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    FANUC Series 30+-MODEL BFANUC Series 31+-MODEL BFANUC Series 32+-MODEL BPARAMETER MANUALB-64490EN/03

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    • No part of this manual may be reproduced in any form. • All specifications and designs are subject to change without notice. The products in this manual are controlled based on Japan’s “Foreign Exchange and Foreign Trade Law”. The export of Series 30i-B, Series 3...

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    B-64490EN/03 DEFINITION OF WARNING, CAUTION, AND NOTE s-1 DEFINITION OF WARNING, CAUTION, AND NOTE This manual includes safety precautions for protecting the user and preventing damage to the machine. Precautions are classified into Warning and Caution according to their bearing on safety. Also, ...

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    B-64490EN/03 PREFACE p-1 PREFACE Applicable models The models covered by this manual, and their abbreviations are : Model name Abbreviation FANUC Series 30i–B 30i –B Series 30i FANUC Series 31i–B 31i –B FANUC Series 31i–B5 31i –B5 Series 31i FANUC Series 32i–B 32i –B Series 32i ...

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    PREFACE B-64490EN/03 p-2 Manual name Specification number Operation guidance function MANUAL GUIDE i (Common to Lathe System/Machining Center System) OPERATOR’S MANUAL B-63874EN MANUAL GUIDE i (For Machining Center System) OPERATOR’S MANUAL B-63874EN-2 MANUAL GUIDE i (Set-up Guidance Funct...

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    B-64490EN/03 TABLE OF CONTENTS c-1 TABLE OF CONTENTS DEFINITION OF WARNING, CAUTION, AND NOTE .................................s-1 PREFACE....................................................................................................p-1 1 DISPLAYING PARAMETERS..................................

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    TABLE OF CONTENTS B-64490EN/03 c-2 4.12 PARAMETERS OF AXIS CONTROL/INCREMENT SYSTEM (1 OF 3) ...... 37 4.13 PARAMETERS OF COORDINATE SYSTEM (1 OF 2) ............................... 48 4.14 PARAMETERS OF STORED STROKE CHECK ......................................... 55 4.15 PARAMETERS OF THE CHUCK...

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    B-64490EN/03 TABLE OF CONTENTS c-3 4.52 PARAMETERS OF REFERENCE POSITION WITH MECHANICAL STOPPER ................................................................................................. 370 4.53 PARAMETERS OF SOFTWARE OPERATOR'S PANEL .......................... 372 4.54 PARAMETERS OF PR...

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    TABLE OF CONTENTS B-64490EN/03 c-4 4.89 PARAMETERS OF LINEAR INCLINATION COMPENSATION FUNCTION ................................................................................................ 527 4.90 PARAMETERS OF TILTED WORKING PLANE COMMAND.................... 528 4.91 PARAMETERS OF AXIS CON...

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    B-64490EN/03 TABLE OF CONTENTS c-5 4.127 PARAMETERS OF PROGRAMS (4 OF 4)................................................ 641 4.128 PARAMETERS OF MANUAL LINER/CIRCULAR INTERPOLATION........ 642 4.129 PARAMETERS OF CANNED CYCLES FOR DRILLING M CODE OUTPUT IMPROVEMENT ................................

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    B-64490EN/03 1.DISPLAYING PARAMETERS - 1 - 1 DISPLAYING PARAMETERS Follow the procedure below to display parameters. 1 Press the function key on the MDI unit as many times as required, or alternatively, press the function key once, then the [PARAM] section display soft key. The parameter screen...

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    2.SETTING PARAMETERS FROM MDI B-64490EN/03 - 2 - 2 SETTING PARAMETERS FROM MDI Follow the procedure below to set parameters. 1 Place the NC in the MDI mode or the emergency stop state. 2 Follow the substeps below to enable writing of parameters. 2-1 To display the setting screen, press the funct...

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    B-64490EN/03 2.SETTING PARAMETERS FROM MDI - 3 - Data can be entered continuously for parameters, starting at the selected parameter, by separating each data item with a semicolon (;). [Example] Entering 10;20;30;40 and pressing the [INPUT] soft key assigns values 10, 20, 30, and 40 to paramet...

