH 09 This te i t 77 SUBP instruction Operand 1 type Operand 2 type and Operand 3 type DZ DV From Mitsubishi ladder SUBF 0020 01020 02020 To Omron ladder CP1E Omron ladder CP1H CP1L D10 IR13 Den IR14 DRO IR12 DSUB instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type D V Z From Mitsubishi ladder DRD IF 13 14 DSUE Ke To Omron ladder 78 DSUB instruction 1 type and Operand 2 type are KX KY KS Operand 3 type are KM KS From Mitsubishi ladder 0508 kx kann KS 10 To Omron ladder MOL 0 TEMP D w 01 This te ira 0 TEMP D w 03 This te AF RE 62 1000 TEMP D w 01 This te AF RBDB2Z 1000 100 TEMP D w 03 This ig a te Li411 TEMP 01 TEMP Dw 03 TEMP D w 05 This te This te This te AFRE 1040 TEMP DW 05 This te 79 DSUB instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 0508 00 0 01020 02020 y To Omron ladder CP1E TU ma To Omron ladder CP1H CP1L 010 IR13 020 IR14 DRD IR12 DSUBP instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type T D V Z From Mitsubishi ladder DRO IR13 DRO
80. of free 50MB of free of free Trademarks Windows is a registered trademark of Microsoft Corporation Other system names and product names in this document are the trademarks or registered trademarks of their respective companies 5 54 Ladder Program Converter Operation Manual safety Precautions Definition of Precautionary Information The following notation is used in this manual to provide precautions required to ensure safe usage of Ladder Program Converter CX Programmer and Programmable Logic Controller PLC The safety precautions that are provided are extremely important to safety Always read and heed the information provided in all safety precautions Indicates an imminently hazardous situation which N WARNING if not avoided will result in death or serious injury Additionally there may be severe property damage Indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury or property damage Precautions for Safe Use Indicates precautions on what to do and what not to do to ensure using the product safely Precautions for Correct Use Indicates precautions on what to do and what not to do to ensure proper operation and performance Additional Information Additional information to increase understanding or make operation easier Symbols The triangle symbol indicates precautions including warnings The specific operation is shown in the triang
81. refer to the programmable manual of our company Related Manuals CP1H CPU Unit Operation Manual Cat No W450 CP1L CPU Unit Operation Manual Cat No W462 CP1E CPU Unit Hardware User s Manual Cat No W479 CP1E CPU Unit Software User s Manual Cat No W480 LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS WHETHER SUCH CLAIM IS BASED CONTRACT WARRANTY NEGLIGENCE OR STRICT LIABILITY 3 54 Ladder Program Converter Operation Manual 3 SUITABILITY FOR USE OMRON shall not be responsible for conformity with any standards codes or regulations that apply to the combination of products in the customer s application or use of the products At the customer s request OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product machine system or other application or use The following are some examples of applications for which particular attention must be given This is not intended to be an exhaustive list of all possible uses of the products nor 15 it intended to imply that the uses listed may be suitable for the products e Outdoor use uses involving potential chemical contami
82. type are T D V 2 From Mitsubishi ladder Ke T To Omron ladder NA DMUL instruction Operand 1 type and Operand 2 type are KY KS Operand 3 type are KM KS From Mitsubishi ladder OWL 0 kan ks 10 To Omron ladder 498 0 TEMP 01 This is a te 498 0 TEMP 03 This te 0 TEMP Ow 01 AF RE D62 1000 This is AF RE D62 1000 100 TEMP Diy 03 This is a 1 421 TEMP Dw 05 This ig a te This is a te This te FRB 1040 TEMP 05 This 85 DMUL instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 00 0 01020 07020 To Omron ladder CP1E F poe ons Omron ladder CP1E bo IR12 D10 IR13 D20 IR14 DR IR1Z DR IR13 DRO IR14 DMULP instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type T D V Z From Mitsubishi ladder Ke To Omron ladder MNA 86 DMULP instruction Operand 1 type and Operand 2 type are KX KY KS 3 type are KY KS From Mitsubishi ladder DHJLP kx kan KS 10 To Omron ladder 498 0 TEMP DO 01 This te 458 0 TEMP D w 03 This a te wF REDE 1000 TEMP Duy 01 This te i F 1000 100 TEMP Dw
83. 03 This 2 TEMP 01 TEMP DW D3 TEMP 05 This te This te This te 2 1000 TEMP Di 05 This te 119 DXOR instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 0020 01020 02020 To Omron ladder CP1E Omron ladder CP1H CP1L D10 IR13 D20 14 AORL BTZ DRO IR 12 13 DXORP instruction Operand 1 type Operand 2 type are H T C D V Z Operand type Dv From Mitsubishi ladder DRO IR 14 URP 00 010 To Omron ladder 120 DXORP instruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder kx kan To Omron ladder 0 TEMP 01 This te RBS 1000 TEMP DW 01 This te 0 TEMP DW 03 This te RBS 1000 100 TEMP 03 This te 0 TEMP Dw O3 TEMP 05 This te This is a te This te RBS 1000 TEMP Ow 05 This is te DXORP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder 0020 01020 02020 To Omron ladder CP1E
84. 1000 TEMP C 01 This is a te 0 TEMP D w 03 This is a F R E 1000 100 TEMP D w 03 This is a te idi EWL 1811 TEMP Dw 1 TEMP Dw O3 TEMP D w This This This mF REDE 1000 TEMP D w 05 Wt This te 115 WXOR instruction Operand 1 type and Operand 2 type are K T C D V Z Operand 3 type T D 7722 From Mitsubishi ladder HOFO 10 To Omron ladder F 010 instruction Operand 1 type 2 type KX KY KS Operand 3 type KY KS From Mitsubishi ladder kx kan To Omron ladder MOV 0 TEMP CH 01 This te AF RE52 1000 TEMP CH 01 This te MOV 0 TEMP CH 02 This te FRB 1000 100 TEMP 02 This te AD RATIS TEMP CH 03 This iz a te This iz a te This is te AF REB2 1000 TEMP CH 03 wi This te 116 WXOR instruction Operand 1 type Operand 2 type and Operand 3 type are DZ DV From Mitsubishi ladder ROR 0020 01020 02070 To Omron ladder CP1E ven Bass uus Omron ladder CP1H CP1L 010 IR13 D20 IR14 DRO IRIZ DRO IR13 WXORP instruction DRO IR 14 Operand 1 type Operand 2 type are H T C D V Z Operand type D V Z From Mitsubishi ladder T WE
85. 12 Work Step Flag BOOL 010 Work UnderFlow Flag Project TEMP_CH_02 CHANNEL W42 Work This is a temp symbol for converting 3 Fie o S uu mI NG S uL Source step 5 Converted step lt lt lt lt lt lt lt Comment File converter lag gt gt gt gt gt gt gt Converted TEMP 02 ta W42 14 4 gt PU Compile gt For Help press 1 NewPLC1 Net 0 Node 0 Offline rung 0 0 0 100 Smart NUM Fig 5 8 insert the temporary variable 17154 Ladder Program Converter Operation Manual 5 2 Copy Program from STEP 7 MicroWIN of Siemens 57 200 series PLC of Siemens be selected as the copy source 1 Open the program needed to be converted by STEP 7 MicroWIN of Siemens f STEP 7 Projecti SINATIC LAD Eg File Edit View FLC Debug Tools Windows Help Que a 8 A Vm tare aio CPU Hx Prograr Symbol oy Status Data Bl System PROGRAM COMMENTS Network 1 H A ies Ad Wizard m D Tools 10 0 EHR Instructions E Favorite Bit Lagi lq Clock 131 Commu Compa ea Conver Counte Floatine E Integer el laker Network 1 Row 3 Col 2 Fig 5 9 STEP 7 MicroWIN of Siemens 18 54 Ladder Program Converter Operation Manual 2 Convert Siemens SIMATIC to International Symbol When STEP 7 MicroWIN is sta
86. 1H CP1L S60 im Lib93 DRO IR 12 DDECP instruction Operand 1 type are KY KS From Mitsubishi ladder 17000 Omron ladder MOV TEMP This iz tern EN This iz a tern 9 41 59331 TEMP DW This ix a ed ae ee een This tem WAND instruction Operand 1 type Operand 2 type are H T C D V Z Operand type From Mitsubishi ladder gt WAND H F 10 To Omron ladder FU 010 103 WAND instruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder WAND KAO 4000 Omron ladder Movie 1 TEMP GH 01 This te AF RBDB2Z 1000 TEMP CH 01 This a te 0 TEMP CH 02 This te FRB 1000 100 TEMP GH 02 This te AAO OS TEMP CH D1 TEMP 02 TEMP CH 03 This ig a te This te This te AFRBDB2 1000 TEMP GH 09 This te WAND instruction Operand 1 type 2 type and Operand DZ DV From Mitsubishi ladder WAND 0020 01020 02020 Omron ladder CP1E D w24 wea To Omron ladder CP1E D10 IR13 D20 IR14 DRO 12 DRO IR13 DRO IR14 104 WANDP instruction Operand 1 typ
87. 7999 Decimal Can not kiss s D8000 D8255 Decimal Can not Decimal WO WA V4 Decimal w32 433 Decimal W34 435 je S State relays Decimal Holding Area 5128 5999 Decimal Can not i LEER WorkArea moo moz Don t use this area when you add ladder p TEMP CH W o mw ow wz 149 3 memory Convert Table FX1N to CP1E NooDa n rz s Area Start Final Area Area Start Final Bit width Ou 000 715 feaa freo owner ee M1056 M1535 Decimal Can not ir 1245 Decimal Timer TO 1245 T246 T249 Decimal Can not 1250 1255 Counter C31 Decimal C Counter fesa C200 C255 Decimal Can not in T Decimal T250 T255 Data Register D127 Decimal Data Register D D127 8 7 0128 08000 V Z D7999 Decimal 679 D8255 Decimal Can not _ om Index VO Decimal W Work Area W25 22 va ws ws wo ws we ws wa we we zz vr Deme _ ws ws S State relays SO 8127 Decimal Holding Area 00 H7 15 16bit 5128 5999 not WorkArea TEMP_ BIT 200 00 2007 7 Don t use this area when you add ladder ef wo 150 4 memory Convert Table FX1N to CP1H CP1L Fr
