Instruction List - Alphabetic

Owned by CIMON (Unlicensed)
Last updated: Mar 21, 2024
37 min read

 

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)

Converts 8 Digits BCD Data Value In S To BIN Data And Stores The Result In Device D.

DBINDA

DBINDA (S) (D)

Converts BIN Data In S To Decimal ASCII Code And Stores The Result In Device D.

DBINDAP

DBINDAP (S) (D)

Converts BIN Data In S To Decimal ASCII Code And Stores The Result In Device D.

DBINHA

DBINHA (S) (D)

Converts BIN Data In S To Hexadecimal ASCII Code And Stores The Result In D.

DBINHAP

DBINHAP (S) (D)

Converts BIN Data In S To Hexadecimal ASCII Code And Stores The Result In D.

DBINP

DBINP (S) (D)

Converts 8 Digits BCD Data In S To BIN Data And Stores The Result In Device D.

DBMUL

DBMUL (S1) (S2) (D)

Multiplies 8 Digits BCD Data In S1 By 8 Digits BCD Data In S2.

DBMULP

DBMULP (S1) (S2) (D)

Multiplies 8 Digits BCD Data In S1 By 8 Digits BCD Data In S2.

DBSUB

DBSUB (S1) (S2) (D)

Subtracts 8 Digits BCD Data In S2 From 8 Digits BCD Data In S1.

DBSUBP

DBSUBP (S1) (S2) (D)

Subtracts 8 Digits BCD Data In S2 From 8 Digits BCD Data In S1.

DCML

DCML (S) (D)

Inverts Each Bit Of Double-Word Data In S And Stores The Result In Device D.

DCMLP

DCMLP (S) (D)

Inverts Each Bit Of Double-Word Data In S And Stores The Result In Device D.

DDABIN

DDABIN (S) (D)

Converts Decimal ASCII Code In S To 32 Bit BIN Data And Stores The Result In Device D.

DDABINP

DDABINP (S) (D)

Converts Decimal ASCII Code In S To 32 Bit BIN Data And Stores The Result In Device D.

DDEC

DDEC (D)

Subtracts 1 From Double-Word Data Value In D And Stores The Result In Device D Again.

DDECP

DDECP (D)

Subtracts 1 From Double-Word Data Value In D And Stores The Result In Device D Again.

DEG

DEG (S) (D)

Converts Unit of angle size from radian units designated by S to angles, and stores result at device number designated by D.

DEGP

DEGP (S) (D)

Converts Unit of angle size from radian units designated by S to angles, and stores result at device number designated by D.

DDIV

DDIV (S1) (S2) (D)

Divides Double-Word Data In S1 By Double-Word Data In S2 And Stores The Result In Device D.

DDIVP

DDIVP (S1) (S2) (D)

Divides Double-Word Data In S1 By Double-Word Data In S2 And Stores The Result In Device D.

DEC

DEC (D)

Subtracts 1 From Data Value In D And Stores The Result In Device D Again.

DECO

DECO (S) (D) (n)

Decodes Lower n Bits In S And Sets The Contact Corresponding To Result Of Device D.

DECOP

DECOP (S) (D) (n)

Decodes Lower n Bits In S And Sets The Contact Corresponding To Result Of Device D.

DECP

DECP (D)

Subtracts 1 From Data Value In D And Stores The Result In Device D Again.

DFLT

DFLT (S) (D)

Converts 16-bit BIN data designated by S to floating decimal point real number, and stores at device number designated by D

DFLTP

DFLTP (S) (D)

Converts 16-bit BIN data designated by S to floating decimal point real number, and stores at device number designated by D

DFRO

DFRO (n1) (n2) (D) (n3)

Reads n3 Pieces Of Double-Word Data In User Program Memory n2 Of Optional Card n1(Slot Number) And Stores Them In Device D.

DFROP

DFROP (n1) (n2) (D) (n3)

Reads n3 Pieces Of Double-Word Data In User Program Memory n2 Of Optional Card n1(Slot Number) And Stores Them In Device D.

DGBIN

DGBIN (S) (D)

Converts Gray code data at device designated by S to BIN 32-bit data and stores at device designated by D.

DGBINP

DGBINP (S) (D)

Converts Gray code data at device designated by S to BIN 32-bit data and stores at device designated by D.

DGRY

DGRY (S) (D)

Converts BIN data at the device designated by S to Gray code, and stores result at device designated by D

DGRYP

DGRYP (S) (D)

Converts BIN data at the device designated by S to Gray code, and stores result at device designated by D

DHABIN

DHABIN (S) (D)

Converts Hexadecimal ASCII Code In S To 32 BIt BIN Data And Stores The Result In Device D.

DHABINP

DHABINP (S) (D)

Converts Hexadecimal ASCII Code In S To 32 BIt BIN Data And Stores The Result In Device D.

DI

DI (n)

Stops Operating Time Driven Interrupt Assigned To n.

DINC

DINC (D)

Adds 1 To Double-Word Data Value In D And Stores The Result In D Again.

DINCP

DINCP (D)

Adds 1 To Double-Word Data Value In D And Stores The Result In D Again.

DINT

DINT (S) (D)

Converts floating decimal point type real number designated by S to BIN 32-bit data, and stores the result at the device number designated by D and D+1.

DINTP

DINTP (S) (D)

Converts floating decimal point type real number designated by S to BIN 32-bit data, and stores the result at the device number designated by D and D+1.

