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Contents I Alarms 1. Operation Errors (M)................................................................. I - 1 2. Stop Codes (T) ....................................................................... I - 13 3. Servo/Spindle Alarms (S) ....................................................... I - 17 3.1 Servo Errors (S01/S03/S04) ......................................... I - 17 3.2 Initial Parameter Errors (S02)....................................... I - 27 3.3 Safety Function Errors (S05) .................
I Alarms
I Alarms Operation Errors (M) (Note) This alarm description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 1. Operation Errors (M) M01 Dog overrun 0001 Details When returning to the reference position, the near-point detection limit switch did not stop over the dog, but overran the dog. Remedy - Increase the length of the near-point dog.
I Alarms Operation Errors (M) M01 Illegal op in mid pt sg block 0013 Details The operation mode was changed to MDI during single block stop at the middle point of G28/ G29/G30. Remedy - Change the operation mode. - Reset to clear the alarm. M01 Sensor signal illegal ON 0019 Details The sensor signal was already ON when the "tool length measurement 1" signal was validated. The sensor signal turned ON when there was no axis movement after the "tool length measurement 1" signal was validated.
I Alarms Operation Errors (M) M01 Chopping axis R-pnt incomplete 0050 Details Chopping mode has been entered while the chopping axis has not completed reference position return. All axes interlock has been applied. Remedy - Reset the NC or disable the "chopping" signal, and then carry out the reference position re- turn. M01 Synchronous error excessive 0051 Details The synchronization error of the primary and secondary axes exceeded the allowable value under synchronous control.
I Alarms Operation Errors (M) M01 Illegal op in wk instl err cmp 0070 Details One of the following operations was attempted during workpiece installation error compensation. - Manual interruption - Automatic operation handle interruption - MDI interruption - PLC interruption Remedy - Return the operation mode to the original mode to remove the cause. M01 No operation mode 0101 Details No operation mode Remedy - Check for any broken wires in the input mode signal line.
I Alarms Operation Errors (M) M01 Restart switch ON 0111 Details Restart switch has been turned ON and manual mode has been selected before the restart search is completed. Remedy - Search the block to restart. - Turn the restart switch OFF. M01 Program check mode 0112 Details The automatic start button was pressed during program check or in program check mode. Remedy - Press the reset button to cancel the program check mode.
I Alarms Operation Errors (M) M01 Program restart machine lock 0126 Details Machine lock was applied on the return axis being manually returned to the restart position. Remedy - Cancel the machine lock and resume the operation. M01 Rot axis parameter error 0127 Details Orthogonal coordinate axis name does not exist. Rotary axis name does not exist. A duplicate name is used for the designated orthogonal coordinate axis.
I Alarms Operation Errors (M) M01 No speed set out of soft limit 0160 Details The axis, without any maximum speed outside of the soft limit range set, was returned from the outside of the soft limit range. Remedy - Correct the "#2021 out_f (Maximum speed outside soft limit range)" setting. - Correct the soft limit range (with "#2013 OT- (Soft limit I-)" and "#2014 OT+ (Soft limit I+)"). M01 Ill. op during T tip control 0170 Details Illegal operation was attempted during tool tip center control.
I Alarms Operation Errors (M) M01 Tool length compensation amt 0 0252 Details The tool length compensation amount for performing the R-Navi indexing type 2 is 0. Remedy - Set the tool length compensation amount for performing the indexing type 2 to a value other than 0. M01 Feat coord ill w/ multi-handle 0253 Details Manual feed feature coordinate system was selected while two or more handles were ON.
I Alarms Operation Errors (M) M01 Superimposition command illegal 1004 Details - Superimposition start command was issued to the axis which is executing the following functions. Synchronization control Milling interpolation - Superimposition start command was issued to the axis which was under superimposition control. - The superimposition command was issued to an axis that belongs to the same part system as a basic or synchronous axis of synchronization across part systems. Remedy - Correct the program.
I Alarms Operation Errors (M) M01 Synchronization mismatch 1030 Details Different M codes were each commanded as synchronization M code in each of the two part systems. Synchronization with the "!" code was commanded in another part system during M code synchronization. Synchronization with the M code was commanded in another part system during synchronization with the "!" code. Remedy - Correct the program so that the M codes match.
I Alarms Operation Errors (M) M01 Cont ax superimpos II prm illg 1044 内容 処置 - There is a mistake in the setting of the superimposition control base axis parameter (#2089 bsax_pl). - Superimposition control is not available under the current parameter settings. - Correct the parameter. M01 Sp synchro phase calc illegal 1106 Details Spindle synchronization phase alignment command was issued while the "phase shift calculation request" signal was ON. Remedy - Correct the program.
I Alarms Operation Errors (M) M91 INVALID MEASUR. 0089 Details Remedy Sensor signal illegal ON Sensor has already been ON when TLM mode is turned ON. The travel amount was so small that the tool contacted the sensor. All axes are interlocked when this alarm has occurred. Turn the TLM mode OFF or use the interlock cancel signal to move the tool off the sensor. Ensure at least 0.1mm for the movement to the sensor. M91 INVALID MEASUR.
I Alarms Stop Codes (T) 2. Stop Codes (T) T01 Axis in motion 0101 Details Automatic start is not possible as one of the axes is moving. Remedy - Try automatic start again after all axes have stopped. T01 NC not ready 0102 Details Automatic start is not possible as the NC is not ready. Remedy - Another alarm has occurred. Check the details and remedy. T01 Reset signal ON 0103 Details Automatic start is not possible as the "reset" signal has been input. Remedy - Turn OFF the "reset" signal.
I Alarms Stop Codes (T) T01 Cycle st prohibit(Battery alm) 0116 Details Automatic start is not possible because the voltage of the battery in the NC control unit has dropped. Remedy - Replace the battery of the NC control unit. - Contact the service center. T01 R-pnt offset value not set 0117 Details Automatic operation is not possible because no reference position offset value has been set.
I Alarms Stop Codes (T) T02 S/W stroke end axis exists 0202 Details An axis is at the stored stroke limit. Remedy - Manually move the axis. - Correct the machining program. T02 Reset signal ON 0203 Details The reset has been entered. Remedy - The program execution position has returned to the start of the program. Execute automatic operation from the start of the machining program. T02 Auto operation pause signal ON 0204 Details The "feed hold" switch is ON.
I Alarms Stop Codes (T) T04 Collation stop 0401 Details Collation stop occurred. Remedy - Execute the automatic start to resume the automatic operation. T10 Fin wait (Factors for waiting completion) Details The following Nos. are shown during the operation of the corresponding completion wait factor. The numbers will disappear when the operation is completed. The completion wait factor is indicated with four digits (in hexadecimal).
I Alarms Servo/Spindle Alarms (S) 3. Servo/Spindle Alarms (S) 3.1 Servo Errors (S01/S03/S04) Servo alarm is displayed in the following format. S Axis name Servo : Axis name Spindle : "S", "T", "M", "N", "P", "Q", "R" Error No. Reset method Message Alarm class Alarm class Message Reset method Resetting methods S01 Servo alarm PR After removing the cause of the alarm, reset the alarm by turning the NC power ON again.
I Alarms Servo/Spindle Alarms (S) 0019 Detector commu err in syn cont Details An error of the shared detector on the machine side was detected on the secondary axis of the speed command synchronization control. - Servo stop method: Dynamic stop 001A Machine side dtc: Init comu er Details An error was detected in the initial communication with the machine side detector.
I Alarms Servo/Spindle Alarms (S) 001E Machine side dtc: Error 4 Details An error was detected by the detector connected to the machine side. The error details are different according to the detector type.
I Alarms Servo/Spindle Alarms (S) 0028 Machine side dtc: Error 6 Details An error was detected by the detector connected to the machine side. The error details are different according to the detector type.
I Alarms Servo/Spindle Alarms (S) 002C Motor side dtc: Error 2 Details An error was detected by the detector connected to the motor side. The error details are different according to the detector type.
I Alarms Servo/Spindle Alarms (S) 0035 NC command error Details The travel command data received from the NC was excessive. - Servo stop method: Deceleration stop enabled - Spindle stop method: Deceleration stop enabled 0036 NC-DRV commu: Commu error Details The communication with the NC was interrupted.
I Alarms Servo/Spindle Alarms (S) 0046 Motor overheat Details Either the motor or the motor side detector detected an overheat. Or, the thermistor signal receiving circuit of the linear motor or DD motor was disconnected. Or, the thermistor signal receiving circuit was short-circuited. - Servo stop method: Deceleration stop enabled - Spindle stop method: Deceleration stop enabled 0048 Motor side dtc: Error 5 Details An error was detected by the detector connected to the main side.
I Alarms Servo/Spindle Alarms (S) 004E NC command mode error Details An error was detected in the control mode send from the NC. - Servo stop method: Deceleration stop enabled - Spindle stop method: Deceleration stop enabled 004F Instantaneous power interrupt Details The control power supply has been shut down for 50ms or more. - Servo stop method: Deceleration stop enabled - Spindle stop method: Deceleration stop enabled 0050 Overload 1 Details Overload detection level became 100% or more.
I Alarms Servo/Spindle Alarms (S) 0080 Motor side dtc: cable err Details The cable type of the motor side detector cable is for rectangular wave signal. - Servo stop method: Initial error 0081 Machine side dtc: cable err Details The cable type of the machine side detector cable does not coincide with the detector type which is set by the parameter. - Servo stop method: Initial error 0087 Drive unit communication error Details The communication frame between drive units was aborted.
I Alarms Servo/Spindle Alarms (S) Power supply alarms 0061 Pw sply: Pwr module overcurnt Details Overcurrent protection function in the power module has started its operation. 0062 Pw sply: Frequency error Details The input power supply frequency increased above the specification range. 0066 Pw sply: Process error Details An error occurred in the process cycle. 0067 Pw sply: Phase interruption Details An open-phase condition was detected in input power supply circuit.
I Alarms Servo/Spindle Alarms (S) 0077 Pw sply: Power module overheat Details Thermal protection function in the power module has started its operation. 3.2 Initial Parameter Errors (S02) 【S022201-2456】 S02 Initial parameter error:PR 2201-2456 (Axis name) Details Remedy The servo parameter setting data is illegal. The alarm No. is the No. of the servo parameter where the error occurred. Check the descriptions for the appropriate servo parameters and correct them.
I Alarms Servo/Spindle Alarms (S) 3.5 Servo Warnings (S52) Servo warning is displayed in the following format. S Axis name Servo : Axis name Spindle : "S", "T", "M", "N", "P", "Q", "R" Error No. Message Alarm class Alarm class Message S52 Servo warning Error No. consists of four digits (0096 to). Servo warnings are explained in ascending order of the error No. The four digits on the left part of each warning indicate the error No.
I Alarms Servo/Spindle Alarms (S) 00E6 Control axis detach warning Details A control axis is being detached. (State display) - Reset method: Automatically reset once the cause of the warning is removed. 00E7 In NC emergency stop state Details In NC emergency stop. (State display) - Stop method: Deceleration stop enabled - Reset method: Automatically reset once the cause of the warning is removed. 00E8-00EF Power supply warning Details The power supply unit detected a warning.
I Alarms MCP Alarms (Y) 4. MCP Alarms (Y) Y02 System alm: Process time over 0050 Details Remedy System alarm: Process time is over. The software or hardware may be damaged. Contact the service center. (Note) When two or more "Y02 System alarms" occur at the same time, only the alarm which has occurred first is displayed. Y02 SV commu er: CRC error 1 0051 0000 Details A communication error has occurred between controller and drive unit. Remedy - Take measures against noise.
I Alarms MCP Alarms (Y) Y02 SV commu er: Commu error 0051 x005 Details A communication error has occurred between controller and drive unit. x: Channel No. (from 0) Remedy - Take measures against noise. - Check for any failure of the communication cable connectors between controller and drive unit or between two drive units. - Check for any failure of the communication cables between controller and drive unit or between two drive units. - A drive unit may be faulty.
I Alarms MCP Alarms (Y) Y03 Drive unit unequipped axis name Details Remedy The drive unit is not correctly connected. Alphabet (axis name): Servo axis drive unit not mounted 1 to 4: PLC axis drive unit not mounted S: No.1 spindle drive unit not mounted T: No.2 spindle drive unit not mounted M: No.3 spindle drive unit not mounted N: No.4 spindle drive unit not mounted Check the drive unit mounting state. - Check the end of the cable wiring. - Check for any broken wires. - Check the connector insertion.
I Alarms MCP Alarms (Y) Y07 Too many axes connected 00xy Details The number of axes connected to each channel exceeds the maximum number of connectable axes. The exceeded number of axes per channel is displayed as alarm No. x: Exceeded number of axes at drive unit interface channel 2 (0 to F) y: Exceeded number of axes at drive unit interface channel 1 (0 to F) This alarm also occurs when the drive unit is connected only with the 2nd channel without connecting with the 1st channel.
I Alarms MCP Alarms (Y) Y20 Parameter compare error 0001 (Axis name) Details Remedy The speed monitoring parameter in the NC does not correspond to the parameter transmitted to the drive unit. The name of the axis with an error is displayed. The NC or the servo drive unit may be damaged. Contact the service center. Y20 Sfty obsrvation: Cmd spd err 0002 (Axis name) Details Remedy The speed exceeding the speed set with the parameter was commanded during the speed monitoring mode.
I Alarms MCP Alarms (Y) Y20 SDIO connector input volt err 0010 Details Remedy 24VDC power is not supplied to SDIO connector correctly. (SDIO 4A pin supply voltage was dropped to 16V or less, or 1ms or more instant power interrupt was detected.) In this case, "Pw sply:Inst pw interpt(DC24V)" alarm occurs because the contactor control output signal cannot be controlled. This state remains until restarting the NC even if the cause of the alarm has been removed. Check the wiring.
I Alarms MCP Alarms (Y) Y51 Parameter G1t1 illegal 0004 Details Remedy The time constant has not been set or exceeded the setting range. Correct "#2008 G1t1 (G1 time constant (primary delay)/Second-step time constant for soft acceleration/deceleration)". Y51 Parameter grid space illegal 0009 Details Remedy The grid space is illegal. Correct "#2029 grspc(Grid interval)". Y51 Parameter stapt1-4 illegal 0012 Details Remedy The time constant has not been set or exceeded the setting range.
I Alarms MCP Alarms (Y) Y51 Values of PC1/PC2 too large 0101 Details Remedy The PC1 and PC2 settings for the rotary axis are too large. Correct "#2201 SV001 PC1 (Motor side gear ratio)" and "#2202 SV002 PC2 (Machine side gear ratio)". Y90 No spindle signal 0001-0007 Details Remedy There is an error in the spindle encoder signal. The data transmission to the drive unit is stopped when this error occurs. Check the spindle encoder's feedback cable and the encoder.
I Alarms System Alarms (Z) 5. System Alarms (Z) Z02 System error Details The operation result is illegal. Remedy - Contact the service center. Z31 Socket open error(socket) 0001 Details Remedy Socket open error (socket) Set the parameter then turn the power OFF and ON again. Z31 Socket bind error(bind) 0002 Details Remedy Socket bind error (bind) Set the parameter then turn the power OFF and ON again.
I Alarms System Alarms (Z) Z35 Direct Socket timeout error 0004 Details There was no response from client computers, and a timeout error occurred. Remedy Check the connection of the network cables, and check for broken wires and a failure of the network connection devices such as hub. Z35 Direct Socket comm OFF 0005 Details The direct Socket communication I/F is OFF. Remedy Check the parameter "#11051 Direct Socket OFF". Z40 Format mismatch Details "#1052 MemVal (No.
I Alarms System Alarms (Z) Z55 RIO communication stop Details An error occurs in the communication between the control unit and remote I/O unit. Disconnection of a cable Fault in remote I/O unit Fault of power supply to remote I/O unit The alarm and the I/O unit No. is displayed when an error occurs in the communication between the control unit and remote I/O unit. The remote I/O unit No. is displayed in eight digits. Two digits (in hexadecimal) are used for each board and part system.
I Alarms System Alarms (Z) Z60 Fieldbus communication error n1 n2 n3 n4 Details A communication error has occurred on the Fieldbus communication with HN571/HN573/ HN575. [n1 :Shows state of the master channel (shown in hexadecimal number)] 00 :Offline In initializing 40 :Stop Cutting I/O communication 80 :Clear Resetting output data of each slave by sending 0 data.
I Alarms System Alarms (Z) Z69 External link error 3 Details Remedy A negative value was set for an I/O No. in the FROM/TO instruction. Correct the I/O No. Z69 External link error 4 Details Remedy A negative value was set for transfer size in the FROM/TO instruction. Correct the transfer size. Z69 External link error 5 Details Remedy The number of FROM/TO instructions within one scan has exceeded 50.
I Alarms System Alarms (Z) Z83 NC started during SP rotation 0001 Details Remedy The NC was started while the spindle was rotating. Turn the power OFF and confirm that the spindle is not rotating, then turn the power ON again.
I Alarms Absolute Position Detection System Alarms (Z7*) 6. Absolute Position Detection System Alarms (Z7*) Z70 Abs posn base set incomplete 0001 (Axis name) Details Remedy Zero point initialization is incomplete. Otherwise, the spindle was removed. Complete zero point initialization. (Note) To release alarm "Z70 Abs data error", enter the parameter data output when establishing the absolute position and turn ON the power again.
I Alarms Absolute Position Detection System Alarms (Z7*) Z70 Abs posn error(servo alm E3) 0106 (Axis name) Details Remedy The servo alarm No. E3 was displayed and the power was turned ON again. Perform zero point initialization again. (Note) To release alarm "Z70 Abs data error", enter the parameter data output when establishing the absolute position and turn ON the power again. For the rotary axis, however, the alarm cannot be released by entering the parameter data.
I Alarms Distance-coded Reference Scale Errors (Z8*) 7. Distance-coded Reference Scale Errors (Z8*) Z80 Basic position lost 0001 Details The basic point data saved in the NC has been damaged. Remedy - Set the parameters. If the basic point data is not restored by setting the parameters, perform zero point initialization. Z80 Basic position restore 0002 Details The basic point data has been restored by setting the parameters. Remedy - Turn the power ON again to start the operation.
I Alarms Emergency Stop Alarms (EMG) 8. Emergency Stop Alarms (EMG) EMG Emergency stop PLC Details The user PLC has entered the emergency stop state during the sequence process. Remedy - Investigate and remove the cause of the user PLC emergency stop. EMG Emergency stop EXIN Details The "emergency stop" signal is significant (open). Remedy - Cancel the "emergency stop" signal. - Check for any broken wires.
I Alarms Emergency Stop Alarms (EMG) EMG Emergency stop XTEN Details The CC-Link card is operating incorrectly. Switch/parameter settings for the CC-Link card are incorrect. Remedy - Replace the CC-Link card. - Correct the switch/parameter settings for the CC-Link card. EMG Emergency stop LAD Details The sequence program has an illegal code. Remedy - Correct any illegal device Nos. or constants in the sequence program.
I Alarms Auxiliary Axis Alarms 9. Auxiliary Axis Alarms 9.1 Auxiliary Axis Servo Errors/Warnings (S) S01 Aux ax PCB err (Drive circuit) 0011 (Axis No. 1 to 4) Details An error occurred in the drive unit's internal PCB. Remedy - Replace servo drive unit. S01 Aux ax S/W processing error 0013 (Axis No. 1 to 4) Details An error occurred in the drive unit's internal reference clock. Remedy - Replace servo drive unit. S01 Aux ax motor/detector type err 0016 (Axis No. 1 to 4) Details Motor type error.
I Alarms Auxiliary Axis Alarms S02 Aux ax PCB error(LSI err) 0018 (Axis No. 1 to 4) Details An error occurred in the drive unit's internal LSI. Remedy - Replace servo drive unit. S02 Aux ax detector error 0020 (Axis No. 1 to 4) Details An error occurred in the communication between the servo drive unit and detector. Remedy - Connect correctly. - Replace or repair cable. S02 Aux ax ground fault detection 0024 (Axis No.
I Alarms Auxiliary Axis Alarms S03 Aux ax excessive error 0052 (Axis No. 1 to 4) Details A position deflection exceeding the excessive error detection setting value occurred. Remedy - Increase the acceleration/ deceleration time constant. - Increase the torque limit value. - Review the power facility capacity. - Review the operation pattern. - Replace the servomotor. - Connect correctly. - Repair or replace the cable. S52 Aux ax servo warning 0092 (Axis No.
I Alarms Auxiliary Axis Alarms 9.3 Auxiliary Axis Operation Errors (M) M00 Aux ax dog overrun 0001 (Axis No. 1 to 4) Details When executing dog-type reference position, the zero point return speed is too fast or the dog length is too short. Remedy - Lower the zero point return speed or increase the dog length. M00 Aux ax R-pnt direction illegal 0003 (Axis No. 1 to 4) Details When executing reference position return, the axis was moved in the opposite of the designated direction.
I Alarms Auxiliary Axis Alarms M01 Aux axis changeover error 0166 (Axis No. 1 to 4) Details One of the following attempts was made on an axis that can be switched to NC/auxiliary axis. - A command was issued to an auxiliary axis from machining program. - When there were more than one NC axis having a same name, a command was issued to those axes from machining program. - "NC axis control selection" signal was turned OFF while the NC axis was in motion.
I Alarms Auxiliary Axis Alarms 9.4 Auxiliary Axis MCP Alarms (Y) Y02 Aux ax sys alm: Proc time over 0050 (Axis No. 1 to 4) Details Remedy Aux ax sys alm: Proc time over The software or hardware may be damaged. Contact the service center. Y02 Aux ax commu er:CRC error 1 0051 0000 Details Remedy Aux ax commu er:CRC error 1(10 times/910.2ms) A communication error has occurred between the controller and drive unit. - Take measures against noise.
I Alarms Computer Link Errors (L) 10. Computer Link Errors (L) L01 Serial port being used -2 Details Serial port has already been opened or cannot be used. Remedy - Set the port not to shared by Anshin-net and so on. - Correct the parameter settings for tape operation port. L01 Timeout error -4 Details Communication ended with timeout. (CNC has a 248-byte receive buffer. The time during which CNC receives 248 bytes exceeds the 'TIME-OUT' value set in the I/O device parameter.
I Alarms User PLC Alarms (U) 11. User PLC Alarms (U) (Note) For details of user PLC alarms (U), refer to the PLC Programming Manual. U01 No user PLC - Details Remedy PLC program is not input. (Note 1) The number of PLC program steps displayed on the screen may not match the actual number of error occurrence steps because of the PLC program timing. Use this as a guideline of the occurrence place. (Note 2) Emergency stop (EMG) will be applied.
I Alarms User PLC Alarms (U) U10 Illegal PLC 0x800x Number of PLC program steps Details Remedy Details Remedy Software exception An abnormal stop occurred in PLC program process due to a bus error, etc. bit0: BIN command operation error bit1: BCD command operation error (Note) The number of PLC program steps displayed on the screen may not match the actual number of error occurrence steps because of the PLC program timing. Use this as a guideline of the occurrence place.
I Alarms Network Service Errors (N) 12. Network Service Errors (N) N001 Modem initial error Details An error occurred in the modem connection at the power ON. Remedy - Check the connection between the NC and modem, connection port and power supply to modem. N002 Redial over Details - The number of redials exceeded due to the dial transmission failure. Remedy - Wait a while, and then dial again. N003 TEL unconnect Details - The phone line is not connected.
I Alarms Program Errors (P) 13. Program Errors (P) P10 No. of simultaneous axes over Details The number of axis addresses commanded in a block is exceeds the specifications. Remedy - Divide the alarm block command into two. - Check the specifications. P11 Illegal axis address Details The axis address commanded by the program does not match any of the ones set by the parameter. Remedy - Correct the axis names in the program.