88. Auxiliary M7679 Decimal Work Area WO 00 W479 15 16bit i ad a dod i ia ca Timer TO 745 Decimal Timer TO 7245 1246 1249 Counter C31 Decimal Counter C200 C255 Decimal Can not m Data D8511 Decimal Data D8511 e Decimal Data Z Register vo M Decimal Register Decimal V Decimal Decimal Decimal 0814 C mee mor Don tuse this area when you add ladder BREMEN mweow mw m m tempor ors fors _ 160 4 Auxiliary Relay Convert Table FX3 to CP1E RUN monitor NO contact 8000 Always Flag P On CF113 RUN monitor NC contact M8001 Always OFF Flag P Off CF114 5 Auxiliary Relay Convert Table Fx3 to CP1H CP1L 161 Ladder Program Converter Operation Manual Appendix Siemens Conversion Specification Rev 1 10 CONTENTS Appendix 1 Siemens Instruction Convert 3 Appendix 2 Siemens instruction Convert Solution 1 N 11 11 12 mp Lem 13 DB a A i e 14 KB TN 15 DD esM i opis iE 16
89. Cat W354I E 01 Converts Mitsubishi FX3 FX2 FX1N FX1S Programs Converts Siemens 57 200 Programs For Omron CP1L CP1H CP1E Programmable Controllers Ladder Program Conversion Utility Software OPERATION MANUAL Ladder Program Converter Operation Manual Rev V1 20 Ladder Program Converter Operation Manual CONTENTS About Ladder Program Converter 8 Operation EnVIronm antu uu uu 8 2 1 OS Object Operation System 8 22 0DIGCU PLC 8 Installation and uninstall 9 MIC Em A 9 CAMCN 9 Notice about the conversion 10 4 1 Notice of the Copy Paste Conversion Method 10 4 2 u 10 Copy Paste Conversion Method in CX P 12 5 1 Copy Program from GX Developer of Mitsubishi 12 5 2 Copy Program from STEP 7 MicroWIN of Siemens 18 a uas MP Us Us 25 ERROR bist and uuu u m u 27 NE one eben 28 7 1 Instruction Convert list 28
90. Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Ladder Program Converter Operation Manual Class Convert Status Inline Comparisons Operand includes KZ KV KX KY KS KM KXZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KX KY KS KM KXZ KYZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KX KY KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV
91. D V 2 From Mitsubishi ladder ADDF Ke T LH To Omron ladder NNNM ADDP instruction Operand 1 type and Operand 2 type KX KY KS Operand 3 type are KS From Mitsubishi ladder ADDF kx Ke O00 4510 To Omron ladder 0 TEMP CH 01 This te id Ng 0 TEMP CH 02 This te wF REDE 1000 TEMP This te mF REDE 1000 100 TEMP 02 This te a 400 TEMP TEMP 02 03 This te This is a te This is a te FRB 1040 TEMP CH 03 This te 71 ADDP instruction Operand 1 type Operand 2 type and 3 type are DZ DV From Mitsubishi ladder bDP 0020 01020 07020 To Omron ladder CP1E To Omron ladder CP1L 1H DRU IR12 DRU IR13 DPD IP14 DADD instruction Operand 1 type and Operand 2 type are K H T C D V Z Operand 3 type T C D V Z From Mitsubishi ladder DADD Ke To Omron ladder 72 DADD instruction Operand 1 type and Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder DADD kx kan 4510 To Omron ladder 0 TEMP DO 01 This te 0 TEMP D w 03 This te AF REDZ 1000 TEMP D 01 This AF REDZ 1000 100 TEMP 03 This is a 440 TEMP 01 TEMP Dw O3 TEMP D w 05 This
92. DV DZ KYZ KSZ KMZ NO conversion To CP1E NO conversion Operand includes address out of converter range and KM KS TV TZ CZ DV DZ KYZ KSZ KMZ NO conversion To CP1E NO conversion Ladder Program Converter Operation Manual _ Status e a A a Carry Operation BENE REEF _ ____ Operation BENE RENE _ Carry Operation Ce EE Onn P Carry Operation Bl Carry Operation qM emm ____ Operation Operation 5555 C Operation Operation B EN E Operation LSE Operation _ n Operation o Operation 147 SFWR Shift write Rotation and Shift Operand 1 includes KZ FIFO FILO control KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand 2 isnt T D NO conversion 148 SFWRP Shift write Rotation and Shift Operand 1 includes KZ FIFO FILO control KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand 2 isnt T D NO conversion 149 SFRD Shift Read FIFO Rotation and Shift Operand 1 isnt T D Control NO conversion Operand 2 isn t T V Z DV DZ NO conversion 150 SFRDP Shift Read FIFO Rotation and Shift Operand 1 isn t T Control NO conversion Operand 2 isn t T V Z DV DZ NO
93. EFT 1 1 1 1 X Extracting Character String Data from the Left 17 Source Destination CP CP CP waw w t w 444 LEFTP LEFT 1 1 1 1 x Extracting Character String Data from the Left 445 MIDR MI MIDR X x x Random Selection of Character Strings 446 MIDRP MI MIDRP X x x Random Selection of Character Strings 447 MIDW MI MIDW X X Random Replacement of mme per 456 IDWP MIDWP X x Random Replacement of mum oe we MUNSIR x X Character sting search _ _ x X Ghwadershingseach _ e ense fess M _ POPP POPP I X X Shift Last Data Read MM uu 58 x x Shift Last Data Read ee s n n n n 18 Source Destination CP CP CP V V A N S2 S2 V s at T 511 SCL MI SCL Scaling Coordinate by Point Data SCLP SCLP ke HIDIDIDID xo Soe Soe x x BB Scaling Coordinate by Point Data 19 Source Destination CP CP CP wam
94. ET ADDR Get Port Address x Instructions x X x xX x x 246 SET ADDR Set Port Address x Instructions 247 248 54 54 Ladder Program Converter Operation Manual Appendix Mitsubishi Conversion Specification Rev 1 10 CONTENTS Appendix 1 Mitsubishi Instruction Convert List 4 Appendix 2 Mitsubishi Instruction Convert Solution 1 N 22 OUT In stFBclloD loft od 22 ated 22 CJ ISP UO dudas od Paten Emil cam aera 23 ex arci seis TO ET LT 23 FOR WS UIC TON 24 CMP 25 CPI QC sun oe 28 DGWIPINSIRUCHON UT 31 DONIBEIDSIPOCHOR u Last n dene lens 34 e C 37 VG RICO TI D m III M TE 42 DZOP eT 46 50 MOV VAS UIC TION nm 53 MOVE eee 54 TINS 1PUC TION ick
95. IFR14 DSUBP Ke T J To Omron ladder 80 DSUBP instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type KY KS From Mitsubishi ladder DSUBP kx kan 4510 J To Omron ladder id 498 0 TEMP 01 This te id 0 TEMP D w 03 This te F RBITBZ 1000 TEMP This is a te mF RBG 1000 100 TEMP Oy 03 This te a te 14411 TEMP_DW TEMP 03 TEMP DW 05 This a te This a te This ig a te wF REDE 1040 TEMP DW 05 This te DSUBP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ From Mitsubishi ladder DSUBP 02020 To Omron ladder CP1E To Omron ladder CP1E Do 12 DRO IR12 DRO IR13 DRO IR14 81 MUL instruction Operand 1 type and Operand 2 type K H T D V Z Operand 3 type T D From Mitsubishi ladder h Ke To Omron ladder NNNM MUL instruction Operand 1 type and Operand 2 type are KX KY KS Operand 3 type are KS From Mitsubishi ladder _ ML kx kann 4510 To Omron ladder OV 0 TEMP This te OV 0 TEMP 02 This te AFRE 1000 TEMP CH 01 This te AFREBB2 1000 100 TEMP CH 02 This te TEMP GHOT TEMP 02 TEMP CH 03 This
96. KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KYZ KSZ KMZ TZ CZ NO conversion Operand includes KYZ KSZ KMZ TZ CZ NO conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ NO conversion Operand includes KYZ KSZ KMZ TZ CZ conversion Operand includes KYZ KSZ KMZ TZ CZ NO conversion Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion 31 54 O 117 118 119 A N O 121 122 gt 7 A _ N A N 130 132 DORP WXOR WXORP DXOR DXORP NEG NEGP DNEG DNEGP RORP DROR DRORP ROL ROLP DROL DROLP R RCRP DRCR Ladder Program Converter Operation
97. Logarithm EPE kae aN Natural Logarithm mem eme mm a Common Logarithm mee Emme al Common Logarithm mee Je eem Square Root Pepe mer ee eee Square Root mme al 5 Negation mene mm Negation e al O Integer 37 54 Ladder Program Converter Operation Manual see ee m _ Status emm II o Integer A le __ ____ Integer ENT 5 Integer 303 DSIN Sine FloatingPoint_ 6 TO CP1E No Conversion 304 DSINP 5 Floating Poit TO CP1E No Conversion _ 305 060 Cosne FloatingPoint_ 6 To CP1E No Conversion 306 Cosine FloatingPoint 6 To CP1E No Conversion _ 307 DTAN Tanget FloatingPoint_ 6 To CP1E No Conversion 308 DTANP Tangent Floating e A Conversion a 15 Sine mr a p eme Sine ee ee 14171 eo Cosine emm 4 5 ee mem mem eem Tangent emm mmm 4 Tangent DRAD Floating Point Floating Point To CP1E No Conversion Degrees to Radians Conversion Floating Point Floating Point To CP1E No Conversion Degrees to Radians Conversion Floating Point Floa
98. Manual Class Convert Status Logical Word OR Logical Word OR Logical Exclusive OR Logical Exclusive OR Logical Exclusive OR Logical Exclusive OR Operation Operation Operation Operation Operation Operation Operation Operation Carry Operation Carry Operation Carry Operation Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ 2 KYZ KSZ TZ CZ NO conversion Operand includes address out of converter range and KM KS TZ CZ DV DZ KYZ KSZ KMZ NO conversion Operand includes address out of converter range and KM KS TZ CZ DV DZ KYZ KSZ KMZ NO conversion Operand includes address out of converter range and KM KS TZ CZ