DIS

DIS (S) (D) (n)

Stores n(n=1 Means 4 Bits) Pieces Of Numerical Value Data From S In Lower Bit As Much As n From D Each.

DISP

DISP (S) (D) (n)

Stores n(n=1 Means 4 Bits) Pieces Of Numerical Value Data From S In Lower Bit As Much As n From D Each.

DIV

DIV (S1) (S2) (D)

Divides Data In S1 By Data In S2 And Stores The Resutl In Device D.

DIVP

DIVP (S1) (S2) (D)

Divides Data In S1 By Data In S2 And Stores The Resutl In Device D.

DMAX

DMAX (S) (D) (n)

Stores The Biggest Value Among n Pieces Of Data From Double-Word Data Of S, Its Location And Number Of The Values In D.

DMAXP

DMAXP (S) (D) (n)

Stores The Biggest Value Among n Pieces Of Data From Double-Word Data Of S, Its Location And Number Of The Values In D.

DMIN

DMIN (S) (D) (n)

Stores The Smallest Value Among n Pieces Of Data From Double-Word Data Of S, Its Location And Number Of The Values In D.

DMINP

DMINP (S) (D) (n)

Stores The Smallest Value Among n Pieces Of Data From Double-Word Data Of S, Its Location And Number Of The Values In D.

DMOV

DMOV (S) (D)

Transmits Double-Word Data In Device S To Device D.

DMOVP

DMOVP (S) (D)

Transmits Double-Word Data In Device S To Device D.

DMUL

DMUL (S1) (S2) (D)

Multiplies Double-Word Data In S1 By Double-Word Data In S2 And Stores The Result In D.

DMULP

DMULP (S1) (S2) (D)

Multiplies Double-Word Data In S1 By Double-Word Data In S2 And Stores The Result In D.

DNEG

DNEG (D)

Sign-Inverts Contents Of Double-Word Data In D And Stores The Result In D Again.

DNEGP

DNEGP (D)

Sign-Inverts Contents Of Double-Word Data In D And Stores The Result In D Again.

DOR

DOR (S1) (S2) (D)

OR-Operates Data In S1 And 32 Bit Data In S2, And Stores The Result In D.

DORP

DORP (S1) (S2) (D)

OR-Operates Data In S1 And 32 Bit Data In S2, And Stores The Result In D.

DPGM

DPGM (n)

Disable program.

DRCL

DRCL (D) (n)

Shifts Left 32 Bits In D As Much As n Bits. Shifts The Uppermost Bit To Carry Flag And Carry Flag To The Lowest Bit.

DRCLP

DRCLP (D) (n)

Shifts Left 32 Bits In D As Much As n Bits. Shifts The Uppermost Bit To Carry Flag And Carry Flag To The Lowest Bit.

DRCR

DRCR (D) (n)

Shifts Right 32 Bits In D As Much As n Bits. Shifts The Lowest Bit To The Uppermost Bit And Carry Flag.

DRCRP

DRCRP (D) (n)

Shifts Right 32 Bits In D As Much As n Bits. Shifts The Lowest Bit To The Uppermost Bit And Carry Flag.

DROL

DROL (D) (n)

Shifts Left 32 Bits In D As Much As n Bits. Shifts The Uppermost Bit To The Lowest Bit And Carry Flag.

DROLP

DROLP (D) (n)

Shifts Left 32 Bits In D As Much As n Bits. Shifts The Uppermost Bit To The Lowest Bit And Carry Flag.

DROR

DROR (D) (n)

Shifts Right 32 Bits In D As Much As n Bits. Shifts The Lowest Bit To Carry Flag And Carry Flag To The Uppermost Bit.

DRORP

DRORP (D) (n)

Shifts Right 32 Bits In D As Much As n Bits. Shifts The Lowest Bit To Carry Flag And Carry Flag To The Uppermost Bit.

DSFL

DSFL (D) (n)

Shifts Left Double-Word Data Bits In D As Much As n Bits. Fills Lower n Bits With 0 And Stores Them In D.

DSFLP

DSFLP (D) (n)

Shifts Left Double-Word Data Bits In D As Much As n Bits. Fills Lower n Bits With 0 And Stores Them In D.

DSFR

DSFR (D) (n)

Shifts Right Double-Word Data Bits In D As Much As n Bits. Fills Upper n Bits With 0 And Stores Them In D.

DSFRP

DSFRP (D) (n)

Shifts Right Double-Word Data Bits In D As Much As n Bits. Fills Upper n Bits With 0 And Stores Them In D.

DSUB

DSUB (S1) (S2) (D)

Subtract Double- Word Data In S2 From Double-Word Data In S1 And Stores The result In D.

DSUBP

DSUBP (S1) (S2) (D)

Subtract Double- Word Data In S2 From Double-Word Data In S1 And Stores The result In D.

DSUM

DSUM (S) (D)

Counts Number Of Bit Data Which Are Set As 1 In Double-Word Data Of S And Stores The Number.

DSUMP

DSUMP (S) (D)

Counts Number Of Bit Data Which Are Set As 1 In Double-Word Data Of S And Stores The Number.

DTEST

DTEST (S1) (S2) (D)

Stores The Bit Of Order Assigned to S2 In Double-Word Data Bit Of S1 In D. If It Is 1, Sets. If 0, Resets.

DTESTP

DTESTP (S1) (S2) (D)

Stores The Bit Of Order Assigned to S2 In Double-Word Data Bit Of S1 In D. If It Is 1, Sets. If 0, Resets.