I Alarms Program Errors (P) P38 No spec: Add. Op block skip Details "/n" has been issued while the optional block skip addition is not in the specifications. Remedy - Check the specifications. P39 No specifications Details - A non-specified G code was commanded. - The selected operation mode is out of specifications. Remedy - Check the specifications. P45 G-CODE COMB. Details Remedy The combination of G codes in a block is inappropriate.
I Alarms Program Errors (P) P71 Arc center error Details - An arc center cannot be obtained in R-specified circular interpolation. - A curvature center of the involute curve cannot be obtained. Remedy - Correct the numerical values of the addresses in the program. - Correct the start and end points if they are inside of the base circle for involute interpolation.
I Alarms Program Errors (P) P112 Plane selected while R compen Details - Plane selection commands (G17, G18, G19) were issued while tool radius compensation (G41, G42) and nose R compensation (G41, G42, G46) commands were being issued. - Plane selection commands were issued after completing nose R compensation commands when there were no further axis movement commands after G40, and compensation has not been cancelled.
I Alarms Program Errors (P) P132 Spindle rotation speed S=0 Details No spindle rotation speed command has been issued. Remedy - Correct the program. P133 Illegal P-No. G96 Details The illegal No. was specified for the constant surface speed control axis. Remedy - Correct the parameter settings and program that specify the constant surface speed control axis. P134 G96 Clamp Err.
I Alarms Program Errors (P) P157 R compen direction changed Details During G46 nose R compensation, the compensation direction is reversed. Remedy - Change the G command to that which allows the reversed compensation direction (G00, G28, G30, G33, or G53). - Change the tool to that which has a different tip point No. - Enable "#8106 G46 NO REV-ERR". P158 Illegal tip point Details An illegal tip point No. (other than 1 to 8) was found during G46 nose R compensation. Remedy - Correct the tip point No.
I Alarms Program Errors (P) P174 No spec:Comp input by prog G11 Details Compensation data input by program cancel (G11) was commanded though there is no specification of compensation data input by program. Remedy - Check the specifications. P177 Tool life count active Details Registration of tool life management data with G10 was attempted when the "usage data count valid" signal was ON. Remedy - The tool life management data cannot be registered during the usage data count.
I Alarms Program Errors (P) P191 Taper length error Details In the lathe cutting cycle, the specified length of taper section is illegal. Remedy - Set the smaller radius value than the axis travel amount in the lathe cycle command. P192 Chamfering error Details Chamfering in the thread cutting cycle is illegal. Remedy - Set a chamfering amount not exceeding the cycle.
I Alarms Program Errors (P) P230 Subprogram nesting over Details Over 8 times of subprogram calls have been done in succession from a subprogram. - A M198 command was found in the program in the data server. - The program in the IC card has been called more than once (the program in the IC card can be called only once during nested). Remedy - Correct the program so that the number of subprogram calls does not exceed 8 times. P231 No sequence No. Details The sequence No.
I Alarms Program Errors (P) P262 Illegal modal (Coord rot) Details A coordinate rotation command has been issued during modal in which coordinate rotation is not allowed. Remedy - Correct the program. P270 No spec: User macro Details A macro specification was commanded though it is out of specifications. Remedy - Check the specifications. P271 No spec: Macro interrupt Details A macro interruption command has been issued though it is out of specifications. Remedy - Check the specifications.
I Alarms Program Errors (P) P291 WHILE sentence error Details There is an error in the "WHILE[]DO(-END(" statement. Remedy - Correct the program. P292 SETVN sentence error Details There is an error in the "SETVN(" statement when the variable name setting was made. Remedy - Correct the program. - The number of characters in the variable name of the SETVN statement must be 7 or less.
I Alarms Program Errors (P) P380 No spec: Corner R/C Details The corner R/C was issued though it is out of specifications. Remedy - Check the specifications. - Delete the corner chamfering/corner rounding command in the program. P381 No spec: Arc R/C Details Corner chamfering II or corner rounding II was commanded in the arc interpolation block though it is out of specifications. Remedy - Check the specifications.
I Alarms Program Errors (P) P411 Illegal modal G111 Details - G111 was issued during milling mode. - G111 was issued during nose R compensation mode. - G111 was issued during constant surface speed. - G111 was issued during mixed control (cross axis control). - G111 was issued during fixed cycle. - G111 was issued during polar coordinate interpolation. - G111 was issued during cylindrical interpolation mode. Remedy - Before commanding G111, cancel the following commands.
I Alarms Program Errors (P) P450 No spec: Chuck barrier Details The chuck barrier on command (G22) was specified although the chuck barrier is out of specifications. Remedy - Check the specifications. P451 No spec: Stroke chk bef travel Details Stroke check before travel (G22/G23) was commanded though it is out of specifications. Remedy - Check the specifications.
I Alarms Program Errors (P) P485 Illegal modal (mill) Details - The milling mode was turned ON during nose R compensation or constant surface speed control. - A T command was issued during the milling mode. - The mode was switched from milling to cutting during tool compensation. - Cylindrical interpolation or polar coordinate interpolation was commanded during the constant surface speed control mode (G96). - The command unacceptable in the cylindrical interpolation was issued.
I Alarms Program Errors (P) P544 No spec: Wk instl err cmp Details The workpiece installation error compensation function is out of the specifications. Remedy - Check the specifications. P545 Invld cmd in wk instl err cmp Details During workpiece installation error compensation, a command impossible to issue (such as G command) was issued. Remedy - Check the program.
I Alarms Program Errors (P) P605 T & TLM command in a block Details The T code is in the same block as the automatic tool length measurement block. Remedy - Specify the T code before the automatic tool length measurement block. P606 T cmnd not found before TLM Details The T code was not yet specified in automatic tool length measurement. Remedy - Specify the T code before the automatic tool length measurement block.
I Alarms Program Errors (P) P921 Illegal G code at 3D coord Details The commanded G code cannot be performed during 3-dimensional coordinate conversion modal. Remedy - Refer to "MITSUBISHI CNC 700/70 Series Programming Manual (Machining Center Sys- tem)" for usable G commands. - When the parameter "#8158 Init const sur spd" is enabled, disable the parameter or issue the constant surface speed control cancel (G97) command.
I Alarms Program Errors (P) P953 Tool axis dir cntrl prohibited Details Tool axis direction control was commanded during the mode where the control is unavailable. Remedy - Check the program and see whether any unavailable mode is included during tool axis di- rection control. If any, cancel that mode. P954 Inclined face command error Details The address to issue the inclined surface machining command is incorrect. Remedy - Check the program.
I Alarms Program Errors (P) I - 78
II Parameters
II Parameters User Parameters 1. User Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters User Parameters 【#8011】 INC. MAX. (for L system only) Set the maximum value for when inputting the tool wear compensation amount in the incremental mode. A value exceeding this setting value cannot be set. Absolute value of the input value is set. (If a negative value is input, it is treated and set as a positive value.) If "0" is input, this parameter will be disabled. ---Setting range--0 to 999.
II Parameters User Parameters 【#8019】 R COMP Set a compensation coefficient for reducing a control error in the reduction of a corner roundness and arc radius. The larger the set value is, the smaller the theoretical error will be. However, since the speed at the corner goes down, the cycle time will be extended. Coefficient = 100 - set value (Note) This function will be enabled when "#8021 COMP_CHANGE" is set to "0".
II Parameters User Parameters 【#8021】 COMP_CHANGE Select whether to share or separate the compensation coefficient at the corner/curve during the high-accuracy control mode. 0: Share ("#8019 R COMP" is applied.) 1: Separate - Corner : #8022 CORNER COMP - Curve : #8023 CURVE COMP (Note) Set "1" when using SSS control. 【#8022】 CORNER COMP Set the compensation coefficient to further reduce or increase the roundness at the corner during the high-accuracy control mode.
II Parameters User Parameters 【#8033】 Fairing ON (for M system only) Select whether to use the fairing function. 0: Not use 1: Use Fairing function is enabled during G61.2 modal, regardless of this setting. 【#8034】 AccClamp ON (for M system only) Select the method for clamping the cutting speed. 0: Clamp with parameter "#2002 clamp" or the corner deceleration function. 1: Clamp the cutting speed with acceleration judgment. (Enabled when "#8033 Fairing ON" is set to "1".
II Parameters User Parameters 【#8056】 G74 RETRACT Set the amount of retract (amount of cut-up) of the cutting-off cycle (G74, G75). ---Setting range--0 to 999.999 (mm) 【#8057】 G76 LAST-D Set the amount of final cut-in by the compound type thread cutting (G76). ---Setting range--0 to 999.999 (mm) 【#8058】 G76 TIMES Set how many times the amount of final cut-in cycle (G76 finish margin) will be divided in the compound type thread cutting (G76).
II Parameters User Parameters 【#8083】 G83S modeM (for M system only) Set the M command code for changing to the small diameter deep hole drilling cycle mode. ---Setting range--1 to 99999999 【#8084】 G83S Clearance (for M system only) Set the clearance amount for the small diameter deep hole drilling cycle (G83). ---Setting range--0 to 999.999 (mm) 【#8085】 G83S Forward F (for M system only) Set the feedrate from the R point to the cutting start position in the small diameter deep hole drilling cycle (G83).
II Parameters User Parameters 【#8106】 G46 NO REV-ERR (for L system only) Select the control for the compensation direction reversal in G46 (nose R compensation). 0: An alarm will be output and operation will stop when the compensation direction is reversed (G41 -> G42' G42 -> G41). 1: An alarm won't occur when the compensation direction is reversed, and the current compensation direction will be maintained.
II Parameters User Parameters 【#8120】 FONT SELECTION Select the font when Simplified Chinese is selected for "#1043 lang". 0: MITSUBISHI CNC GOTHIC font 1: Standard Windows font (Note) This parameter is available for M700VW only. 【#8121】 Screen Capture Select whether to enable the screen capture function. 0: Disable 1: Enable (Note 1) By setting this parameter to "1", and by keeping pushing the [SHIFT] key, screen capture will be executed. (Note 2) This parameter is valid with M700VS/M70/M70V/E70 Series.
II Parameters User Parameters 【#8156】 Fine thread cut E Select the address E type when cutting an inch screw. (The same value as "#1229 set01/bit1" will be reflected. When either setting changes, the other will change accordingly.) 0: Specify the number of threads per inch for inch screw cutting. 1: Specify the precision lead for inch screw cutting.
II Parameters User Parameters 【#8205】 OT-CHECK-P Set the coordinates of the (+) direction in the movable range of the stored stroke limit II or the upper limit coordinates of the prohibited range of stored stroke limit IIB. ---Setting range---99999.999 to 99999.999 (mm) 【#8206】 TOOL CHG. P Set the coordinates of the tool change position for G30. n (tool change position return). Set with coordinates in the basic machine coordinate system. ---Setting range---99999.999 to 99999.
II Parameters User Parameters 【#8216】 Type in G28 return Select the performance after establishing the reference position in reference position return command. 0: Moves to the reference position. 1: Won't move to the reference position. 【#8217】 Check start point Set a drawing start position in graphic check of each axis. ---Setting range---99999.999 to 99999.999 (mm) 【#8218】 Dir cmd retrct amt Set in which direction and how much the tool escapes when the operation is halted during direct command mode.
II Parameters User Parameters 【#8306】 P6 (for L system only) Set the area of the chuck and tail stock barrier. Set the coordinate from the center of workpiece (P0) for X-axis. (radius value) Set the coordinate value by basic machine coordinate system for Z-axis. ---Setting range---99999.999 to 99999.999 (mm) 【#8310】 Barrier ON (for L system only) Select whether to enable the chuck and tailstock barrier.
II Parameters User Parameters 【#8621】 Coord rot plane (H) Set the plane (horizontal axis) for coordinate rotation control. Usually, set the name of the 1st axis. When this parameter is not set, the coordinate rotation function will not work. ---Setting range--Axis name 【#8622】 Coord rot plane (V) Set the plane (vertical axis) for coordinate rotation control. Usually, set the name of the 2nd axis. When this parameter is not set, the coordinate rotation function will not work.
II Parameters User Parameters 【#8707】 Skip past amout (H) Set the difference (horizontal axis direction) between the skip read value and actual skip position. ---Setting range---99999.999 to 99999.999 (mm) 【#8708】 Skip past amout (V) Set the difference (vertical axis direction) between the skip read value and actual skip position. ---Setting range---99999.999 to 99999.999 (mm) 【#8709】 EXT work sign rvs Reverse the sign of external workpiece coordinate.
II Parameters User Parameters 【#8882】 Subpro stor D1: dev Select the storage destination (device) for the subprogram. M:Memory, G:HD(Note), F:FD(Note), R:Memory card, D:Data server(Note) (Note) This is available only with M700/M700VW Series. When D1 is designated at a subprogram call, the subprogram to be called will be searched from the device selected with this parameter. (Example) M98 P (program No.
II Parameters User Parameters 【#8888】 Subbro stor D4: dev Select the storage destination (device) for the subprogram. M:Memory, G:HD(Note), F:FD(Note), R:Memory card, D:Data server(Note) (Note) This is available only with M700/M700VW Series. When D4 is designated at a subprogram call, the subprogram to be called will be searched from the device selected with this parameter. (Example) M98 P (program No.
II Parameters User Parameters 【#8903】 Counter type 3 Set the type of counter displayed at the upper right of the AUTO/MDI display on the Monitor screen.
II Parameters User Parameters 【#8909(PR)】 Aut/Manual switch Select the counter display method on Monitor screen. 0: "AUTO/MDI" and "Manual" display is switched by the mode selection switch. 1: Display AUTO/MDI counter only. 2: Display Manual counter only. 3: Display the enlarged counter of "#8901 Counter type 1". (Note) This parameter is disabled when "#11019 2-system display (2-part system simultaneous display)" is set to "1" or "2".
II Parameters User Parameters 【#8920】 3D tool ofs select Select the method to calculate the drawing position when drawing a solid. With 3D drawing, the drawing position (tool tip position) is calculated with the method designated with this parameter, and the image is drawn. 0: For tool radius compensation, use the tool compensation amount set in tool compensation screen. For tool length, use the value in tool set window.
II Parameters User Parameters 【#8927】 SP on 3rd part sys Set a spindle No. to be displayed on the 3rd part system window when 2-part system simultaneous display is valid. On the 15-type display, 1-part system display can be also specified. High-order: Select an upper side spindle No. Low-order: Select a lower side spindle No. (Note 1) When "00" is set in 2-part system simultaneous display, spindles will be displayed in a default order (the 1st spindle on the upper side, the 2nd spindle on the lower side).
II Parameters User Parameters 【#8934】 Disable wear comp Select whether to disable the setting of tool wear compensation amount. 0: Not disable 1: Disable The wear compensation amount covers the following data according to the tool compensation type. - Compensation type I ("1" in "#1037 cmdtyp(command type 1)") ... This parameter is disabled. - Compensation type II ("2" in "#1037 cmdtyp(command type)") ... Length wear and radius wear - Compensation type III ("3" in "#1037 cmdtyp(command type)") ...
II Parameters User Parameters 【#8944(PR)】 $3 color Set the color to be shown on the top-left of screen for the 3rd part system. This enables switching the color patterns for each part system. When set to the values 1 to 4, the part system name is shown in the form of button image. Note) Enabled when #8942 ($1 color) is set to the values 1 to 4. 1: Purple (default) 2: Pink 3: Light blue 4: Orange 【#8945(PR)】 $4 color Set the color to be shown on the top-left of screen for the 4th part system.
II Parameters User Parameters 【#9002】 DATA IN DEV. Select the device No. for inputting the data. (The device Nos. correspond to the input/output device parameters.) ---Setting range--0 to 4 【#9003】 DATA OUT PORT Select the port for outputting the data such as machine program and parameters. 1: ch1 2: ch2 【#9004】 DATA OUT DEV. Select the device No. for outputting the data. (The device Nos. correspond to the input/ output device parameters.
II Parameters User Parameters 【#9018】 HANDY TERMINAL DEV. Select the device No. used for communication with a handy terminal. (The device Nos. correspond to the input/output device parameters.) ---Setting range--0 to 4 【#9051】 Data I/O port Select whether to use display side serial port or NC side serial port for data input/output function. 0: Display side serial port 1: Display side serial port 2: NC side serial port (Note) The setting range differs according to the model.
II Parameters User Parameters 【#9105】 DEV0 EVEN PARITY Select odd or even when parity is added to the data. This parameter is ignored when no parity is added. 0: Odd parity 1: Even parity 【#9106】 DEV0 CHR. LENGTH Set the length of the data bit. Refer to "#9104 DEV0 PARITY CHECK". 0: 5 (bit) 1: 6 2: 7 (NC connection not supported) 3: 8 【#9107】 DEV0 TERMINATR TYP Select the code to terminate data reading.
II Parameters User Parameters 【#9119】 DEV0 INPUT TYPE Select the mode for input (verification). 0: Standard input (Data from the very first EOB is handled as significant information.) 1: EOBs following the first EOB of the input data are skipped until data other than EOB is input 【#9120】 DEV0 OUT BUFFER Select the buffer size of the output data which is output to output device using NC side serial port.
II Parameters User Parameters 【#9201】 DEV1 DEVICE NAME Set the device name corresponding to the device No. Set a simple name for quick identification. ---Setting range--Use alphabet characters, numerals and symbols to set a name within 3 characters. 【#9202】 DEV1 BAUD RATE Select the serial communication speed. 0: 19200 (bps) 1: 9600 2: 4800 3: 2400 4: 1200 5: 600 6: 300 7: 110 【#9203】 DEV1 STOP BIT Select the stop bit length used in the start-stop system. Refer to "#9204 DEV1 PARITY CHECK".
II Parameters User Parameters 【#9213】 DEV1 EIA OUTPUT Select ISO or EIA code for data output. In data input mode, the ISO and EIA codes are identified automatically. 0: ISO code output 1: EIA code output 【#9214】 DEV1 FEED CHR. Set the length of the tape feed to be output at the start and end of the data during tape output. ---Setting range--0 to 999 (characters) 【#9215】 DEV1 PARITY V Select whether to perform the parity check for the number of characters in a block at the input of data.
II Parameters User Parameters 【#9224】 DEV1 EIA CODE * Set the code in hexadecimal, which does not duplicate the existing EIA codes, for the special code "*". When output with EIA code, data can be output using the alternate code in which the special ISO code, not included in EIA, is specified. ---Setting range--0 to FF (hexadecimal) 【#9225】 DEV1 EIA CODE = Set the code in hexadecimal, which does not duplicate the existing EIA codes, for the special code "=".
II Parameters User Parameters 【#9306】 DEV2 CHR. LENGTH Select the length of the data bit. Refer to "#9304 DEV2 PARITY CHECK". 0: 5 (bit) 1: 6 2: 7 (NC connection not supported) 3: 8 【#9307】 DEV2 TERMINATR TYP Select the code to terminate data reading. 0, 3: EOR 1, 2: EOB or EOR [When M700/700VW display side serial port is selected] 0: No terminator 1: EOR 2: EOB 3: EOB or EOR 【#9308】 DEV2 HAND SHAKE Select the transmission control method. No handshaking will be used when a value except 1 to 3 is set.
II Parameters User Parameters 【#9320】 DEV2 OUT BUFFER Select the buffer size of the output data which is output to output device using NC side serial port. If the output device has a transmission error (overrun error), decrease the buffer size with this parameter. If the buffer size is decreased, output time will prolong according to the size.
II Parameters User Parameters 【#9402】 DEV3 BAUD RATE Select the serial communication speed. 0: 19200 (bps) 1: 9600 2: 4800 3: 2400 4: 1200 5: 600 6: 300 7: 110 【#9403】 DEV3 STOP BIT Select the stop bit length used in the start-stop system. Refer to "#9404 DEV3 PARITY CHECK". At the output of data, the number of characters is always adjusted to for the parity check. 1: 1 (bit) 2: 1.5 3: 2 【#9404】 DEV3 PARITY CHECK Select whether to add a parity check bit to the data.
II Parameters User Parameters 【#9414】 DEV3 FEED CHR. Set the length of the tape feed to be output at the start and end of the data during tape output. ---Setting range--0 to 999 (characters) 【#9415】 DEV3 PARITY V Select whether to perform the parity check for the number of characters in a block at the input of data. At the output of data, the number of characters is always adjusted to for the parity check.
II Parameters User Parameters 【#9425】 DEV3 EIA CODE = Set the code in hexadecimal, which does not duplicate the existing EIA codes, for the special code "=". When output with EIA code, data can be output using the alternate code in which the special ISO code, not included in EIA, is specified. ---Setting range--0 to FF (hexadecimal) 【#9426】 DEV3 EIA CODE : Set the code in hexadecimal, which does not duplicate the existing EIA codes, for the special code " : ".
II Parameters User Parameters 【#9507】 DEV4 TERMINATR TYP Select the code to terminate data reading. 0, 3: EOR 1, 2: EOB or EOR [When M700/700VW display side serial port is selected] 0: No terminator 1: EOR 2: EOB 3: EOB or EOR 【#9508】 DEV4 HAND SHAKE Select the transmission control method. No handshaking will be used when a value except 1 to 3 is set. 1: RTS/CTS method 2: No handshaking 3: DC code method 【#9509】 DEV4 DC CODE PRTY Select the DC code type when the DC code method is selected.
II Parameters User Parameters 【#9520】 DEV4 OUT BUFFER Select the buffer size of the output data which is output to output device using NC side serial port. If the output device has a transmission error (overrun error), decrease the buffer size with this parameter. If the buffer size is decreased, output time will prolong according to the size.
II Parameters User Parameters 【#9601】 BAUD RATE Select the rate at which data is transferred. 0: 19200 (bps) 1: 9600 2: 4800 3: 2400 4: 1200 5: 600 6: 300 7: 110 8: 38400 【#9602】 STOP BIT Select the stop bit length used in the start-stop system. Refer to "#9603 PARITY EFFECTIVE". At the output of data, the number of characters is always adjusted to for the parity check. 1: 1 (bit) 2: 1.5 3: 2 【#9603】 PARITY EFFECTIVE Select whether to add the parity bit to the data.
II Parameters User Parameters 【#9610】 LINK PARAM. 2 Bit 2: Specify the control code parity (even parity for the control code). Select whether to add an even parity to the control code, in accordance with the I/O device specifications. 0: Not add a parity bit to the control code 1: Add a parity bit to the control code Bit 3: Parity V Select whether to enable checking of parity V in one block at the input of the data. 0: Disable 1: Enable 【#9611】 Link PARAM. 3 Not used. Set to "0". 【#9612】 Link PARAM.
II Parameters User Parameters 【#9706】 Host No. Select the No. of the host to be used from host 1 to host 4. ---Setting range--1 to 4 : Host No. 【#9711】 Host1 host name Set the host computer name. This parameter allows the NC to easily recognize the host computer on the network. Set the host computer's name (name registered in C:\windows\hosts) or the IP address. For host name: mspc160 For IP address: 150.40.0.
II Parameters User Parameters 【#9720】 Host 1 Wrd num: cmnt Set the number of words to be displayed as a comment. (Note) One word designates a character string divided by one or more spaces. ---Setting range--0 to 100 0: Default value 【#9721】 Host 1 no total siz Set whether to display the total number of characters registered in the machining programs of host1 when displaying the file list. If there are many files in the directory to be referred to, the list can be updated quickly by setting "1".
II Parameters User Parameters 【#9739】 Host 2 Wrd pos: cmnt Set the comment (date, time, etc.) display position (nth word from left) of the list displayed when the ftp command "dir" is executed. (Note) One word designates a character string divided by one or more spaces. ---Setting range--0 to 100 0: Default value 【#9740】 Host 2 Wrd num: cmnt Set the number of words to be displayed as a comment. (Note) One word designates a character string divided by one or more spaces.