99. Mitsubishi ladder WORP 00 010 To Omron ladder 111 WORP instruction Operand 1 type Operand 2 type KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder WIRP dx kann KM To Omron ladder 0 TEMP CH 01 id CONATI AH This te wF REDE 1000 TEMP CH 01 This te ha V 0 TEMP 02 This te REDE 1000 100 TEMP 02 This te TEMP 01 TEMP 02 TEMP This te This te This te wF REDE 1000 TEMP GH 03 This is te WORP instruction Operand 1 type 2 type and Operand type DZ DV From Mitsubishi ladder RP 0020 01020 0200 To Omron ladder CP1E mS To Omron ladder CP1H CP1L MOR WHOS DRO IR 12 13 168 14 112 DOR instruction Operand 1 type Operand 2 type are H T C D V Z Operand type are D 7722 From Mitsubishi ladder 008 00 010 To Omron ladder DOR instruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder tor kan kan To Omron ladder 0 TEMP Ow 1 This is a AF RB ill62 1000 TEMP 01 6 This a te Moy i48 0 TEMP Dit 03 This te AF RBB2 1000 100 TEMP 03 This te
100. NO Devices Devices 232 DPRUN External FX Serial Devices Ladder Program Converter Operation Manual voy K _ Status Devices 0 0 Devices Devices Devices Devices e j Devices OE ee Devices Devices Devices ee Devices Devices Communication 2 Devices Devices PLANO RENI Instruction 247 ANRDP Analog Read Special Module BjOo a a t a pq 248 ANWR Analog Write Special Module 249 ANWRP Analog Write Special Module Instruction Instruction 253 MCDEP Machine Code Special Module 254 MNET Mini Net Special Module 255 Mini Net Special Module Wart MET D ads Instruction O Instruction OPE gt Instruction mmt oem
101. ONE jZoneConro Data Table Operation x 508 ZoneConro Data Table Operation 509 DZONE ZoneContro Data Table Operation 510 DZONEP Data Table Operation e Scaling Data Table Operation Coordinate by Point Data 512 SCLP Scaling Data Table Operation Coordinate by Point Data 513 DSCL Scaling Data Table Operation Coordinate by Point Data 514 DSCLP Scaling Data Table Operation Coordinate by Point Data 515 DABIN Decimal ASCII to Data Table Operation BIN Conversion 516 DABINP Decimal ASCII to Data Table Operation BIN Conversion 517 DDABIN Decimal ASCII to Data Table Operation BIN Conversion 518 DDABINP Decimal ASCII to Data Table Operation BIN Conversion 519 BINDA BIN to Decimal Data Table Operation ASCII Conversion 520 BINDAP BIN to Decimal Data Table Operation ASCII Conversion 521 DBINDA BIN to Decimal Data Table Operation ASCII Conversion 522 DBINDAP BIN to Decimal Data Table Operation ASCII Conversion X SE S X X X X X X x 46 54 Ladder Program Converter Operation Manual mn ome 22 IR q _ _ Status 523 SCL2 Scaling 2 Data Table Operation Coordinate by X Y Data 524 SCL2P Scaling 2 Data Table Operation Coordinate by X Y Data 525 DSCL2 Scaling 2 Data Table Operation Coordinate by
102. OT Work Less Than LT Flag P Max Cycle Time 262 Work Maximum Cycle Time BOOL CF008 Work Negative N Flag P NE BOOL CFOO1 Work Not Equals NE Flag P OF BOOL CF009 Work Overflow OF Flag P Off BOOL CF114 Work Always OFF Flag BOOL CF113 Work Always ON Flag P Output Off Bit BOOL 500 15 Work Output OFF Bit P_Step BOOL A200 12 Work Step Flag BOOL 010 Work Underflow UF Flag TEMP CH 01 CHANNEL Hal Work This is a temp symbol for converting Siemens p TEMP CH 02 CHANNEL H42 Work This is a temp symbol for converting Siemens p TEMP_CH_03 CHAHHEL H43 Work This is temp symbol for converting Siemens p TEMP CH 04 CHANNEL H44 Work This is a temp symbol for converting Siemens p Project xj For Help press Fl NewPLC1 0 Node 0 Offline rung 0 2 15 90 i Classic Fig 5 18 Insert temporary variable 24 54 Ladder Program Converter Operation Manual 5 3 Conversion List File Conversion List File is the instruction list before and after the conversion It is a CSV file 1 Conversion List File specification 6 columns 1 Conversion Source Step Step No for Mitsubishi instruction NetWork No for Siemens instruction 2 Conversion Source Instruction 3 Conversion Source Operand 4 Conversion Destination Step 5 Conversion Destination Instruction 6 Conversion Destination Operand When the conversion type is 1 the Step No When the in
103. Rooi Data Queration conversion A CP1E No Conversion _ mW Ems peeme _ Floating Point Floating Point meme 94 44 0 Floating Point gt Floating Point Processing Ime Processing adjust Processing i O LLL adjust Processing s pe Processing N j reset Processing set Processing mw hee ea compare Processing mm e ese L Processing mm mmm DEEP _ Processing eem mmm Processing mmm e s Processing O ___ j modulation Processing Fl alll Processing mem ail ppt Processing 34 54 Ladder Program Converter Operation Manual Convert Class No instruction Function class LET IN 15 sums Remark x ____ 195 IST Initial State __ Handy Instructions 196 SER Seach x JA J O 197 Handy Instructions e x 198 DSER Seach 7 Handylstutns e x A J J 199 DSEERP Search Handy Instructions e x X 200
104. Schaumburg IL USA 847 843 7900 800 556 6766 www omron247 com OMRON CANADA INC HEAD OFFICE OMRON ARGENTINA SALES OFFICE Toronto ON Canada 416 286 6465 866 986 6766 www omron247 com Cono Sur 54 11 4783 5300 OMRON ELETRONICA DO BRASIL LTDA HEAD OFFICE OMRON CHILE SALES OFFICE Paulo SP Brasil 55 11 2101 6300 www omron com br Santiago 56 9 9917 3920 OMRON ELECTRONICS MEXICO SA DE CV e HEAD OFFICE OTHER OMRON LATIN AMERICA SALES Apodaca N L 52 811 156 99 10 001 800 556 6766 mela omron com 54 11 4783 5300 2009 Omron Electronics LLC Cat No W354I E 01 01 10 Specifications are subject to change without notice
105. Siemens instruction as the conversion result in the CXT file 5 That copy from Siemens program should start with Network 1 and the minimum copy unit is one Network otherwise some programs will lost 6 Because the Channel length of Siemens is different from that of MONRON Siemens channel length is 8 bits while OMRON channel length is16 bits the Error will occur during the conversion Please pay more attention to it 4 2 Conversion Limition 1 About Siemens Instructions Problem OB Series can not be Converting will break the LD s structure so it can not be converted converted Because of the different Resolution the Tim Number will change TON after converted TONR function is changed When set value is arrived OMRON TIM will stop and Siemens TIM after being converted will continue DIV It occur address across problem after converted SBR CALL Its a subroutine instruction In Siemens SBR CALL is used to jump to the subroutine section directly the section number is regarded as the sign In OMRON it jumps from SBS to SBN SBN is regarded as the sign Float can not be converted The OMRON PLC doesn t support float constant so it can not be directly converted Flag SM1 1 can not be The Flag SM1 10f Siemens needs the special Flags P CY OF converted and P UF of OMRON to correspond 10 54 Ladder Program Converter Operation Manual 2 About Mitsubishi Instructions Mitsubishi area X
106. Solution Source Destination CP CP CP ____ ____ m tt ome few tt ose 7 22 OUT C TIMX TIMHX TMHHX 1 1 1 1 1 1 Out TTIMX T T gt x 35 Refer to Appendix 2 1 N 1 N 1 N Conditional jump Convert Solution Source Destination CP CP CP s T a ajo foi tt Dwehemp 42 FEND END Main Routine Program End wor 47 Refer to Appendix 2 1 N 1 N 1 N Compare 48 CMPP Refer to Appendix 2 1 N 1 N 1 N Compare 49 DCMP Refer to Appendix 2 1 N 1 N 1 N Compare _ asas a D 50 DCMPP Refer to Appendix 2 1 N 1 N 1 N Compare P 51 2 Refer to Appendix 2 1 N 1 Zone Compare HEN 52 ZCPP Refer to Appendix 2 1 N 1 N 1 N Zone Compare O asas 53 DZCP Refer to Appendix 2 1 N 1 N Zone Compare O as 54 DZCPP Refer to Appendix 2 1 N 1 1 N Zone Compare me s s s 5 z z 5 s 2 2 Source Destination CP CP CP n n n n 75 BCD BCD 1 1 1 1 1 1 Conversion to Binary 76 BCDP BCD 1 1 1 1 1 1 Conversion to Binary mde Itt 77 DBCD BCDL 1 1 1 1 1 1 Conversion to Binary molo e 78 DBCDP BCDL 1 1 1 1 1 1 Conversion to Binary ae I z T a ss LO on tt 4 Ben m I 2 T gt s 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125
107. TEMP Dw 01 498 This te 2 1004 wi TEMP This te 498 TEMP DO 01 TEMP Diy 03 This a te This a te 2 1040 DMOVP instruction Operand 1 type are K H T C D V Z Operand 2 type T D V Z From Mitsubishi ladder TEMP Diy 03 This te 10 010 To Omron ladder 496 510 010 56 DMOVP instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder 0020 0100 Omron ladder CP1E DO Lay 01024 Omron ladder CP1H CP1L 010 IR13 DMOVP instruction Operand 1 type are KX KY KM KS Operand 2 type are KY KM KS From Mitsubishi ladder DRD IF 12 DRO 18 13 KE 10 To Omron ladder 0 TEMP DW 01 id COL DW This te RBS 1004 Wi TEMP This te id TEMP 01 TEMP 03 This te This te 1040 TEMP D w 03 This te BMOV instruction Operand 1 type and Operand 2 type are D Operand 3 type are K H D From Mitsubishi ladder BMOV 010 j Omron ladder 57 BMOV instruction Operand 1 type Operand 2 type are DZ DV Operand 3 type are K H D From Mitsubishi ladder 00 0 01020 Omron ladd