DTO

DTO (n1) (n2) (S) (n3)

Writes n3 Pieces Of Double-Word Data In S To User Program Memory n2 Of Optional Card n1(Slot Number).

DTOP

DTOP (n1) (n2) (S) (n3)

Writes n3 Pieces Of Double-Word Data In S To User Program Memory n2 Of Optional Card n1(Slot Number).

DUTY

DUTY (n1) (n2) (D)

Turns scan designated by n1 ON for user timing block designated by D, and scan designated by n2 OFF

DWDIV

DWDIV (S1) (S2) (D)

This is used to divide the double data in the device assigned to S1, S1+1 by the DOUBLE data in the device assigned to S2, S2+1 storing the quotient of the result in the device assigned to D

DWDIVP

DWDIV  (S1) (S2) (D)

This is used to divide the double data in the device assigned to S1, S1+1 by the DOUBLE data in the device assigned to S2, S2+1 storing the quotient of the result in the device assigned to D

DWMUL

DWMUL (S1) (S2) (D)

Multiplies BIN 32-bit data designated by S1, S1+1 and BIN 32-bit data designated by S2, S2+1 and stores the result in the device designated by D, D+1.

DWMULP

DWMUL (S1) (S2) (D)

Multiplies BIN 32-bit data designated by S1, S1+1 and BIN 32-bit data designated by S2, S2+1 and stores the result in the device designated by D, D+1.

DXCH

DXCH (S) (D)

Exchanges Double-Word Data In S With Double-Word Data In D Each Other.

DXCHP

DXCHP (S) (D)

Exchanges Double-Word Data In S With Double-Word Data In D Each Other.

DXNR

DXNR (S1) (S2) (D)

Exclusive - NOR-Operates Double-Word Data In S1 And Double-Word Data In S2, And Stores The Result In D.

DXNRP

DXNRP (S1) (S2) (D)

Exclusive - NOR-Operates Double-Word Data In S1 And Double-Word Data In S2, And Stores The Result In D.

DXOR

DXOR (S1) (S2) (D)

Exclusive - OR-Operates Double-Word Data In S1 And Double-Word Data In S2, And Stores The Result In D.

DXORP

DXORP (S1) (S2) (D)

Exclusive - OR-Operates Double-Word Data In S1 And Double-Word Data In S2, And Stores The Result In D.

EADD

EADDP (S1) (S2) (D)

This is used to add the floating-point data in the device assigned to S1 to the floating-point data in the device assigned to S2, storing the result in the device assigned D.

EADDP

EADDP (S1) (S2) (D)

This is used to add the floating-point data in the device assigned to S1 to the floating-point data in the device assigned to S2, storing the result in the device assigned D.

ECALL

ECALL (Program ID) (n)

Calls Sub-Routine From Other Program File. (Pn-Point Number Of Sub-Routine)

ECALLP

ECALLP (Program ID) (n)

Calls Sub-Routine From Other Program File. (Pn-Point Number Of Sub-Routine)

EDIV

EDIV (S1) (S2) (D)

This is used to divide the floating-point data in the device assigned to S1 to the floating-point data in the device assigned to S2, storing the result in the device assigned D.

EDIVP

EDIVP (S1) (S2) (D)

This is used to divide the floating-point data in the device assigned to S1 to the floating-point data in the device assigned to S2, storing the result in the device assigned D.

EI

EI (n)

Operates Time Driven Interrrupt Assigned To n.

EMOV

EMOV (S) (D)

This is used to transfer the Floating-point data in the device assigned to S to the device assigned to D.

EMOVP

EMOVP (S) (D)

This is used to transfer the Floating-point data in the device assigned to S to the device assigned to D.

ENCO

ENCO (S) (D) (n)

Encodes The Uppermost Bit Location Which Is Set As 1 In 2^n Of S And Stores The Result In D In Numerical Value Data.

ENCOP

ENCOP (S) (D) (n)

Encodes The Uppermost Bit Location Which Is Set As 1 In 2^n Of S And Stores The Result In D In Numerical Value Data.

END

END

It Is The Instruction To Inform Ending Main Routine Program. In Case Jump Instruction Prior To It Is Operated, It Is Not Operated.

EPGM

EPGM (n)

Enable program

ESUB

ESUB (S1) (S2) (D)

This is used to subtract the Floating-point data in the device assigned to S2 from the Floating-point data in the device assigned to S1, storing the result in the device assigned to D.

ESUBP

ESUBP (S1) (S2) (D)

This is used to subtract the Floating-point data in the device assigned to S2 from the Floating-point data in the device assigned to S1, storing the result in the device assigned to D.

EXP

EXP (S) (D)

Calculates exponent for value designated by S, and stores the result of the operation at the device designate by D

EXPP

EXPP (S) (D)

Calculates exponent for value designated by S, and stores the result of the operation at the device designate by D

FDEL

FDEL (DEV) (TBL) (n)

Delete A Data From Data Table

FIFR

FIFR (DEV) (TBL)

Read the oldest data from [TBL+1] and stores it at the device designated by [DEV].

After the execution of FIFR, the data in the table moves to the previous device and the last data will be zero.

The number of data of the data table will be decreased.

FIFRP

FIFRP (DEV) (TBL)

Read the oldest data from [TBL+1] and stores it at the device designated by [DEV].

After the execution of FIFR, the data in the table moves to the previous device and the last data will be zero.

The number of data of the data table will be decreased.

FIFW

FIFW (DEV) (TBL)

Stores the 16 bit data designated by [DEV] at the end of the data table designated by [TBL].

The number of data blocks stored at [TBL] will be increased.