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    B-64490EN/03 - 4 - 3. INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE 3 INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE RS232C INTERFACE This section explains the parameter input/output procedures for input/output devices connected to the RS232C interface. The following ...

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    B-64490EN/03 - 5 - 3. INPUTTING AND OUTPUTTING PARAMETERSTHROUGH THE RS232C INTERFACE 3.2 INPUTTING PARAMETERS THROUGH THE RS232C INTERFACE 1 Place the NC in the emergency stop state. 2 Enable parameter writing. 2-1 To display the setting screen, press the function key as many times as required...

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    B-64490EN/03 - 6 - 3. INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE 3.3 I/O FORMATS This section describes the I/O formats of parameters. Parameters are classified by data format as follows: Data format Remarks Bit Bit machine group Bit path Bit axis Bit spindle Data ...

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    B-64490EN/03 - 7 - 3. INPUTTING AND OUTPUTTING PARAMETERSTHROUGH THE RS232C INTERFACE3.3.2 Inch/Metric Switching For parameters dependent on inch/metric switching such as those for length and feedrate, whether data is inch data or metric data is specified by the input mode in the case of input f...

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    B-64490EN/03 - 8 - 3. INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE 3.3.5 Bit Path Format N ***** Q1 L ** P ******** L ** P ******** ・ ・・; A numeric value after N represents a parameter number. Q1 indicates that the data is parameter data. A numeric value after ...

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    B-64490EN/03 - 9 - 3. INPUTTING AND OUTPUTTING PARAMETERSTHROUGH THE RS232C INTERFACE3.3.7 Bit Spindle Format N ***** Q1 S ** P ******** S ** P ******** ・ ・・; A numeric value after N represents a parameter number. Q1 indicates that the data is parameter data. A numeric value after S repre...

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    B-64490EN/03 - 10 - 3. INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE 3.3.10 Byte/Word/Two-Word Path Format N ***** Q1 L ** P ****** L ** P ****** ・ ・・; A numeric value after N represents a parameter number. Q1 indicates that the data is parameter data. A numeric...

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    B-64490EN/03 - 11 - 3. INPUTTING AND OUTPUTTING PARAMETERSTHROUGH THE RS232C INTERFACE3.3.12 Byte/Word/Two-Word Spindle Format N ***** Q1 S ** P ****** S ** P ****** ・ ・・; A numeric value after N represents a parameter number. Q1 indicates that the data is parameter data. A numeric value ...

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    B-64490EN/03 - 12 - 3. INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE 3.3.14 Real Number Machine Group Format N ***** Q1 T ** P ****** T ** P ****** ・ ・・; N ***** Q1 T ** M ****** T ** M ****** ・ ・・; N ***** Q1 T ** I ****** T *...

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    B-64490EN/03 - 13 - 3. INPUTTING AND OUTPUTTING PARAMETERSTHROUGH THE RS232C INTERFACE3.3.16 Real Number Axis Format N ***** Q1 A ** P ****** A ** P ****** ・ ・・; N ***** Q1 A ** M ****** A ** M ****** ・ ・・; N ***** Q1 A ** I ****** A ** I ****** ・ ・...