108. Z KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KYZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion 44 54 482 ANDD lt gt 483 484 JI 486 487 488 489 490 492 493 494 AND lt ANDD lt AND gt ANDD gt O A V ORD gt O A ORD lt OR lt gt ORD lt gt 51 52 Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline
109. a O 7149 Math nsrcions 120 Wath nsiucions Multiply Double Interger MUL_DI Math Instructions IN1 OUT OUT Divide Double Interger Multiply Integer to Double 12 MUL U Math Instructions r eee un 16 46 32 50 54 C J Ladder Program Converter Operation Manual S7 200 Status 125 INCB Mathinsiucions Stmemm O oOo 126 becs Mathinsiucions enore O 127 now Mathinsiucions Wordincrement Of 128 DECW __ Mathinsiucions wodorem 180 DECD ___ Mathinsiucions Double Word Decrement O 191 ADD R ResMahinsmweions AdiRed NOUT QUT O 482 SUB R matn instructions sat Rea N OUT QUT O 183 MULR RealMathinsivctons MutipyRealNrour our O 184 DR Dve Rea rovro 185 Square Root _ 186 LN RealMathinsivctons 187 EXP RealMathinsivctons 188 SIN ____ RealMathinsivcions Sie 189 COS _ RealMath nstuctons Con X _ 440 TAN ____ Tangent 141 PD _____ RealMathinsivcons 142 wove o BLKMOV W E A mind Move Instructions Block Move Word WAND B Operations And Byte Instructions WOR B Operati
110. ables created during the conversion into the global variable table new HewPLC1 Syabols FA File Edit View Insert Program PLC Simulation Tools Window Help 5 x LAE ke es REX 471 rn p m T RAPA 88 mr gi amp H Be ED 5550 24 gt N H Pl gt CX 3 NewProject P 025 BOOL CF103 Work 0 02 second clock pulse bit 9 NewPLC1 CP1E Offline 15 BOOL 100 Work 0 1 second clock pulse bit Symbols 02 BOOL CF101 Work 0 2 second clock pulse bit Settings P_imin BOOL CF104 Work 1 minute clock pulse bit t lt Memory Pols BOOL CF102 Work 1 0 second clock pulse bit Programs P_AER BOOL CF011 Work Access Error Flag 98 SPESE 0 PCY BOOL 004 Work Carry CY Flag e P Cycle Time Error BOOL 401 08 York Cycle Time Error Flag END 1 _ 1 _ A264 Work Present Scan Time BOOL CFOO6 Work Equals EQ Flag P ER BOOL CF003 Work Instruction Execution Error ER Flag P First Cycle BOOL A200 11 Work First Cycle Flag P First Cycle Task BOOL 200 15 Work First Task Execution Flag P GE BOOL 000 Work Greater Than or Equals GE Flag BOOL 005 fork Greater Than GT Flag PILE BOOL CF002 Work Less Than or Equals LE Flag P Low Battery BOOL A402 04 Work Low Battery Flag 4 POLT BOOL CFO
111. add ladder TEMPCH 3 40 mw ow ao _ m w m Index Register B Data D2047 Work Area DO 02047 Register D2048 D8255 Decimal Can not s sss V 155 3 memory Convert Table FX2 to CP1H CP1L CP1H CP1L ees Area Start Final Area Area Start Final Bit width Lim jme M Auxiliary M3071 Decimal Work Area WO 00 W191 15 16bit fe To 7245 Decimal Timer T0 74500 T246 T249 Decimal Can not mm LT Counter C31 Decimal Counter C200 C255 Decimal Can not Data D8255 Decimal Data D8255 Decimal Data Z Register Decimal Register v2 Decimal LM Decimal m Decimal mem mw Don t use this area when you add ladder BERE M ss o mw ms tempor ors ors 156 4 Auxiliary Relay Convert Table FX2 to CP1E RUN monitor NO contact M8000 Always ON Flag P On CF113 RUN monitor NC contact M8001 Always OFF Flag P Off CF114 P 1s CF102 P OF CF4 5 Auxiliary Relay Convert Table FX2 to CP1H CP1L 157 3 FX3 series memory Convert Table 1 memory Convert Table FX3 to CP1E NooDc x CP1E NooDo o Area Start Final Area Area Start Final Bit width Bit CH Bit CH number Bit CH Bit CH X000 X377 InputArea M De 15 15 16bi
112. amp y Ph zl xl NewFroject em NewFLC1 CF1E Offline Symbols ttt tut t ttt ut y un t 2 at m t 222 settings rw Memory Programs Gal HewPrograml 00 Symbols 222 Sectionl S MI ie eB Be Sa Project on For Help press Fl HewPLC1 Het 0 Hode 0 Offline rung 0 0 Fig 5 3 OMRON CX Programmer View 5 Paste the source program in the Diagram view or Mnemonics view And the following dialogue box will be displayed Ladder Program Converter 2 This software iz only supporting tool for ladder program conversion So you should review and debue the conversion result in real application source PLO Type Generate conversion File path of the conversion list Browse Fig 5 4 Ladder Conversion Dialogue box 14 54 Ladder Program Converter Operation Manual 6 Click the Browse Button designate the name and path of conversion list file Fig 5 5 Save In Documents t Save as type Converting list csv Fig 5 5 Conversion list file saving dialogue box 7 Select the conversion source PLC type Click the OK Button and the Converting progress bar will be displayed Fig 5 6Converting progress bar 15 54 Ladder Program Converter Operation Manual 8 The converted program will be displayed in the CX Programmer new CX Programmer
113. and includes KZ KV KS KM KXZ 54 KMZ TZ CZ DZ DV NO conversion 466 LD 51 lt 52 Inline Comparisons 467 LDD gt 51 gt 51 Inline Comparisons 468 LDD lt S1 lt S2 Inline Comparisons 43 54 469 470 471 472 473 474 N 476 477 478 479 480 481 lt gt LDD lt gt gt 2 D lt LDD lt LD gt LDD gt ANDD AND gt ANDD gt AND lt ANDD lt AND lt gt 51 52 S1 S2 51 52 51 52 51 52 51 52 51 52 51 52 S1 gt S1 S1 gt S1 S1 lt S2 S1 lt S2 S1 4 S2 Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Inline Comparisons Ladder Program Converter Operation Manual Class Convert Status Inline Comparisons Operand includes KZ KV KX KY KS KM KXZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KX KY KS KM KXZ KYZ KSZ KMZ TZ TV CZ CV DZ DV NO conversion Operand includes KZ KV KX KY KS KM KXZ KYZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KY
114. bit 012 Output 00 0 Q157 bt Output Area 115 07 register QBt5 awo QW14 t6bit Variable Data Register ___ Can not convert memory ____ Cannot convert DO 08191 J Cannot convert vwo iei DO 08191 ___ Cannotconvet VDO __ 190 32bit DO 08190 32bt ______ Can not convert Bit memory W Work Area W31 7 Meo Wes 16bit 16bit MDO MD28 _ Timer __ IT Timer J b I 74 22 e _ o J b __ Je T35 Tes __ J _ 5 __ T6 JT TO dd __ T 755 T T255 C comer counter L Local Holding Area memory ICIO Area He iM Lwo LW24 16bit LDO LD28 326 32bit Ho H36 Sequentia Work Area control relay ses Ws2 wes swo SW30 16bit wez ten SDO 508 3258 Wa _ AW _ Analoginput wea est 7e sen ol I or output p register L counter WorkArea TEMPBIT H48 07 o Don t use this area when you add ladder TEMP CH H40 TEMP DW H7 0 I O memory Convert
115. ble Word N1 gt N2 Compare And Double Word N1 lt gt N2 Compare And Double Word N1 lt N2 Compare And Double Word N1 gt N2 Compare And Real 1 2 Compare And Real 1 lt 2 Compare And Real 1 gt 2 Compare And Real 1 lt gt 2 Compare And Real 1 lt 2 Compare And Real 1 gt 2 Compare Or Byte 1 2 Compare Or Byte N1 N2 Compare Or Byte 1 gt 2 Compare Or Byte 1 lt gt 2 Compare Or Byte 1 lt 2 Compare Or Byte 1 gt 2 Compare Or Word 1 2 Compare Or Word N1 N2 Compare Or Word 1 gt 2 Compare Or Word 1 lt gt 2 Compare Or Word N1 zN2 Compare Or Word 1 gt 2 Compare Or Double Word 1 2 Compare Or Double Word N1 N2 Compare Or Double Word 1 gt 2 Compare Or Double Word 1 lt gt 2 Compare Or Double Word 1 lt 2 Compare Or Double Word 1 gt 2 Compare Or Real 1 2 Compare Or Real N1 N2 Compare Or Real 1 gt 2 Compare Or Real 1 lt gt 2 Compare Or Real 1 lt 2 Compare Or Real 1 gt 2 Compare Load String IN1 IN2 Compare Load String IN1 lt gt IN2 Compare And String IN1 IN2 Compare And String IN1 lt gt IN2 Compare Or String IN1 IN2 Compare Or String IN1 lt gt IN2 Source Instruction Destination CP CP CP S7 200 Instruction 4H 11 1E Refer to Appendix 2 107 TONR Retentive On Delay Timer Convert Solution 1 N 1 N 112 CU increments the current value Convert Solution 1N 1 N 1 N
116. cions 0 78 os compare nstucions comae orse _ 779 compare nstucions O _ 80 oss Compare instucions wc O 81 cowwerenen O 82 ___ Compare compare Orword 88 ows cowwerenen compare Orwort O 784 ows compare instucions O 49 54 Ladder Program Converter Operation Manual S7 200 Status 85 OW Compareinstwcons Compare Orwors O Double W 98 Compare Instructions Compare Or Double Word N1 N2 Compare Or Double Word lt Compare betona Compare Or Double Word i N1 gt N2 D OD lt gt Compare Instructions OE POUDIE ae N1 lt gt N2 Or Double Word lt Compare Or Double Word gt EIE Instructions NISSAN eee 96 OR gt comparisons Compare OrReal 98 compar mstucions Compare OrReal_NT lt aN2 _ 798 compare vsractons Compare 10 OP Rem Onan 7106 109 740 Timer Instructions Timer BGN_ITIME Timer Instructions Beginning Interval Time CAL Calculate Interval Time CU increments the current value 113 Counter Instructions CD decrements the current value CD decrements the current C 118 SUB Di Manis