II Parameters User Parameters 【#9758】 Host 3 Wrd pos: Dir Set the
display position (nth word from left) of the list displayed when the ftp command "dir" is executed. (Note) One word designates a character string divided by one or more spaces. ---Setting range--0 to 100 0: Default value 【#9759】 Host 3 Wrd pos: cmnt Set the comment (date, time, etc.) display position (nth word from left) of the list displayed when the ftp command "dir" is executed.II Parameters User Parameters 【#9777】 Host 4 Wrd pos: size Set the size display position (nth word from left) of the list displayed when the ftp command "dir" is executed. (Note) One word designates a character string divided by one or more spaces. ---Setting range--0 to 100 0: Default value 【#9778】 Host 4 Wrd pos: Dir Set the
display position (nth word from left) of the list displayed when the ftp command "dir" is executed. (Note) One word designates a character string divided by one or more spaces.II Parameters User Parameters 【#10501 - 10530(PR)】 Monitr main menu 1 to 30 Set the menu Nos. to display the menu on Monitor screen's main menu using menu customization function. The menu position of each parameter and the menu when "0" is set are as follows.
II Parameters User Parameters 【#10551 - 10580(PR)】 Setup main menu 1 to 30 Set the menu Nos. to display the menu on Setup screen's main menu using menu customization function. The menu position of each parameter and the menu when "0" is set are as follows.
II Parameters User Parameters 【#10601 - 10630(PR)】 Edit main menu 1 to 30 Set the menu Nos. to display the menu on Edit screen's main menu using menu customization function. The menu position of each parameter and the menu when "0" is set are as follows.
II Parameters User Parameters 【#10807】 Password Set the password for sharing of machining data. ---Setting range--4 characters (one-byte alphanumeric characters, without space) 【#10808】 Customer number Set the user No. for sharing of machining data. ---Setting range--Within 8 characters (one-byte alphanumeric characters, without space) 【#10812】 Anshin-net valid Select whether to enable the Anshin-net function.
II Parameters User Parameters 【#19008】 PRM coord rot type Select the start point of the initial travel command after parameter coordinate rotation. 0: Calculate the end position, assuming that the start point rotates in accordance with the coordinates rotation. 1: Calculate the end position using the current position on the local coordinate system before rotating, without rotating the start point in accordance with the coordinates rotation. 【#19401】 G33.n chamfer spd Not used.
II Parameters Base Specifications Parameters 2. Base Specifications Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters Base Specifications Parameters 【#1013(PR)】 axname Axis name Set each axis' name with an alphabetic character. Use the characters X, Y, Z, U, V, W, A, B or C. (Note 1) Do not set the same name twice in one part system. The same name which is used in another part system can be set. (Note 2) The PLC name does not need to be set. (Numbers 1 to 6 are shown as the axis names.
II Parameters Base Specifications Parameters 【#1024(PR)】 crsinc Incremental command address during mixed control (cross axis control) Set the axis name for issuing an incremental command to this axis during mixed control (cross axis control). ---Setting range--X,Y,Z,U,V,W,A,B,C,H (Setting will be cleared when “0” is set) 【#1025】 l_plane Initial plane selection Select the plane to be selected when the power is turned ON or reset.
II Parameters Base Specifications Parameters 【#1037(PR)】 cmdtyp Command type Set the G code list and compensation type for programs. 1 : List1(for M) Type I (one compensation amount for one compensation No.) 2 : List1(for M) Type II (shape and wear compensation amounts for one comp. No.) 3 : List2(for L) Type III (shape and wear compensation amounts for one comp. No.
II Parameters Base Specifications Parameters 【#1044(PR)】 auxno MR-J2-CT Connections Set the number of MR-J2-CTs connected. (Note) The number of MR-J2-CTs possible to connect and setting range are different according to the model. Check the specifications of each series. 【#1050(PR)】 MemPrg Not used. Set to "0". 【#1051(PR)】 MemTol Tool compensation memory common for part systems 0: Tool compensation memory separate for part systems 1: Tool compensation memory common for part systems 【#1052(PR)】 MemVal No.
II Parameters Base Specifications Parameters 【#1072】 chop_ax Chopping axis Select the chopping axis. 0: Non-chopping axis 1: Chopping axis 【#1073】 I_Absm Initial absolute setting Select the mode (absolute or incremental) at turning ON the power or reset. 0: Incremental setting 1: Absolute setting 【#1074】 l_Sync Initial synchronous feed Select the feedrate mode at turning ON the power or reset.
II Parameters Base Specifications Parameters 【#1086】 G0lntp G00 non-interpolation Select the G00 travel path type. 0: Move linearly toward the end point. (interpolation type) 1: Move to the end point of each axis at the rapid traverse feedrate for each axis. (noninterpolation) (Note) If this parameter is set to "1", neither of the following functions will be available: rapid traverse constant inclination acceleration/deceleration and rapid traverse constant inclination multi-step acceleration/deceleration.
II Parameters Base Specifications Parameters 【#1099】 Treset Cancel tool compensation amount Select how to handle the tool compensation vector when resetting the system. 0: Clear the tool length and wear compensation vectors when resetting 1: Hold the tool length and wear compensation vectors when resetting When the values are cleared, the compensation will not be applied. So the axis will be shifted by the compensation amount in the next compensation operation.
II Parameters Base Specifications Parameters 【#1112(PR)】 S_TRG Validate status trigger method Select the enable conditions for the user macro interrupt signal (UIT). 0: Enable when interrupt signal (UIT) turns ON 1: Enable when interrupt signal (UIT) is ON 【#1113(PR)】 INT_2 Validate interrupt method type 2 Select the performance after user macro interrupt signal (UIT) input.
II Parameters Base Specifications Parameters 【#1124】 ofsfix Fix tool compensation No. Select how to handle the compensation No. when the input key is pressed on the tool compensation screen. 0: Increment the compensation No. by 1 (Same as general parameters) 1: # compensation No. does not change When setting in sequence, “0” is handier.
II Parameters Base Specifications Parameters 【#1141】 Mn200 M code number Set the first number of M code that corresponds to the setup Nos. from 200 to 299. ---Setting range--0 to 99999999 【#1142】 Mn300 M code number Set the first number of M code that corresponds to the setup Nos. from 300 to 399. ---Setting range--0 to 99999999 【#1143】 Mn400 M code number Set the first number of M code that corresponds to the setup Nos. from 400 to 499.
II Parameters Base Specifications Parameters 【#1158】 F0atno Not used. Set to "0". 【#1163(PR)】 No rio RIO connection detection invalid Select whether to enable or disable RIO connection detection. 0: Enable 1: Disable If your I/O consists of only cards such as CC-LINK, setting this parameter to “1” will avoid the RIO communication cutoff alarm. 【#1164(PR)】 ATS Automatic tuning function Select whether to enable or disable the automatic tuning function.
II Parameters Base Specifications Parameters 【#1175】 skip1 G31.1 skip condition Designate the skip signal in multi-step skip G31.1. The setting method is same as "#1173". 【#1176】 skip1f G31.2 skip speed Set the skip feedrate in multi-step skip G31.1. ---Setting range--1 to 999999 (mm/min) 【#1177】 skip2 G31.2 skip condition Set the skip signal in multi-step skip G31.2. The setting method is same as "#1173". 【#1178】 skip2f G31.2 skip speed Set the skip signal in multi-step skip G31.2.
II Parameters Base Specifications Parameters 【#1188】 spd_F4 F1 digit feedrate F4 Set the feedrate for the F command in the F 1-digit command ("#1079 F1digit" is set to "1"). Feedrate when F4 is issued (mm/min) When "#1246 set08/bit6" is set to "1" and F 1-digit feed is commanded, the feedrate can be increased/decreased by operating the manual handle.
II Parameters Base Specifications Parameters 【#1200(PR)】 G0_acc Validate acceleration and deceleration with inclination constant G0 Select the acceleration and deceleration type when a rapid traverse command is issued. 0: Acceleration and deceleration with constant time (conventional type) 1: Acceleration and deceleration with a constant angle of inclination (Note) When rapid traverse constant inclination multi-step acceleration/deceleration is valid, this parameter will be invalid.
II Parameters Base Specifications Parameters 【#1210】 RstGmd Modal G code reset Select whether to initialize G code group modals and H and D codes, which corresponds to bits as follows, when the system is reset. 0: Initialize. 1: Not initialize.
II Parameters Base Specifications Parameters bit 0: Group 1 Move G modal initialization The H code indicates the tool length offset number, and the D code indicates the tool radius compensation number. When bit 18 is set to ON, the H and D codes and group 8 G modal are retained. When bit 7 is set to ON, the H code and group 8 G modal are retained.
II Parameters Base Specifications Parameters 【#1213(PR)】 proaxy Side 1 of inclination angle (for L system only) Set the length within the orthogonal coordinate of the inclined axis, a side of the triangle formed with the inclination angle. ---Setting range---9999.999 to 9999.999 【#1214(PR)】 macaxy Side 2 of inclination angle (for L system only) Set the actual length of the base axis corresponding to the inclined axis, a side of the triangle formed with the inclination angle. ---Setting range---9999.
II Parameters Base Specifications Parameters 【#1219】 aux03 bit1: Stop high-speed PC monitoring function Set "1" to disable the function that triggers the emergency stop when the PC high-speed processing time is extended. Disable the monitoring function only as a temporary measure. bit5: Dog-type intermediate point Select whether to move to the intermediate point during automatic dog-type reference position return. 0: Not move. 1: Move.
II Parameters Base Specifications Parameters 【#1221】 aux05 bit0: Workpiece coordinate/ Absolute coordinate display switching Select the coordinate to display when workpiece coordinate position counter is selected for the Monitor screen counter display. 0: Workpiece coordinate 1: Absolute coordinate 【#1222】 aux06 bit4: Minimum cut-in amount selection Select the minimum cut-in amount command value for the compound thread cutting cycle (G76 command). 0: The minimum cut-in amount (Q) will be "0".
II Parameters Base Specifications Parameters 【#1224】 aux08 bit0: Sampling data output Select whether to enable the sampling data output. 0: Disable 1: Enable 【#1225】 aux09 bit7: Enable/disable spindle rotation speed clamp Select whether to enable the spindle rotation speed clamp by the G92 S or Q command for the spindle command rotation speed (R7000) set with the user ladder.
II Parameters Base Specifications Parameters 【#1227】 aux11 bit0: Select PLC signal or spindle feedrate attained Set up this option when disabling the cutting start interlock by spindle feedrate attained. 0: Cutting start interlock by PLC signal 1: Cutting start interlock by spindle feedrate attained bit1: Select H or D code Set up this option to validate the data that is set up on the tool life management screen when issuing the H99 or D99 command.
II Parameters Base Specifications Parameters 【#1229】 set01 bit0: Subprogram interrupt Select the type of the user macro interrupt. 0: Macro type user macro interrupt 1: Sub-program type user macro interrupt bit1: Accurate thread cutting E Select what the address E specifies in inch screw cutting.
II Parameters Base Specifications Parameters 【#1231】 set03 bit0: Graphic check compatibility parameter Select whether to return the data to the pre-starting data after having checked a machining program that rewrites the common variables, workpiece offsets and tool offsets. 0: Return the data. 1: Not return the data.
II Parameters Base Specifications Parameters 【#1235】 set07 bit0: Helical interpolation speed 2 0: Select normal speed designation also for 3rd axis 1: Select arc plane element speed designation bit2: Fixed type chopping compensation valid only at start When the fixed type compensation value is selected, the method can be changed to the compensation value sequential update type after the first four cycles.
II Parameters Base Specifications Parameters 【#1239(PR)】 set11 bit0: Coil switching method Select the coil switching method. 0: Via PLC (Y189F). 1: NC internal processing. (Y189F is invalid.) bit1: Handle I/F selection Select the handle connection destination. 0: Use the handle connected to the encoder communication connector. 1: Use the remote I/O unit as a priority.
II Parameters Base Specifications Parameters 【#1246(PR)】 set18 bit2: Switch coordinate systems for radius compensation Select the coordinate system for radius compensation. 0: Type 1 (Conventional specification) Perform radius compensation with reference to a position on the workpiece coordinate system. 1: Type 2 Perform radius compensation with reference to a position on the program coordinate system.
II Parameters Base Specifications Parameters 【#1255】 set27 Not used. Set to "0". 【#1256】 set28 Not used. Set to "0". 【#1257】 set29 Not used. Set to "0". 【#1258(PR)】 set30 bit0: Skip I/F switch Select A or B contact for the skip interface. 0: A contact (Skip operation starts at rising edge of a signal) 1: B contact (Skip operation starts at falling edge of a signal) (Note) This parameter is not applied to PLC skip.
II Parameters Base Specifications Parameters 【#1270(PR)】 ext06 bit3: Finished shape judgement disable Select to enable/disable the judgement of shape when the finished shape's Z axis (or X axis at G72 command) does not move monotonously. Program error (a shape change at pocket machining) can be avoided when selected to disable.
II Parameters Base Specifications Parameters 【#1271(PR)】 ext07 bit0: Mirror image operation Select the type of mirror image operation. 0: Type 1 - The program mirror image, external mirror image, and parameter mirror image are exclusive to each other. - An increment command moves the image to the position indicated by the travel amount with the sign inverted. 1: Type 2 - Mirror image operation is enabled when the program mirror image (G51.1) command is issued or when the external signal or parameter is ON.
II Parameters Base Specifications Parameters 【#1272(PR)】 ext08 bit0: Switch pocket machining operation Select the pocket machining specification. 0: Conventional specification Pocket machining will be selected with the H designation. The pull direction when pocket machining is ON will be the Z direction. 1: Extended specification Pocket machining will start only when both X and Z axes are specified in the first travel block after the finished shape start block.
II Parameters Base Specifications Parameters 【#1274(PR)】 ext10 bit4: Optional block skip operation changeover Select the optional block skip operation. 0: Enable or disable optional block skipping in the middle of a block according to the setting of "#1226 aux10/bit1". 1: Enable optional block skipping at the top and in the middle of a block. Note that a slash "/" on the right-hand side of equation or that in an equation between [ ] is handled as division operator.
II Parameters Base Specifications Parameters 【#1279(PR)】 ext15 bit0: Part system synchronization method Select the part system synchronization method. 0: If one part system is not in the automatic operation, the synchronization command will be ignored and the next block will be executed. 1: Operate according to the "waiting ignore" signal. If the "waiting ignore" signal is set to "1", the synchronization command will be ignored. When set to "0", synchronization will be applied.
II Parameters Base Specifications Parameters 【#1280(PR)】 ext16 bit0: I/F per axis during mixed control (cross axis control) Select how to handle the following PLC interface for axes interchanged with the mixed control (cross axis control). - Mirror image - Manual/automatic interlock - Manual/automatic machine lock 0: Follows axis configuration before the mixed control (cross axis control). 1: Follows axis configuration after the mixed control (cross axis control). (Example) The device No.
II Parameters Base Specifications Parameters 【#1281(PR)】 ext17 bit0: Switch manual high-speed reference position return in synchronous control Select the movement of synchronized axes in manual high-speed reference position return. 0: Primary and secondary axes start the return synchronizing. Even when one axis stops at its reference position, the other axis continues moving until it reaches its reference position.
II Parameters Base Specifications Parameters 【#1285(PR)】 ext21 bit0: Multi-part system program management Select whether to use multi-part system program management. 0: Not use 1: Use (Note) When this parameter's value is changed, the power must be turned OFF and ON, and the system formatted. Two or more part systems from [1] to [4] need to be set to "1" in "#1001 SYS_ON". Otherwise this parameter will be disabled even though set to "1".
II Parameters Base Specifications Parameters 【#1287(PR)】 ext23 bit1: Inclined surface coordinate display (for M system only) 0: Display the position which includes tool length offset. 1: Display the position on the program which excludes tool length offset. bit2: Inclined surface coordinate display (for M system only) 0: Display the position which includes tool radius compensation. 1: Display the position on the program which excludes tool radius compensation.
II Parameters Base Specifications Parameters 【#1295(PR)】 ext31 Not used. Set to "0". 【#1296(PR)】 ext32 Not used. Set to "0". 【#1297(PR)】 ext33 Not used. Set to "0". 【#1298(PR)】 ext34 Not used. Set to "0". 【#1299(PR)】 ext35 Not used. Set to "0". 【#1300(PR)】 ext36 bit0: Multiple spindle control II Select multiple spindle control I or II.
II Parameters Base Specifications Parameters 【#1312】 T_base Tool life management standard number Set the standard No. for the tool life management. When the value specified by the T code command exceeds the set value in this parameter, the set value will be subtracted from the command value, which will be used as tool group No. for tool life management.
II Parameters Base Specifications Parameters 【#1331(PR)】 MC_dp2 Contactor weld detection device 2 When safety observation is executed, set the remote I/O device to input the contactor's auxiliary b contact signal used for the contactor weld detection. If "0" is set, weld detection will not be executed.
II Parameters Base Specifications Parameters 【#1342】 AlmDly Alarm display delay time Set a time between when an operation alarm occurs and when the alarm display and signal turn ON. When set to "0", the alarm display and signal will turn ON immediately after the alarm occurrence. When set to "-1", the alarm display and signal will not turn ON after the alarm occurrence.
II Parameters Base Specifications Parameters 【#1401】 M_mode M command operation selection Select the M command operation. (Note) Register M codes in the special operation registration M codes (#1411 to #1418). 0: Not wait for the completion of registered M codes, but wait for the completion of the other M codes 1: Wait for the completion of registered M codes, but not wait for the completion of the other M code 【#1402】 S_mode S command completion method selection Select the S command completion method.
II Parameters Base Specifications Parameters 【#1418】 M_wait[M255-224] Special operation registration M code Register an M code (224 to 255) that needs special operation. Each bit of the setting value corresponds to the M code number. (Example) To register M05, set 00000020 in #1411. (Note) Note that the registered M code operation varies according to M_mode (#1401).
II Parameters Base Specifications Parameters 【#1511】 DOORPm Signal input device 1 for door interlock II: for each part system Set the fixed device number (X??) for door interlock II signal input for each part system. A device number from X01 to XFF can be specified.(Except X100.) Device number "000" is invalid. Set device number "100" when using no fixed device number for door interlock II signal input.
II Parameters Base Specifications Parameters 【#1523】 C_feed Normal line control axis turning speed Set the turning speed of the normal line control axis at the block joint during normal line control. Set a value that does not exceed the normal line control axis' clamp speed ("#2002 clamp"). This is valid with normal line control type I. ---Setting range--0 to 1000000 (°/min) 【#1524】 C_type Normal line control type Select the normal line control type.
II Parameters Base Specifications Parameters 【#1542】 crsax[6] Set the axis to be interchanged during the mixed control (cross axis control). Using two digits, set the name of the axis to be interchanged with the axis in the part system where the mixed control (cross axis control) request signal is input, or the name of the axis to be shifted to that part system.
II Parameters Base Specifications Parameters 【#1570】 Sfilt2 Soft acceleration/deceleration filter 2 Set the filter time constant for smoothly changing the acceleration rate in pre-interpolation acceleration/deceleration. This will be disabled when "0" or "1" is set. ---Setting range--0 to 26 (ms) Notch frequency Hz Displays the notch frequency(Hz) for the S-pattern filter set in "#1570 Sfilt2 (Soft acceleration/deceleration filter 2)".
II Parameters Base Specifications Parameters 【#1590】 Animate ax direct Machine status animated display axis direction(+/-) 0: 1st axis + direction is set to the right direction. 1: 1st axis + direction is set to the left direction. 0: 2nd axis + direction is set to the rear direction. 1: 2nd axis + direction is set to the front direction. 0: 3rd axis + direction is set to the top direction. 1: 3rd axis + direction is set to the bottom direction.
II Parameters Base Specifications Parameters 【#1928(PR)】 Global Gateway Gateway Set the IP address for the gateway. 【#1929】 Port number Port No. Set the port No. for the service function. ---Setting range--1 to 9999 (Set 2000 when not connected to the Ethernet.) 【#1930(PR)】 Host address Host address Set the host's IP address. 【#1931(PR)】 Host number Host No. Set the host's port No. ---Setting range--1 to 9999 【#1934(PR)】 Local IP address Set the HMI side CPU's IP address.
II Parameters Base Specifications Parameters 【#11009(PR)】 M2 label O M2 label O Select the program number label when using the M2 format. 0: Label L 1: Label O 【#11010(PR)】 Software keyboard Software keyboard Select with touch panel whether to use software keyboard. 0: Do not use 1: Use 2: Use (Note1) (Note1) Software keyboard automatically appears on a specific screen. (For M700VS/ M70V/M70 Series only). 【#11011】 Handy TERM. PW.
II Parameters Base Specifications Parameters 【#11022】 SRAM Output Type SRAM output type Set the SRAM output type. (Note) In M700 Series, the conventional SRAM output type is set regardless of the setting of this parameter. 0: The latest SRAM output type is set. (Not compatible with F3 and versions older than F3.) 1: The conventional SRAM output type is set. (Compatible with F3 and versions older than F3.) 【#11023】 G33.n Drn G33.n dryrun Not used. 【#11024】 G33.n fhd G33.n feed hold Not used.
II Parameters Base Specifications Parameters 【#11035】 Sys. change limit Part system switching restriction This restricts switching the part systems displayed on screen. 0: Not restrict 1: Disable the part system switching by pressing [$<->$] key on touch panel. 2: Disable the part system switching by display switch signals(Y730 to Y733).
II Parameters Base Specifications Parameters 【#12001】 ManualB RectanA xH Manual feed rate B constant surface control intersecting part system axis name (horizontal) Set the part system axis name ("#1013 axname") for the two axes that intersect with the rotary axis direction. When one of the two axes is blank, a constant speed will be applied without using constant surface speed control.
II Parameters Base Specifications Parameters 【#12010(PR)】 Tbin T binary Data type 0 BCD Data type 1 Unsigned binary Data type -1 Singed binary The absolute value "1" is output for "-1". "-1" is output as "0xFFFFFFFF". ---Setting range--Data type (-1,0,1) 【#12011(PR)】 Bfig Number of B Set the number of T that can be specified within the same block.
II Parameters Axis Specifications Parameters 3. Axis Specifications Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters Axis Specifications Parameters 【#2004】 G0tL G0 time constant (linear) Set a linear control time constant for rapid traverse acceleration and deceleration. The time constant will be enabled when LR (rapid traverse feed with linear acceleration/ deceleration) or F (soft acceleration/deceleration) is selected in "#2003 smgst Acceleration and deceleration modes".
II Parameters Axis Specifications Parameters 【#2008】 G1t1 G1 time constant (primary delay)/Second-step time constant for soft acceleration/deceleration Set the primary delay time constant for cutting acceleration and deceleration. The time constant will be enabled when C1 (cutting feed with the primary delay) or C3 (cutting feed with exponential acceleration and linear deceleration) is selected in "#2003 smgst acceleration/deceleration modes".
II Parameters Axis Specifications Parameters 【#2014】 OT + Soft limit I + Set a soft limit area with reference to the zero point of the basic machine coordinate. Set the coordinate in the positive direction for the movable area of stored stroke limit 1. The coordinate in the negative direction is set in "#2013 OT-". To narrow the available range in actual use, use the parameters "#8204 OT-" and"#8205 OT+".
II Parameters Axis Specifications Parameters 【#2023】 ozfmin Set up ATC speed lower limit Set the minimum speed outside the soft limit range during the second to the fourth reference position return. ---Setting range--0 to 1000000 (mm/min) 【#2024】 synerr Allowable error Set the maximum synchronization error, allowable at the synchronization error check, for the primary axis. When “0” is set, the error check will not be carried out. ---Setting range--0 to 99999.