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    B-64490EN/03 - 14 - 3. INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE READER/PUNCHER INTERFACE 3.3.18 Start and End of a Record A parameter record starts with "%" and ends with "%". Example %; ......................................... Start of record N00000Q1P000011...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 15 - 4 DESCRIPTION OF PARAMETERS 4.1 INPUT TYPE There are two input types for parameters depending on their usage. Setting input These parameters are set depending on NC programs or machining usage. When the memory protection signal KEY is “1”, they...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 16 - NOTE 1 Each of the parameters of the bit, bit machine group, bit path, bit axis, and bit spindle types consists of 8 bits for one data number (parameters with eight different meanings). 2 For machine group types, parameters corresponding to the maxi...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 17 - NOTE 1 The bits left blank in Chapter 4, “DESCRIPTION OF PARAMETERS” and parameter numbers that appear on the display but are not found in the parameter list are reserved for future expansion. They must always be 0. 2 A parameter usable with onl...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 18 - (B) Length and angle parameters (type 2) Unit of data Increment system Minimum data unitValid data range IS-A 0.01 0.00 to +999999.99 IS-B 0.001 0.000 to +999999.999 IS-C 0.0001 0.0000 to +99999.9999 IS-D 0.00001 ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 19 - Unit of data Increment system Minimum data unitValid data range IS-C 0.001 0.000 to +999999.999 IS-D 0.0001 0.0000 to +99999.9999 mm/min degree/min IS-E 0.0001 0.0000 to +99999.9999 IS-C 0.0001 0.0000 to +99999.9999 IS-D ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 20 - 4.5 PARAMETERS OF SETTING #7 #6 #5 #4 #3 #2 #1 #0 0000 SEQ INI ISO TVC [Input type] Setting input [Data type] Bit path #0 TVC TV check 0: Not performed 1: Performed #1 ISO Code used for data output 0: EIA code 1: ISO code NOTE 1 The...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 21 - NOTE 1 Programs created in the Series 15 program format can be used for operation on the following functions: 1 Subprogram call M98 2 Thread cutting with equal leads G32 (T series) 3 Canned cycle G90, G92, G94 (T series) 4 Multiple repetitive canned...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 22 - NOTE This parameter is invalid for output of high-precision pitch error compensation data. #7 #6 #5 #4 #3 #2 #1 #0 0012 RMVx MIRx [Input type] Setting input [Data type] Bit axis #0 MIRx Mirror image for each axis 0: Mirror image is ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 23 - I/O CHANNEL or foreground input Set channels to be used for data input/output. I/O CHANNEL (0 to 5) =0 : Channel 1 =1 : Channel 1 =2 : Channel 2 =3 : Channel 3 : : : Input/output to and from the memory card interface, etc. is also possible. ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 24 - Correspondence between settings and input/output devices Setting Description 4 Memory card interface of CNC Memory card/USB interface in the secondary display unit for Ethernet connection or the shared display unit for Ethernet connection 5 Data ser...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 25 - #2 CRF Output of the end of block (EOB) in ISO code 0: Depends on the setting of bit 3 (NCR) of parameter No. 0100. 1: CR, LF are output. #3 NCR Output of the end of block (EOB) in ISO code 0: LF, CR, CR are output. 1: Only LF is output. #6 ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 26 - #7 MNC DNC operation from the memory card and external device subprogram call from the memory card are: 0: Not performed. 1: Performed. #7 #6 #5 #4 #3 #2 #1 #0 0139 ISO [Input type] Setting input [Data type] Bit #0 ISO When a memo...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 27 - 4.6.2 Parameters of Channel 1 (I/O CHANNEL=0) #7 #6 #5 #4 #3 #2 #1 #0 0101 NFD ASI SB2 [Input type] Parameter input [Data type] Bit #0 SB2 The number of stop bits 0: 1 1: 2 #3 ASI Code used at data input/output 0: EIA or ISO code (i...