FIFWP

FIFWP (DEV) (TBL)

Stores the 16 bit data designated by [DEV] at the end of the data table designated by [TBL].

The number of data blocks stored at [TBL] will be increased.

FINS

FINS (DEV) (TBL) (n)

Insert A Data in Data Table

FLT

FLT (S) (D)

Converts 16-bit BIN data designated by S to floating decimal point real number, and stores at device number designated by D .

FLTP

FLTP (S) (D)

Converts 16-bit BIN data designated by S to floating decimal point real number, and stores at device number designated by D .

FMOV

FMOV (S) (D) (n)

Transmits Data In S To n Pieces Of Device From Device D In Due Order.

FMOVP

FMOVP (S) (D) (n)

Transmits Data In S To n Pieces Of Device From Device D In Due Order.

FOR

FOR (n)

Runs The Step Next To NEXT Instruction After Has Processed Between FOR And NEXT At n Times.

FPOP

FPOP (DEV) (TBL)

Find Last Data in Data Table

FREAD

FREAD (n1) (n2) (D) (n3) (n4)

Read n3 words of data from the address designated by n2 ofthe system memory of the special function module designated by n1.

Then, stores the data in the area starting from the device designated by D.

The result of instruction is stored to the device designated by n3.

FREADP

FREADP (n1) (n2) (D) (n3) (n4)

Read n3 words of data from the address designated by n2 ofthe system memory of the special function module designated by n1.

Then, stores the data in the area starting from the device designated by D.

The result of instruction is stored to the device designated by n3.

FROM

FROM (n1) (n2) (D) (n3)

Reads n3 Pieces Of Word Data In User Program Memory n2 Of Optional Card n1(SLot Number) And Stores The Result In D.

FROMP

FROMP (n1) (n2) (D) (n3)

Reads n3 Pieces Of Word Data In User Program Memory n2 Of Optional Card n1(SLot Number) And Stores The Result In D.

FWRITE

FWRITE (n1) (n2) (D) (n3) (n4)

Write n3 words of data from the device designated by D to the area starting from the address designated by n2 of the system memory of the special function module designated by n1.

FWRITEP

FWRITEP (n1) (n2) (D) (n3) (n4)

Write n3 words of data from the device designated by D to the area starting from the address designated by n2 of the system memory of the special function module designated by n1.

GBIN

GBIN (S) (D)

Converts Gray code data at device designated by S to BIN 16-bit data and stores at device designated by D.

GBINP

GBINP (S) (D)

Converts Gray code data at device designated by S to BIN 16-bit data and stores at device designated by D.

GDI

GDI

Stops Operating Time Driven Interrrupt In Entire Program.

GEI

GEI

Operates Time Driven Interrrupt In Entire Program.

GRY

GRY (S) (D)

Converts BIN data at the device designated by S to Gray code, and stores result at device designated by D.

GRYP

GRYP (S) (D)

Converts BIN data at the device designated by S to Gray code, and stores result at device designated by D.

HABIN

HABIN (S) (D)

Converts Hexadecimal ASCII COde In S To 16 Bit BIN Data And Stores The Result In D.

HABINP

HABINP (S) (D)

Converts Hexadecimal ASCII COde In S To 16 Bit BIN Data And Stores The Result In D.

HOUR

HOUR (S) (D)

Converts Second Data In S To Hour, Minute And Second Data And Stores The Result In D In Due Order.

HOURP

HOURP (S) (D)

Converts Second Data In S To Hour, Minute And Second Data And Stores The Result In D In Due Order.

INC

INC (D)

Adds 1 To Data Value In D And Stores The Result In D Again.

INCP

INCP (D)

Adds 1 To Data Value In D And Stores The Result In D Again.

INITEND

INITEND

Ends Initialization Program ANd Runs Scan Program.

INT

INT (S) (D)

Converts the floating decimal point real number designated at S into BIN 16-bit data and stores it at the device number designated at D.

INTP

INTP (S) (D)

Converts the floating decimal point real number designated at S into BIN 16-bit data and stores it at the device number designated at D.

INV

INV

Inverts The Left Circuit, A Contact Circuit To B Contact Circuit And B Contact Circuit To A Contact Circuit.

IRET

IRET

Shows THe End OF Interrupt Program.

JME

JME (n)

If Input Of JMP n Instruction Is On, Jumps Next To JME n And Does Not Process All The Instructions Up To JME n.

JMP

JMP (n)

If Input Of JMP n Instruction Is On, Jumps Next To JME n And Does Not Process All The Instructions Up To JME n.

JMPP

JMPP (n)

If JMPP n Instruction Input Is On, Jumps Next To JME n And Does Not Process All The Instructions Up To JME n.

LD

LD (S)

Takes ON/OFF Data For a Contact Of One Circuit AS Operation Result.

LD<

LD< (S1) (S2)

If Data In S1 Is Less Than Data In S2, Sets Result Of The Current Operation.

LD<=

LD<= (S1) (S2)

If Data In S1 Is Less Than Or Equal To Data In S2, Sets Result Of The Current Operation.

LD<>

LD<> (S1) (S2)

If Data In S1 Is Not Equal To Data In S2, Sets Result Of The Current Operation.

LD=

LD= (S1) (S2)

If Data In S1 Is Equal To Data In S2, Sets Result Of The Current Operation.

LD>

LD> (S1) (S2)

If Data In S1 Is Greater Than Data In S2, Sets Result Of The Current Operation.

