Instruction List - Alphabetic
- CIMON (Unlicensed)
Instruction | Type of Input | Note |
; | ; (notes) | Shows Description. |
ACOS |
| Calculates angle from COS value designated by S, and stores operation result at word device designated by D |
ACOSP |
| Calculates angle from COS value designated by S, and stores operation result at word device designated by D |
ADD | ADD (S1) (S2) (D) | Adds Data S1 To Data S2, And Stores The Result In Device D. |
ADDP | ADDP (S1) (S2) (D) | Adds Data S1 To Data S2, And Stores The Result In Device D. |
ANB | ANB | AND-Operates Blocks And Takes The Result As Operation Result. |
AND | AND (S) | AND-Operates Contact a Of The Assigned Contact And Connected Contants In Series, And Takes The Result As Operation Result. |
AND< | AND< (S1) (S2) | If Data S1 Is Less Than Data S2, ON. If Greater Than Or Equal To, OFF. AND-Operates The Result And Result Of The Current Operation. |
AND<= | AND<= (S1) (S2) | If Data S1 Is Less Than Or Equal To Data S2, ON. If Greater Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
AND<> | AND<> (S1) (S2) | If Data S1 And Data S2 Are Not Equal, ON. If Equal, OFF. AND-Operates The Result And Result Of The Current Operation. |
AND= | AND= (S1) (S2) | If Data S1 And Data S2 Are Equal, ON. If TNot Equal, OFF. AND-Operates The Result And Result Of The Current Operation. |
AND> | AND> (S1) (S2) | If Data S1 Is Greater Than Data S2, ON. If Less Than Or Equal To, OFF. AND-Operates The Result And Result Of The Current Operation. |
AND>= | AND>= (S1) (S2) | If Data S1 Is Greater Than Or Equal To Data S2, ON. If Less Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDBT | ANDBT (S1) (S2) | AND-Operates the bit of the order assigned to S2 in the word device data assigned to S1 and Contact A. |
ANDD< | ANDD< (S1) (S2) | If Double-Word Data S1 Is Less Than Double-Word Data S2, ON. If Greater Than Or Equal To, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDD<= | ANDD<= (S1) (S2) | ANDD<= (S1) (S2)" , "If Double-Word Data S1 Is Less Than Or Equal To Double-Word Data S2, On. If Greater Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDD<> | ANDD<> (S1) (S2) | ANDD<> (S1) (S2)" , "If Double-Word Data S1 Is Not Equal To Double-Word Data S2, ON. If Equal To, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDD= | ANDD= (S1) (S2) | ANDD= (S1) (S2)" , "If Double-Word Data S1 Is Equal To Double- Word Data S2, ON. If Not Equal to, OFF.AND-Operates The Result And Result Of The Current Operation. |
ANDD> | ANDD> (S1) (S2) | ANDD> (S1) (S2)" , "If Double-Word Data S1 Is Greater Than Double-Word Data S2, ON. If Less Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDD>= | ANDD>= (S1) (S2) | ANDD>= (S1) (S2)" , "If Double-Word Data S1 Is Greater Than Or Equal To Double-Word Data S2, ON. If Less Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDE< | ANDE< (S1) (S2) | f Float Data S1 Is Less Than float Data S2, ON. If Greater Than Or Equal To, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDE<= | ANDE<= (S1) (S2) | If Float Data S1 Is Less Than Or Equal To Float Data S2, On. If Greater Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDE<> | ANDE<> (S1) (S2) | If Float Data S1 Is Not Equal To Float Data S2, ON. If Equal To, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDE= | ANDE= (S1) (S2) | If Float Data S1 Is Equal To Float Data S2, ON. If Not Equal to, OFF.AND-Operates The Result And Result Of The Current Operation. |
ANDE> | ANDE> (S1) (S2) | If Float Data S1 Is Greater Than Float Data S2, ON. If Less Than, OFF. AND-Operates The Result And Result Of The Current Operation. |