117. ctions Subroutine Instructions Program Control 205 NEXT For Next Loop Instructions Program Control 206 SCR Load SCR Instructions Instructions Instructions Program Control 209 SCRE SCR End x Instructions Program Control 210 CALL Call Subroutine Instructions FOR NEXT loop number 211 FINAL a Included in FOR when Instructions converted ud m LS Instructions Instructions Program Control 214 STOP Stop x Instructions Instructions Instructions Instructions Instructions Instructions Instructions iqh t t Instructions oe Clock Instructions Read Real Time Clock Extended 53 54 Ladder Program Converter Operation Manual S7 200 Status 226 SET RTCX clock Instructions Set RealTime _ ATT ____ Tabletnsincions X 228 FND Tabieinstnetions TabeFing ______ Xf 220 END Tableinsivctons 230 enos Tabieinstnetions Xf 294 enos ______ Xf 282 FIFO Tabletnsivctons Free _ 283 uro Teewemcom ____ xf 294 FILL 285 ATCH intemuptinstuctons 236 OTCH intenuptinstuctons 238 239 240 241 NI Communications NETR pads Network Read x Instructions Communications NETW TU Network Write x Instructions Communications 243 XMT Transmit x Instructions Communications RCV 2 t Receive x Instructions Communications 245 G
118. e iF RBS 300 DO iiag This te TEMP 0 010 TEMP CH 01 This is te To Omron ladder CP1H CP1L 2 TEMP CH 01 TEMP CH 01 0 DPU IR13 143 DECOP instruction Operand 1 type are DZ DV Operand 2 type are 5 From Mitsubishi ladder DECOP 0020 Kg To Omron ladder CP1E TEMP fi This ix a te 4 300 OO ieg SET 100 00LTEMF To Omron ladder CP1H CP1L ea 300 DRD IR12 TEMP CH Dl 021 _ _01 DR13 imgESTA S31 100 0 8 SET DRS IRIS TEMP This is a te 144 DECOP instruction Operand 1 type are DZ DV Operand 2 type are DZ DV From Mitsubishi ladder 1 DECOP 00 0 01020 Ra To Omron ladder CP1E 0 TEMP id Jon This te ia FRBIWUBZ 300 DO Wed This is a iL PR TEMP CH 01 0 TEMP This te To Omron ladder CP1H CP1L DRO IR 12 TEMP CH O1 ueni TEMP_CH_O1 0 DRO 13 ENCO instruction Operand 1 type are T C D V 2 Operand 2 type T C D V 2 From Mitsubishi ladder ENGO 00 010 To Omron ladder 0 FRBW6 900 DMPEDT TEMP GH 01 010 0 This te TEMP TEMP This te 00 This 145 ENCO instr
119. e and Operand 2 type are K H T C D V Z type D 7722 From Mitsubishi ladder WANDP 010 To Omron ladder WANDP instruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder k dx kd O00 Omron ladder 0 JH This te RBG 1000 TEMP CH 01 This a te ia 0 TEMP CH 02 This te RBG 1000 100 TEMP CH 02 This a te NDW raa TEMP 01 TEMP 02 TEMP 03 This te This te This te mF REDE 1000 TEMP This 12 te 105 WANDP instruction Operand 1 type 2 type and tyep DZ DV From Mitsubishi ladder ANDP 0020 01020 02020 Omron ladder CP1E 6 A M DES DOL Dr2n wea To Omron ladder CP1H CP1L Did IR13 Den IR14 DRO IR12 DRO IR13 DAND instruction DRO IR14 Operand 1 type Operand 2 type K H T C D V Z Operand type D V From Mitsubishi ladder DAND 010 Omron ladder 010 106 DANDinstruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KM KS From Mitsubishi ladder DAND kx kan hdd
120. emens 19 54 Ladder Program Converter Operation Manual 3 Select view STL View the program STL mode Mnemonic list STEP T Nicro WIN SINATIC SIL Eg File Edit View FIC Debug Tools Windows Help Ba 8 2 what s Al CPU 2 Prograr ay Symbol 0 Status Data System PROGRAM COMMENTS E Network 1 Wizard cd Tools 19 0 Instructions ge Favorit Bit Lagi Clock I x Commu Ea Network 2 eg Conver 21 28 VO Network 2 Ini Col 1 Fig 5 12 Siemens Instruction Mnemonic list View 4 Select the program needed to be converted Note It has to start from Network1 and the minimum copy unit is one Network 20 54 Ladder Program Converter Operation Manual 5 Start up CX Programmer and create a new project 2 new CE Programmer 5 Diagram 1 Sele ee Edit View Insert Program PLC Simulation Tools Window Help D c ld alo 4 Ba EB d esu Y m mI el ERE Gh 2 amp y Ph zl xl NewFroject em NewFLC1 CF1E Offline Symbols ttt tut t ttt ut y un t 2 at m t 222 settings rw Memory Programs Gal HewPrograml 00 Symbols 222 Sectionl S MI ie eB Be Sa Project on For Help press
121. er CP1E To Omron ladder CP1H CP1L 010 IR13 DRO IR12 DRD IR13 BMOV instruction Operand 1 type are KX KS Operand 2 type KY KS Operand 3 type K H From Mitsubishi ladder KS 10 10 To Omron ladder 4044 H7 BMOV instruction Operand 1 type are KX KY KS Operand 2 type are T D Operand 3 type are K H From Mitsubishi ladder EMO Tid k1 To Omron ladder 4004 wi 58 BMOV instruction Operand 1 type are T D Operand 2 type are KX KY KS Operand 3 type are K H From Mitsubishi ladder Boo 110 To Omron ladder SA TIU Ww BMOVP instruction 1 type and Operand 2 type D Operand 3 type are K H D From Mitsubishi ladder DU DIO KS 1 To Omron ladder BMOVP instruction Operand 1 type Operand 2 type DZ DV Operand type K H D From Mitsubishi ladder 01020 R3 E To Omron ladder CP1E 53 01024 Omron ladder CP1H CP1L DO IR12 DRO 1 12 IR13 13 59 BMOVP instruction Operand 1 type are KX KY KM KS Operand 2 type are KM KS Operand 3 type K H From Mitsubishi ladder KS 10
122. erand 1 type are T C D V 2 From Mitsubishi ladder TO To Omron ladder INC instruction Operand 1 type are DV DZ From Mitsubishi ladder INC 0020 Omron ladder CP1E To Omron ladder CP1H CP1L 560 bo IR12 590 DRD IR12 DRO 14 95 INC instruction Operand 1 type are KY KS From Mitsubishi ladder IHC kiyigi To Omron ladder This tem This is a tem 590 This iz tem This is tem INCP instruction Operand 1 type are T C D V 2 From Mitsubishi ladder I Hep T To Omron ladder instruction Operand 1 type are DV DZ From Mitsubishi ladder IHC 0020 To Omron ladder CP1E Omron ladder CP1H CP1L instruction Operand 1 type are KY KS From Mitsubishi ladder K 1000 To Omron ladder vicum TEMF CH Ul This tem CH I This iz a tem This iz tem FABIO 400 This ix tem DINC instruction Operand 1 type are T C D V Z From Mitsubishi ladder DINE T To Omron ladder DINC instruction Operand 1 type is DZ From Mitsubishi ladder DINC 0020 To Omron ladder baud Coad To Omron ladder CP1H CP1L 97 DINC instruction Operand 1 type are KY
123. from Interrupt Enable Interrupt Disable Interrupt Clear Interrupt Event Network Read Network Write Transmit Receive Get Port Address Set Port Address String Length Copy String Concatenate String a a Copy Substring from String Find String Within String Find First Character Within String CHR FIND SI CHR FIND 10 Appendix 2 Siemens instruction Convert Solution 1 N SIEMENS 57 200 Class Detail Instruction Bit Logic Instructions set Dominant Bistable From Siemens ladder Hetwork 1 Network Tithe MH etwark Comment 10 0 40 0 51 OUT 10 1 To Omron ladder CD Network Comment I 0 00 xr 100 003 Network Comment t 0 01 100 00 gatur E vnum 11 SIEMENS 57 200 55 Detail Instruction Compare Instructions Compare Load Byte N1 N2 From Siemens ladder Hetwork 1 Network Title Network Comment IB1 H1 U s Metwork Comment TEMP This is a t AONT TEMP GH This is a t 12 SIEMENS 57 200 55 Detail Instruction Compare Instructions Compare Load Byte N1 lt N2 From Siemens ladder Hetwork 2 Network Comment IB 11 0 lt 2 To Omron ladder Cc Network Comment TEMP This iz at
124. hen you add ladder 4 memory Convert Table 57 200 to CP1L M CP1H CP1L M CP1H Area Start Final Area Start Final Bit width Bit CH Bit CH ae Bit CH Bit CH Input 10 0 1157 1 InputArea 0 00 15 07 register Ee IWi4 16bit m ID12 42 32bit Output 000 0157 Output Area 00 E 07 bit register QBO 0815 8bt 1007 awo QW14 168 QDi2 32 Variable Data Register memory V2048 0 V10239 7 Ibit s tcl ins in d ad NU MON 7 MBO MWO MDO 8bit 16bit TO Timer C je __ On i 74 T33 3 0 1137 T65 0 e 1766 75 pa __ 160 T9 la __ hr E CN 25 js 7 60 couter co __ c255 CIO Area 8bt 24 ew WO LW62 f16bit mat wawam ID 324 32bt control relay SBO SB31 8bit wa wes swo SW30 16bit SDO SD28 AQW AQWO AQW62 16bit output Input Area 16bit Output Area 16bit __ m register counter WorkArea peme eT mae Don t use this area when you add ladder TEMP CH H40 H47 IEEE gt 40 5 Special Memory bit Convert Table 57 200 to 1 OMRON OMRON ELECTRONICS LLC THE AMERICAS HEADQUARTERS
125. lace Convert View nline Diagnostics Tools Window Help ER itas as eu En 2524 Halsa d fs im F5 sF5 sF6 F FS F9 sF9 FO 6 10 5 7 528 caFl 210 aF9 TEE ie 4 854 2 e a 56 ie EDS 2 Aje ma i 18 ig E Sm ECCLE sael Qele sll ele Ble x000 M K4s0 8 END Ready FX1H Host station vrwrte Fig 5 1 Mitsubishi GX Developer 12 54 Ladder Program Converter Operation Manual 2 Click E enter the mnemonic list window m series Developer Unset project List Edit mode Step KIB __ Project Edit Find Replace Convert View Online Diagnostics Tools Window Help TT Tr Unset project EF m Program i MAIN m Device commen Farameter H Device memory Project Ims t Host station Ovrwrte 2 Fig 5 2 Mitsubishi instruction list View 3 Select the Program needed to be converted and copy it 13 54 Ladder Program Converter Operation Manual 4 Start up CX Programmer and create a new project 2 new CE Programmer 5 Diagram 1 Sele ee Edit View Insert Program PLC Simulation Tools Window Help D c ld alo 4 Ba EB d esu Y m mI el ERE Gh 2