LD>=

LD>= (S1) (S2)

If Data In S1 Is Greater Than Or Equal To Data In S2, Sets Result Of The Current Operation.

LDBT

LDBT (S1) (S2)

LD-Operates the bit of the order assigned to S2 in the word device data assigned to S1 and Contact A.

LDBTI

LDBTI (S1) (S2)

These are used to read the bit data assigned to S2 among the word addresses in Device D assigned to S1, starting the operation for Contact A(LDBT) and the one for Contact B(LDBTI). The information(On/Off) on the assigned Device are received and taken as the result of their operation

LDD<

LDD< (S1) (S2)

If Data In S1 Is Less Than Data In S2, Sets Result Of The Current Operation.

LDD<=

LDD<= (S1) (S2)

If Data In S1 Is Less Than Or Equal To Data In S2, Sets Result Of The Current Operation.

LDD<>

LDD<> (S1) (S2)

If Data In S1 Is Not Equal To Data In S2, Sets Result Of The Current Operation.

LDD=

LDD= (S1) (S2)

If Data In S1 Is Equal To Data In S2, Sets Result Of The Current Operation.

LDD>

LDD> (S1) (S2)

If Data In S1 Is Greater Than Data In S2, Sets Result Of The Current Operation.

LDD>=

LDD>= (S1) (S2)

If Data In S1 Is Greater Than Or Equal To Data In S2, Sets Result Of The Current Operation.

LDF

LDF (S)

If Input Condition Is OFF From ON, Sets For One Scan.

LDI

LDI (S)

Takes ON/OFF Data For b Contact Of One Circuit As Operation Result.

LDP

LDP (S)

If Input Condition Is ON From OFF, Sets For One Scan.

LOG

LOG (S) (D)

Calculates natural logarithm of value designated by S taking e as base, and stores operation results at device designated by D.

LOGP

LOGP (S) (D)

Calculates natural logarithm of value designated by S taking e as base, and stores operation results at device designated by D.

MAX

MAX (S) (D) (n)

Stores The Biggest Value Among n Pieces Of Data From Data In S, Its Location And Number Of The Values In D.

MAXP

MAXP (S) (D) (n)

Stores The Biggest Value Among n Pieces Of Data From Data In S, Its Location And Number Of The Values In D.

MC

MC (n)

If Input Of MC Is ON, Operates Up To Same MCR. If Input Conditon Is OFF, Does Not Operates.

MCR

MCR (n)

If Input Of MC Is ON, Operates Up To Same MCR. If Input Conditon Is OFF, Does Not Operates.

MIN

MIN (S) (D) (n)

Stores The Smallest Value Among n Pieces Of Data From Data In S, Its Location And Number Of The Values In D.

MINP

MINP (S) (D) (n)

Stores The Smallest Value Among n Pieces Of Data From Data In S, Its Location And Number Of The Values In D.

MOV

MOV (S) (D)

Transmits Word Data In Device S To Device D.

MOVP

MOVP (S) (D)

Transmits Word Data In Device S To Device D.

MPP

MPP

It Is Used to End Branching. Reads The Stored State From Memory And Operates The Result.

MPS

MPS

It IS Used To Branch At First. Stores Operation Result In Memory.

MRD

MRD

It Is Used To Relay Branching. Reads The Stored State From Memory And Operates The Result.

MUL

MUL (S1) (S2) (D)

Multiplies Data In S1 By Data In S2 And Stores The Result In D.

MULP

MULP (S1) (S2) (D)

Multiplies Data In S1 By Data In S2 And Stores The Result In D.

NEG

NEG (D)

Sign-Inverts Contents Of Data In D And Stores The Result In D Again.

NEGP

NEGP (D)

Sign-Inverts Contents Of Data In D And Stores The Result In D Again.

NEXT

NEXT

Runs The Step Next To NEXT Instruction After Has Processed Between FOR And NEXT At n Times.

NOP

NOP

As No Operation Instruction, Does Not Influence Operation Result Of The Corresponding Circuit.

OR

OR (S)

OR-Operates a Contact Of The Assigned Contact And The Connected Contact In Parallel And Takes The Result As Operation Result.

OR<

OR< (S1) (S2)

If Data In S1 Is Less Than Data In S2, Sets.If Greater Than Or Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

OR<=

OR<= (S1) (S2)

If Data In S1 Is Less Than Or Equal To Data In S2, Sets. If Greater Than, Resets. OR-Operates The Result And Result Of The Current Operation.

OR<>

OR<> (S1) (S2)

If Data In S1 Is Not Equal To Data In S2, Sets. If Equal To, Off. OR-Operates The Result And Result Of The Current Operation.

OR=

OR= (S1) (S2)

If Data In S1 Is Equal To Data In S2, Sets. If Not Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

OR>

OR> (S1) (S2)

If Data In S1 Is Greater than Data In S2, Sets. If Less than Or Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

OR>=

OR>= (S1) (S2)

If Data InS1 Is Greater Than Or Equal To Data In S2, Sets. If Less Than, Resets. OR-Operates The Result And Result Of The Current Operation.

ORB

ORB

OR-Operates Blocks And Takes The result As Operation Result.

ORBT

ORBT (S1) (S2)

OR-Operates the bit of the order assigned to S2 in the word device data assigned to S1 and Contact A.

ORBTI

ORBTI (S1) (S2)

These are to read the bit data assigned to S2 among the word addresses in Device D assigned to S1, connecting in a series with Contact A(ANDBT) and Contact B(ANDBTI). The information(On/Off) on the assigned device are received and AND-operated with the result of the operation till then. The results of the AND-operation is taken as their operation.