II Parameters Axis Specifications Parameters 【#2030(PR)】 dir (-) Reference position direction (-) Select which side of the near-point dog the reference position is established. For a rotary axis, select a direction that heads to the zero point from the intermediate point during automatic zero point return.
II Parameters Axis Specifications Parameters 【#2036】 slv_adjust Reference position adjustment value Set the distance from the first grid point after leaving the near point dog on the secondary axis to the position where the reference position is actually established in dog-type reference position return in synchronous control. (Reference position shift amount is not included.
II Parameters Axis Specifications Parameters 【#2038】 #2_rfp Reference position #2 Set the position of the second reference position from the zero point of the basic machine coordinate. Basic machine coordinate Reference position #1 (#2037 G53ofs) Reference position #2 (#2038 #2_rfp) Reference position #3 (#2039 #3_rfp) Reference position #4 (#2040 #4_rfp) ---Setting range---99999.999 to 99999.
II Parameters Axis Specifications Parameters 【#2051】 check Check Set the tolerable range of travel distance (deviation distance) while the power is turned OFF. If the difference of the positions when the power is turned OFF and when turned ON again is larger than this value, an alarm will be output. Set "0" to omit the check. ---Setting range--0 to 99999.999 (mm) 【#2054】 clpush Current limit (%) Set the current limit value during the stopper operation in the dogless-type absolute position detection.
II Parameters Axis Specifications Parameters 【#2068】 G0fwdg G00 feed forward gain Set a feed forward gain for G00 pre-interpolation acceleration/deceleration. The larger the setting value, the shorter the positioning time during in-position checking. If a machine vibration occurs, set the smaller value. ---Setting range--0 to 200 (%) 【#2069】 Rcoeff Axis arc radius error correction coefficient Set the percentage to increase or decrease the arc radius error correction amount for each axis.
II Parameters Axis Specifications Parameters 【#2076】 index_x Index table indexing axis Select whether the axis is a normal axis or an index table indexing axis. 0: Normal axis 1: Index table indexing axis (Note) This parameter is valid only for the NC axis. The parameter is invalid if set for the PLC axis. 【#2077】 G0inps G0 in-position width Set the in-position width for G0. Between SV024 and this parameter, the parameter with a larger value will be applied.
II Parameters Axis Specifications Parameters 【#2090】 plrapid Rapid traverse rate for super-imposition control Set the rapid traverse rate for superimposition control. (Equivalent to "#2001 rapid Rapid traverse rate".) ---Setting range--1 to 1000000 (mm/min) 【#2091】 plclamp Cutting feed clamp speed for super-imposition control Set the cutting feed clamp speed for superimposition control. (Equivalent to "#2002 clamp Cutting feed clamp speed".
II Parameters Axis Specifications Parameters 【#2103】 skip_t1 Skip time constant primary delay / Second-step time constant for soft acceleration/deceleration Set a primary-delay time constant for variable speed skip acceleration and deceleration, or for an occasion where a skip command issues acceleration/deceleration time constant enabled (R1).
II Parameters Axis Specifications Parameters 【#2121】 vbacklash valid Variable backlash valid/continuous or Variable backlash II valid Select whether the variable backlash is to be disabled/enabled/continuous, or variable backlash II enabled. 0: Disable 1: Enable 2: Continuous 3: Enable variable backlash II ("#2011 G0back" and "#2012 G1back" will not work unless "0: Disable" is selected.
II Parameters Axis Specifications Parameters 【#2132】 vback pos1 Variable backlash compensation amount changeover end point position 1 Set the range of the center of the end point position. (The range less than position 1 is the - range, and the range exceeding position 2 is the + range.) The end point position range is determined in the order of -, + , and center. Consider whether the set value should be larger or smaller than other values.
II Parameters Axis Specifications Parameters 【#2140(PR)】 Ssc Svof Filter Speed monitor Error detection time during servo OFF Set the error detection time of command speed monitoring and feedback speed monitoring during servo OFF. An alarm will occur if the time, for which the speed has been exceeding the safe speed or safe rotation speed, exceeds the error detection time set in this parameter. If "0" is set, it will be handled as 200 (ms).
II Parameters Axis Specifications Parameters 【#2144】 baseps Base machine coordinate zero point relative distance Set each axis's position of the base machine coordinate zero point when an arbitrary point M on the machine is regarded as a base point. Unify the directions of all part systems' machine zero point positions with the direction of the machine coordinate system of the 1st part system. If the 1st part system doesn't have a parallel axis, determine the direction arbitrarily.
II Parameters Axis Specifications Parameters 【#2148】 Blf_E1 Reference amount of position-dependent increasing-type backlash compensation 1 Set the compensation amount for specifying the compensation change rate in positiondependent increasing-type backlash compensation. Blf_E1 Blf_E2 Blf_L2 Blf_L1 When "#2148 Blf_E1" is set to "0", the position-dependent increasing-type backlash compensation function will be disabled.
II Parameters Axis Specifications Parameters 【#2152】 acc_rate Acceleration rate in proportion to the maximum acceleration rate Set the rate in proportion to the maximum acceleration rate in rapid traverse. (Note) If this parameter is set to "0" or "100", constant inclination acceleration/deceleration will be applied.
II Parameters Axis Specifications Parameters 【#2174】 LmccQR Lost motion compensation 3 viscous coefficient for high-speed retract Set the machine system's viscous coefficient when using lost motion compensation type 3 in drilling cycle at high-speed retract. When set to "0", the performance will follow the setting of "#2286 SV086 LMCc (Lost motion compensation 3 viscous coefficient)". ---Setting range--0 to 32767(0.
II Parameters Axis Specifications Parameters 【#2199】 G1tMin Minimum time constant for cutting feed constant inclination acc./dec. Acceleration/Deceleration is carried out so that the acceleration/deceleration time will not become longer than this parameter's setting when the acceleration/deceleration type of linear interpolation command is constant inclination. Set a value smaller than "#2007 G1tL". This parameter is enabled when "#1201 G1_acc" is constant inclination type.
II Parameters Axis Specifications Parameters 【#2569】 VBL2 BL01 Variable backlash comp II Comp data at changeover spd 2 and stroke pos 1 Set the compensation data (backlash amount) at changeover speed 2 and stroke position 1. Calculate the current compensation data according to the current speed and position.
II Parameters Axis Specifications Parameters 【#2598】 G0tL_2 G0 time constant 2 (linear) Set a linear control time constant for rapid traverse acceleration/deceleration to be applied when the G0 time constant switchover request signal is ON. This time constant is enabled when LR (rapid traverse feed with linear acceleration/ deceleration) or F (soft acceleration/deceleration) is selected in "#2003 smgst (Acceleration and deceleration modes)".
II Parameters Servo Parameters 4. Servo Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters Servo Parameters 【#2207】 SV007 VIL Speed loop delay compensation Set this when the limit cycle occurs in the full-closed loop, or overshooting occurs in positioning. The speed loop delay compensation method can be selected with SV027/bit1,0. Normally, use "Changeover type 2". Changeover type 2 controls the occurrence of overshooting by lowering the speed loop lead compensation after the position droop gets 0. When setting this parameter, make sure to set the torque offset (SV032).
II Parameters Servo Parameters 【#2216】 SV016 LMC1 Lost motion compensation 1 Set this parameter when the protrusion (that occurs due to the non-sensitive band by friction, torsion, backlash, etc.) at quadrant change is too large. This sets the compensation torque at quadrant change (when an axis feed direction is reversed) by the proportion (%) to the stall torque. Whether to enable the lost motion compensation and the method can be set with other parameters.
II Parameters Servo Parameters 【#2217(PR)】 SV017 SPEC1 Servo specification 1 Select the servo specifications. A function is allocated to each bit. Set this in hexadecimal format. mdir dfbx vfb sdir abs mp drvup spm bit F-C : spm Motor series selection 0: Not used 1: 200V HF, HP motor (Standard) 2: Not used 3: 400V HF-H, HP-H motor (Standard) 6: 200V LM-F linear motor 7: 200V direct-drive motor 8: 400V LM-F linear motor 9: 400V direct-drive motor bit B : Not used. Set to "0".
II Parameters Servo Parameters 【#2219(PR)】 SV019 RNG1 Sub side detector resolution For semi-closed loop control Set the same value as SV020. For full-closed loop control Set the number of pulses per ball screw pitch. For direct-drive motor Set the same value as SV020. For 1000 pulse unit resolution detector, set the number of pulses in SV019 in increments of 1000 pulse (kp). In this case, make sure to set "0" to SV117.
II Parameters Servo Parameters 【#2225(PR)】 SV025 MTYP Motor/Detector type Set the position detector type, speed detector type and motor type. The setting value is a four-digit hex (HEX).
II Parameters Servo Parameters 【#2227】 SV027 SSF1 Servo function 1 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format. bit F : Not used. Set to "0". bit E : zrn2 Set to "1". (Fixed) bit D : Not used. Set to "0". bit C : Not used. Set to "0". bit B-A : ovs Overshooting compensation Set this if overshooting occurs during positioning.
II Parameters Servo Parameters 【#2228(PR)】 SV028 MSFT Magnetic pole shift amount (for linear/direct-drive motor) Set this parameter to adjust the motor magnetic pole position and detector's installation phase when using linear motors or direct-drive motors. During the DC excitation of the initial setup (SV034/bit4=1), set the same value displayed in "AFLT gain" on the NC monitor screen. Related parameters: SV034/bit4, SV061, SV062, SV063 For general motor: Not used. Set to "0".
II Parameters Servo Parameters 【#2233】 SV033 SSF2 Servo function 2 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format.
II Parameters Servo Parameters 【#2234】 SV034 SSF3 Servo function 3 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format. has2 mohn dcd linN ovsn bit F-C: ovsn Overshooting compensation type 3 Non-sensitive band Set the non-sensitive band of the model position droop overshooting amount in increments of 2μm. In the feed forward control, set the non-sensitive band of the model position droop and ignore the overshooting of the model.
II Parameters Servo Parameters 【#2235】 SV035 SSF4 Servo function 4 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format.
II Parameters Servo Parameters 【#2236(PR)】 SV036 PTYP Power supply type/ Regenerative resistor type MDS-D2/DH2 Series: Power supply type When connecting a power supply unit, set a code for each power supply unit. ptyp rtyp amp bit F-C : amp Set the power backup function to be used. No function used : 0 Deceleration and stop function at power failure : 8 bit B-8 : rtyp Not used. Set to "0".
II Parameters Servo Parameters MDS-DJ-V1/V2 Series: Regenerative resistor type Set the regenerative resistor type.
II Parameters Servo Parameters 【#2241】 SV041 LMC2 Lost motion compensation 2 Set this with SV016 (LMC1) only when you wish to vary the lost motion compensation amount depending on the command directions. Normally, set to "0". ---Setting range---1 to 200 (Stall current %) Note that when SV082/bit2 is "1", the setting range is between -1 and 20000 (Stall current 0.01%).
II Parameters Servo Parameters 【#2250】 SV050 PGN2sp Position loop gain 2 in spindle synchronous control When using SHG control during spindle synchronous control (synchronous tapping and synchronization control with spindle C-axis), set this parameter with SV049 (PGN1sp) and SV058 (SHGCsp). Make sure to set the value 8/3 times that of SV049. When not using the SHG control, set to "0".
II Parameters Servo Parameters 【#2257】 SV057 SHGC SHG control gain When performing the SHG control, set to SV003(PGN1)×6. When not using the SHG control, set to "0". When using the OMR-FF control, set to "0".
II Parameters Servo Parameters 【#2263】 SV063 DA1MPY D/A output ch1 output scale / Initial DC excitation time Set output scale of the D/A output channel 1 in increment of 1/100. When "0" is set, the magnification is the same as when "100" is set. When the DC excitation is running (SV034/bit4=1): Use this when the DC excitation is running (SV034/bit4=1) to adjust the initial magnetic pole position (when measuring the magnetic pole shift amount) for linear motor and directdrive motor.
II Parameters Servo Parameters 【#2282】 SV082 SSF5 Servo function 5 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format. lmc3 ccu dos2 dos3 dis bit F-C : dis Digital signal input selection 0: No signal 1: SLS (Safely Limited Speed) function door state signal 2: Battery box voltage drop warning (It is not available for MDS-DJ-V1/V2 Series.
II Parameters Servo Parameters 【#2283】 SV083 SSF6 Servo function 6 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format. nfd4 nfd5 bit F-8 : Not used. Set to "0". bit 7-5 : nfd5 Depth of Notch filter 5 Set the depth of Notch filter 5 (SV088). bit7,6,5= 000: - ∞ 001: -18.1[dB] 010: -12.0[dB] 011: -8.5[dB] 100: -6.0[dB] 101: -4.1[dB] 110: -2.5[dB] 111: -1.2[dB] bit 4 : Not used. Set to "0".
II Parameters Servo Parameters 【#2286】 SV086 LMCc Lost motion compensation 3 viscous coefficient Set the machine system's viscous coefficient when selecting lost motion compensation type 3. When not using, set to "0". Related parameters: SV016, SV041, SV082/bit2,1, SV086 ---Setting range--0 to 32767 (0.01%•s/mm) 【#2287】 SV087 FHz4 Notch filter frequency 4 Set the vibration frequency to suppress when machine vibration occurs. (Normally, do not set 80 or less.) Set to "0" when not using.
II Parameters Servo Parameters 【#2295】 SV095 ZUPD Vertical axis pull up distance Set this parameter to adjust the pull up distance when the vertical axis pull up function is enabled. When the pull up function is enabled and this parameter is set to "0", for a rotary motor, 8/1000 of a rotation at the motor end is internally set as the pull up distance, and for a linear motor, 80[μm] is set. Related parameters: SV032 : The pull up direction is determined. When "0" is set, pull up control is not executed.
II Parameters Servo Parameters 【#2306】 SV106 PGM OMR-FF scale model gain Set the scale model gain (position response) in OMR-FF control. Set the same value as SV003(PGN1). Increase the setting value to perform a high-speed machining such as a fine arc or to improve the path error. Lower the value when vibration occurs during acceleration/deceleration. Set to "0" when not using OMR-FF control. ---Setting range--0 to 300 (rad/s) 【#2307】 SV107 Not used. Set to "0". 【#2308】 SV108 Not used. Set to "0".
II Parameters Servo Parameters 【#2314】 SV114 SSF9 Servo function 9 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format. cse nohis bit F-9 : Not used. Set to "0". bit 8 : nohis History of communication error alarm between NC and DRV (34, 36, 38, 39) Set "1" for C70. 0: Enable 1: Disable bit 7 : cse Command speed monitoring function 0: Normal setting 1: Enable bit 6-0 : Not used. Set to "0".
II Parameters Servo Parameters 【#2315】 SV115 SSF10 Servo function 10 Select the servo functions. A function is assigned to each bit. Set this in hexadecimal format. esn dfhz dsn ade1 ade2 ade4 ade5 dsl are bit F : are Notch filter5 all frequencies adapted When enabled, Notch filter5 all frequencies adaptive range is not limited regardless of SV115/bit4,5 setting.
II Parameters Servo Parameters 【#2318(PR)】 SV118 RNG2ex Expansion main side detector resolution When using high-accuracy binary resolution detector, set the number of pulses to four bite data of SV118 (high-order) and SV020 (low-order) by pulse(p). When SV118=0, the setting unit of SV020 is (kp). Refer to SV020 for details. Related parameters: SV019, SV020, SV117 ---Setting range---1 to 32767 【#2319】 SV119 Not used. Set to "0". 【#2320】 SV120 Not used. Set to "0". 【#2321】 SV121 Not used. Set to "0".
II Parameters Servo Parameters 【#2334】 SV134 RRn0 Distance-coded reference check / revolution counter Set this parameter to operate distance-coded reference check when using distance-coded reference scale. During the distance-coded reference check initial setup (SV137:RAER=-1), set the following items on the NC drive monitor screen after the distance-coded reference check initial setup warning A3 turns OFF. SV134=Rn, SV135=Pn, SV136=MPOS When reference point is set, the warning A3 turns OFF.
II Parameters Servo Parameters 【#2438】 SV238 SSCFEED Safely limited speed Set the machine's safely limited speed for the SLS (Safely Limited Speed) function. Set this parameter within the following setting ranges. For linear axis: 2000mm/min or less For rotary axis: 18000°/min (50r/min) or less When not using, set to "0".
II Parameters Spindle Parameters 5. Spindle Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters Spindle Parameters 【#3011】 ssift 3 Shift rotation speed (Gear: 10) Set the spindle speed for gear shifting with gear 10. (Note) Setting too large value may cause a gear nick when changing gears. ---Setting range--0 to 32767 (r/min) 【#3012】 ssift 4 Shift rotation speed (Gear: 11) Set the spindle speed for gear shifting with gear 11. (Note) Setting too large value may cause a gear nick when changing gears.
II Parameters Spindle Parameters 【#3020】 stapt 4 Synchronous tapping 1st step acceleration/deceleration time constant (Gear: 11) Set the time constant for synchronous tapping 1st step linear acceleration/deceleration control when gear 11 is selected. (linear acceleration/deceleration pattern) ---Setting range--1 to 5000 (ms) 【#3021】 Not used. Set to "0".
II Parameters Spindle Parameters 【#3031(PR)】 smcp_no Drive unit I/F channel No. (spindle) Set the interface channel No. of CNC control unit to which the spindle is connected and the axis No. within each channel. Set this parameter in 4-digit (hexadecimal) format. Rotary switch settings 3 2 Axis No.= 1 Channel No.=1 HEX- 4 3 0 2 1 Axis No. Interface channel No. CNC control unit Spindle drive unit Channel No.=2 Axis No.= 1 2 n Channel No.=m HEX-4 : Drive unit interface channel No. HEX-3 : Not used.
II Parameters Spindle Parameters 【#3041】 tapt21 Synchronous tapping 2nd step acceleration/deceleration time constant (Gear: 00) Set the time constant for synchronous tapping 2nd step linear acceleration/deceleration control when gear 00 is selected. ---Setting range--1 to 5000 (ms) 【#3042】 tapt22 Synchronous tapping 2nd step acceleration/deceleration time constant 2 (Gear: 01) Set the time constant for synchronous tapping 2nd step linear acceleration/deceleration control when gear 01 is selected.
II Parameters Spindle Parameters 【#3050】 sprlv Spindle synchronization rotation speed attainment level Set the level of speed difference between the basic and synchronous spindles during spindle synchronization control. Setting of the synchronous spindle side is enabled. When the difference becomes below the setting level, the spindle speed synchronization complete signal will turn ON. ---Setting range--0 to 4095 (pulse) (1 pulse = 0.
II Parameters Spindle Parameters 【#3059】 sptc6 Spindle synchronization multi-step acceleration/deceleration changeover speed 6 Set the speed which switches from 6th step to 7th step in spindle synchronization multi-step acceleration/deceleration control. Set the same value for the reference axis and synchronous axis. Set the value of limit rotation speed (slimit) or higher not to carry out a step shift.
II Parameters Spindle Parameters 【#3069】 symtm2 Phase synchronization end confirmation time Set a period of waiting time for spindle phase synchronization control's completion as a time in which the speed stays within the attainment range. When "0" is set, the time will be 500ms. When "100" or less is set, the time will be 100ms.
II Parameters Spindle Parameters 【#3106】 zrn_typ Zero point return specifications Select the zero point return specification. Functions are allocated to each bit. Set this in hexadecimal format.
II Parameters Spindle Parameters 【#3109】 zdetspd Z phase detection speed For the first S command after power is turned ON, the spindle rotates at the speed of setting value for this parameter until Z phase is detected twice. When "#3106/bitF = 1" (Spindle zero point proximity switch detection enabled), also proximity switch is detected.
II Parameters Spindle Parameters 【#3118】 sp2_t4 Time constant in orientation/interpolation mode automatic reference position return (Gear: 11) Set the linear acceleration/deceleration time constant for zero point return control (#3106/ bit4,8) which is automatically started at the time of switching orientation control, C axis control and synchronous tapping control when gear 11 is selected. The inclination is determined by the ratio to limit rotation speed (slimit4).
II Parameters Spindle Parameters 【#3129】 cax_spec Spindle/C axis control specification Not used. Set to "0000". 【#3130】 syn_spec Spindle synchronization control specification bit0: Tool spindle synchronization II (hobbing) automatic compensation selection 0: No compensation. 1: Compensate hobbing axis delay (advance) with workpiece axis. 【#3131】 tap_spec Synchronous tapping control specification Not used. Set to "0000".
II Parameters Spindle Parameters 【#13002】 SP002 PGN Position loop gain interpolation mode Set the position loop gain for "interpolation" control mode. When the setting value increases, the command tracking ability will enhance and the positioning settling time can be shorter. However, the impact on the machine during acceleration/deceleration will increase. Use the selection command, the control mode "bit 2, 1, 0 = 010 or 100" in control input 4. (Note) The control mode is commanded by NC.
II Parameters Spindle Parameters 【#13012】 SP012 Not used. Set to "0". 【#13013】 SP013 Not used. Set to "0". 【#13014】 SP014 PY1 Minimum excitation rate 1 Set the minimum value for the variable excitation rate. The standard setting is "50". Set to "0" when using an IPM spindle motor. If noise including gear noise is loud, select a small value. However, a larger setting value is more effective for impact response.
II Parameters Spindle Parameters 【#13018(PR)】 SP018 SPEC2 Spindle specification 2 Select the spindle specification. A function is allocated to each bit. Set this in hexadecimal format. oplp mkch spsu mpg bit F-A : Not used. Set to "0". bit 9 : mpg Earth fault detection 0: Disable 1: Enable (standard) Set "0" and it is constantly "Enable" for MDS-DJ-SP Series. bit 8 : spsu Command speed limit value 0: 33,750 r/min 1: 135,000 r/min bit 7-6 : Not used. Set to "0".
II Parameters Spindle Parameters 【#13021(PR)】 SP021 OLT Overload detection time constant Set the detection time constant of Overload 1 (Alarm 50). (For machine tool builder adjustment) Normally, set to "60". Set to "300" when using an IPM spindle motor. ---Setting range--1 to 15300 (s) 【#13022】 SP022 OLL Overload detection level Set the current detection level of "Overload 1" (Alarm 50) as a percentage against the motor short-time rated output current.
II Parameters Spindle Parameters 【#13032(PR)】 SP032 PTYP Power supply type/ Regenerative resistor type MDS-D2/DH2 Series: Power supply type When connecting a power supply unit, set a code for each power supply unit. ptyp rtyp amp bit F-C : amp Set the power backup function to be used. No function used : 0 Deceleration and stop function at power failure : 8 bit B-8 : rtyp Not used. Set to "0".
II Parameters Spindle Parameters MDS-DJ-SP Series: Regenerative resistor type Set the regenerative resistor type.
II Parameters Spindle Parameters 【#13034】 SP034 SFNC2 Spindle function 2 Select the spindle function. A function is allocated to each bit. Set this in hexadecimal format. fhz3 bit F-D : nfd5 Depth of Notch filter 5 Set the depth of Notch filter 5 (SP088). bit F,E,D= 000: - ∞ 001: -18.1[dB] 010: -12.0[dB] 011: -8.5[dB] 100: -6.0[dB] 101: -4.1[dB] 110: -2.5[dB] 111: -1.2[dB] bit C : Not used. Set to "0". bit B-9 : nfd4 Depth of Notch filter 4 Set the depth of Notch filter 4 (SP087).