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 28 - Set the baud rate of the input/output device corresponding to I/O CHANNEL=0. When setting this parameter, see the following table: Baud rates and corresponding settings Setting Baud rate (bps) Setting Baud rate (bps) 1 50 8 1200 3 110 9 2400 4 150 ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 29 - 4.6.4 Parameters of Channel 2 (I/O CHANNEL=2) #7 #6 #5 #4 #3 #2 #1 #0 0121 NFD ASI SB2 [Input type] Parameter input [Data type] Bit #0 SB2 The number of stop bits 0: 1 1: 2 #3 ASI Code used at data input/output 0: EIA or ISO code (i...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 30 - When the CNC screen dual display function is active, the data input source and output destination are linked to a key entry choice. If the CNC main unit has no memory card interface, the memory card interface on the PC side is used regardless of t...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 31 - #7 #6 #5 #4 #3 #2 #1 #0 0905 UNS DSF PCH DNE [Input type] Parameter input [Data type] Bit #0 DNE During DNC operation using the FOCAS2/Ethernet functions, the termination of DNC operation is: 0: Waited. 1: Not waited. (FOCAS2/HSSB compa...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 32 - NOTE The data server Explorer connection function option is necessary to use this parameter. #5 SCM Data Server function accesses its memory card with the forwarding mode: 0: A memory card-supported mode recognized by Data Server. 1: A tradition...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 33 - 0930 Maximum number of files that can be registered to the memory card of the Data Server and maximum size per file that can be registered [Input type] Parameter input [Data type] Word [Valid data range] 0, 10 to 15 No. 930 Maximum number of f...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 34 - #7 #6 #5 #4 #3 #2 #1 #0 0961 PMO [Input type] Parameter input [Data type] Bit #3 PMO The O number of a program for saving and restoring the I/O LINK β parameter is set based on: 0: Group number and channel number 1: Group number onl...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 35 - NOTE 3 When the Ethernet function and the FL-net function are available, these functions can operate on the same hardware by specifying the same hardware on the NC parameters No.970 and 971 as the FL-net/Ethernet coexisting function. And, each funct...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 36 - 0981 Absolute path number to which each axis belongs NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Byte axis [Valid data range] 1 to 10 Set the path to whi...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 37 - 4.12 PARAMETERS OF AXIS CONTROL/INCREMENT SYSTEM (1 OF 3) #7 #6 #5 #4 #3 #2 #1 #0 1000 EEA [Input type] Parameter input [Data type] Bit #0 EEA An extended axis name and extended spindle name are: 0: Invalid 1: Valid #7 #6 #5 #4 #3...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 38 - #4 XIK When bit 1 (LRP) of parameter No. 1401 is set to 0, namely, when positioning is performed using non-linear type positioning, if an interlock is applied to the machine along one of axes in positioning, 0: The machine stops moving along the a...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 39 - #1 DLZx Function for setting the reference position without dogs 0: Disabled 1: Enabled #3 HJZx When a reference position is already set: 0: Manual reference position return is performed with deceleration dogs. 1: Manual reference position ret...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 40 - #7 RMBx The control axis detachment signal for each axis and the setting input bit 7 (RMV) of parameter No. 0012 are: 0: Invalid 1: Valid #7 #6 #5 #4 #3 #2 #1 #0 ZMIx DIAx ROSx ROTx 1006 ZMIx TCHx DIAx ROSx ROTx [Input type] Paramete...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 41 - #7 #6 #5 #4 #3 #2 #1 #0 1007 ZPAx G90x GRDx RAAx ALZx RTLx [Input type] Parameter input [Data type] Bit axis #0 RTLx When manual reference position return is performed on a rotary axis (A type) with the deceleration dog pressed before a ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 42 - #7 ZPAx In automatic reference position return (G28), a coordinate system is: 0: Not preset. 1: Preset. #7 #6 #5 #4 #3 #2 #1 #0 1008 RRFx RMCx SFDx RRLx RABx ROAx [Input type] Parameter input [Data type] Bit axis NOTE When at least one...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 43 - #6 RRFx When a reference position return command (G28) is specified, the rotation direction of an absolute command for the rotary axis roll-over function follows: 0: Up to the middle point, it depends on the setting of bit 1 (RAB) of parameter No....