ANDE>= | ANDE>= (S1) (S2) | If Float Data S1 Is Greater Than Or Equal To Float Data S2, ON. If Less Than, OFF. AND-Operates The Result And Result Of The Current Operation |
ANDF | ANDF (S) | If Input Condition To Contact To Detect Connection In Series Is Off From On, Device S Is Set For One Scan. |
ANDI | ANDI (S) | AND-Operates Contact b Of The assigned Contact And The Connected Contact In Series, Takes The Result As Operation Result. |
ANDP | ANDP (S) | If Input Condition To Contact To Detect Connection In Series Is On From Off, Device S Is Set For One Scan. |
ASIN | ASIN (S) (D) | Calculates angle from sin value designated by S, and stores operation result at word device designated by D |
ASINP | ASIN (S) (D) | Calculates angle from sin value designated by S, and stores operation result at word device designated by D |
ATAN | ATAN (S) (D) | Calculates angle from tan value designated by S, and stores operation result at word device designated by D |
ATANP | ATAN (S) (D) | Calculates angle from tan value designated by S, and stores operation result at word device designated by D |
ATVP | ATVP | Swap Active Status in Redundant System |
BACOS | BACOS (S) (D) | Calculates angle from COS value designated by S, and stores operation result at word device designated by D |
BACOSP | BACOSP (S) (D) | Calculates angle from COS value designated by S, and stores operation result at word device designated by D |
BADD | BADD (S1) (S2) (D) | Adds 4 Digits BCD Data In S1 To 4 Digits BCD Data In S2, And Stores The Result In Device D. |
BADDP | BADDP (S1) (S2) (D) | Adds 4 Digits BCD Data In S1 To 4 Digits BCD Data In S2, And Stores The Result In Device D. |
BASIN | BASIN (S) (D) | Calculates angle from sin value designated by S, and stores operation result at word device designated by D |
BASINP | BASINP (S) (D) | Calculates angle from sin value designated by S, and stores operation result at word device designated by D |
BATAN | BATAN (S) (D) | Calculates angle from sin value designated by S, and stores operation result at word device designated by D |
BATANP | BATANP (S) (D) | Calculates angle from sin value designated by S, and stores operation result at word device designated by D |
BCD | BCD (S) (D) | Converts BIN Data Value In S To BCD Data And Stores The Result In Device D. |
BCDDA | BCDDA (S) (D) | Converts 4 Digits BCD Data In S To Decimal ASCII Code And Stores The Result In Device D. |
BCDDAP | BCDDAP (S) (D) | Converts 4 Digits BCD Data In S To Decimal ASCII Code And Stores The Result In Device D. |
BCDP | BCDP (S) (D) | Converts BIN Data Value In S To BCD Data And Stores The Result In Device D. |
BCOS | BCOS (S) (D) | Calculates the cos value of the designated value, and stores the sign of the operation result in the device at D, and the operation result in the device designated at D+1 and D+2. |
BCOSP | BCOS (S) (D) | Calculates the cos value of the designated value, and stores the sign of the operation result in the device at D, and the operation result in the device designated at D+1 and D+2. |
BDIV | BDIV (S1) (S2) (D) | Divides 4 Digits BCD Data In S1 By 4 Digits BCD Data In S2 And Stores The Result In Device D. |
BDIVP | BDIVP (S1) (S2) (D) | Divides 4 Digits BCD Data In S1 By 4 Digits BCD Data In S2 And Stores The Result In Device D. |
BDSQR |
| Store appointed data in area that is specified by D after square root arithmetic by S. |
BDSQRP |
| Store appointed data in area that is specified by D after square root arithmetic by S. |