II Parameters Spindle Parameters 【#13035(PR)】 SP035 SFNC3 Spindle function 3 Select the spindle function. A function is allocated to each bit. Set this in hexadecimal format. bit F-D : Not used. Set to "0". bit C : shgn SHG control in interpolation mode 0: Stop 1: Start When using the OMR-FF control, set to "0". bit B : Not used. Set to "0".
II Parameters Spindle Parameters 【#13037】 SP037 JL Load inertia scale Set the motor axis conversion total load inertia including motor itself in proportion to the motor inertia. SV037(JL)=(Jm+Jl)/Jm×100 Jm: Motor inertia Jl: Motor axis conversion load inertia ---Setting range--0 to 5000 (%) 【#13038】 SP038 FHz1 Notch filter frequency 1 Set the vibration frequency to suppress when machine vibration occurs. (Enabled at 50 or more.) When not using, set to "0".
II Parameters Spindle Parameters 【#13045】 SP045 OBS1 Disturbance observer filter frequency Set the disturbance observer filter band. Normally, set to "100". To use the disturbance observer, also set SP037(JL), SP044(OBS2) and SP226/ bitE. When not using, set to "0". ---Setting range--0 to 1000 (rad/s) 【#13046】 SP046 FHz2 Notch filter frequency 2 Set the vibration frequency to suppress when machine vibration occurs. (Enabled at 50 or more.) When not using, set to "0".
II Parameters Spindle Parameters 【#13053】 SP053 ODS Excessive error detection width (non-interpolation mode) Set the excessive error detection width in non-interpolation mode. Standard setting value: ODS = Maximum motor speed [r/min] × 6/PGV/2 When set to "0", the excessive error detection will not be performed. ---Setting range--0 to 32767 (°) 【#13054】 SP054 ORE Overrun detection width in closed loop control Set the overrun detection width in the full-closed loop control.
II Parameters Spindle Parameters 【#13064(PR)】 SP064 GRB4 Motor side gear ratio 4 Set the number of gear teeth on the motor side when "the gear selection command (control input 4/bit6, 5)" is set to "11". ---Setting range--1 to 32767 【#13065】 SP065 TLM1 Torque limit 1 Set the torque limit value when "the torque limit (control input 1/bitA, 9, 8) " is set to "001".
II Parameters Spindle Parameters 【#13073】 SP073 VGVN Variable speed gain target value If noise is bothersome during high speed rotation, it may be reduced by lowering the speed loop gain at high speed. Set this value to ensure the adequate response by suppressing noise and vibration at low speeds and increasing the speed loop gain at high speeds for a high-speed spindle of machining center, etc.
II Parameters Spindle Parameters 【#13079】 SP079 IQG Q axis current gain Set the current loop gain. To use the coil switch function, set the current loop gain for when the high-speed coil is selected. The setting value is determined by the motor's electrical characteristics so that the value is fixed to each motor used. Set the value given in the spindle parameter list. (For machine tool builder adjustment) ---Setting range--1 to 8192 【#13080】 SP080 IDG D axis current gain Set the current loop gain.
II Parameters Spindle Parameters 【#13089】 SP089 TMKQ Spindle output stabilizing gain Q axis Set the magnification of the torque current stabilizing gain. (For machine tool builder adjustment) When set to "0", the torque current stabilization is disabled. When not using, set to "0". ---Setting range--0 to 32767 【#13090】 SP090 TMKD Spindle output stabilizing gain D axis Set the magnification of the excitation current stabilizing gain.
II Parameters Spindle Parameters 【#13100】 SP100 Not used. Set to "0". 【#13101】 SP101 TMA1 OMR-FF movement averaging filter time constant 1 Set the movement averaging filter time constant in OMR-FF control. The standard setting is "88". Set to "0" when not using OMR-FF control. ---Setting range--0 to 711 (0.01ms) 【#13102】 SP102 TMA2 OMR-FF movement averaging filter time constant 2 Set the movement averaging filter time constant in OMR-FF control. The standard setting is "88".
II Parameters Spindle Parameters 【#13112】 SP112 IFF OMR-FF current feed forward gain Set the current feed forward rate in OMR-FF control. The standard setting is "10000". Setting value of 0 is equal to "10000(100%)" setting. Set to "0" when not using OMR-FF control. ---Setting range--0 to 32767 (0.01%) 【#13113】 SP113 OPLP Current command value for open loop Set the current command value for when the open loop control is enabled. When "0" is set, the state will be the same as when "50" is set.
II Parameters Spindle Parameters 【#13124】 SP124 ILMTsp Magnetic pole detection current limit value Set the current limit value for the magnetic polar detection loop. This is used in the initial magnetic polar detection when the IPM spindle motor is turned ON. Set to "0" when using an IM spindle motor. ---Setting range--0 to 999 (Short-time rated %) 【#13125】 SP125 DA1NO D/A output ch1 data No. / Initial DC excitation level Input the desired data number to D/A output channel.
II Parameters Spindle Parameters 【#13136(PR)】 SP136 Set the unique constants for the spindle motor. (High-speed coil) The setting value is determined by the motor's mechanical and electrical characteristics and specifications, so normally set the value given in the spindle parameter list. 【#13137(PR)】 SP137 Set the unique constants for the spindle motor.
II Parameters Spindle Parameters 【#13151(PR)】 SP151 Set the unique constants for the spindle motor. (High-speed coil) The setting value is determined by the motor's mechanical and electrical characteristics and specifications, so normally set the value given in the spindle parameter list. 【#13152(PR)】 SP152 Set the unique constants for the spindle motor.
II Parameters Spindle Parameters 【#13167(PR)】 SP167 Set the unique constants for the spindle motor. (Low-speed coil) The setting value is determined by the motor's mechanical and electrical characteristics and specifications, so normally set the value given in the spindle parameter list. 【#13168(PR)】 SP168 Set the unique constants for the spindle motor.
II Parameters Spindle Parameters 【#13183(PR)】 SP183 Set the unique constants for the spindle motor. (Low-speed coil) The setting value is determined by the motor's mechanical and electrical characteristics and specifications, so normally set the value given in the spindle parameter list. 【#13184(PR)】 SP184 Set the unique constants for the spindle motor.
II Parameters Spindle Parameters 【#13196】 SP196 LMNL Base speed for load meter standard output (Low-speed coil) Set the base speed of the standard output to be displayed as 100% in load meter. When "0" is set, the base speed of the short-time rated output will be applied. It is not available for MDS-DJ-SP Series. ---Setting range--0 to 32767 (r/min) 【#13197】 SP197 Not used. Set to "0". 【#13198】 SP198 Not used. Set to "0". 【#13199】 SP199 Not used. Set to "0". 【#13200】 SP200 Not used. Set to "0".
II Parameters Spindle Parameters 【#13220】 SP220 Not used. Set to "0". 【#13221】 SP221 Not used. Set to "0". 【#13222】 SP222 Not used. Set to "0". 【#13223】 SP223 Not used. Set to "0". 【#13224】 SP224 Not used. Set to "0". 【#13225】 SP225 SFNC5 Spindle function 5 Select the spindle functions. Functions are allocated to each bit. Set this in hexadecimal format.
II Parameters Spindle Parameters 【#13226】 SP226 SFNC6 Spindle function 6 Select the spindle functions. Functions are allocated to each bit. Set this in hexadecimal format.
II Parameters Spindle Parameters 【#13229】 SP229 SFNC9 Spindle function 9 Select the spindle functions. Functions are allocated to each bit. Set this in hexadecimal format. omrffon sto sdt2 rps ssc bit F : ssc SLS (Safely Limited Speed) function 0: Disable 1: Enable bit E : Not used. Set to "0". bit D : rps Safely limited speed setting unit 0: Normal 1: 100°/min bit C : sdt2 Specified speed output digital signal 2 output 0: Normal 1: Enable bit B-9 : Not used. Set to "0".
II Parameters Spindle Parameters 【#13233】 SP233 IVC Voltage non-sensitive band compensation When 100% is set, the voltage equivalent to the logical non-energized time will be compensated. When "0" is set, 100% compensation will be performed. Adjust in increments of 10% from the default value 100%. If the value is too large, vibration or vibration noise may be generated. ---Setting range--0 to 255 (%) 【#13234】 SP234 Not used. Set to "0".
II Parameters Spindle Parameters 【#13248(PR)】 SP248 This is automatically set by the NC system. 【#13249(PR)】 SP249 This is automatically set by the NC system. 【#13250(PR)】 SP250 This is automatically set by the NC system. 【#13251(PR)】 SP251 This is automatically set by the NC system. 【#13252(PR)】 SP252 This is automatically set by the NC system. 【#13253(PR)】 SP253 This is automatically set by the NC system. 【#13254(PR)】 SP254 This is automatically set by the NC system.
II Parameters Rotary Axis Configuration Parameters 6. Rotary Axis Configuration Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters Rotary Axis Configuration Parameters 【#7913】 MCHN_SPEED_CTRL Machine speed fluctuation suppression Select whether to suppress the machine speed fluctuation due to rotary axis movement. 0: Not suppress 1: Suppress (Note)This parameter is disabled when SSS control is enabled. 【#7914】 ROT_PREFILT Rotary axis prefilter time constant Set the time constant for rotary axis prefilter. Setting this parameter can smoothen the tool angle change (rotary axis' motion) under tool center point control.
II Parameters Rotary Axis Configuration Parameters 【#7928】 CERRT1V Vertical axis rotation center error compensation amount Set the error compensation amount in the vertical axis direction of the tool rotating type base-side rotary axis rotation center. ---Setting range---99999.999 to 99999.999 (mm) (Follow as "#1006 mcmpunit Machine error compensation unit".) 【#7930(PR)】 SLCT_T2 Rotary axis selection Select in which axis direction to rotate the tool rotating type tool-side rotary axis.
II Parameters Rotary Axis Configuration Parameters 【#7940(PR)】 SLCT_W1 Rotary axis selection Select in which axis direction to rotate the table rotating type base-side rotary axis. If the tool axis is inclined, use the second digit to set the axis direction in which the tool axis is inclined.
II Parameters Rotary Axis Configuration Parameters 【#7951(PR)】 TIANGW2 Inclination angle Set the inclination angle if the table rotating type workpiece-side rotary axis is inclined. Set the angle regarding CCW direction of the inclined plane as minus direction. ---Setting range---359.999 to 359.999 (°) (Follow as "#1003 iunit Input setup unit".) 【#7952(PR)】 ROTAXW2 Rotary axis name Set the name of the table rotating type workpiece-side rotary axis.
II Parameters Machine Error Compensation Parameters 7. Machine Error Compensation Parameters The parameters with "(PR)" requires the CNC to be turned OFF after the settings. Turn the power OFF and ON to enable the parameter settings. (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use.
II Parameters Machine Error Compensation Parameters 【#4009+10(n-1)】 refcmp Reference position compensation amount When two-way pitch error compensation is enabled, set the compensation amount of the reference position when the axis moves to the position from the opposite direction of the zero point return. ---Setting range---32768 to 32767 (Note) The actual compensation amount will be the value obtained by multiplying the setting value with the compensation scale.
II Parameters PLC Constants 8. PLC Constants (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. Some of the parameters may be fixed according to the usage purpose. Refer to "Appendix Contents of bit selection parameters #6449 to #6496".
II Parameters PLC Constants 【#17000 - 17063】 ST0 - ST63 PLC integrated timer <100ms INC.> Set the time for the integrated timer used with the PLC program (ladder). (Note1) This setting value is valid when bit selection parameter "#6449/bit0" is set to "0". (Note2) Setting the timer setting value from the setting and display unit The timer T setting value can be set with the following two methods.
II Parameters PLC Constants 【#18151-18900】 R8300,8301 - R9798,9799 PLC constant (Extension area) Set the value to be set in the data type R register(R8300 to R9799) used in the PLC program (ladder). Even if the data is set in the R register that corresponds to the PLC side when this parameter is displayed, the screen will not change. Enter a different screen once, and then select this screen again. #18151 to #18900 is used as the PLC constant extended area.
II Parameters Macro List 9. Macro List (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#7001】 M[01] Code Set the M code used for calling out the macro with the M command. Select codes to be entered other than the codes basically required by the machine and M codes of M0, M1, M2, M30, M96 through M99, and M198.
II Parameters Macro List 【#7032】 M[04] Type Set the macro call out type. 0: Equivalent to M98 P △△△△ ; 1: Equivalent to G65 P △△△△ ; 2: Equivalent to G66 P △△△△ ; 3: Equivalent to G66.1 P △△△△ ; Others: Equivalent to M98 P △△△△ ; 【#7033】 M[04] Program No. Set the No. of the program or file name to be called out. The file name can contain up to 32 characters.
II Parameters Macro List 【#7063】 M[07] Program No. Set the No. of the program or file name to be called out. The file name can contain up to 32 characters. ---Setting range--Program name or file name (up to 32 characters) 【#7071】 M[08] Code Set the M code used for calling out the macro with the M command. Select codes to be entered other than the codes basically required by the machine and M codes of M0, M1, M2, M30, M96 through M99, and M198. This is valid when "#1195 Mmac" is set to "1".
II Parameters Macro List 【#7102】 M2mac Type Set the type for when calling out the macro with the 2nd miscellaneous command. The macro will be called out with the "#1170 M2name" address command when "#1198 M2mac" is set to “1”. 0: Equivalent to M98 P △△△△ ; 1: Equivalent to G65 P △△△△ ; 2: Equivalent to G66 P △△△△ ; 3: Equivalent to G66.1 P △△△△ ; Others: Equivalent to M98 P △△△△ ; 【#7103】 M2mac Program No. Set the program No. for when calling out the macro with the 2nd miscellaneous command.
II Parameters Macro List 【#7222】 G[03] Type Set the macro call out type. 0: Equivalent to M98 P △△△△ ; 1: Equivalent to G65 P △△△△ ; 2: Equivalent to G66 P △△△△ ; 3: Equivalent to G66.1 P △△△△ ; Others: Equivalent to M98 P △△△△ ; 【#7223】 G[03] Program No. Set the No. of the program or file name to be called out. The file name can contain up to 32 characters.
II Parameters Macro List 【#7253】 G[06] Program No. Set the No. of the program or file name to be called out. The file name can contain up to 32 characters. ---Setting range--Program name or file name (up to 32 characters) 【#7261】 G[07] Code Set the G code to be used when calling the macro with a G command. Do not set a G code used in the system. G101 to G110 and G200 to G202 are user macro I codes.
II Parameters Macro List 【#7291】 G[10] Code Set the G code to be used when calling the macro with a G command. Do not set a G code used in the system. G101 to G110 and G200 to G202 are user macro I codes. However, if a parameter is set for the G code call code, the G code call will have the priority, and these cannot be used as the user macro I. ---Setting range--1 to 999 【#7292】 G[10] Type Set the macro call out type.
II Parameters Macro List 【#7405】 ASCII[01] Variable When the call type is "0", set the variable No. set after the ASCII code. ---Setting range--100 to 149 【#7411】 ASCII[02] Valid The ASCII code macro parameters (#7412 to 7415) are validated. 0: Invalid 1: Valid 【#7412】 ASCII[02] Code Set the ASCII code used to call macros with the ASCII code. L system: A,B,D,F,H,I,J,K,M,Q,R,S,T M system: A,B,F,H,I,K,M,Q,R,S,T 【#7413】 ASCII[02] Type Set the macro call type. 0: M98 1: G65 2: G66 3: G66.
II Parameters Position Switches 10. Position Switches (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#7500】 Pcheck High-speed switching of position switch Specify whether to perform position switch area checking at high speeds. 0: Do not perform position switch area checking at high speed (do it the same as before).
II Parameters Position Switches 【#7522】 PSW3 dog1 Imaginary dog position 1 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC. 1st part system device: X1D02 2nd part system device: X1D22 ---Setting range---99999.999 to 99999.999 (mm) 【#7523】 PSW3 dog2 Imaginary dog position 2 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC.
II Parameters Position Switches 【#7544】 PSW5 check Selection of area check method When position switch area checking at high speed is selected, specify the mode of area checking, i.e., whether to use the command type machine position or detector feedback position, for each position switch point. 0: Use the command type machine position as the machine position for position switch area checking. 1: Use the detector feedback position as the machine position for position switch area checking.
II Parameters Position Switches 【#7572】 PSW8 dog1 Imaginary dog position 1 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC. 1st part system device: X1D07 2nd part system device: X1D27 ---Setting range---99999.999 to 99999.999 (mm) 【#7573】 PSW8 dog2 Imaginary dog position 2 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC.
II Parameters Position Switches 【#7594】 PSW10 check Selection of area check method When position switch area checking at high speed is selected, specify the mode of area checking, i.e., whether to use the command type machine position or detector feedback position, for each position switch point. 0: Use the command type machine position as the machine position for position switch area checking. 1: Use the detector feedback position as the machine position for position switch area checking.
II Parameters Position Switches 【#7622】 PSW13 dog1 Imaginary dog position 1 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC. 1st part system device: X1D0C 2nd part system device: X1D2C ---Setting range---99999.999 to 99999.999 (mm) 【#7623】 PSW13 dog2 Imaginary dog position 2 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC.
II Parameters Position Switches 【#7644】 PSW15 check Selection of area check method When position switch area checking at high speed is selected, specify the mode of area checking, i.e., whether to use the command type machine position or detector feedback position, for each position switch point. 0: Use the command type machine position as the machine position for position switch area checking. 1: Use the detector feedback position as the machine position for position switch area checking.
II Parameters Position Switches 【#7672】 PSW18 dog1 Imaginary dog position 1 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC. 1st part system device: X1D11 2nd part system device: X1D31 ---Setting range---99999.999 to 99999.999 (mm) 【#7673】 PSW18 dog2 Imaginary dog position 2 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC.
II Parameters Position Switches 【#7694】 PSW20 check Selection of area check method When position switch area checking at high speed is selected, specify the mode of area checking, i.e., whether to use the command type machine position or detector feedback position, for each position switch point. 0: Use the command type machine position as the machine position for position switch area checking. 1: Use the detector feedback position as the machine position for position switch area checking.
II Parameters Position Switches 【#7722】 PSW23 dog1 Imaginary dog position 1 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC. 1st part system device: X1D16 2nd part system device: X1D36 ---Setting range---99999.999 to 99999.999 (mm) 【#7723】 PSW23 dog2 Imaginary dog position 2 When the machine enters the range between imaginary dog positions 1 and 2, a signal is output to the PLC.
II Parameters Auxiliary Axis Parameters 11. Auxiliary Axis Parameters (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#50001(PR)】 MSR Motor series Set the motor series. When set to the default value ("0000"), the system will automatically judge the series.
II Parameters Auxiliary Axis Parameters 【#50009】 Not used. Set to "0". 【#50010】 EMGt Deceleration control time constant Set the deceleration time from the clamp speed (Aspeed1). Set the same value as the acceleration/deceleration time constant used for the normal rapid traverse. Default value: 500 ---Setting range--0 to 32768 (ms) 【#50011】 Not used. Set to "0". 【#50012】 Not used. Set to "0". 【#50013】 MBR Vertical axis drop prevention time Set the time to delay the servo OFF during servo OFF command.
II Parameters Auxiliary Axis Parameters 【#50024】 DG2 Load inertia ratio Set the ratio of load inertia to motor inertia. Default value: 2.0 ---Setting range--0.0 to 50.0 (fold) 【#50025】 Not used. Set to "0". 【#50030(PR)】 MTY Motor type Set the motor type. When set to the default value ("0000"), the system will automatically judge the type. ---Setting range--0000 to FFFF (hexadecimal) 【#50050】 MD1 D/A output channel 1 data No. Set the Nos. of the data to output on D/A output channel 1.
II Parameters Auxiliary Axis Parameters 【#50101(PR)】 Cont1 Control parameter 1 The bits that are not explained here must be set to the default value.
II Parameters Auxiliary Axis Parameters 【#50104(PR)】 tleng Linear axis stroke length Set the travel stroke length for linear axis. The set value for this parameter will be ignored when non-uniform assignments are set or random positions are commanded. Default value: 100.000 ---Setting range--0.001 to 99999.999 (mm) 【#50110】 ZRNspeed Reference position return speed Set the clamp value of the feedrate when a reference position return is carried out.
II Parameters Auxiliary Axis Parameters 【#50120】 ABS Type Absolute position detection parameter The bits that are not explained here must be set to the default value.
II Parameters Auxiliary Axis Parameters 【#50154】 TL1 Operation parameter group 1 Torque limit value Set the motor output torque limit value when operation parameter group 1 is selected. At the default value, the torque is limited at the maximum torque of the motor specifications. Set the default value when torque limit is not especially required. In the stopper positioning operation mode, this will be regarded as torque limit value when positioning to the stopper starting coordinates.
II Parameters Auxiliary Axis Parameters 【#50163】 OD2 Operation parameter group 2 Excessive error detection width Set the excessive error detection width when operation parameter group 2 is selected. The excessive error alarm (S03 0052) will be detected when the position droop becomes larger than this setting value. In the stopper positioning operation mode, this will be regarded as excessive error detection width during the stopper operation.
II Parameters Auxiliary Axis Parameters 【#50171】 OD3 Operation parameter group 3 Excessive error detection width Set the excessive error detection width when operation parameter group 3 is selected. The excessive error alarm (S03 0052) will be detected when the position droop becomes larger than this setting value. In the stopper positioning operation mode, this will be regarded as excessive error detection width during pressing after completion of the positioning.
II Parameters Auxiliary Axis Parameters 【#50180】 just4 Operation parameter group 4 Set position output width Set the tolerable value at which "set position reached" (JST) or "automatic set position reached" (JSTA) signal is output when operation parameter group 4 is selected. "Set position reached" (JST) indicates that the machine position is at any station. During automatic operation, "automatic set position reached" (JSTA) is also output under the same condition.
II Parameters Auxiliary Axis Parameters 【#50200】 PSWcheck PSW detection method Select the criterion for the output of position switches 1 to 8. bit0 to 7 correspond to position switches 1 to 8. 0: Judged by the machine position of the command system. 1: Judged by the machine FB position (actual position). The bits that are not written here must be set to "0".
II Parameters Auxiliary Axis Parameters 【#50209】 PSW5 dog1 PSW5 area setting 1 Set "PSW5 area setting" 1 and 2 to specify the area where the position switch 5 will turn ON when the machine is positioned. Whether the value of setting 1 is larger than setting 2 (or vice versa) does not affect the position switch operation. For rotary axes, the output turns ON in the area excluding 0.000 degree. Default value: 0.000 ---Setting range---99999.999 to 99999.
II Parameters Auxiliary Axis Parameters 【#50221】 push.t1 Stopper standby time Set the standby time from the stopper starting coordinate positioning to the stopper operation start in the stopper positioning. Default value: 0 ---Setting range--0 to 9999 (ms) 【#50222】 push.t2 Stopper torque release time Set the time from the completion of the stopper operation to the changeover of the stopper torque in the stopper positioning. Default value: 0 ---Setting range--0 to 9999 (ms) 【#50223】 push.
II Parameters Open Parameters 12. Open Parameters (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#29001】 Open param 1 Set LONG data. #29001 to #29896 are used as parameter range where C language modules can be used arbitrarily. ---Setting range--- 【#29901】 Open param 2 Set DOUBLE data.
II Parameters Device Open Parameters 13. Device Open Parameters (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#40001-40100】 Device Open Parameters Set the data format (BYTE, WORD, DWORD, WORD(BIT)) of the assignment area. 0:WORD 1:DWORD 2:BYTE 3:WORD(BIT) Set the number of data in the assignment area.
II Parameters SRAM Open Parameters 14. SRAM Open Parameters (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#41001-41100】 SRAM Open Parameters Set the data type (CHAR, SHORT, LONG, DOUBLE) of the assignment area. 1: CHAR 2: SHORT 3: LONG 4: DOUBLE Set the number of data in the assignment area.