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 44 - NOTE IDGx is enabled when the bit 7 (IDG) of parameter No. 1002 is 1. If the function for setting the reference position without dogs is used, and the reference position is lost in absolute position detection for a cause, the alarm DS0300, “APC ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 45 - As for the axis which set this parameter when the least input increment is C (IS-C), D (IS-D), or E (IS-E), the larger value can be set to the parameter of the speed and the acceleration. The valid data ranges of these parameters are indicated in th...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 46 - NOTE In the T series, if this parameter bit is set to 0, workpiece origin offset measurement value direct input is enabled only in the currently selected workpiece coordinate system or an external workpiece coordinate system. If an attempt is made ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 47 - NOTE 4 In a macro call, no extended axis name can be used as an argument. 1022 Setting of each axis in the basic coordinate system [Input type] Parameter input [Data type] Byte axis [Valid data range] 0 to 7 To determine a plane for circular in...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 48 - EGB axis: For a slave axis, set an odd (1, 3, 5, 9, ...) servo axis number. For a dummy axis to be paired, set a value obtained by adding 1 to the value set for the slave axis. 1025 Program axis name 2 for each axis 1026 Program axis name 3 for ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 49 - #2 ZCL Local coordinate system when the manual reference position return is performed 0: The local coordinate system is not canceled. 1: The local coordinate system is canceled. NOTE ZCL is valid when the workpiece coordinate system option is sp...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 50 - #2 G92 When the CNC has commands G52 to G59 specifying workpiece coordinate systems (optional function), if the G command for setting a coordinate system (G92 for M series, G50 for T series (or the G92 command in G command system B or C)) is speci...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 51 - #5 R2O The output of the signal for the second reference position is: 0: Disabled. 1: Enabled. #6 3TW When workpiece coordinate system selection is specified with G code in tilted working plane indexing mode: 0: The alarm PS5462, "ILLEGAL ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 52 - Machine zero point Amount of movement during manual intervention PoWZo Pn WZn G54 workpiece coordinateSystem before manual intervention G54 workpiece coordinate system after manual intervention Tool length offset value Tool length offset value ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 53 - NOTE The setting of this parameter is valid only when the system used is the M series and bit 6 (DAL) of parameter No. 3104 is set to 1. If this parameter is set to 1 in other than the above conditions, the system operates as if this parameter bit ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 54 - 1241 Coordinate value of the second reference position in the machine coordinate system 1242 Coordinate value of the third reference position in the machine coordinate system 1243 Coordinate value of the fourth reference position in the machine...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 55 - 1280 Start address of signals used with the extended external machine zero point shift function [Input type] Parameter input [Data type] 2-word path [Valid data range] Even number from 0 to 59999 Set the start address of signals used with the e...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 56 - #2 LMS The stored stroke check 1 select signal EXLM (EXLM3, EXLM2, or EXLM when stored stroke check 1 area expansion is used) for switching stored stroke check 0: Disabled 1: Enabled NOTE When bit 0 (DLM) of parameter No. 1301 is set to 1, the s...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 57 - NOTE This parameter is valid only when the option for stroke limit check before movement is selected. #4 OF1 If the tool is moved into the range allowed on the axis after an alarm is raised by stored stroke check 1, 0: The alarm is not canceled ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 58 - NOTE When this parameter is set, the power must be turned off before operation is continued. #0 DOTx Stored stroke limit check immediately after power-on is: 0: Disabled. 1: Enabled. If the stored stroke check is enabled, the machine coordinate...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 59 - 1322 Coordinate value of stored stroke check 2 in the positive direction on each axis 1323 Coordinate value of stored stroke check 2 in the negative direction on each axis [Input type] Setting input [Data type] Real axis [Unit of data] mm, in...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 60 - 1358 Coordinate value VII of stored stroke check 1 in the positive direction on each axis 1359 Coordinate value VII of stored stroke check 1 in the negative direction on each axis 1360 Coordinate value VIII of stored stroke check 1 in the posit...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 61 - Dimensions of the claw of a chuck (L) 1331 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 0 or positive 9 digi...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 62 - Dimensions of the claw of a chuck (W1) 1334 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 0 or positive 9 digi...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 63 - [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 0 or positive 9 digit of minimum unit of data (refer to the standard parameter setting table (B)) (When the increment system is IS-B, 0.0 to +999999.999) Set t...