126. lation Tools Window Help Dg GQ BOs MRR fr 22 39 26 08 m 5 9 2 Pp m H pl gt p HewProject fm NewPLC1 1 Offline i 2 Symbols Network Gonnent 222 Settings 0 00 Memory E Programs NewPrograml 00 NOV 021 Nove Symbols 00 Source word Sectionl 01 This is temp symbol for converting Siemens program Destination NOV 021 Nove 00 Source word 02 This is a temp symbol for converting Siemens program Destination ANDY 034 Logical AND Mord 54 Input 1 000 Input 2 03 This temp symbol for converting Siemens progran Result word Signed Binary Subtract Without Garry 10 Ninuend word 03 is temp symbol for converting Siemens program This Subtrahend word TENP 04 This is a temp symbol for converting Siemens program Result word 225544554666 Shift N Bits Left This z z z M z z NASL 580 z z z z 2 227772777772 is temp svnbol for converting Siemens program Compile Transfer For Help press F1 _ HewPLC1 Net 0 Node 0 Offline rung 2 15 90 Classic Fig 5 17 the result of conversion 23154 Ladder Program Converter Operation Manual 10 Insert the temporary vari
127. le and explained in text This example indicates a precaution for electric shock The circle and slash symbol indicates operations that you must not do The specific operation is shown in the circle and explained in text The filled circle symbol indicates operations that you must do The specific operation is shown in the circle and explained in text This example shows a general precaution for something that you must do 6 54 Ladder Program Converter Operation Manual The triangle symbol indicates precautions including warnings The specific operation is shown in the triangle and explained in text This example indicates a general precaution The triangle symbol indicates precautions including warnings The specific operation is shown in the triangle and explained in text This example indicates a precaution for hot surfaces A N WARNING This tool is just used to convert the instructions of Mitsubishi and Siemens to instructions of OMRON according to the conversion rules as much as possible Because the ladder program can not be converted completely it is necessary to modify the instructions and memory area which have not been converted The operation of the made ladder program must be confirmed enough before carrying out a formal operational System operation may be abnormal without confirmation The I O memory convert specification is made before instruction conversion If you want to add program after conversio
128. lication DIV Division i B 107 WAND Logical Word AND 108 WANDP Logical Word AND 109 DAND Logical Word AND 110 DANDP Logical Word AND 111 WOR Logical Word OR 112 WORP Logical Word OR Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Arithmetic and Logical operations Ladder Program Converter Operation Manual Class Convert Status Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ conversion Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ KMZ TZ CZ NO conversion Operand includes
129. n it is necessary to confirm there is no repetition of I O memory System operation may be abnormal without confirmation 7154 2 2 Ladder Program Converter Operation Manual About Ladder Program Converter This tool is used to convert the instructions of Mitsubishi and Siemens to instructions of OMRON according to the conversion rules Operation Environment Operation System Ladder Program Converter can only run in Microsoft Windows 2000 Service Pack2 or higher Microsoft Windows XP Microsoft Windows Vista 32bit version Object PLC Series PLC type of Conversion Source includes FX3 2 1N 1S of Mitsubishi as well as 57 200 series of Siemens OMRON PLC type of Conversion Destination is CP1H CP1L CP1E 8 54 Ladder Program Converter Operation Manual 3 Installation and uninstall 3 1 Installation The install steps are as follows 1 Uninstall the previous version of Ladder Program Converter before installing the new version Please refer to the section 3 2 for details of the method of uninstall 2 Copy the install files of Ladder Program Converter to object folder specified by users 3 Run setup exe in the install files 4 Install Ladder Program Converter according to the installation prompts Note When installing CX Programmer 9 0 the converter tool Ladder Program Converter v1 1 will be installed at the same time For the new version with Ladder Program Converter v1 2 please refer to the
130. nation or electrical interference or conditions or uses not described in this manual e Nuclear energy control systems combustion systems railroad systems aviation systems medical equipment amusement machines vehicles safety equipment and installations subject to separate industry or government regulations e Systems machines and equipment that could present a risk to life or property Please know and observe all prohibitions of use applicable to the products NEVER USE THE PRODUCTS 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 PRODUCTS ARE PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM 4 CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed at any time based on improvements and other reasons 4 54 Ladder Program Converter Operation Manual Requirement of configuration Environment of the converter can be installed mmm Le Service Pack2 or higher Microsoft Windows XP 32bit version Pentium series CPU Pentium series CPU 150MHz or better CPU 300MHz or better CPU Microsoft recommended Pentium 1GHz or better Pentium III 1GHz or better configuration 1GHz or central processors central processors better CPU Must be 512MB or more Memory RAM 256MB or more 384MB or more or more is better Hard drive space 50MB of free 50MB
131. nd Compare x y 0 DFMOVP _ Fill Move Move and Compare x xchange Move and Compare e e Exchange Move and Compare e e Ladder Program Converter Operation Manual Function i zu Remark Status XCH Move and Compare To CP1E No Conversion 74 Move and Compare To CP1E No Conversion BCDP N N DBCD Conversion to Binary Coded Decimal Conversion to Binary Coded Decimal Conversion to Binary Coded Move and Compare Move and Compare Move and Compare Operand includes KZ KV KXZ KYZ KSZ KMZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KV 2 KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ TV CZ CV NO conversion Operand includes KZ KV KXZ KYZ KSZ TZ CZ CV NO conversion Operand includes KZ KXZ KYZ KSZ TZ CZ NO conversion Operand includes KZ KXZ KYZ KSZ
132. on e e o O 9 JOR jO Contactinstruction o 9 4 10 ORI 7 Contact Instruction e o O 11 OrPuse e e ej e o 4 JP 12 jOrFalingPuse Contact Instruction_ e e e e o O 13 ANB AndBock Contact Instruction o o o J 15 MPS Memory Point Contact Instruction otore 16 MRD MemoryRead Contactinstrucion Pa ee PE M 18 INV inverse Contact Instruction o 19 Contact Instruction O 20 Contact Instruction JP 21 OUT Ot o 22 OUT C Ot Out Instruction 6 o 23 OUT T Ot Out Instruction o 24 Set jOwhsu ion o ojo P3 eme Instruction el p Instruction o O eT 30 NOP NoOperation Other Instruction Ed o __________ SIND m l Instruction em ume Ire Instruction ProgramFow O __________ 35 _____ Conditionaljump ProgamFlow o 36 CAL Subroutine PromgamFow 37 Call Subroutine ProgamFlow eje
133. ons Or Byte Instructions WXOR B Exclusive Byet Instructions WAND W Logical Operations And Word Instructions Instructions WXOR_W t Exclusive Or Word Instructions WAND pw Logical Operations d Double Word Instructions WOR_DW ee persos Or Double Word Instructions WXOR DW Exclusive Or Double Word Instructions Logical Operations 161 INV B Instructions Instructions 6 2 w Instructions Ladder Program Converter Operation Manual Instruction Cisse Convert S7 200 Status Instructions Instructions Instructions Instructions Instructions Instructions Instructions i tat Instructions Instructions i tat Instructions i tat Instructions i tat Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions Instructions EG TA TA Double Integer to ASCII x Instructions TA Real to ASCII x Instructions 15 Conversion Integer to String x Instructions Ladder Program Converter Operation Manual Instruction Cisse Convert S7 200 Status Instructions Instructions Instructions Instructions Instructions Program Control 200 JMP Jump to Label Instructions Instructions Program Control 202 SBR Subroutine Start Instructions 203 Control Condutional Return from x Instru