BIN | BIN (S) (D) | Converts 4 Digits BCD Data Value In S To BIN Data And Stores The Result In Device D. |
BINDA | BINDA (S) (D) | Converts BIN Data In S To Decimal ASCII Code And Stores The Result In Device D. |
BINDAP | BINDAP (S) (D) | Converts BIN Data In S To Decimal ASCII Code And Stores The Result In Device D. |
BINHA | BINHA (S) (D) | Converts BIN Data In S To Hexadecimal ASCII Code And Stores The Result In Device D. |
BINHAP | BINHAP (S) (D) | Converts BIN Data In S To Hexadecimal ASCII Code And Stores The Result In Device D. |
BINP | BINP (S) (D) | Converts 4 Digits BCD Data Value In S To BIN Data And Stores The Result In Device D. |
BITMOV | BITMOV (S) (D) (n) | Sends the data in the device assigned to S as much as n bits from the start device number in the device assigned to D. |
BITMOVP | BITMOVP (S) (D) (n) | Sends the data in the device assigned to S as much as n bits from the start device number in the device assigned to D. |
BKAND | BKAND (S1) (S2) (D) (n) | AND-Operates n Pieces Of Data In Device S1 And n Pieces OF Data In Device S2, And Stores The Result In Device D. |
BKANDP | BKANDP (S1) (S2) (D) (n) | AND-Operates n Pieces Of Data In Device S1 And n Pieces OF Data In Device S2, And Stores The Result In Device D. |
BK= | BK= (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK=P | BK=P (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK<> | BK<> (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK<>P | BK<>P (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK< | BK< (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK<P | BK<P (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK<= | BK<= (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK<=P | BK<=P (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK> | BK> (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK>P | BK>P (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK>= | BK>= (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BK>=P | BK>=P (S1) (S2) (D) (B) (n) | Compare [n] of 16 bit data from the device designated by [S1] with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. Compare 16 bit data with [n] of 16 bit data from the device designated by [S2] and stores the results from bit [n] of the device designated by [D]. |
BKOR | BKOR (S1) (S2) (D) (n) | OR-Operates n Pieces Of Data In S1 And n Pieces Of Data In S2, And Stores The Result In Device D. |
BKORP | BKORP (S1) (S2) (D) (n) | OR-Operates n Pieces Of Data In S1 And n Pieces Of Data In S2, And Stores The Result In Device D. |
BKXNR | BKXNR (S1) (S2) (D) (n) | Exclusive - NOR-Operates n Pieces Of Data In S1 And n Pieces Of Data In S2, And Stores The Result In Device D. |
BKXNRP | BKXNRP (S1) (S2) (D) (n) | Exclusive - NOR-Operates n Pieces Of Data In S1 And n Pieces Of Data In S2, And Stores The Result In Device D. |
BKXOR | BKXOR (S1) (S2) (D) (n) | Exclusive - OR-Operates n Pieces Of Data In S1 And n Pieces Of Data In S2, And Stores The Result In Device D. |
BKXORP | BKXORP (S1) (S2) (D) (n) | Exclusive - OR-Operates n Pieces Of Data In S1 And n Pieces Of Data In S2, And Stores The Result In Device D. |
BMOV | BMOV (S) (D) (n) | Transmits n Pieces Of Data In S To Device D. |
BMOVP | BMOVP (S) (D) (n) | Transmits n Pieces Of Data In S To Device D. |
BMUL | BMUL (S1) (S2) (D) | Mutiplies 4 Digits BCD Data In S1 By 4 Digits BCD Data In S2. |
BMULP | BMULP (S1) (S2) (D) | Mutiplies 4 Digits BCD Data In S1 By 4 Digits BCD Data In S2. |
BREAK | BREAK | Comes Out From The FOR ~ NEXT Instruction. |