II Parameters CC-Link Parameters 15. CC-Link Parameters (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#24001+40(n-1)(PR)】 SLn station No. CC-Link station No. Set the station No. of the CC-Link I/F unit. "n" represents the expansion slot No.
II Parameters CC-Link Parameters 【#24006+40(n-1)(PR)】 SLn extended cyc Extended cyclic setting Set the magnification for the extended cyclic operation of the local station whose type corresponds to Ver.2. "n" represents the expansion slot No.(n=1 to 3) Set "1" for the local station whose type corresponds to Ver.1. This function is out of specifications when the protocol version is Ver.1. The setting for the local station is fixed to "1". ---Master station--Set to "0".
II Parameters CC-Link Parameters 【#24013+40(n-1)】 SLn delay time Delay time Set the delay time. "n" represents the expansion slot No.(n=1 to 3) 0: (Fixed value) ---Master station--Set to "0" (fixed). ---Local/standby master station--Set to "0". 【#24014+40(n-1)】 SLn RX dev name Remote input (RX) refresh device name Set the refresh device name of the remote input (RX) to be automatically refreshed. (Example) X "n" represents the expansion slot No.(n=1 to 3) Set "0" when no setting is required.
II Parameters CC-Link Parameters 【#24018+40(n-1)】 SLn RWr dev name Remote register (RWr) refresh device name Set the refresh device name of the remote register (RWr) to be automatically refreshed. (Example) W "n" represents the expansion slot No.(n=1 to 3) Set "0" when no setting is required. ---Master station--Set a value within the setting range. ---Local/standby master station--Set a value within the setting range. ---Setting range--0,M,L,B,D,W,R 【#24019+40(n-1)】 SLn RWr dev No.
II Parameters CC-Link Parameters 【#24023+40(n-1)】 SLn SB dev No. Special relay (SB) refresh device No. Set the refresh device No. of the special relay (SB) to be automatically refreshed. "n" represents the expansion slot No.(n=1 to 3) (Note 1) When setting parameters in ALL.PRM with using the parameter input/output function, input the device No. of decimal digit. (Example) When setting "X400" for the remote input (RX) refresh device No.
II Parameters CC-Link Parameters 【#24121+15(m-1)】 CNm station type Station type Set the type of the connected remote station, local station, intelligent device station and standby master station. 0: No setting 1: Ver.1 remote I/O station 2: Ver.1 remote device station 3: Ver.1 intelligent device station 4: Ver.2 remote device station 5: Ver.2 intelligent device station "m" means the m-th connected station in ascending order of station No. (m= 1 to 64) ---Master station--Set to either of "0" to "5".
II Parameters CC-Link Parameters 【#24126+15(m-1)】 CNm set rsvd sta Reserved station Set the reserved/error invalid station. "m" means the m-th connected station in ascending order of station No. (m= 1 to 64) 0: No setting 1: Reserved station 2: Error invalid station (Note) Refer to "CC-Link System Master/Local Module User's Manual (SH(NA)-080394EE)" for the details of the functions. ---Master station--Set either of "0" to "2". ---Local/standby master station--Set to "0".
II Parameters PLC Axis Indexing Parameters 16. PLC Axis Indexing Parameters (Note) This parameter description is common for M700V/M70V/E70 Series. It is written on the assumption that all option functions are added. Confirm with the specifications issued by the machine tool builder before starting use. 【#12800(PR)】 chgauxno Auxiliary axis number Set the axis No. to be controlled as auxiliary axis using auxiliary axis interface. When "0" is set, the axis will not operate as auxiliary axis.
II Parameters PLC Axis Indexing Parameters 【#12811+10(n-1)】 aux_Mspeedn Operation parameter group n Manual operation speed Set the feedrate during manual operation or JOG operation when "operation parameter group n" is selected. (Note)Setting "0" causes an operation error at the "Operation start" signal's ON. ---Setting range--0 to 100000 (°/min or mm/min) 【#12812+10(n-1)】 aux_timen.
II Parameters PLC Axis Indexing Parameters 【#12851】 aux_stpos3 Station 3 coordinate Set the station 3 coordinate value when arbitrary coordinate assignment is selected. The station 1 coordinate value is fixed at "0.000" (machine coordinate zero point). ---Setting range---99999.999 to 99999.999(° or mm) 【#12852】 aux_stpos4 Station 4 coordinate Set the station 4 coordinate value when arbitrary coordinate assignment is selected. The station 1 coordinate value is fixed at "0.
II Parameters PLC Axis Indexing Parameters 【#12864】 aux_stpos16 Station 16 coordinate Set the station 16 coordinate value when arbitrary coordinate assignment is selected. The station 1 coordinate value is fixed at "0.000" (machine coordinate zero point). ---Setting range---99999.999 to 99999.999(° or mm) 【#12865】 aux_stpos17 Station 17 coordinate Set the station 17 coordinate value when arbitrary coordinate assignment is selected. The station 1 coordinate value is fixed at "0.
II Parameters PLC Axis Indexing Parameters 【#12876】 aux_PSW3dog2 PSW3 area setting 2 Set "PSW3 area setting" 1 and 2 to specify the area where the position switch 3 will turn ON when the machine is positioned. Whether the value of setting 1 is larger than setting 2 (or vice versa) does not affect the position switch operation. For rotary axes, the output turns ON in the area excluding 0.000 degree. ---Setting range---99999.999 to 99999.
II Parameters PLC Axis Indexing Parameters 【#12885】 aux_PSW8dog1 PSW8 area setting 1 Set "PSW8 area setting" 1 and 2 to specify the area where the position switch 8 will turn ON when the machine is positioned. Whether the value of setting 1 is larger than setting 2 (or vice versa) does not affect the position switch operation. For rotary axes, the output turns ON in the area excluding 0.000 degree. ---Setting range---99999.999 to 99999.
II Parameters PLC Axis Indexing Parameters 【#12894】 aux_PSW12dog2 PSW12 area setting 2 Set "PSW12 area setting" 1 and 2 to specify the area where the position switch 12 will turn ON when the machine is positioned. Whether the value of setting 1 is larger than setting 2 (or vice versa) does not affect the position switch operation. For rotary axes, the output turns ON in the area excluding 0.000 degree. ---Setting range---99999.999 to 99999.
II Parameters PLC Axis Indexing Parameters 【#12913】 aux_pusht3 Set position signal output delay time Set the time from the completion of the stopper operation to the output of the “automatic set position reached” (JSTA), “set position reached” (JST) or “near set position” (NEAR) signal in the stopper positioning.
III PLC Devices
III PLC Devices Bit Type Input Signals (CNC->PLC) 1. Bit Type Input Signals (CNC->PLC) (Note) Signals marked with "▲" are prepared for a specific machine tool builder.
Device X7A6 X7A7 X7A8 X7A9 X7AA X7AB X7AC X7AD X7AE X7AF X7B0 X7B1 X7B2 X7B3 X7B4 X7B5 X7B6 X7B7 X7B8 X7B9 X7BA X7BB X7BC X7BD X7BE X7BF X7C0 X7C1 X7C2 X7C3 X7C4 X7C5 X7C6 X7C7 X7C8 X7C9 X7CA X7CB X7CC X7CD X7CE X7CF X7D0 X7D1 X7D2 X7D3 X7D4 X7D5 X7D6 X7D7 X7D8 X7D9 X7DA X7DB X7DC X7DD X7DE X7DF X7E0 X7E1 X7E2 X7E3 X7E4 X7E5 X7E6 X7E7 X7E8 X7E9 X7EA X7EB X7EC X7ED X7EE Abbrev.
Device X7EF X7F0 X7F1 X7F2 X7F3 X7F4 X7F5 X7F6 X7F7 X7F8 X7F9 X7FA X7FB X7FC X7FD X7FE X7FF X800 X801 X802 X803 X804 X805 X806 X807 X808 X809 X80A X80B X80C X80D X80E X80F X810 X811 X812 X813 X814 X815 X816 X817 X818 X819 X81A X81B X81C X81D X81E X81F X820 X821 X822 X823 X824 X825 X826 X827 X828 X829 X82A X82B X82C X82D X82E X82F X830 X831 X832 X833 X834 X835 X836 X837 Abbrev.
Device X838 X839 X83A X83B X83C X83D X83E X83F X840 X841 X842 X843 X844 X845 X846 X847 X848 X849 X84A X84B X84C X84D X84E X84F X850 X851 X852 X853 X854 X855 X856 X857 X858 X859 X85A X85B X85C X85D X85E X85F X860 X861 X862 X863 X864 X865 X866 X867 X868 X869 X86A X86B X86C X86D X86E X86F X870 X871 X872 X873 X874 X875 X876 X877 X878 X879 X87A X87B X87C X87D X87E X87F X880 Abbrev.
Device X881 X882 X883 X884 X885 X886 X887 X888 X889 X88A X88B X88C X88D X88E X88F X890 X891 X892 X893 X894 X895 X896 X897 X898 X899 X89A X89B X89C X89D X89E X89F X8C0 X8C1 X8C2 X8C3 X8C4 X8C5 X8C6 X8C7 X8C8 X8C9 X8CA X8CB X8CC X8CD X8CE X8CF X8D0 X8D1 X8D2 X8D3 X8D4 X8D5 X8D6 X8D7 X8D8 X8D9 X8DA X8DB X8DC X8DD X8DE X8DF X8E0 X8E1 X8E2 X8E3 X8E4 X8E5 X8E6 X8E7 X8E8 X8E9 Abbrev.
Device X8EA X8EB X8EC X8ED X8EE X8EF X8F0 X8F1 X8F2 X8F3 X8F4 X8F5 X8F6 X8F7 X8F8 X8F9 X8FA X8FB X8FC X8FD X8FE X8FF X900 X901 X902 X903 X904 X905 X906 X907 X908 X909 X90A X90B X90C X90D X90E X90F X910 X911 X912 X913 X914 X915 X916 X917 X918 X919 X91A X91B X91C X91D X91E X91F X920 X921 X922 X923 X924 X925 X926 X927 X928 X929 X92A X92B X92C X92D X92E X92F X930 X931 X932 Abbrev.
Device X933 X934 X935 X936 X937 X938 X939 X93A X93B X93C X93D X93E X93F X940 X941 X942 X943 X944 X945 X946 X947 X948 X949 X94A X94B X94C X94D X94E X94F X950 X951 X952 X953 X954 X955 X956 X957 X958 X959 X95A X95B X95C X95D X95E X95F X960 X961 X962 X963 X964 X965 X966 X967 X968 X969 X96A X96B X96C X96D X96E X96F X970 X971 X972 X973 X974 X975 X976 X977 X978 X979 X97A X97B Abbrev.
Device X97C X97D X97E X97F X980 X981 X982 X983 X984 X985 X986 X987 X988 X989 X98A X98B X98C X98D X98E X98F X990 X991 X992 X993 X994 X995 X996 X997 X998 X999 X99A X99B X99C X99D X99E X99F X9A0 X9A1 X9A2 X9A3 X9A4 X9A5 X9A6 X9A7 X9A8 X9A9 X9AA X9AB X9AC X9AD X9AE X9AF X9B0 X9B1 X9B2 X9B3 X9B4 X9B5 X9B6 X9B7 X9B8 X9B9 X9BA X9BB X9BC X9BD X9BE X9BF X9C0 X9C1 X9C2 X9C3 X9C4 Abbrev.
Device X9C5 X9C6 X9C7 X9C8 X9C9 X9CA X9CB X9CC X9CD X9CE X9CF X9D0 X9D1 X9D2 X9D3 X9D4 X9D5 X9D6 X9D7 X9D8 X9D9 X9DA X9DB X9DC X9DD X9DE X9DF X9E0 X9E1 X9E2 X9E3 X9E4 X9E5 X9E6 X9E7 X9E8 X9E9 X9EA X9EB X9EC X9ED X9EE X9EF X9F0 X9F1 X9F2 X9F3 X9F4 X9F5 X9F6 X9F7 X9F8 X9F9 X9FA X9FB X9FC X9FD X9FE X9FF XA00 XA01 XA02 XA03 XA04 XA05 XA06 XA07 XA08 XA09 XA0A XA0B XA0C XA0D Abbrev.
Device XA0E XA0F XA10 XA11 XA12 XA13 XA14 XA15 XA16 XA17 XA18 XA19 XA1A XA1B XA1C XA1D XA1E XA1F XA20 XA21 XA22 XA23 XA24 XA25 XA26 XA27 XA28 XA29 XA2A XA2B XA2C XA2D XA2E XA2F XA30 XA31 XA32 XA33 XA34 XA35 XA36 XA37 XA38 XA39 XA3A XA3B XA3C XA3D XA3E XA3F XA40 XA41 XA42 XA43 XA44 XA45 XA46 XA47 XA48 XA49 XA4A XA4B XA4C XA4D XA4E XA4F XA50 XA51 XA52 XA53 XA54 XA55 XA56 XA57 XA58 Abbrev.
Device XA59 XA5A XA5B XA5C XA5D XA5E XA5F XA60 XA61 XA62 XA63 XA64 XA65 XA66 XA67 XA68 XA69 XA6A XA6B XA6C XA6D XA6E XA6F XA70 XA71 XA72 XA73 XA74 XA75 XA76 XA77 XA78 XA79 XA7A XA7B XA7C XA7D XA7E XA7F XA80 XA81 XA82 XA83 XA84 XA85 XA86 XA87 XA88 XA89 XA8A XA8B XA8C XA8D XA8E XA8F XA90 XA91 XA92 XA93 XA94 XA95 XA96 XA97 XA98 XA99 XA9A XA9B XA9C XA9D XA9E XA9F XB00 XB01 Abbrev. ECIL24 ECIL34 ECIL44 ECIL54 ECIL64 ECIL74 ECIL84 III PLC Devices Bit Type Input Signals (CNC->PLC) Signal name Ext.
Device XB02 XB03 XB04 XB05 XB06 XB07 XB08 XB09 XB0A XB0B XB0C XB0D XB0E XB0F XB10 XB11 XB12 XB13 XB14 XB15 XB16 XB17 XB18 XB19 XB1A XB1B XB1C XB1D XB1E XB1F XC00 XC01 XC02 XC03 XC04 XC05 XC06 XC08 XC09 XC0A XC0B XC10 XC11 XC12 XC13 XC14 XC15 XC16 XC17 XC18 XC19 XC1A XC1C XC1D XC1F XC20 XC21 XC22 XC23 XC24 XC25 XC26 XC27 XC28 XC29 XC2A XC2B XC2E XC2F XC30 XC31 XC32 XC33 Abbrev.
Device XC34 XC35 XC37 XC40 XC41 XC42 XC43 XC48 XC49 XC4A XC4F XC53 XC60 XC61 XC62 XC63 XC64 XC65 XC66 XC67 XC68 XC69 XC6A XC6B XC6C XC6D XC6E XC6F XC70 XC71 XC7F XC80 XC81 XC82 XC83 XC84 XC85 XC86 XC87 XC8A XC8B XC93 XC94 XC95 XC96 XC98 XC99 XC9A XC9B XC9C XCA0 XCA1 XCA2 XCA3 XCA5 XCA6 XCA7 XCA9 XCAA XCAB XCAC XCAE XCAF XCB0 XCB1 XCB2 XCB3 XCB9 XCC0 XCC1 III PLC Devices Bit Type Input Signals (CNC->PLC) Abbrev.
Device XCC2 XCC3 XCC8 XCC9 XCCA XCCB XCCE XCCF XCD0 XCD1 XCD8 XCE8 XCED XCEE XCEF XD0B XD14 XD18 XD19 XD1A XD1B XD1C XD1D XD1E XD1F XD20 XD21 XD22 XD23 XD27 XD28 XD29 XD2A XD40 XD41 XD42 XD43 XD44 XD45 XD46 XD48 XD49 XD4A XD4B XD50 XD51 XD52 XD53 XD54 XD55 XD56 XD57 XD58 XD59 XD5A XD5C XD5D XD5F XD60 XD61 XD62 XD63 III PLC Devices Bit Type Input Signals (CNC->PLC) Abbrev.
Device XD64 XD65 XD66 XD67 XD68 XD69 XD6A XD6B XD6E XD6F XD70 XD71 XD72 XD73 XD74 XD75 XD77 XD80 XD81 XD82 XD83 XD88 XD89 XD8A XD8F XD93 XDA0 XDA1 XDA2 XDA3 XDA4 XDA5 XDA6 XDA7 XDA8 XDA9 XDAA XDAB XDAC XDAD XDAE XDAF XDB0 XDB1 XDBF XDC0 XDC1 XDC2 XDC3 XDC4 XDC5 XDC6 XDC7 XDCA XDCB XDD3 XDD4 XDD5 XDD6 XDD8 XDD9 XDDA XDDB XDDC XDE0 XDE1 XDE2 XDE3 XDE5 XDE6 XDE7 XDE9 Abbrev.
Device XDEA XDEB XDEC III PLC Devices Bit Type Input Signals (CNC->PLC) Abbrev.
Device XE93 XE94 XE95 XE96 XE97 XE98 XE99 XE9A XE9C XE9D XE9F XEA0 XEA1 XEA2 XEA3 XEA4 XEA5 XEA6 XEA7 XEA8 XEA9 XEAA XEAB XEAE XEAF XEB0 XEB1 XEB2 XEB3 XEB4 XEB5 XEB7 XEC0 XEC1 XEC2 XEC3 XEC8 XEC9 XECA XECF XED3 XEE0 XEE1 XEE2 XEE3 XEE4 XEE5 XEE6 XEE7 XEE8 XEE9 XEEA XEEB XEEC XEED XEEE XEEF XEF0 XEF1 XEFF XF00 XF01 XF02 XF03 XF04 XF05 XF06 XF07 XF0A XF0B XF13 XF14 XF15 Abbrev.
Device XF16 XF18 XF19 XF1A XF1B XF1C XF20 XF21 XF22 XF23 XF25 XF26 XF27 XF29 XF2A XF2B XF2C XF2E XF2F XF30 XF31 XF32 XF33 XF39 XF40 XF41 XF42 XF43 XF48 XF49 XF4A XF4B XF4E XF4F XF50 XF51 XF58 XF68 XF6D XF6E XF6F XF8B XF94 XF98 III PLC Devices Bit Type Input Signals (CNC->PLC) Abbrev.
Device XFC1 XFC2 XFC3 XFC4 XFC5 XFC6 XFC8 XFC9 XFCA XFCB XFD0 XFD1 XFD2 XFD3 XFD4 XFD5 XFD6 XFD7 XFD8 XFD9 XFDA XFDC XFDD XFDF XFE0 XFE1 XFE2 XFE3 XFE4 XFE5 XFE6 XFE7 XFE8 XFE9 XFEA XFEB XFEE XFEF XFF0 XFF1 XFF2 XFF3 XFF4 XFF5 XFF7 X1000 X1001 X1002 X1003 X1008 X1009 X100A X100F X1013 X1020 X1021 X1022 X1023 X1024 X1025 X1026 X1027 X1028 X1029 X102A X102B X102C X102D X102E X102F X1030 X1031 X103F Abbrev.
Device X1040 X1041 X1042 X1043 X1044 X1045 X1046 X1047 X104A X104B X1053 X1054 X1055 X1056 X1058 X1059 X105A X105B X105C X1060 X1061 X1062 X1063 X1065 X1066 X1067 X1069 X106A X106B X106C X106E X106F X1070 X1071 X1072 X1073 X1079 X1080 X1081 X1082 X1083 X1088 X1089 X108A X108B X108E X108F X1090 X1091 X1098 X10A8 X10AD X10AE X10AF X10CB X10D4 X10D8 X10D9 X10DA X10DB X10DC X10DD X10DE III PLC Devices Bit Type Input Signals (CNC->PLC) Abbrev.
Device Abbrev.
Device X18F7 X18FD X18FE X18FF X1900 X1901 X1902 X1907 X1908 X1909 X190A X190B X190C X190E X1913 X1915 X1916 X1942 X1943 X1944 X1945 X1946 X1947 X1948 X1949 X194A X194B X194C X194D X194E X194F X1950 X1951 X1952 X1953 X1954 X1955 X1956 X1957 X195D X195E X195F X1960 X1961 X1962 X1967 X1968 X1969 X196A X196B X196C X196E X1973 X1975 X1976 X19A2 X19A3 X19A4 X19A5 X19A6 X19A7 X19A8 X19A9 X19AA X19AB X19AC X19AD X19AE X19AF X19B0 X19B1 X19B2 X19B3 Abbrev.
Device X19B4 X19B5 X19B6 X19B7 X19BD X19BE X19BF X19C0 X19C1 X19C2 X19C7 X19C8 X19C9 X19CA X19CB X19CC X19CE X19D3 X19D5 X19D6 X1A02 X1A03 X1A04 X1A05 X1A06 X1A07 X1A08 X1A09 X1A0A X1A0B X1A0C X1A0D X1A0E X1A0F X1A10 X1A11 X1A12 X1A13 X1A14 X1A15 X1A16 X1A17 X1A1D X1A1E X1A1F X1A20 X1A21 X1A22 X1A27 X1A28 X1A29 X1A2A X1A2B X1A2C X1A2E X1A33 X1A35 X1A36 X1A62 X1A63 X1A64 X1A65 X1A66 X1A67 X1A68 X1A69 X1A6A X1A6B X1A6C X1A6D X1A6E X1A6F X1A70 Abbrev.
Device X1A71 X1A72 X1A73 X1A74 X1A75 X1A76 X1A77 X1A7D X1A7E X1A7F X1A80 X1A81 X1A82 X1A87 X1A88 X1A89 X1A8A X1A8B X1A8C X1A8E X1A93 X1A95 X1A96 X1CD0 X1CD1 X1CD2 X1CD3 X1CD4 X1CD5 X1CD6 X1CD7 X1CD8 X1CD9 X1CDA X1CDB X1CDC X1CDD X1CDE X1CDF X1CE0 X1CE1 X1CE2 X1CE3 X1CE4 X1CE5 X1CE6 X1CE7 X1CE8 X1CE9 X1CEA X1CEB X1CEC X1CED X1CEE X1CEF X1CF0 X1CF1 X1CF2 X1CF3 X1CF4 X1CF5 X1CF6 X1CF7 X1CF8 X1CF9 X1CFA X1CFB X1CFC X1D00 X1D01 X1D02 X1D03 X1D04 Abbrev.
Device X1D05 X1D06 X1D07 X1D08 X1D09 X1D0A X1D0B X1D0C X1D0D X1D0E X1D0F X1D10 X1D11 X1D12 X1D13 X1D14 X1D15 X1D16 X1D17 X1D20 X1D21 X1D22 X1D23 X1D24 X1D25 X1D26 X1D27 X1D28 X1D29 X1D2A X1D2B X1D2C X1D2D X1D2E X1D2F X1D30 X1D31 X1D32 X1D33 X1D34 X1D35 X1D36 X1D37 X1D40 X1D41 X1D42 X1D43 X1D44 X1D45 X1D46 X1D47 X1D48 X1D49 X1D4A X1D4B X1D4C X1D4D X1D4E X1D4F X1D50 X1D51 X1D52 X1D53 X1D54 X1D55 X1D56 X1D57 X1D60 X1D61 X1D62 X1D63 X1D64 X1D65 Abbrev.
Device X1D66 X1D67 X1D68 X1D69 X1D6A X1D6B X1D6C X1D6D X1D6E X1D6F X1D70 X1D71 X1D72 X1D73 X1D74 X1D75 X1D76 X1D77 Abbrev.