ORD<

ORD< (S1) (S2)

If Data In S1 Is Less Than Data In S2, Sets. If Greater Than Or Equal To, Off. OR-Operates The Result And Result Of The Current Operation.

ORD<=

ORD<= (S1) (S2)

If Data In S1 Is Less Than Or Equal To Data In S2, Sets. If Greater Than, Resets. OR-Operates The Result And Result Of The Current Operation.

ORD<>

ORD<> (S1) (S2)

If Data In S1 Is Not Equal To Data In S2, Sets. If Equal To, resets. OR-Operates The Result And Result Of The Current Operation.

ORD=

ORD= (S1) (S2)

If Data In S1 Is Equal To Data In S2, Sets. If Not Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

ORD>

ORD> (S1) (S2)

If Data In S1 Is Greater Than Data In S2, Sets. If Less Than Or Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

ORD>=

ORD>= (S1) (S2)

If Data In S1 Is Greater Than Or Equal To Data In S2, Sets. If Less Than, Resets. OR-Operates The Result And Result Of The Current Operation.

ORE<

ORE (S1) (S2)

If Data In S1 Is Less Than Data In S2, Sets. If Greater Than Or Equal To, Off. OR-Operates The Result And Result Of The Current Operation

ORE<=

ORE<=  (S1) (S2)

If Data In S1 Is Less Than Or Equal To Data In S2, Sets. If Greater Than, Resets. OR-Operates The Result And Result Of The Current Operation.

ORE<>

ORE<> (S1) (S2)

If Data In S1 Is Not Equal To Data In S2, Sets. If Equal To, resets. OR-Operates The Result And Result Of The Current Operation

ORE=

ORE= (S1) (S2)

If Data In S1 Is Equal To Data In S2, Sets. If Not Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

ORE>

ORE> (S1) (S2)

If Data In S1 Is Greater Than Data In S2, Sets. If Less Than Or Equal To, Resets. OR-Operates The Result And Result Of The Current Operation.

ORE>=

ORE>= (S1) (S2)

If Data In S1 Is Greater Than Or Equal To Data In S2, Sets. If Less Than, Resets. OR-Operates The Result And Result Of The Current Operation.

ORF

ORF (S)

If Input Condition Of Connection In Parallel Contact Is OFF From ON, Sets For One Scan.

ORI

ORI (S)

OR-Operates b Contact Of the Assigned Contact And The Connected Contact In Parallel, And Takes The Result As Operation Result.

ORP

ORP (S)

If Input Condition Of Connection In Parallel Contact Is OFF From ON, Sets For One Scan.

OUT

OUT (D)

Outputs Operation Result To The Assigned Contact.

PEND

PEND

It Means End Of Program And Is Put On The Last Part.

PIDCAL

PIDCAL (S)

Assigns Device Where Result Value Of PID Operation IS Stored As S.

PIDINIT

PIDINIT (S)

Assigns Device Where The Set Value For PID Operation Is Stored As S.

PLF

PLF (D)

If Input Condition Is OFF From ON, Sets The Assigned Contact For One Scan. Otherwise, Resets.

PLS

PLS (D)

If INput Condition IS ON From OFF, Sets The Assigned Contact For One Scan. Otherwise, Resets.

RAD

RAD (S) (D)

Converts units of angle size from angle units designated by S to radian units, and stores result at device number designated by D.

RADP

RADP (S) (D)

Converts units of angle size from angle units designated by S to radian units, and stores result at device number designated by D.

RCL

RCL (D) (n)

Shifts Left 16 Pieces Of Bit In D As Much As n Bits. Shifts The Uppermost Bit To Carry Flag And Carry Flag To The Lowest Bit.

RCLP

RCLP (D) (n)

Shifts Left 16 Pieces Of Bit In D As Much As n Bits. Shifts The Uppermost Bit To Carry Flag And Carry Flag To The Lowest Bit.

RCR

RCR (D) (n)

Shifts Right 16 Pieces Of Bit In D As Much As n Bits. Shifts The Lowest Bit To Carry Flag And Carry Flag.

RCRP

RCRP (D) (n)

Shifts Right 16 Pieces Of Bit In D As Much As n Bits. Shifts The Lowest Bit To Carry Flag And Carry Flag.

RCV

RCV (Slot)(D)(Size)(Result)

Reads And Brings Data In Slave Station To Device Of Master Station.

RCVP

RCVP (Slot)(D)(Size)(Result)

Reads Data In Slave Station To Device Of Master Station.

RECV

RECV (PID) (F_Name) (Result)

Compares the data received from master station with the data(F_Name) set up by Special Function Program(PID), storing them in the assigned device.

RECVP

RECVP (PID) (F_Name) (Result)

Compares the data received from master station with the data(F_Name) set up by Special Function Program(PID), storing them in the assigned device.

RET

RET

If Input Condition Is ON While Running Program, Runs The Program Between SBRT n And RET Accoding To CALL n.

RFS

RFS (S) (n)

Refreshes n Pieces Of Device Which Are Assigned To S For One Scan.

RFSP

RFSP (S) (n)

Refreshes n Pieces Of Device Which Are Assigned To S For One Scan.

RND

RND (D)

Generates random number of from 0 to 32767, and stores at device designated by D

RNDP

RNDP (D)

Generates random number of from 0 to 32767, and stores at device designated by D

ROL

ROL (D) (n)

Shifts Left 16 Pieces Of Bit In D As Much As n Bits. Shifts The Uppermost Bit To The Lowest Bit And Carry Flag.

