Neutral text for ladder instructions
This table lists the neutral text format for instructions in ladder routines.
Instruction | Neutral Text Format |
|---|---|
ABS | ABS( source,destination ); |
ADD | ADD( source_A,source_B,destination ); |
AFI | AFI(); |
AHL | AHL( channel,ANDMask,ORMask,serial_port_control,channel_status ); |
AND | AND( source_A,source_B,destination ); |
ASN | ASN( source,destination ); |
ATN | ATN( source,destination ); |
AVC | AVC( avc_tag,feedback_type,feedback_reation_time,delay_type,delay_time,
output_follows_actuate,actuate,delay_enable,feedback_1,input_status,
output_status,reset ); |
AVE | AVE( array,dim_to_vary,destination,control,length,position ); |
AWA | AWA( channel,source,serial_port_control,characters_sent ); |
AWT | AWT( channel,source,serial_port_control,characters_sent ); |
BRK | BRK(); |
BSL | BSL( array,control,source_bit,length ); |
BSR | BSR( array,control,source_bit,length ); |
BTD | BTD( source,source_bit,destination,destination_bit,length ); |
CBCM | CBCM( cbcm_tag,ack_type,mode,takeover_mode,enable,safety_enable,
standard_enable,arm_continuous,start,stop_at_top,press_in_motion,
motion_monitor_fault,slide_zone,safety_enable_ack ) |
CBIM | CBIM( cbim_tag,ack_type,inch_time,enable,safety_enable,standard_enable,
start,press_in_motion,motion_monitor_fault,slide_zone,safety_enable_ack ); |
CBSSM | CBSSM( cbssm_tag,ack_type,takeover_mode,enable,safety_enable,
standard_enable,start,press_in_motion,motion_monitor_fault,slide_zone,
saefty_enable_ack ); |
CLR | CLR( destination ); |
CMP | CMP( expression ); |
CONCAT | CONCAT( sourceA,sourceB,destination ) |
COP | COP( source,destination,length ); |
COS | COS( source,destination ); |
CPM | CPM( cpm_tag,cam_profile,enable,brake_cam,takeover_cam,dynamic_cam,
input_status,reverse,press_motion_status,reset ); |
CPS | CPS( source,destination,length ); |
CPT | CPT( destination ,expression ); |
CROUT | CROUT( crout_tag,feedback_type,feedback_reaction_time,actuate,feedback_1,
feedback_2,input_status,output_status,reset ); |
CSM | CSM( csm_tag,mechanical_delay_timer,max_pulse_period,motion_request,
channel_A,channel_B,input_status,reset ); |
CTD | CTD( counter,preset,accum ); |
CTU | CTU( counter,preset,accum ); |
DCM | DCM( dcm_tag,safety_function,input_type,descrepancy_time,channel_A,
channel_B,input_status,reset ); |
DCS | DCS( dcs_tag,safety_function,input_type,discrepancy_time,restart_type,
cold_start_type,channel_A,channel_B,input_status,reset ); |
DCSRT | DCSRT( dcsrt_tag,safety_function,input_type,discrepancy_time,enable,
channel_A,channel_B,input_status,reset ); |
DCST | DCST( dcst_tag,safety_function,input_type,discrepancy_time,restart_type,
cold_start_type,channel_A,channel_B,test_request,input_status,reset ); |
DCSTM | DCSTM( dcstm_tag,safety_function,input_type,discrepancy_time,restart_type,
cold_start_type,test_type,test_time,channel_A,channel_B,test_request,mute,
muting_lamp_status,input_status,reset ); |
DCSTL | DCSTL( dcstl_tag,safety_function,input_type,discrepancy_time,restart_type,
cold_start_type,channel_A,channel_B,test_request,unlock_request,
lock_feedback,hazard_stopped,input_status,reset ); |
DDT | DDT( source,reference,result,cmp_control,length,position,result_control,
length,position ); |
DEG | DEG( source,destination ); |
DELETE | DELETE( source,quantity,start,destination ); |
DIN | DIN( din_tag ,reset_type,channel_A,channel_B,circuit_reset,fault_reset ); |
DIV | DIV( source_A,source_B,destination ); |
DTOS | DTOS( source,destination ); |
DTR | DTR( source,mask,reference ); |
ENPEN | ENPEN( enpen_tag ,reset_type,channel_A,channel_B,circuit_reset,fault_reset ); |
EOT | EOT( data_bit ); |
EPMS | EPMS( epms_tag,input_1,input_2,input_3,input_4,input_5,input_6,input_7,
input_8,input_status,lock,reset ); |
EQU | EQU( source_A,source_B ); |
ESTOP | ESTOP( estop_tag ,reset_type,channel_A,channel_B,circuit_reset,fault_reset ); |
EVENT | EVENT( task ); |
FAL | FAL( control,length,position,mode,destination,expression ); |
FBC | FBC( source,reference,result,cmp_control,length,position,result_control,
length,position ); |
FFL | FFL( source,FIFO,control,length,position ); |
FFU | FFU( FIFO,destination,control,length,position ); |
FIND | FIND( source,search,start,result ); |
FLL | FLL( source,destination,length ); |
FOR | FOR( routine_name,index,initial_value,terminal_value,step_size ); |
FPMS | FPMS( fpms_tag ,input_1,input_2,input_3,input_4,input_5,fault_reset ); |