III PLC Devices Data Type Input Signals (CNC->PLC) 2. Data Type Input Signals (CNC->PLC) (Note) Signals marked with "▲" are prepared for a specific machine tool builder. Device R0 R1 R2 R3 R4 R5 R6 R7 R8 R11 R12 R13 R16 R17 R18 R19 R25 R26 R27 R30 R31 R37 R38 R39 R40 R56 R57 R58 R59 R60 R62 R68 R69 R70 Abbrev.
Device R515 R516 R517 R518 R519 R536 R537 R538 R539 R540 R541 R542 R543 R544 R545 R546 R547 R548 R549 R550 R551 R554 R555 R564 R565 R566 R567 R571 R572 R574 R575 R576 R578 R580 R581 R582 R583 R584 R585 R586 R587 R588 R589 R590 R591 R596 R597 R598 R599 R600 R601 R602 R603 R604 R605 R606 R607 R608 R609 R628 R629 R630 R636 R637 R640 R641 R646 R652 R653 R654 R655 III PLC Devices Data Type Input Signals (CNC->PLC) Abbrev.
Device Abbrev. R659 R660 R661 RSWRK1 RSSRF1 R668 SVESTAF1 R684 R688 R689 R690 R700 R704 R705 R706 R707 R708 R709 R710 R711 R712 R713 R714 R715 R716 R717 R718 R719 R736 R737 R738 R739 R740 R741 R742 R743 R744 R745 R746 R747 R748 R749 R750 R751 R754 R755 R764 R765 R766 R767 R771 R772 R774 R775 R776 R778 R780 R781 R782 R783 R784 R785 R786 R787 R788 R789 R790 R791 R796 R797 R798 R799 R800 R801 R802 III PLC Devices Data Type Input Signals (CNC->PLC) Signal name Ext.
Device R803 R804 R805 R806 R807 R808 R809 R828 R829 R830 R836 R837 R840 R841 R846 R852 R853 R854 R855 R859 R860 R861 R868 R884 R888 R889 R890 R900 R904 R905 R906 R907 R908 R909 R910 R911 R912 R913 R914 R915 R916 R917 R918 R919 R936 R937 R938 R939 R940 R941 R942 R943 R944 R945 R946 R947 R948 R949 R950 R951 R954 R955 R964 R965 R966 R967 R971 R972 R974 III PLC Devices Data Type Input Signals (CNC->PLC) Abbrev.
Device R975 R976 R978 R980 R981 R982 R983 R984 R985 R986 R987 R988 R989 R990 R991 R996 R997 R998 R999 R1000 R1001 R1002 R1003 R1004 R1005 R1006 R1007 R1008 R1009 R1028 R1029 R1030 R1036 R1037 R1040 R1041 R1046 R1052 R1053 R1054 R1055 R1059 R1060 R1061 R1068 R1084 R1088 R1089 R1090 R1100 R1104 R1105 R1106 R1107 R1108 R1109 R1110 R1111 R1112 R1113 R1114 R1115 R1116 R1117 R1118 R1119 R1136 R1137 R1138 III PLC Devices Data Type Input Signals (CNC->PLC) Abbrev.
Device R1139 R1140 R1141 R1142 R1143 R1144 R1145 R1146 R1147 R1148 R1149 R1150 R1151 R1154 R1155 R1164 R1165 R1166 R1167 R1171 R1172 R1174 R1175 R1176 R1178 R1180 R1181 R1182 R1183 R1184 R1185 R1186 R1187 R1188 R1189 R1190 R1191 R1196 R1197 R1198 R1199 R1200 R1201 R1202 R1203 R1204 R1205 R1206 R1207 R1208 R1209 R1228 R1229 R1230 R1236 R1237 R1240 R1241 R1246 R1252 R1253 R1254 R1255 R1259 R1260 R1261 R1268 R1284 R1288 III PLC Devices Data Type Input Signals (CNC->PLC) Abbrev.
Device R1289 R1290 R2400 R2401 R2402 R2403 R4500 R4501 R4504 R4505 R4508 R4509 R4512 R4513 R4516 R4517 R4520 R4521 R4524 R4525 R4528 R4529 R4532 R4533 R4536 R4537 R4540 R4541 R4544 R4545 R4548 R4549 R4552 R4553 R4556 R4557 R4560 R4561 R4564 R4565 R4568 R4569 R4572 R4573 R4576 R4577 R4580 R4581 R4584 R4585 R4588 R4589 R4592 R4593 R4596 R4597 R4600 R4601 R4604 R4605 R4608 R4609 R4612 R4613 R4616 R4617 R4620 R4621 R4624 R4625 R4628 R4629 R4632 Abbrev.
Device R4633 R4636 R4637 R4640 R4641 R4644 R4645 R4648 R4649 R4652 R4653 R4656 R4657 R4660 R4661 R4664 R4665 R4668 R4669 R4672 R4673 R4676 R4677 R4680 R4681 R4684 R4685 R4688 R4689 R4692 R4693 R4696 R4697 R4700 R4701 R4704 R4705 R4708 R4709 R4712 R4713 R4716 R4717 R4720 R4721 R4724 R4725 R4728 R4729 R4732 R4733 R4736 R4737 R4740 R4741 R4744 R4745 R4748 R4749 R4752 R4753 R4756 R4757 R4758 R4759 R4760 R4761 R4762 R4763 R4764 R4765 R4766 R4767 Abbrev.
Device R4768 R4769 R4770 R4771 R4772 R4773 R4774 R4775 R4776 R4777 R4778 R4779 R4780 R4781 R4782 R4783 R4784 R4785 R4786 R4787 R4788 R4789 R4790 R4791 R4792 R4793 R4794 R4795 R4796 R4797 R4798 R4799 R4800 R4801 R4802 R4803 R4804 R4805 R4806 R4807 R4808 R4809 R4810 R4811 R4812 R4813 R4814 R4815 R4816 R4817 R4818 R4819 R4820 R4821 R4822 R4823 R4824 R4825 R4826 R4827 R4828 R4829 R4830 R4831 R4832 R4833 R4834 R4835 R4836 R4837 R4838 R4839 R4840 Abbrev.
Device R4841 R4842 R4843 R4844 R4845 R4846 R4847 R4848 R4849 R4850 R4851 R4852 R4853 R4854 R4855 R4856 R4857 R4858 R4859 R4860 R4861 R4862 R4863 R4864 R4865 R4866 R4867 R4868 R4869 R4870 R4871 R4872 R4873 R4874 R4875 R4876 R4877 R4878 R4879 R4880 R4881 R4882 R4883 R4884 R4885 R4886 R4887 R4888 R4889 R4890 R4891 R4892 R4893 R4894 R4895 R4896 R4897 R4898 R4899 R4900 R4901 R4902 R4903 R4904 R4905 R4906 R4907 R4908 R4909 R4910 R4911 R4912 R4913 Abbrev.
Device R4914 R4915 R4916 R4917 R4918 R4919 R4920 R4921 R4922 R4923 R4924 R4925 R4926 R4927 R4928 R4929 R4930 R4931 R4932 R4933 R4934 R4935 R4936 R4937 R4938 R4939 R4940 R4941 R4942 R4943 R4944 R4945 R4946 R4947 R4948 R4949 R4952 R4953 R4956 R4957 R4960 R4961 R4964 R4965 R4968 R4969 R4972 R4973 R4976 R4977 R4980 R4981 R4984 R4985 R4988 R4989 R4992 R4993 R4996 R4997 R5000 R5001 R5004 R5005 R5008 R5009 R5012 R5013 R5016 R5017 R5020 R5021 R5024 Abbrev.
Device R5025 R5028 R5029 R5032 R5033 R5036 R5037 R5040 R5041 R5044 R5045 R5048 R5049 R5052 R5053 R5056 R5057 R5060 R5061 R5064 R5065 R5068 R5069 R5072 R5073 R5076 R5077 R5078 R5079 R5080 R5081 R5082 R5083 R5084 R5085 R5086 R5087 R5088 R5089 R5090 R5091 R5092 R5093 R5094 R5095 R5096 R5097 R5098 R5099 R5100 R5101 R5102 R5103 R5104 R5105 R5106 R5107 R5108 R5109 R5110 R5111 R5112 R5113 R5114 R5115 R5116 R5117 R5118 R5119 R5120 R5121 R5122 R5123 Abbrev.
Device R5124 R5125 R5126 R5127 R5128 R5129 R5130 R5131 R5132 R5133 R5134 R5135 R5136 R5137 R5138 R5139 R5140 R5141 R5142 R5143 R5144 R5145 R5146 R5147 R5148 R5149 R5150 R5151 R5152 R5153 R5154 R5155 R5156 R5157 R5158 R5159 R5160 R5161 R5162 R5163 R5164 R5165 R5166 R5167 R5168 R5169 Abbrev.
Device R5170 R5171 R5172 R5173 R5176 R5177 R5180 R5181 R5184 R5185 R5188 R5189 R5192 R5193 R5196 R5197 R5200 R5201 R5204 R5205 R5208 R5209 R5212 R5213 R5216 R5217 R5220 R5221 R5224 R5225 R5228 R5229 R5232 R5233 R5236 R5237 R5240 R5241 R5244 R5245 R5248 R5249 R5252 R5253 R5256 R5257 R5260 R5261 R5264 R5265 R5268 R5269 R5272 R5273 R5276 R5277 R5280 R5281 R5284 R5285 R5288 R5289 R5292 R5293 R5296 R5297 R5332 R5333 R5334 R5335 R5336 Abbrev.
Device R5337 R5338 R5339 R5340 R5341 R5342 R5343 R5344 R5345 R5346 R5347 R5348 R5349 R5350 R5351 R5352 R5353 R5354 R5355 R5356 R5357 R5358 R5359 R5360 R5361 R5362 R5363 R5364 R5365 R5368 R5369 R5372 R5373 R5376 R5377 R5380 R5381 R5384 R5385 R5388 R5389 R5392 R5393 R5396 R5397 R5400 R5401 R5404 R5405 R5408 R5409 R5412 R5413 R5416 R5417 R5420 R5421 R5424 R5425 R5428 R5429 R5432 R5433 R5436 R5437 R5440 R5441 R5444 R5445 R5448 R5449 R5452 R5453 R5456 R5457 R5460 R5461 R5464 R5465 Abbrev.
Device R5468 R5469 R5472 R5473 R5476 R5477 R5480 R5481 R5484 R5485 R5488 R5489 R5492 R5493 R5494 R5495 R5496 R5497 R5498 R5499 R5500 R5501 R5502 R5503 R5504 R5505 R5506 R5507 R5508 R5509 R5510 R5511 R5512 R5513 R5514 R5515 R5516 R5517 R5518 R5519 R5520 R5521 R5522 R5523 R5524 R5525 R5526 R5527 R5528 R5529 R5530 R5531 R5532 R5533 R5534 R5535 R5536 R5537 R5538 R5539 R5540 R5541 R5542 R5543 R5544 R5545 R5546 R5547 R5548 R5549 R5550 R5551 R5552 R5553 R5554 R5555 Abbrev.
Device Abbrev.
Device Abbrev.
Device R6398 R6399 R6400 R6401 R6402 R6403 R6500 R6501 R6502 R6503 R6504 R6505 R6506 R6507 R6514 R6515 R6516 R6517 R6518 R6519 R6520 R6521 R6522 R6523 R6527 R6528 R6529 R6532 R6533 R6534 R6535 R6536 R6537 R6538 R6539 R6550 R6551 R6552 R6553 R6554 R6555 R6556 R6557 R6564 R6565 R6566 R6567 R6568 R6569 R6570 R6571 R6572 R6573 R6577 R6578 R6579 R6582 R6583 R6584 R6585 R6586 R6587 R6588 R6589 R6600 R6601 R6602 R6603 Abbrev.
Device R6604 R6605 R6606 R6607 R6614 R6615 R6616 R6617 R6618 R6619 R6620 R6621 R6622 R6623 R6627 R6628 R6629 R6632 R6633 R6634 R6635 R6636 R6637 R6638 R6639 R6650 R6651 R6652 R6653 R6654 R6655 R6656 R6657 R6664 R6665 R6666 R6667 R6668 R6669 R6670 R6671 R6672 R6673 R6677 R6678 R6679 R6682 R6683 R6684 R6685 R6686 R6687 R6688 R6689 R6700 R6701 R6702 R6703 R6704 R6705 R6706 R6707 R6714 R6715 R6716 R6717 R6718 Abbrev.
Device R6719 R6720 R6721 R6722 R6723 R6727 R6728 R6729 R6732 R6733 R6734 R6735 R6736 R6737 R6738 R6739 R6750 R6751 R6752 R6753 R6754 R6755 R6756 R6757 R6764 R6765 R6766 R6767 R6768 R6769 R6770 R6771 R6772 R6773 R6777 R6778 R6779 R6782 R6783 R6784 R6785 R6786 R6787 R6788 R6789 R10000 R10001 R10002 R10003 R10004 R10005 R10006 R10007 R10008 R10009 R10010 R10011 R10012 R10013 R10014 R10015 R10016 R10017 R10018 R10019 R10020 R10021 R10022 R10023 R10064 R10065 Abbrev.
Device R10068 R10069 R11800 R11801 R11802 R11803 R11804 R11805 R11806 R11807 R11808 R11809 R11810 R11811 R11812 R11813 R11814 R11815 R11816 R11817 R11818 R11819 R11820 R11821 R11822 R11823 R11824 R11825 R11826 R11827 R11828 R11829 R11830 R11831 R11832 R11833 R11834 R11835 R11836 R11837 R11838 R11839 R11840 R11841 R11842 R11843 R11844 R11845 R11846 R11847 R11850 R11851 R11852 R11853 R11854 R11855 R11856 R11857 R11858 R11859 R11860 R11861 R11862 R11863 R11864 R11865 R11866 R11867 R11868 R11869 R11870 R11871 R
Device R11877 R11878 R11879 R11880 R11881 R11882 R11883 R11884 R11885 R11886 R11887 R11888 R11889 R11890 R11891 R11892 R11893 R11894 R11895 R11896 R11897 R11900 R11901 R11902 R11903 R11904 R11905 R11906 R11907 R11908 R11909 R11910 R11911 R11912 R11913 R11914 R11915 R11916 R11917 R11918 R11919 R11920 R11921 R11922 R11923 R11924 R11925 R11926 R11927 R11928 R11929 R11930 R11931 R11932 R11933 R11934 R11935 R11936 R11937 R11938 R11939 R11940 R11941 R11942 R11943 R11944 R11945 R11946 R11947 R11950 R11951 R11952 R
Device R11958 R11959 R11960 R11961 R11962 R11963 R11964 R11965 R11966 R11967 R11968 R11969 R11970 R11971 R11972 R11973 R11974 R11975 R11976 R11977 R11978 R11979 R11980 R11981 R11982 R11983 R11984 R11985 R11986 R11987 R11988 R11989 R11990 R11991 R11992 R11993 R11994 R11995 R11996 R11997 R20000 R20001 R20002 R20003 R20004 R20005 R20006 R20007 R20008 R20009 R20010 R20011 R20012 R20013 R20014 R20015 R20016 R20017 R20516 R20517 R20536 R20537 R20716 R20717 R20736 R20737 R20916 R20917 R20936 R20937 R21116 R21117 R
III PLC Devices Bit Type Output Signals (PLC->CNC) 3. Bit Type Output Signals (PLC->CNC) (Note) Signals marked with "▲" are prepared for a specific machine tool builder. Device Y704 Y705 Y706 Y707 Y708 Y709 Y70A Y70C Y70D Abbrev.
Device Y781 Y782 Y783 Y784 Y785 Y786 Y787 Y788 Y789 Y78A Y78B Y78C Y78D Y78E Y78F Y790 Y791 Y792 Y793 Y794 Y795 Y796 Y797 Y798 Y799 Y79A Y79B Y79C Y79D Y79E Y79F Y7A0 Y7A1 Y7A2 Y7A3 Y7A4 Y7A5 Y7A6 Y7A7 Y7A8 Y7A9 Y7AA Y7AB Y7AC Y7AD Y7AE Y7AF Y7B0 Y7B1 Y7B2 Y7B3 Y7B4 Y7B5 Y7B6 Y7B7 Y7B8 Y7B9 Y7BA Y7BB Y7BC Y7BD Y7BE Y7BF Y7C0 Y7C1 Y7C2 Y7C3 Y7C4 Y7C5 Y7C6 Y7C7 Y7C8 Y7C9 Abbrev.
Device Y7CA Y7CB Y7CC Y7CD Y7CE Y7CF Y7D0 Y7D1 Y7D2 Y7D3 Y7D4 Y7D5 Y7D6 Y7D7 Y7D8 Y7D9 Y7DA Y7DB Y7DC Y7DD Y7DE Y7DF Y7E0 Y7E1 Y7E2 Y7E3 Y7E4 Y7E5 Y7E6 Y7E7 Y7E8 Y7E9 Y7EA Y7EB Y7EC Y7ED Y7EE Y7EF Y7F0 Y7F1 Y7F2 Y7F3 Y7F4 Y7F5 Y7F6 Y7F7 Y7F8 Y7F9 Y7FA Y7FB Y7FC Y7FD Y7FE Y7FF Y800 Y801 Y802 Y803 Y804 Y805 Y806 Y807 Y808 Y809 Y80A Y80B Y80C Y80D Y80E Y80F Y810 Y811 Y812 Abbrev.
Device Y813 Y814 Y815 Y816 Y817 Y818 Y819 Y81A Y81B Y81C Y81D Y81E Y81F Y820 Y821 Y822 Y823 Y824 Y825 Y826 Y827 Y828 Y829 Y82A Y82B Y82C Y82D Y82E Y82F Y830 Y831 Y832 Y833 Y834 Y835 Y836 Y837 Y838 Y839 Y83A Y83B Y83C Y83D Y83E Y83F Y840 Y841 Y842 Y843 Y844 Y845 Y846 Y847 Y848 Y849 Y84A Y84B Y84C Y84D Y84E Y84F Y850 Y851 Y852 Y853 Y854 Y855 Y856 Y857 Y858 Y859 Y85A Y85B Abbrev.
Device Y85C Y85D Y85E Y85F Y860 Y861 Y862 Y863 Y864 Y865 Y866 Y867 Y868 Y869 Y86A Y86B Y86C Y86D Y86E Y86F Y870 Y871 Y872 Y873 Y874 Y875 Y876 Y877 Y878 Y879 Y87A Y87B Y87C Y87D Y87E Y87F Y880 Y881 Y882 Y883 Y884 Y885 Y886 Y887 Y888 Y889 Y88A Y88B Y88C Y88D Y88E Y88F Y890 Y891 Y892 Y893 Y894 Y895 Y896 Y897 Y898 Y899 Y89A Y89B Y89C Y89D Y89E Y89F Y8A0 Y8A1 Y8A2 Y8A3 Y8A4 Abbrev.
Device Y8A5 Y8A6 Y8A7 Y8A8 Y8A9 Y8AA Y8AB Y8AC Y8AD Y8AE Y8AF Y8B0 Y8B1 Y8B2 Y8B3 Y8B4 Y8B5 Y8B6 Y8B7 Y8B8 Y8B9 Y8BA Y8BB Y8BC Y8BD Y8BE Y8BF Y8C0 Y8C1 Y8C2 Y8C3 Y8C4 Y8C5 Y8C6 Y8C7 Y8C8 Y8C9 Y8CA Y8CB Y8CC Y8CD Y8CE Y8CF Y8D0 Y8D1 Y8D2 Y8D3 Y8D4 Y8D5 Y8D6 Y8D7 Y8D8 Y8D9 Y8DA Y8DB Y8DC Y8DD Y8DE Y8DF Y8E0 Y8E1 Y8E2 Y8E3 Y8E4 Y8E5 Y8E6 Y8E7 Y8E8 Y8E9 Y8EA Y8EB Y8EC Y8ED Abbrev.
Device Y8EE Y8EF Y8F0 Y8F1 Y8F2 Y8F3 Y8F4 Y8F5 Y8F6 Y8F7 Y8F8 Y8F9 Y8FA Y8FB Y8FC Y8FD Y8FE Y8FF Y900 Y901 Y902 Y903 Y904 Y905 Y906 Y907 Y908 Y909 Y90A Y90B Y90C Y90D Y90E Y90F Y910 Y911 Y912 Y913 Y914 Y915 Y916 Y917 Y918 Y919 Y91A Y91B Y91C Y91D Y91E Y91F Y920 Y921 Y922 Y923 Y924 Y925 Y926 Y927 Y928 Y929 Y92A Y92B Y92C Y92D Y92E Y92F Y930 Y931 Y932 Y933 Y934 Y935 Y936 Abbrev.
Device Y937 Y938 Y939 Y93A Y93B Y93C Y93D Y93E Y93F Y940 Y941 Y942 Y943 Y944 Y945 Y946 Y947 Y948 Y949 Y94A Y94B Y94C Y94D Y94E Y94F Y950 Y951 Y952 Y953 Y954 Y955 Y956 Y957 Y958 Y959 Y95A Y95B Y95C Y95D Y95E Y95F Y960 Y961 Y962 Y963 Y964 Y965 Y966 Y967 Y968 Y969 Y96A Y96B Y96C Y96D Y96E Y96F Y970 Y971 Y972 Y973 Y974 Y975 Y976 Y977 Y978 Y979 Y97A Y97B Y97C Y97D Y97E Y97F Abbrev.
Device Y980 Y981 Y982 Y983 Y984 Y985 Y986 Y987 Y988 Y989 Y98A Y98B Y98C Y98D Y98E Y98F Y990 Y991 Y992 Y993 Y994 Y995 Y996 Y997 Y998 Y999 Y99A Y99B Y99C Y99D Y99E Y99F Y9A0 Y9A1 Y9A2 Y9A3 Y9A4 Y9A5 Y9A6 Y9A7 Y9A8 Y9A9 Y9AA Y9AB Y9AC Y9AD Y9AE Y9AF Y9B0 Y9B1 Y9B2 Y9B3 Y9B4 Y9B5 Y9B6 Y9B7 Y9B8 Y9B9 Y9BA Y9BB Y9BC Y9BD Y9BE Y9BF Y9C0 Y9C1 Y9C2 Y9C3 Y9C4 Y9C5 Y9C6 Y9C7 Y9C8 Abbrev.
Device Y9C9 Y9CA Y9CB Y9CC Y9CD Y9CE Y9CF Y9D0 Y9D1 Y9D2 Y9D3 Y9D4 Y9D5 Y9D6 Y9D7 Y9D8 Y9D9 Y9DA Y9DB Y9DC Y9DD Y9DE Y9DF Y9E0 Y9E1 Y9E2 Y9E3 Y9E4 Y9E5 Y9E6 Y9E7 Y9E8 Y9E9 Y9EA Y9EB Y9EC Y9ED Y9EE Y9EF Y9F0 Y9F1 Y9F2 Y9F3 Y9F4 Y9F5 Y9F6 Y9F7 Y9F8 Y9F9 Y9FA Y9FB Y9FC Y9FD Y9FE Y9FF YA00 YA01 YA02 YA03 YA04 YA05 YA06 YA07 YA08 YA09 YA0A YA0B YA0C YA0D YA0E YA0F YA10 YA11 Abbrev.
Device YA12 YA13 YA14 YA15 YA16 YA17 YA18 YA19 YA1A YA1B YA1C YA1D YA1E YA1F YA20 YA21 YA22 YA23 YA24 YA25 YA26 YA27 YA28 YA29 YA2A YA2B YA2C YA2D YA2E YA2F YA30 YA31 YA32 YA33 YA34 YA35 YA36 YA37 YA38 YA39 YA3A YA3B YA3C YA3D YA3E YA3F YA40 YA41 YA42 YA43 YA44 YA45 YA46 YA47 YA48 YA49 YA4A YA4B YA4C YA4D YA4E YA4F YA50 YA51 YA52 YA53 YA54 YA55 YA56 YA57 YA58 YA59 YA5A Abbrev.