ROLP

ROLP (D) (n)

Shifts Left 16 Pieces Of Bit In D As Much As n Bits. Shifts The Uppermost Bit To The Lowest Bit And Carry Flag.

ROR

ROR (D) (n)

Shifts Right 16 Pieces Of Bit In D As Much As n Bits. Shifts The Lowest Bit To Carry Flag And Carry Flag To The Uppermost Bit.

RORP

RORP (D) (n)

Shifts Right 16 Pieces Of Bit In D As Much As n Bits. Shifts The Lowest Bit To Carry Flag And Carry Flag To The Uppermost Bit.

RST

RST (D)

If Input Condition Is ON, Keeps Output Contact In OFF State. Though The Input Is OFF, Keeps Resetting Output.

SBRT

SBRT (n)

If Input Condition Is ON While Running Program, Runs The Program Between SBRT n And RET Accoding To CALL n.

SCL

SCL (S) (D) (P) (n)

Converts signed binary data into signed binary data according to Scale parameter table .

SCLP

SCLP (S) (D) (P) (n)

Converts signed binary data into signed binary data according to Scale parameter table .

SECOND

SECOND (S) (D)

Converts Hour, Minute And Second Data In S To Second Data Each And Stores The Result In D.

SECONDP

SECONDP (S) (D)

Converts Hour, Minute And Second Data In S To Second Data Each And Stores The Result In D.

SEG

SEG (S) (D)

Decodes n Pieces Of Number From Start Bit In S As 7 Segment By The Set Format And Stores The Result In D.

SEGP

SEGP (S) (D)

Decodes n Pieces Of Number From Start Bit In S As 7 Segment By The Set Format And Stores The Result In D.

SEND

SEND (PID) (F_Name) (Result)

Sends the data(F_Name) set up by Special Function Program(PID) from master station to the device of slave station.

SENDP

SENDP (PID) (F_Name) (Result)

Sends the data(F_Name) set up by Special Function Program(PID) from master station to the device of slave station.

SET

SET (D)

If Input Condition Is ON, Keeps Output Contact In ON State. Though The Input Is OFF, Keeps Setting Output.

SFL

SFL (D) (n)

Shifts Left Data Bit In D As Much As n Bits. Fills Lower n Bits With 0 And Stores the Result In D.

SFLP

SFLP (D) (n)

Shifts Left Data Bit In D As Much As n Bits. Fills Lower n Bits With 0 And Stores the Result In D.

SFR

SFR (D) (n)

Shifts Right Data Bit In D As Much As n Bits. Fills Upperr n Bits With 0 And Stores the Result In D.

SFRP

SFRP (D) (n)

Shifts Right Data Bit In D As Much As n Bits. Fills Upperr n Bits With 0 And Stores the Result In D.

SIN

SIN (S) (D)

Calculates SIN (sine) value of angle designated at S and stores the operation result in the device number designated at D

SINP

SINP (S) (D)

Calculates SIN (sine) value of angle designated at S and stores the operation result in the device number designated at D

SND

SND (Slot)(S)(Size)(Result)

Transmits Data In Device Of Master Atation To Device Of Slave Station.

SNDP

SNDP (Slot)(S)(Size)(Result)

Transmits Data In Device Of Master Atation To Device Of Slave Station.

SQR

SQR (S) (D)

Calculates square root of value designated at S , and stores the operation result in the device number designated at D

SQRP

SQRP (S) (D)

Calculates square root of value designated at S , and stores the operation result in the device number designated at D

SRND

SRND (S)

Updates random number series according to the 16-bit BIN data being stored in device designated by S

SRNDP

SRNDP (S)

Updates random number series according to the 16-bit BIN data being stored in device designated by S

STC

STC

If Input Condition Is On, Sets Carry Flag.

STOP

STOP

To Stop Operation At The Time When Users Want, Converts To Program Mode After Finishing The Scan In Progress.

SUB

SUB (S1) (S2) (D)

Subtracts Data In S2 From Data In S1 And Stores The Result In Device D.

SUBP

SUBP (S1) (S2) (D)

Subtracts Data In S2 From Data In S1 And Stores The Result In Device D.

SUM

SUM (S) (D)

Counts Number Of Bit Data Which Are Set As 1 In Data Of S And Stores The Number.

SUMP

SUMP (S) (D)

Counts Number Of Bit Data Which Are Set As 1 In Data Of S And Stores The Number.

SWAP

SWAP (D)

Exchanges The Upper Byte Of Data In D With The Lower Byte Of It And Stores The Result In Device D.

SWAPP

SWAPP (D)

Exchanges The Upper Byte Of Data In D With The Lower Byte Of It And Stores The Result In Device D.

TAN

TAN (S) (D)

Performs tangent (TAN) operation on angle data designated by S , and stores operation result in device designated by D .

TANP

TANP (S) (D)

Performs tangent (TAN) operation on angle data designated by S , and stores operation result in device designated by D .

TEST

TEST (S1) (S2) (D)

Stores Bit Of The Assigned Order Among Data Bits In S1. If The Result Is 1, Sets. If 0, Resets.

TESTP

TESTP (S1) (S2) (D)

Stores Bit Of The Assigned Order Among Data Bits In S1. If The Result Is 1, Sets. If 0, Resets.

TMON

TMON (S) (t)

Though Output Is Set And Input Is Set-Reset Repeatly, If Current Value Is Subtracted Whenever It Is Set And Reaches 0, Timer Output Is Reset.