134. pendix 2 Mitsubishi Instruction Convert Solution 1 OUT instruction Operand type is Count instruction From Mitsubishi ladder To Omron ladder ONT At46 000 RST instruction Operand type T C From Mitsubishi ladder RST To Omron ladder CHR22647 RST instruction Operand type D 2 V From Mitsubishi ladder RST 010 Omron ladder MONET 22 CJ instruction Operand type are PZ PV From Mitsubishi ladder eu POZO To Omron ladder CP1E TEMP 1400 This te TEMP This te Omron ladder CP1H CP1L 400 TEMP 01 This is a tem TEMP CH 01 This is a tem CJP instruction Operand type is P From Mitsubishi ladder Cup p To Omron ladder __ __ 23 CJP instruction Operand type are PZ PV From Mitsubishi ladder EJF POZO To Omron ladder CP1E 1400 TEMP CH 01 This te This te To Omron ladder CP1H CP1L 400 TEMP CH 01 This is a tem 1 TEMP CH 01 This is a tem FOR instruction Operand type are T C D V Z From Mitsubishi ladder F k1 To Omron ladder FORM 2 510 FOR instruction Operand type are DZ DV From Mitsubishi ladder FOR 0020 Omron ladder CP1E 2 DO uy
135. quals EG F P EG Equals EG F P_LT 100 02 Less Than LL Less Than LL DCMP instruction Operand 1 type Operand 2 type are KX KY KM KS From Mitsubishi ladder kix Omron ladder 498 0 TEMP D 01 This a te 0 TEMP 03 This ig a te 400 TEMP 0 This te AFRE 400 100 TEMP DW 03 This te 15 TEMP D wi l1 TEMP 03 This is a te This te P 1 Greater Thani POT Greater Thani P EG 11 Equals EG F P EG Equals EQ F P_LT 1 Less Than LL PLT Less Than LL 32 DCMP instruction Operand 1 type and Operand 2 type are DZ From Mitsubishi ladder 0020 01020 Omron ladder CP1E 115 EULIS 7024 Omron ladder CP1H CP1L MOvVR S60 IR 12 MovR S60 IR 13 CPSLET18 DRO IR12 DRO IRIS P Ar 11 Wid OO Equals EG F P EG Equals EG F P LT Greater Than KEEP O1 1 wO O 11 Wil Less Than 117 33 DCMPP instruction Operand 1 type and Operand 2 type H T D Z From Mitsubishi ladder DCHPP T Omron ladder 34 DCMPP instruction Operand 1 type and Operand 2 type are KX
136. rand 3 tyep are DZ From Mitsubishi ladder DRHDP 0020 01020 02020 Omron ladder CP1E OTOL Dr2n wea To Omron ladder CP1H CP1L S60 Du 18 12 MMOVR S80 Diu IR 13 IR 14 610 DRO 12 DRO IRIS DRO IR 14 109 WOR instruction Operand 1 type Operand 2 type H T C D V Z Operand type are D 7722 From Mitsubishi ladder WR 00 010 To Omron ladder WOR instruction Operand 1 type Operand 2 type are KX KY KS Operand 3 type are KY KS From Mitsubishi ladder R kA DDN To Omron ladder 0 TEMP ONT AH This ig a te AFRBBZ 1000 TEMP CH 01 This iz a te ONT 0 TEMP 02 This te AF RBB2 1000 100 TEMP GH 02 This te TEMP TEMP 02 TEMP 03 This te This te This te AF RBB2 1000 TEMP wut This i te 110 WOR instruction Operand 1 type 2 type and Operand type are DZ DV From Mitsubishi ladder 0020 01020 02020 Omron ladder CP1E Boon os To Omron ladder CP1H CP1L D20 IR14 DR IR1Z DR IR13 WORP instruction DRO IR14 Operand 1 type Operand 2 type K H T C D V Z Operand type D V From
137. rom Mitsubishi ladder 00 010 Yun To Omron ladder 011 100 01 Equals EG F P EG Equals F P LT 100 02 28 instruction Operand 1 type Operand 2 type KX KY KM KS From Mitsubishi ladder EPP kann To Omron ladder 0 TEMP This is a t 0 TEMP 02 This a te FRB O62 1000 TEMP This te FRB 62 1000 100 TEMP 02 This te 25 114 TEMP GH 02 MP CH 01 MP CH This i a te This te B M B 29 instruction 1 type Operand 2 type DZ DV From Mitsubishi ladder 0020 01021 To Omron ladder Omron ladder CP1H CP1L LIPiSz1 IR13 5114 1812 DR 1813 P ar Du w0 00 Greater Than P ar Greater Than P FO 112 w 01 Equals EQ Flag P Equals EQ Flag P LT 1 1 we Less Than 117 P_LT Less Than LT 30 DCMP instruction Operand 1 type Operand 2 type are K H T C D Z From Mitsubishi ladder J OCHP k3 T3 OOO To Omron ladder 100 00 Greater Thani P 11 100 01 E
138. ron ladder CP1H CP1L Hn DR13 310 udi DRO IRL DR13 IR13 T4590 TT 125 SFWRP instruction Operand 1 type are K H T C D V Z From Mitsubishi ladder 010 1 MONT DU 0111010 To Omron ladder CP1H CP1L 560 011 IR12 LPiS21 lt 310 010 DR12 IR12 EN M 126 SFWRP instruction Operand 1 type are KX KY KM KS From Mitsubishi ladder oF WRF 4 000 010 Omron ladder CP1E N MOV EE AF REDZ 1000 0 TEMP CH Uf This TEMP GH 01 0111010 eim This te To Omron ladder CP1H CP1L MOvr z 1 0 TEMP CH XFRBI OEZ 1000 TEMP MOVRIEBU D11 IR12 MOv Oz1 D10 DR12 3107 210 MOV D21 CH 01 DR12 IR12 CIEE 85 127 SFWRP instruction Operand 1 type are DZ DV From Mitsubishi ladder oF RP 0020 010 To Omron ladder CP1E MOV 4 0111010 To Omron ladder CP1H CP1L rm a DI EE 210 021 DRO 12 13 128 SFRD instruction Operand 2 type T C D V 2 From Mitsubishi ladder TsFRD 010 Ka To Omron ladder MOVE 20320 011 014 5200175 011 014 011 014 011 014 011 10 129 SFRD instruction Operand 2
139. rted click Tools menu or right button select Options the Options screen is displayed Options Program Editor Allows you to configure the Program Editor by changing font color and other display options Program Editor STL Status Editor B Symbol Table Width 100 Eu D Symbolic Addressing Data Block Oross Reference Display Symbol and Address Output Window Instruction Tree Symbol 1004 IN1 OUT F Symbol3 300 Navigation Bar Symbol2 2004 IN2 Print Inside Instruction m Category All Categories Preview Status Display Type MS Sans Serif Variable Table Cell Style Regular POU Comments Network Number Size 8 gt Network Title Enable operand editing after placing instruction Fig 5 10 Options Screen of Siemens Select General in the left tree menu and International in the item of Mnemonic Set Options General Allows you to configure general software options 15 Options General Defaults Colors Proeram Editor Default Editor Programming Mode Symbol Table STL Editor SIMATIC Status Chart Ladder Editor 1131 3 Data Block Editor Cross Reference Output Window Mnemonic Set Language Instruction Tree International ibd Bar SIMATIC rin Regional Settings Measurement System us Time Format 12 hour Date Format mm dd yy Cancel Reset All Fig 5 11 General Screen of Si
140. struction 1E MI BK P Block Data Subtraction MI DBK Block Data Subtraction DBK P DBK P Block Data Subtraction 405 BKCMP MI X Block Data Compare mmm Tm 406 MI X Block Data Compare mmm TT e 407 DBKCMP X Block Data Compare 408 DBKCMP P MI X Block Data Compare 409 gt gt X Block Data Compare Tt 410 gt gt X Block Data Compare EN 411 DBKCMP gt DBKCMP gt X Block Data Compare paee eee 412 DBKCMP gt P MI gt X Block Data Compare pam LT T s 413 BKCMP MI BKCMP X x x Block Data Compare meee eee 414 BKCMP lt P lt x x Block Data Compare 415 DBKCMP MI DBKCMP X Block Data Compare TT 416 DBKCMP lt P MI DBKCMP P x x Block Data Compare pam p 417 lt gt lt gt x x x Block Data Compare 418 BKCMP lt gt P lt gt x x Block Data Compare 419 DBKCMP lt gt MI lt gt x Block Data Compare mmm II 420 lt gt MI lt gt x x Block Data Compare mm 7 eee 421 lt lt x x Block Data Compare 422 BKCMP lt P
141. struction conversion error occurs the instruction of conversion destination has not Step No only the first OMRON instruction of conversion destination has When the operand conversion error occurs the Step No will be generated normally When converting the Mitsubishi program by the COPY PASTE conversion method the content of CSV file first column Conversion Source Step is not the Step No in GX D but the Instruction Quantity No Note 1 One source instruction is converted to more than one destination instruction or one source instruction being converted to one destination instruction with different number and order of operands 2 Open the CSV File in Excel When Opening the CSV file in Excel please pay attention to the following items 1 When the operand of OMRON instruction is bool type and the decimal fraction part is 0 the decimal fraction part will be lost For example 0 00 will be displayed as 0 2 The L L and L instruction of OMRON will be displayed as NAME Please modify it manually 3 and instruction of OMRON in excel will be as maths symbols Please modify it manually 4 Please edit the CSV file in Notepad not in Excel 25 54 Ladder Program Converter Operation Manual 3 Conversion Example Example of Mitsubishi w x p b 09 _ n _ x WoSemmb o Example of Siemens o __ w Network MOW WO
142. t r relay M1600 M3071 Decimal Can not IE T246 T249 Decimal Can not ial call alll 200 255 not rpg Register Register 08192 D8255 Decimal Can not change 1 Register a Decimal LE Decimal Decimal Decimal Decimal M Decimal Decimal 7 Decima CH Area Frere mee ms Don t use this area when you add ladder TEMPCH 33 0 s ao 158 2 memory Convert Table FX3 to CP1E EooDo o CP1E EooDo o Area Start Final Area Area Start Final Bit width Bit CH Bit CH number Bit CH Bit CH 000 377 Octal Input Area 15 15 16bit oes wu relay M1600 M3071 Decimal Can not 246 249 Decimal not change 200 255 Decimal Can not change Index zo Decimal Holding Area HO ___ Register LAM UN m qe ___ z w 23 3 Decimal 24 Decimal 25 Decimal 26 ve Decimal z v so Decimal e Werke c Don tuse this area when you add ladder TEMPCH 3 mw ow Register 02048 D8255 Decimal Can not FT m V 159 3 memory Convert Table to CP1H CP1L CP1H CP1L __ 0 0 Start Final Area Area Start Final Bit width am si ss T me _ 000 1515 _