BREAKP | BREAKP | Comes Out From The FOR ~ NEXT Instruction. |
BRST | BRST (D) (n) | Resets nth Bit in Word Data Bits In Device D. |
BRSTP | BRSTP (D) (n) | Resets nth Bit in Word Data Bits In Device D. |
BSET | BSET (D) (n) | Sets nth Bit In Data Bits In Device D. |
BSETP | BSETP (D) (n) | Sets nth Bit In Data Bits In Device D. |
BSFL | BSFL (D) (n) | n Pieces Of Data Are Shifted Left From Data In Device D And The Shifted Lowest Data Is Filled With 0. |
BSFLP | BSFLP (D) (n) | n Pieces Of Data Are Shifted Left From Data In Device D And The Shifted Lowest Data Is Filled With 0. |
BSFR | BSFR (D) (n) | n Pieces Of Data Are Shifted Right From Data In Device D And The Shifted Uppermost Data Is Filled With 0. |
BSFRP | BSFRP (D) (n) | n Pieces Of Data Are Shifted Right From Data In Device D And The Shifted Uppermost Data Is Filled With 0. |
BSIN | BSIN (S) (D) | Calculates the sin value of the designated value, and stores the sign of the operation result in the device at D, and the operation result in the device designated at D+1 and D+2 |
BSINP | BSINP (S) (D) | Calculates the sin value of the designated value, and stores the sign of the operation result in the device at D, and the operation result in the device designated at D+1 and D+2 |
BSQR | BSQR (S) (D) | Store appointed data to area that is specified by D after square root arithmetic by S. |
BSQRP | BSQRP (S) (D) | Store appointed data to area that is specified by D after square root arithmetic by S. |
BSUB | BSUB (S1) (S2) (D) | Subtracts 4 Digits BCD Data In S2 From 4 Digits BCD Data In S1 And Stores The Result In Device D. |
BSUBP | BSUBP (S1) (S2) (D) | Subtracts 4 Digits BCD Data In S2 From 4 Digits BCD Data In S1 And Stores The Result In Device D. |
BTAN | BTAN (S) (D) | Calculates TAN (tangent) value for value (angle) designated by S , and stores the sign for the operation result in the word device designated by D , and the operation result in the word device designated by D +1 and D +2 |
BTANP | BTANP (S) (D) | Calculates TAN (tangent) value for value (angle) designated by S , and stores the sign for the operation result in the word device designated by D , and the operation result in the word device designated by D +1 and D +2 |
BXCH | BXCH (D1) (D2) (n) | Exchanges n Pieces Of Data In Device S And n Pieces Of Data In Device D Each Other. |
BXCHP | BXCHP (D1) (D2) (n) | Exchanges n Pieces Of Data In Device S And n Pieces Of Data In Device D Each Other. |
CALL | CALL (n) | If Input Condition Is ON While Processing Program, Processes The Program Between The SBRT n To The RET According To The CALL n. |
CALLP | CALLP (n) | If Input Condition Is ON While Processing Program, Processes The Program Between The SBRT n To The RET According To The CALL n. |
CEND | CEND | If input condition is turned on, ends main routine program. |
CENDP | CENDP | If input condition is turned on, ends main routine program. |
CLC | CLC | If Input Condition Is ON, Resets Carry Flag. |
CML | CML (S) (D) | Inverts Each Bit Of Data In Device S And Stores The Result In Device D. |
CMLP | CMLP (S) (D) | Inverts Each Bit Of Data In Device S And Stores The Result In Device D. |
COS | COS (S) (D) | Performs COS (cosine) on angle designated by S and stores operation result at device number designated by D |
COSP | COSP (S) (D) | Performs COS (cosine) on angle designated by S and stores operation result at device number designated by D |
CTD | CTD (S) (t) | Subtracts One By One From Set Value Whenever Rising Edge Is Input. If The Value Is 0, Sets Output. |