TMR

TMR (S) (t)

Though Current Value Is Increased And Input Is On-Off Reapeatly, If The Current Value Is Accumulated Whenever It Is On And Reaches Set Time, Timer Contact Is Set.

TO

TO (n1) (n2) (S) (n3)

Writes n3 Pieces Data In S To User Program Memory n2 Of Optional Card n1(Slot Number).

TOFF

TOFF (S) (t)

When Input Condition Is Off, The Set Value Is Subtracted. If Current Value Reaches 0, Output Is Reset.

TON

TON (S) (t)

If Curren Value Is Increased And Reaches Set Value, Timer Contact Is Set.

TOP

TOP (n1) (n2) (S) (n3)

Writes n3 Pieces Data In S To User Program Memory n2 Of Opetional Card n1(Slot Numer).

TRTG

TRTG (S) (t)

If Output Is Set And Current Value Is Subtracted To Reach 0, Output Is Reset. If Output Is Reset Before Current Value Is 0, Current Value Is Set Up As Set Value.

UCMP

UCMP (S1) (S2)

Compares BIN 16-bit data the nth point from the device number designated by S1 with BIN 16-bit data the nth point from the device number designated by S2 , and the result are stores Flag F(F0120 ~ F0125)

UCMPP

UCMPP (S1) (S2)

Compares BIN 16-bit data the nth point from the device number designated by S1 with BIN 16-bit data the nth point from the device number designated by S2 , and the result are stores Flag F(F0120 ~ F0125)

UNI

UNI (S) (D) (n)

Combines Each Lower 4 Bits Of n(n=1 Means 4 Bits) Pieces Of Data In S, And Stores the Result In Device D.

UNIP

UNIP (S) (D) (n)

Combines Each Lower 4 Bits Of n(n=1 Means 4 Bits) Pieces Of Data In S, And Stores the Result In Device D.

WAND

WAND (S1) (S2) (D)

AND-Operates Data In S1 And Data In S2, And Stores In Device D.

WANDP

WANDP (S1) (S2) (D)

AND-Operates Data In S1 And Data In S2, And Stores In Device D.

WBMOV

WBMOV (S) (D) (fm)

transfer data from S to D, obey fm

WBMOVP

WBMOVP (S) (D) (fm)

transfer data from S to D, obey fm

WDIV

WDIV (S1) (S2) (D)

This is used to divide the word data in the device assigned to S1 by the word data in the device assigned to S2, storing the quotient of the result in the device assigned to D

WDIVP

WDIVP (S1) (S2) (D)

This is used to divide the word data in the device assigned to S1 by the word data in the device assigned to S2, storing the quotient of the result in the device assigned to D

WDT

WDT

Resets Watch Dog Timer While Operating Program.

WDTP

WDTP

Resets Watch Dog Timer While Operating Program.

WMUL

WMUL (S1) (S2) (D)

Multiplies BIN 16-bit data designated by S1 and BIN 16-bit data designated by S2 , and stores the result in the device designated by D.

WMULP

WMULP (S1) (S2) (D)

Multiplies BIN 16-bit data designated by S1 and BIN 16-bit data designated by S2 , and stores the result in the device designated by D.

WOR

WOR (S1) (S2) (D)

OR-Operates Data In S1 And Data In S2, And Stores The Result In Device D.

WORP

WORP (S1) (S2) (D)

OR-Operates Data In S1 And Data In S2, And Stores The Result In Device D.

WSUM

WSUM (S) (D) (n)

Summed up all 16bit binary data for n words from the device designated at S, and stored it in the device designated at D

WSUMP

WSUMP (S) (D) (n)

Summed up all 16bit binary data for n words from the device designated at S, and stored it in the device designated at D

WXNR

WXNR (S1) (S2) (D)

Exclusive - NOR-Operates Data In S1 And Data In S2, And Stores The Result In D.

WXNRP

WXNRP (S1) (S2) (D)

Exclusive - NOR-Operates Data In S1 And Data In S2, And Stores The Result In D.

WXOR

WXOR (S1) (S2) (D)

Exclusive - OR-Operates Data In S1 And Data In S2, And Stores The Result In D.

WXORP

WXORP (S1) (S2) (D)

Exclusive - OR-Operates Data In S1 And Data In S2, And Stores The Result In D.

XCH

XCH (D1) (D2)

Exchanges Word Data In S With Word Data In D.

XCHP

XCHP (D1) (D2)

Exchanges Word Data In S With Word Data In D.

ABRST1

ABRST1 (Base/Slot) (S) (D)

 

ABRST2

ABRST2 (Base/Slot) (S) (D)

 

ABRST3

ABRST3 (Base/Slot) (S) (D)

 

ABRST4

ABRST4 (Base/Slot) (S) (D)

 

PSTRT1

PSTRT1 (Base/Slot) (S) (D)

 

PSTRT2

PSTRT2 (Base/Slot) (S) (D)

 

PSTRT3

PSTRT3 (Base/Slot) (S) (D)

 

PSTRT4

PSTRT4 (Base/Slot) (S) (D)

 

TEACH1

TEACH1 (Base/Slot) (S) (D)

 

TEACH2

TEACH2 (Base/Slot) (S) (D)

 

TEACH3

TEACH3 (Base/Slot) (S) (D)

 

TEACH4

TEACH4 (Base/Slot) (S) (D)

 

PFWRT

PFWRT (Base/Slot) (S) (D)

 

PINIT

PINIT (Base/Slot) (S) (D)