Device YA5B YA5C YA5D YA5E YA5F YA60 YA61 YA62 YA63 YA64 YA65 YA66 YA67 YA68 YA69 YA6A YA6B YA6C YA6D YA6E YA6F YA70 YA71 YA72 YA73 YA74 YA75 YA76 YA77 YA78 YA79 YA7A YA7B YA7C YA7D YA7E YA7F YA80 YA81 YA82 YA83 YA84 YA85 YA86 YA87 YA88 YA89 YA8A YA8B YA8C YA8D YA8E YA8F YA90 YA91 YA92 YA93 YA94 YA95 YA96 YA97 YA98 YA99 YA9A YA9B YA9C YA9D YA9E YA9F YAA0 YAA1 YAA2 YAA3 Abbrev.
Device YAA4 YAA5 YAA6 YAA7 YAA8 YAA9 YAAA YAAB YAAC YAAD YAAE YAAF YAB0 YAB1 YAB2 YAB3 YAB4 YAB5 YAB6 YAB7 YAB8 YAB9 YABA YABB YABC YABD YABE YABF YAC0 YAC1 YAC2 YAC3 YAC4 YAC5 YAC6 YAC7 YAC8 YAC9 YACA YACB YACC YACD YACE YACF YAD0 YAD1 YAD2 YAD3 YAD4 YAD5 YAD6 YAD7 YAD8 YAD9 YADA YADB YADC YADD YADE YADF YAE0 YAE1 YAE2 YAE3 YAE4 YAE5 YAE6 YAE7 YAE8 YAE9 YAEA YAEB YAEC Abbrev.
Device YAED YAEE YAEF YAF0 YAF1 YAF2 YAF3 YAF4 YAF5 YAF6 YAF7 YAF8 YAF9 YAFA YAFB YAFC YAFD YAFE YAFF YB00 YB01 YB02 YB03 YB04 YB05 YB06 YB07 YB08 YB09 YB0A YB0B YB0C YB0D YB0E YB0F YB10 YB11 YB12 YB13 YB14 YB15 YB16 YB17 YB18 YB19 YB1A YB1B YB1C YB1D YB1E YB1F YB20 YB21 YB22 YB23 YB24 YB25 YB26 YB27 YB28 YB29 YB2A YB2B YB2C YB2D YB2E YB2F YB30 YB31 YB32 YB33 YB34 YB35 YB36 YB37 Abbrev.
Device YB38 YB39 YB3A YB3B YB3C YB3D YB3E YB3F YB60 YB61 YB62 YB63 YB64 YB65 YB66 YB67 YB68 YB69 YB6A YB6B YB6C YB6D YB6E YB6F YB70 YB71 YB72 YB73 YB74 YB75 YB76 YB77 YB78 YB79 YB7A YB7B YB7C YB7D YB7E YB7F YC00 YC01 YC02 YC03 YC04 YC05 YC08 YC09 YC0A YC0B YC10 YC11 YC12 YC13 YC14 YC15 YC17 YC18 YC19 YC1A YC1B YC1C YC1D YC1E YC1F YC20 YC21 YC22 YC23 YC24 YC25 YC26 YC27 YC28 YC29 YC2A Abbrev.
Device YC2B YC2C YC2D YC2E YC30 YC31 YC34 YC35 YC36 YC37 YC38 YC39 YC3A YC3B YC3C YC3D YC3E YC3F YC40 YC41 YC42 YC43 YC44 YC47 YC48 YC49 YC4A YC4B YC4C YC4F YC50 YC51 YC52 YC53 YC54 YC57 YC58 YC59 YC5A YC5C YC5E YC60 YC61 YC62 YC63 YC64 YC66 YC67 YC68 YC69 YC6F YC70 YC71 YC72 YC73 YC74 YC77 YC78 YC79 YC7B YC7C YC7D YC7E YC80 YC81 YC82 YC86 YC87 YC88 YC89 YC8A YC8B YC8C Abbrev.
Device YC8D YC8E YC90 YC91 YC92 YC93 YC95 YC97 YC9D YC9E YC9F YCA0 YCA1 YCA2 YCA3 YCA4 YCA7 YCA8 YCA9 YCAA YCAB YCAC YCAF YCB0 YCB1 YCB2 YCB3 YCB4 YCB7 YCB8 YCB9 YCBA YCBB YCBC YCBD YCBE YCBF YCC0 YCC1 YCC3 YCC4 YCC5 YCC6 YCC7 YCC8 YCC9 YCCA YCCB YCCC YCCF YCD0 YCD1 YCD2 YCD3 YCD4 YCD5 YCD6 YCD7 YCD8 YCD9 YCDA YCDE YCDF YCE1 YCE2 YCE3 YCE8 YCEF YCF4 YCFA YCFD YCFE III PLC Devices Bit Type Output Signals (PLC->CNC) Abbrev.
Device YCFF YD08 YD09 YD0A YD0B YD14 Abbrev.
Device YD50 YD51 YD52 YD53 YD54 YD55 YD57 YD58 YD59 YD5A YD5B YD5C YD5D YD5E YD5F YD60 YD61 YD62 YD63 YD64 YD65 YD66 YD67 YD68 YD69 YD6A YD6B YD6C YD6D YD6E YD70 YD71 YD74 YD75 YD76 YD77 YD78 YD79 YD7A YD7B YD7C YD7D YD7E YD7F YD80 YD81 YD82 YD83 YD84 YD87 YD88 YD89 YD8A YD8B YD8C YD8F YD90 YD91 YD92 YD93 YD94 YD97 YD98 YD99 YD9A YD9C YD9E YDA0 YDA1 YDA2 YDA3 YDA4 YDA6 Abbrev.
Device YDA7 YDA8 YDA9 YDAF YDB0 YDB1 YDB2 YDB3 YDB4 YDB7 YDB8 YDB9 YDBB YDBC YDBD YDBE YDC0 YDC1 YDC2 YDC6 YDC7 YDC8 YDC9 YDCA YDCB YDCC YDCD YDCE YDD0 YDD1 Abbrev.
Device YE0B YE0C YE0F YE10 YE11 YE12 YE13 YE14 YE15 YE16 YE17 YE18 YE19 YE1A YE1E YE1F YE21 YE22 YE23 YE28 YE2F YE34 YE3A YE3D YE3E YE3F YE48 YE49 YE4A YE4B YE54 YE58 YE59 YE5A YE5B YE5C YE5D YE5E YE5F YE60 YE61 YE62 YE63 YE67 YE68 YE69 YE6A YE6B YE6C YE6D YE6E YE6F YE70 YE71 III PLC Devices Bit Type Output Signals (PLC->CNC) Abbrev.
Device Abbrev.
Device YEC4 YEC7 YEC8 YEC9 YECA YECB YECC YECF YED0 YED1 YED2 YED3 YED4 YED7 YED8 YED9 YEDA YEDC YEDE YEE0 YEE1 YEE2 YEE3 YEE4 YEE6 YEE7 YEE8 YEE9 YEEF YEF0 YEF1 YEF2 YEF3 YEF4 YEF7 YEF8 YEF9 YEFB YEFC YEFD YEFE YF00 YF01 YF02 YF06 YF07 YF08 YF09 YF0A YF0B YF0C YF0D YF0E YF10 YF11 Abbrev.
Device YF2C YF2F YF30 YF31 YF32 YF33 YF34 YF37 YF38 YF39 YF3A YF3B YF3C YF3D YF3E YF3F YF40 YF41 YF43 YF44 YF45 YF46 YF47 YF48 YF49 YF4A YF4B YF4C YF4F YF50 YF51 YF52 YF53 YF54 YF55 YF56 YF57 YF58 YF59 YF5A YF5E YF5F YF61 YF62 YF63 YF68 YF6F YF74 YF7A YF7D YF7E YF7F YF88 YF89 YF8A YF8B YF94 YF98 YF99 YF9A YF9B YF9C YF9D YF9E YF9F III PLC Devices Bit Type Output Signals (PLC->CNC) Abbrev.
Device Abbrev.
Device YFE6 YFE7 YFE8 YFE9 YFEA YFEB YFEC YFED YFEE YFF0 YFF1 YFF4 YFF5 YFF6 YFF7 YFF8 YFF9 YFFA YFFB YFFC YFFD YFFE YFFF Y1000 Y1001 Y1002 Y1003 Y1004 Y1007 Y1008 Y1009 Y100A Y100B Y100C Y100F Y1010 Y1011 Y1012 Y1013 Y1014 Y1017 Y1018 Y1019 Y101A Y101C Y101E Y1020 Y1021 Y1022 Y1023 Y1024 Y1026 Y1027 Y1028 Y1029 Y102F Y1030 Y1031 Y1032 Y1033 Y1034 Y1037 Y1038 Y1039 Y103B Y103C Y103D Y103E Y1040 Y1041 Y1042 Y1046 Y1047 Abbrev.
Device Y1048 Y1049 Y104A Y104B Y104C Y104D Y104E Y1050 Y1051 Y1052 Y1053 Y1055 Y1057 Y105D Y105E Y105F Y1060 Y1061 Y1062 Y1063 Y1064 Y1067 Y1068 Y1069 Y106A Y106B Y106C Y106F Y1070 Y1071 Y1072 Y1073 Y1074 Y1077 Y1078 Y1079 Y107A Y107B Y107C Y107D Y107E Y107F Y1080 Y1081 Y1083 Y1084 Y1085 Y1086 Y1087 Y1088 Y1089 Y108A Y108B Y108C Y108F Y1090 Y1091 Y1092 Y1093 Y1094 Y1095 Y1096 Y1097 Y1098 Y1099 Y109A Y109E Y109F Y10A1 Y10A2 Y10A3 Y10A8 III PLC Devices Bit Type Output Signals (PLC->CNC) Abbrev.
Device Y10AF Y10B4 Y10BA Y10BD Y10BE Y10BF Y10C8 Y10C9 Y10CA Y10CB Y10D4 Abbrev.
Device Y188F Y1890 Y1891 Y1893 Y1894 Y1895 Y1896 Y1897 Y1898 Y1899 Y189A Y189B Y189C Y189D Y189E Y189F Y18A2 Y18A3 Y18A6 Y18A8 Y18AF Y18B0 Y18B1 Y18B2 Y18B3 Y18B4 Y18B5 Y18B8 Y18B9 Y18BF Abbrev.
Device Y1950 Y1951 Y1953 Y1954 Y1955 Y1956 Y1957 Y1958 Y1959 Y195A Y195B Y195C Y195D Y195E Y195F Y1962 Y1963 Y1966 Y1968 Y196F Y1970 Y1971 Y1972 Y1973 Y1974 Y1975 Y1978 Y1979 Y197F Abbrev.
Device Y1A11 Y1A13 Y1A14 Y1A15 Y1A16 Y1A17 Y1A18 Y1A19 Y1A1A Y1A1B Y1A1C Y1A1D Y1A1E Y1A1F Y1A22 Y1A23 Y1A26 Y1A28 Y1A2F Y1A30 Y1A31 Y1A32 Y1A33 Y1A34 Y1A35 Y1A38 Y1A39 Y1A3F Abbrev.
Device Y1D08 Y1D09 Y1D0A Y1D0B Y1D0C Y1D0D Y1D0E Y1D0F Y1D10 Y1D11 Y1D12 Y1D13 Y1D14 Y1D15 Y1D16 Y1D17 Y1D20 Y1D21 Y1D22 Y1D23 Y1D24 Y1D25 Y1D26 Y1D27 Y1D28 Y1D29 Y1D2A Y1D2B Y1D2C Y1D2D Y1D2E Y1D2F Y1D30 Y1D31 Y1D32 Y1D33 Y1D34 Y1D35 Y1D36 Y1D37 Y1D40 Y1D41 Y1D42 Y1D43 Y1D44 Y1D45 Y1D46 Y1D47 Y1D48 Y1D49 Y1D4A Y1D4B Y1D4C Y1D4D Y1D4E Y1D4F Y1D50 Y1D51 Y1D52 Y1D53 Y1D54 Y1D55 Y1D56 Y1D57 Y1D60 Y1D61 Y1D62 Y1D63 Y1D64 Y1D65 Y1D66 Y1D67 Y1D68 Abbrev.
Device Y1D69 Y1D6A Y1D6B Y1D6C Y1D6D Y1D6E Y1D6F Y1D70 Y1D71 Y1D72 Y1D73 Y1D74 Y1D75 Y1D76 Y1D77 Abbrev.
III PLC Devices Data Type Output Signals (PLC->CNC) 4. Data Type Output Signals (PLC->CNC) (Note) Signals marked with "▲" are prepared for a specific machine tool builder. Device R200 R201 R202 R203 R204 R205 R206 R207 R210 R212 R215 R224 R225 R226 R227 R232 R233 R234 R235 R236 R237 R238 R239 R240 R241 R242 R243 R248 R249 R255 R272 R273 R279 R296 R297 R298 R299 R336 R337 R338 R339 R340 R342 R347 R348 R349 R350 R351 R352 R353 R354 R355 R356 R357 R358 R359 R365 R377 R390 R391 R396 R400 R401 R402 Abbrev.
Device Abbrev.
Device R2511 R2512 R2513 R2517 R2518 R2519 R2520 R2521 R2522 R2523 R2524 R2525 R2526 R2527 R2528 R2529 R2530 R2531 R2544 R2545 R2548 R2549 R2552 R2553 R2556 R2557 R2558 R2559 R2560 R2562 R2563 R2564 R2565 R2566 R2567 R2568 R2580 R2581 R2582 R2583 R2584 R2587 R2588 R2589 R2590 R2591 R2592 R2593 R2594 R2596 R2599 R2600 R2601 R2602 R2603 R2604 R2605 R2606 R2607 R2608 R2609 R2610 R2611 R2612 R2616 R2617 R2618 R2619 R2625 Abbrev.
Device R2628 R2629 R2630 R2631 R2636 R2637 R2638 R2640 R2641 R2644 R2645 R2648 R2649 R2652 R2653 R2656 R2657 R2660 R2661 R2664 R2665 R2668 R2669 R2672 R2673 R2684 R2688 R2689 R2700 R2701 R2702 R2703 R2704 R2705 R2706 R2707 R2708 R2709 R2710 R2711 R2712 R2713 R2717 R2718 R2719 R2720 R2721 R2722 R2723 R2724 R2725 R2726 R2727 R2728 R2729 R2730 R2731 R2744 R2745 R2748 R2749 R2752 R2753 R2756 R2757 R2758 R2759 R2760 R2762 R2763 R2764 R2765 R2766 R2767 R2768 Abbrev.
Device R2780 R2781 R2782 R2783 R2784 R2787 R2788 R2789 R2790 R2791 R2792 R2793 R2794 R2796 R2799 Abbrev.
Device R2909 R2910 R2911 R2912 R2913 R2917 R2918 R2919 R2920 R2921 R2922 R2923 R2924 R2925 R2926 R2927 R2928 R2929 R2930 R2931 R2944 R2945 R2948 R2949 R2952 R2953 R2956 R2957 R2958 R2959 R2960 R2962 R2963 R2964 R2965 R2966 R2967 R2968 R2980 R2981 R2982 R2983 R2984 R2987 R2988 R2989 R2990 R2991 R2992 R2993 R2994 R2996 R2999 R3000 R3001 R3002 R3003 R3004 R3005 R3006 R3007 R3008 R3009 R3010 R3011 R3012 R3016 R3017 R3018 Abbrev.
Device R3019 R3025 R3028 R3029 R3030 R3031 R3036 R3037 R3038 R3040 R3041 R3044 R3045 R3048 R3049 R3052 R3053 R3056 R3057 R3060 R3061 R3064 R3065 R3068 R3069 R3072 R3073 R3084 R3088 R3089 R3100 R3101 R3102 R3103 R3104 R3105 R3106 R3107 R3108 R3109 R3110 R3111 R3112 R3113 R3117 R3118 R3119 R3120 R3121 R3122 R3123 R3124 R3125 R3126 R3127 R3128 R3129 R3130 R3131 R3144 R3145 R3148 R3149 R3152 R3153 R3156 R3157 R3158 R3159 R3160 R3162 R3163 R3164 R3165 R3166 Abbrev.
Device R3167 R3168 R3180 R3181 R3182 R3183 R3184 R3187 R3188 R3189 R3190 R3191 R3192 R3193 R3194 R3196 R3199 R3200 R3201 R3202 R3203 R3204 R3205 R3206 R3207 R3208 R3209 R3210 R3211 R3212 R3216 R3217 R3218 R3219 R3225 R3228 R3229 R3230 R3231 R3236 R3237 R3238 R3240 R3241 R3244 R3245 R3248 R3249 R3252 R3253 R3256 R3257 R3260 R3261 R3264 R3265 R3268 R3269 R3272 R3273 R3284 R3288 R3289 R4400 R4401 R4402 R4403 R5700 R5701 R5702 R5703 Abbrev.
Device R5704 R5705 R5706 R5707 R5708 R5709 R5710 R5711 R5712 R5713 R5714 R5715 R5716 R5717 R5718 R5719 R5720 R5721 R5722 R5723 R5724 R5725 R5726 R5727 R5728 R5729 R5730 R5731 R5732 R5733 R5734 R5735 R5736 R5737 R5738 R5739 R5740 R5741 R5742 R5743 R5744 R5745 R5746 R5747 R5748 R5749 R5750 R5751 R5752 R5753 R5754 R5755 R5756 R5757 R5758 R5759 R5760 R5761 R5762 R5763 R5764 R5765 R5766 R5767 R5768 R5769 R5770 R5771 R5772 R5773 R5774 R5775 R5776 Abbrev.
Device R5777 R5778 R5779 R5780 R5781 R5782 R5783 R5784 R5785 R5786 R5787 R5788 R5789 R5790 R5791 R5792 R5793 R5794 R5795 R5796 R5797 R5798 R5799 R5800 R5801 R5802 R5803 R5804 R5805 R5806 R5807 R5808 R5809 R5810 R5811 R5812 R5813 R5814 R5815 R5816 R5817 R5818 R5819 R5820 R5821 R5822 R5823 R5824 R5825 R5826 R5827 R6052 R6053 R6054 R6055 R6056 R6057 R6058 R6059 R6060 R6061 R6062 R6063 R6064 R6065 R6066 R6067 R6068 R6069 R6070 R6071 R6072 R6073 Abbrev.
Device R6074 R6075 R6076 R6077 R6078 R6079 R6080 R6081 R6082 R6083 R6084 R6085 R6086 R6087 R6088 R6089 R6090 R6091 R6092 R6093 R6094 R6095 R6096 R6097 R6098 R6099 R6100 R6101 R6102 R6103 R6104 R6105 R6106 R6107 R6108 R6109 R6110 R6111 R6112 R6113 R6114 R6115 R6116 R6117 R6118 Abbrev.
Device R6119 R6120 R6121 R6122 R6123 R6124 R6125 R6126 R6127 R6128 R6129 R6130 R6131 R6132 R6133 R6134 R6135 R6136 R6137 R6138 R6139 R6140 R6141 R6142 R6143 R6144 R6145 R6146 R6147 R6436 R6437 R6438 R6439 R6440 R6441 R6442 R6443 R6444 R6445 R6446 R6447 R6448 R6449 R6450 R6451 R6452 R6453 R6454 R6455 R6456 R6457 R6458 R6459 R6460 R6461 R6462 R6463 R6464 R6465 R6466 R6467 R7000 R7001 R7002 Abbrev.
Device R7050 R7051 R7052 Abbrev.
Device R12230 R12231 R12232 R12233 R20200 R20204 R20208 R20212 R20216 R20220 R20232 R20236 R20240 R20244 R20248 R20252 R20264 R20266 R20268 R20270 R20272 R20274 R20280 R20281 R22500 R22692 R22693 R22694 Abbrev. RNASP PNASP SPPWS1 R22700 R22892 R22893 R22894 SPPWS2 R22900 R23092 R23093 R23094 SPPWS3 R23100 R23292 R23293 R23294 SPPWS4 III PLC Devices Data Type Output Signals (PLC->CNC) Signal name Spindle tool No. (L) $4 Spindle tool No. (H) $4 Standby tool No. (L) $4 Standby tool No.
III PLC Devices Each Application : Pallet Program Registration 5. Each Application : Pallet Program Registration Device R2100 R2101 R2102 R2103 R2110 R2111 R2112 R2113 R2114 R2116 R2117 R2118 R2119 R2120 R2122 R2123 R2124 R2125 R2126 R2128 R2129 R2130 R2131 R2132 R2134 R2135 R2136 R2137 R2138 R2140 R2141 R2142 R2143 R2144 R2146 R2147 R2148 R2149 R2150 R2152 R2153 R2154 R2155 R2156 Abbrev.
III PLC Devices Each Application : PLC Axis Indexing 6.
Device R8082 R8083 R8084 R8085 R8098 Abbrev.
III PLC Devices Each Application : Tool Life Management Interface 7.
Device R10678 R10679 R10680 R10681 R10682 R10683 R10684 R10685 R10686 R10687 R10688 R10689 R10690 R10691 R10692 R10693 R10694 R10695 R10696 R10697 R10698 R10699 R10700 R11060 R11420 R11800 R11801 R11802 R11803 R11804 R11805 R11816 R11817 R11818 R11819 R11824 R11825 R11826 R11827 R11828 R11829 R11840 R11841 R11842 R11843 R11850 R11851 R11852 R11853 R11854 R11855 R11866 R11867 R11868 R11869 R11874 R11875 R11876 R11877 R11878 R11879 R11890 R11891 R11892 R11893 R11900 R11901 R11902 R11903 R11904 R11905 R11916 R
Device R11918 R11919 R11924 R11925 R11926 R11927 R11928 R11929 R11940 R11941 R11942 R11943 R11950 R11951 R11952 R11953 R11954 R11955 R11966 R11967 R11968 R11969 R11974 R11975 R11976 R11977 R11978 R11979 R11990 R11991 R11992 R11993 R12202 R12203 R12212 R12213 R12222 R12223 R12232 R12233 III PLC Devices Each Application : Tool Life Management Interface Abbrev.
III PLC Devices Special Relay / Register 8.
Device SW005D SW0060 SW0061 SW0062 SW0064 SW0065 SW0066 SW0068 SW0069 SW006A SW006B SW006C SW006D SW006E SW006F SW0070 SW0071 SW0072 SW0073 SW0074 SW0075 SW0076 SW0077 SW0078 SW0079 SW007A SW007B SW007C SW007D SW007E SW007F SW0080 SW0081 SW0082 SW0083 SW0084 SW0085 SW0086 SW0087 SW0088 SW0089 SW008A SW008B SW008C SW008D SW008E SW008F SW0090 SW0094 SW0095 SW0096 SW0097 SW0098 SW0099 SW009A SW009B SW009C SW009D SW009E SW009F SW00B4 SW00B5 SW00B6 SW00B7 SW00B8 SW00C0 SW00C1 SW00C2 SW00C3 SW00C4 SW00C5 SW00C6 S
Device SW0144 SW0145 SW0146 SW0147 SW0148 SW0149 Abbrev.
Revision History Date of revision Oct. 2008 Manual No. Revision details IB(NA)1500928-A First edition created. Jan. 2009 IB(NA)1500928-B Mistakes were corrected. Jul. 2010 IB(NA)1500928-C Corrections are made corresponding to S/W version G1. Nov. 2011 IB(NA)1500928-D Corrections are made corresponding to S/W version H0. Sep. 2013 IB(NA)1500928-E Corrections are made corresponding to S/W version J2. Mar. 2014 IB(NA)1500928-F Corrections are made corresponding to S/W version K1.