CTR | CTR (S) (t) | Adds One By One Whenever Pulse Is Input. If The Value Reaches Set Value, Sets Output. If Input Signal Is On From Off, Current Value Is Increased From 0. |
CTU | CTU (S) (t) | Adds One By One To Current Value Whenever Pulse Is Input. If Current Value Is Over Set Value, Sets Output And Counts Up To Maximum Of Counter. |
CTUD | CTUD (S) (t) | Adds One By One Whenever Pulse Is Input To Up Terminal. Substracts One By One Whenever Pulse Is Input To Down Terminal. If Current Value Is Over Set Value, Sets Output. |
DABIN | DABIN (S) (D) | Converts Decimal ASCII Code In Device S To 16bit BIN Data And Stores The Result In Device D. |
DABINP | DABINP (S) (D) | Converts Decimal ASCII Code In Device S To 16bit BIN Data And Stores The Result In D. |
DADD | DADD (S1) (S2) (D) | Adds Double- Word Data In S2 To Double-Word Data In S1 And Stores The Result In Device D. |
DADDP | DADDP (S1) (S2) (D) | Adds Double- Word Data In S2 To Double-Word Data In S1 And Stores The Result In Device D. |
DAND | DAND (S1) (S2) (D) | AND-Operates Data In Device S1 And Data In Device S2, And Stores The Result In Device D. |
DANDP | DANDP (S1) (S2) (D) | AND-Operates Data In Device S1 And Data In Device S2, And Stores The Result In Device D. |
DATE- | DATE- (S1) (S2) (D) | Subtrats Hour, Minute And Second Data In S2 From Hour, Minute And Second Data In S1 Each Other, And Stores The Result In D In Due Order. |
DATE+ | DATE+ (S1) (S2) (D) | Adds Hour, Minute And Second Data In S2 To Hour, Minute And Second Data In S1 Each Other, And Stores The Result In D In Due Order. |
DATE+P | DATE+P (S1) (S2) (D) | Adds Hour, Minute And Second Data In S2 To Hour, Minute And Second Data In S1 Each Other, And Stores The Result In D In Due Order. |
DATE-P | DATE-P (S1) (S2) (D) | Subtrats Hour, Minute And Second Data In S2 From Hour, Minute And Second Data In S1 Each Other, And Stores The Result In D In Due Order. |
DATERD | DATERD (D) | Reads Year, Month, Day, Hour, Minute, Second And Day Of Week Data From CPU Clock Device And Stores Them In Device D In Due Order. |
DATERDP | DATERDP (D) | Reads Year, Month, Day, Hour, Minute, Second And Day Of Week Data From CPU Clock Device And Stores Them In Device D In Due Order. |
DATEWR | DATEWR (S) | Year, Month, Day, Hour, Minute, Second And Day Of Week Data In S Are Written In CPU Clock Device. |
DATEWRP | DATEWRP (S) | Year, Month, Day, Hour, Minute, Second And Day Of Week Data In S Are Written In CPU Clock Device. |
DBADD | DBADD (S1) (S2) (D) | Adds 4 Digits BCD Double-Word Data In S2 To 4 Digits BCD Double-Word Data In S1 And Stores The Result In Device D. |
DBADDP | DBADDP (S1) (S2) (D) | Adds 4 Digits BCD Double-Word Data In S2 To 4 Digits BCD Double-Word Data In S1 And Stores The Result In Device D. |
DBCD | DBCD (S) (D) | Converts BIN DOuble-Word Data Value In S To BCD Double-Word Data And Stores The Result In Device D. |
DBCDDA | DBCDDA (S) (D) | Converts 8 Digits BCD Data In S To Decimal ASCII Code And Stores The Result In Device D. |
DBCDDAP | DBCDDAP (S) (D) | Converts 8 Digits BCD Data In S To Decimal ASCII Code And Stores The Result In Device D. |
DBCDP | DBCDP (S) (D) | Converts Double-Word BIN Data Value In S To BCD Data And Stores The result In Device D. |
DBDIV | DBDIV (S1) (S2) (D) | Divides 8 Digits BCD Data In S1 By 8 Digits BCD Data And Stores The Result In Device D. |
DBDIVP | DBDIVP (S1) (S2) (D) | Divides 8 Digits BCD Data In S1 By 8 Digits BCD Data And Stores The Result In Device D. |
DBIN | DBIN (S) (D) |