FRD | FRD( source,destination ); |
FSBM | FSBM( fsbm_tag,restart_type,S1-S2_time,S2-LC_time,LC-S3_time,S3-S4_time,
maximum_mute_time,maximum_override_time,direction,light_curtain,sensor_1,
sensor_2,sensor_3,sensor_4,enable_mute,override,input_status,
muting_lamp_status,reset ); |
FSC | FSC( control,length,position,mode,expression ); |
GEQ | GEQ( source_A,source_B ); |
GRT | GRT( source_A,source_B ); |
INSERT | INSERT( sourceA,sourceB,start,destination ); |
IOT | IOT( output_tag ); |
JMP | JMP( label_name ); |
JSR | JSR( routine_name,input_1,...input_n,return_1,..return_n ); |
JXR | JXR( external_routine_name,external_routine_control,parameter,
return_parameter ); |
LBL | LBL( label_name ); |
LC | LC( lc_tag ,reset_type,channel_A,channel_B,input_filter_time,
mute_light_curtain,circuit_reset,fault_reset ); |
LEQ | LEQ( source_A,source_B ); |
LES | LES( source_A,source_B ); |
LFL | LFL( source,LIFO,control,length,position ); |
LFU | LFU( LIFO,destination,control,length,position ); |
LIM | LIM( low_limit,test,high_limit ); |
LN | LN( source,destination ); |
LOG | LOG( source,destination ); |
LOWER | LOWER( source,destination); |
MOD | MOD( source_A,source_B,destination ); |
MOV | MOV( source,destination ); |
MUL | MUL( source_A,source_B,destination ); |
NEG | NEG( source,destination ); |
NEQ | NEQ( source_A,source_B ); |
NOP | NOP(); |
NOT | NOT( source,destination ); |
ONS | ONS( storage_bit ); |
OR | OR( source_A,source_B,destination ); |
OSF | OSF( storage_bit,output_bit ); |
OSR | OSR( storage_bit,output_bit ); |
OTE | OTE( data_bit ); |
OTL | OTL( data_bit ); |
OTU | OTU( data_bit ); |
PATT | PATT( phase_name,result ); |
PCLF | PCLF( phase_name ); |
PCMD | PCMD( phase_name,command,result ); |
PDET | PDET( phase_name ); |
PFL | PFL( source ); |
PID | PID(PID ,process_variable,tieback,control_variable,pid_master_loop,
inhold_bit,inhold_value); |
POVR | POVR( phase_name,command,result); |
PPD | PPD(); |
PRNP | PRNP(); |
PSC | PSC(); |
PXRQ | PXRQ( phase_instruction,external_request,data_value ); |
RAD | RAD( source,destination ); |
RES | RES( structure ); |
RET | RET( return_1,...return_n ); |
RIN | RIN( rin_tag ,reset_type,channel_A,channel_B,circuit_reset,fault_reset ); |
ROUT | ROUT( rout_tag ,feedback_type,enable,feedback_1,feedback_2,fault_reset ); |
RTO | RTO( timer,preset,accum ); |
RTOS | RTOS( source,destination ) |
SBR | SBR( routine_name,input_1,...input_n ); |
SFP | SFP(SFC_routine_name,target_state); |
SFR | SFR(SFC_routine_name,step_name); |
SIN | SIN( source,destination ); |
SIZE | SIZE( souce,dimension_to_vary,size ); |
SMAT | SMAT( smat_tag,restart_type,short_circuit_detect_delay_time,channel_A,
channel_B,input_status,reset ); |
SQI | SQI( array,mask,source,control,length,position ); |
SQL | SQL( array,source,control,length,position ); |
SQO | SQO( array,mask,destination,control,length,position ); |
SQR | SQR( source,destination ); |
SRT | SRT( array,dim_to_vary,control,length,position ); |
STD | STD( array,dim_to_vary,destination,control,length,position ); |
STOD | STOD( source,destination ) |
STOR | STOR( source,destination ) |
SUB | SUB( source_A,source_B,destination ); |
SWPB | SWPB( source,order_mode,destination ); |
TAN | TAN( source,destination ); |
THRS | THRS( thrs_tag ,active_pin_type,active_pin,right_button_normally_open,
right_button_normally_closed,left_button_normally_open,
left_button_normally_closed,fault_reset ); |
THRSE | THRSE( thrse_tag,discprepancy_time,enable,disconnected,
right_button_normally_open,right_button_normally_closed,
left_button_normally_open,left_button_normally_closed,input_status,resest ); |
TND | TND(); |
TOD | TOD( source,destination ); |
TOF | TOF( timer,preset,accum ); |
TON | TON( timer,preset,accum ); |
TRN | TRN( source,destination ); |
TSAM | TSAM( tsam_tag,restart_type,S1-S2_time,S2-LC_time,maximum_mute_time,
maximum_override_time,light_curtain,sensor_1,sensor_2,enable_mute,
override,input_status,muting_lamp_status,reset ); |
TSSM | TSSM( tssm_tag,restart_type,S1-S2_discrepancy_time,S1_S2-LC_minimum_time,
S1_S2-LC_maximum_time,maximum_mute_time,maximum_override_time,
light_curtain,sensor_1,sensor_2,enable_mute,override,input_status,
muting_lamp_status,reset ); |
UID | UID(); |
UIE | UIE(); |
UPPER | UPPER( source,destination); |
XIC | XIC( data_bit ); |
XIO | XIO( data_bit ); |
XOR | XOR( source_A,source_B,destination ); |
XPY | XPY( source_A,source_B,destination ); |
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