143. ting Point To CP1E No Conversion Radians to Degrees Conversion Floating Point Floating Point To CP1E No Conversion Radians to Degrees Conversion Sum of Word Data ata Operation 2 20 WSUMP Sum of Word Data ata Operation 2 Z O1 O DRADP 317 DDEG 318 DDEGP co OO D D WSUM Sum of Word Data DataOperation2 J 322 DWSUMP Sum of Word Data Operation2 TOB WORDtoBYTE DataOperation2 J TOW TOWP 327 4 bit Linking of Data Operation 2 x For NN i x Word Data Word Data 4 bit Grouping of Word Data Float to Scientific Data Operation 2 Q2 N cO o oo 2 o 2 9 lt 92 9 C t lt Operand includes address out of converter range and KY KM KS TV TZ CV CZ DV DZ KYZ KSZ KMZ NO conversion 332 SWAPP Float to Scientific Data Operation 2 Operand includes address out of converter range and KY KM KS TV TZ CV CZ DV DZ KYZ KSZ KMZ NO conversion 38 54 Ladder Program Converter Operation Manual Class Convert Status 333 DSWAP Float to Scientific Data Operation 2 Operand includes address out of converter range and KM KS TZ CZ DV DZ KYZ KSZ KMZ NO conversion 334 DSWAPP Float to Scientific Data Operation 2 Operand includes address out of converter range and KM KS
144. type are DZ DV From Mitsubishi ladder 010 0020 TO o EU Omron ladder CP1E Ove 4 i ee eee 21320 i 014 014 11 4 ni To Omron ladder CP1H CP1L DRO IR13 5az IR 13 D14 5801075 014 58 0075 D14 SRD 0751 014 130 SFRDP instruction Operand 2 type T C D V 2 From Mitsubishi ladder oFROP 010 DU Ka To Omron ladder 2 DT bo SRD 014 580075 D11 014 131 SFRDP instruction Operand 2 type are DZ DV From Mitsubishi ladder oF ROP Ka Omron ladder CP1E omo SRDS 011 D14 SRDQ75 D14 To Omron ladder CP1H CP1L MOVRISSD IR13 521 EH MOV O21 08 0 1813 T m SRD D75 D11 014 SRD D75 D11 D14 132 ZRST instruction Operand 1 type and Operand 2 type T D From Mitsubishi ladder ZRST To Omron ladder NNNM ZRST instruction Operand 1 type and Operand 2 type are Y M 5 From Mitsubishi ladder 12857 OOS To Omron ladder TT ZRST instruction Operand 1 type and Operand 2 type DZ DV From Mitsubishi ladder 4 8 0020 0321 Omron ladder CP1E m Omron ladder CP1H CP1L 12 S60 MOVR 580 1 U DRO IR 12
145. uction Operand 1 type DZ DV Operand 2 type are DZ DV From Mitsubishi ladder ENCO 00 0 01011 Kd To Omron ladder CP1E 0 TEMP CH Ul OV E This is a te AFRE 900 00 24 3 This is a te _ Dr 0 TEMP CH This te To Omron ladder CP1H CP1L 0 TEMP CH D1 800 DROIRIZ TEMP CH 01 TEMP DRO 13 0 instruction Operand 1 type are T D V 2 Operand 2 type T C D V 2 From Mitsubishi ladder LENCOP DU D10 Ka ia cr 0 TEMP CH 01 This is ix FREBTBDZ sai TEMP CH 01 This is a te iW PATI TEMP CH Ul O10 0 This is a 146 ENCOPinstruction Operand 1 type are DZ DV 5 3 2261 DZ DV From Mitsubishi ladder ENCOP 0020 01041 Omron ladder CP1E cry 1 TEMP This ia rFRBUIB2 300 0024 TEMP 01 This is IMPEDIT TEMP D 0 This te Omron ladder CP1H CP1L 0 TEMP _ DRO IR 12 TEMP Ul undi Bi pP story TEMP DRZ IR 13 0 147 Appendix 3 Mitsubishi Memory Convert Table 1 FX1 series memory Convert Table 1 memory Convert Table FX1S to CP1E EqoDo o CP1E NooDo s CP1E EooDo o CP1E NooDo o Area Start Final Area Area
146. uctions and can not be achieved SUBROUTINE instructions will no function after being converted In Mitsubishi PLC program be divided into shorter period of WDT function is changed time through WDT watchdog timer monitor the cycle time after being converted EI DI function is changed The Mitsubishi PLC default disable interrupts after being converted The Omron PLC default ensable interrupts To ASC instructions if the string of first operand contains symbol The function of ASCII code e then the characters after this symbol will be abandoned If this string instructions is difference contains two or more symbols then the second operand will be after being converted abandoned too 11 54 Ladder Program Converter Operation Manual 5 Copy Paste Conversion Method in CX P The Ladder Program Converter supports copying the program from the conversion source software Mitsubishi GX Developer Siemens STEP 7 MicroWIN directly and pasting to the CX Programmer 9 0 CX Programmer for CP1E 1 00 or higher Version 5 1 Copy Program from GX Developer of Mitsubishi Only Fx3 2 1N 1S series PLC of Mitsubishi supports the direct copy method The integrity of program reading can not be guaranteed when the method are used to other series PLC 1 Open the source program in GX Developer i series Developer Unset project LD Edit 9 Step Project Edit Find Rep
147. version 452 To CP1E No Conversion 454 FDELP Deleting Data from Data Operation 3 Operand includes address Tables out of converter range and TZ CV CZ DV DZ NO conversion To CP1E No Conversion 455 FINS Inserting Data to Data Operation 3 Operand includes address Tables out of converter range and TZ CV CZ DV DZ NO conversion CP1E No Conversion 456 FINSP Inserting Data to Data Operation 3 Operand includes address Tables out of converter range and TZ CV CZ DV DZ NO conversion 457 Shift Last Data Data Operation 3 Read FILO Control 458 POPP Shift Last Data Data Operation 3 Read FILO Control meer eme mmm Carry Bit Shift Right with Carry 459 SFR 460 SFRP Carry Carry 463 S1 S2 Inline Comparisons Operand includes KZ KV KX KS KM KXZ KSZ KMZ TZ CZ DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Inline Comparisons Operand includes KZ KV KX KS KM KXZ 464 LDD S1 S2 Inline Comparisons TI I V 465 51 gt 51 KSZ KMZ TZ CZ DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ CV DZ DV NO conversion Operand includes KZ KV KS KM KXZ KSZ KMZ TZ CZ DZ DV NO conversion Oper
148. w Insert Program PLC Simulation Tools Window Help m x 2 e es CR EE E 92 Vw as lt She Ra 5 O 8L Ri 1 5 05 SB 22 39 25 5 gt N p gt 52 Bi 8 ps NewProject CY BOOL CF004 Work CY Flag 9 NewPLCI CP1E Offline P Cyde Time Error BOOL A401 08 Work Cycle Time Error Flag Symbols TP Cyce Time Value LIDINT A264 Work Present Scan Time Settings PEQ BOOL CF006 Work Equals EQ Flag wai d PER BOOL CF003 Work Instruction Execution Error ER Flag P First Cycle BOOL A200 11 Work First Cycle Flag El NewProgram1 00 a Symbols P First Cycle Task BOOL A200 15 Work First Task Execution Flag Section P GE BOOL Work Greater Than or Equals GE Flag BOOL 005 Work Greater Than GT Flag SC PLE BOOL CF002 Work Less Than or Equals LE Flag P Low Battery BOOL A402 04 Work Low Battery Flag x PIT BOOL CF007 Work Less Than LT Flag Max Time UDINT A262 Work Maximum Cycle Time BOOL 008 Work Negative Flag P NE BOOL 001 Work Not Equals Flag P BOOL 009 Work Overflow Flag BOOL CF114 Work Always OFF Flag P BOOL CF113 Work Always ON Flag P Output Off Bit BOOL 4500 15 Work Output OFF Bit P Step BOOL A200
149. x 2 Invert Double Word X Shift Right Byte n X Shift Left Byte a a a ow O O O N gt Shift Left Word Shift Right Double Word Shift Left Double Word x Rotate Right Byte x x ES gt 3 Rotate Left Byte Rotate Right Word Rotate Left Word Rotate Right Double Word 175 ROL_DW Rotate Left Double Word X Shift and Rotate Register Convert Solution 176 SHRB S SHRB Destination Instruction Source Instruction S7 200 Refer to Appendix 2 177 BCD Convert Solution Refer to Appendix 2 178 BCD Convert Solution BCD to integer Integer to BCD 179 DI_R DTR FLTL Refer to Appendix 2 Double Integer to Real 180 ROUND Round T 0 2 2 7 Convert Solution 184 TRUNC FIXL Truncate Refer to Appendix 2 183 Integer to Double Integer Convert Solution 1 N 1 N ise x x em wu x x moe SSS sos x x lt pus 196 RS Real to String Convert Solution 1 N 1 N fuss x x Serger smeebwemmpwr Refer to Appendix 2 204 FOR For Next Loop Convert Solution 1N EN 1 N Source Instruction S7 200 211 FINAL 212 END 13 DIAG_LED N gt STOP ES S oc gt A 220 221 HSC 222 PLS 223 READ RTC
150. ype are K H T C D V Z Operand 3 type are D V 2 From Mitsubishi ladder Di KO Ke be _ To Omron ladder DIVP instruction Operand 1 type and Operand 2 type are KX KY KS Operand 3 type are KS From Mitsubishi ladder Dl vt kd krij KAS 10 To Omron ladder fadi COPA 0 TEMP 01 This te fadi 0 TEMP 02 This te 1000 TEMP GH Ul This a te i FRBIUSZ 1000 100 TEMP 02 This te TEMP 01 TEMP TEMP GH 03 This a te This te This te FR BOGS 1040 03 This te 90 DIVP instruction Operand 1 type Operand 2 type and Operand 3 type are DZ DV From Mitsubishi ladder 00 0 01020 07020 To Omron ladder CP1E To Omron ladder CP1L 1H pin IR13 Den IR14 DRO IR12 DRD IR13 14 DDIV instruction Operand 1 type and Operand 2 type are K H T C D V type l C Db V Z From Mitsubishi ladder Ke T To Omron ladder 91 DDIV instruction Operand 1 type and Operand 2 type are KX KS Operand 3 type KY KS From Mitsubishi ladder 4 kan 4510 498 0 TEMP Dw 0 This te i48 0 TEMP Dw 03 This te AF REB2
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