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 64 - Set the diameter (D1) of the tail stock. NOTE Specify this parameter by using a diameter value at all times. Length of a tail stock (L2) 1345 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. uni...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 65 - Z coordinate of a tail stock (TZ) 1348 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 9 digit of minimum unit o...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 66 - #7 #6 #5 #4 #3 #2 #1 #0 1402 JRV OV2 JOV NPC [Input type] Parameter input [Data type] Bit path #0 NPC Feed per revolution without the position coder (function for converting feed per revolution F to feed per minute F in the feed per rev...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 67 - #7 RTV Rapid traverse override while the tool is retracting in threading 0: Rapid traverse override is effective. 1: Rapid traverse override is not effective. #7 #6 #5 #4 #3 #2 #1 #0 FC0 FM3 DLF 1404 FC0 DLF [Input type] Paramete...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 68 - NOTE The option for constant surface speed control without the position coder is required. #3 HFR Feedrate command in rapid traverse is: 0: A value of set in parameter. 1: Synchronized with handle pulse by the handle-synchronous feed function. ...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 69 - #0 RFDx Feedrate control on a rotary axis is exercised using: 0: Conventional method 1: Method that specifies a feedrate on the virtual circle of the rotary axis #3 IRCx The least input increment of the maximum cutting feedrates set in paramete...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 70 - Set a cutting feedrate for retrace operation. When 0 is set, a retrace operation is performed at a programmed feedrate. 1415 Manual synchronous feedrate for manual linear/circular interpolation continuous feed at override 100% [Input type] Parame...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 71 - (2) When bit 4 (JRV) of parameter No. 1402 is set to 1 (feed per revolution), specify a jog feedrate (feed per revolution) under an override of 100%. NOTE This parameter is clamped to the axis-by-axis manual rapid traverse rate (parameter No. 1424...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 72 - [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] Refer to the standard parameter setting table (C) (When the increment system is IS-B, 0.0 to +999000.0) Set the external deceleration rate of rapid traverse fo...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 73 - NOTE 1 To this feedrate setting 100%, a rapid traverse override (F0, 25, 50, or 100%) is applicable. 2 For automatic return after completion of reference position return and machine coordinate system establishment, the normal rapid traverse rate is ...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 74 - Set a maximum cutting feedrate for each axis in the acceleration/deceleration before interpolation mode such as AI contour control. When the acceleration/deceleration before interpolation mode is not set, the maximum cutting feedrate set in paramete...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 75 - Set external deceleration rate 3 for cutting feed or positioning of linear interpolation type (G00). 1444 External deceleration rate setting 3 for each axis in rapid traverse [Input type] Parameter input [Data type] Real axis [Unit of data] mm...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 76 - 1450 Change of feedrate for one graduation on the manual pulse generator during one-digit F feed code [Input type] Parameter input [Data type] Byte path [Valid data range] 1 to 127 Set the constant that determines the change in feedrate as the...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 77 - [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] Refer to the standard parameter setting table (B) Set the radius of a virtual circle when a feedrate on the virtual circl...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 78 - #7 PGF The feedrate specified for circular interpolation, involute interpolation, spiral/conical interpolation, and NURBS interpolation in the high-speed program check mode is: 0: The dry run feedrate. At this time, manual feedrate override signal...

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    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 79 - 4.17 PARAMETERS OF ACCELERATION/DECELERATION CONTROL #7 #6 #5 #4 #3 #2 #1 #0 1601 NCI RTO [Input type] Parameter input [Data type] Bit path #4 RTO Block overlap in rapid traverse 0: Blocks are not overlapped in rapid traverse. 1: Bloc...

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    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 80 - #7 #6 #5 #4 #3 #2 #1 #0 1604 SHP [Input type] Parameter input [Data type] Bit path #0 SHP When automatic operation is started, the state equivalent to the specification of G5.1Q1 for AI contour control is: 0: Not set 1: Set Upon rese...

  • Page 93

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 81 - #4 JGLx Acceleration/deceleration in jog feed 0: Exponential acceleration/deceleration is applied. 1: The same acceleration/deceleration as for cutting feedrate is applied. (Depending on the settings of bits 1 (CTBx) and 0 (CTLx) of parameter No....

  • Page 94

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 82 - NOTE This parameter is valid when bit 0 (SHP) of parameter No. 1604 is 0 with none of G05.1Q1, G05P10000, and G08P1 specified. #3 TCO Blocks in a threading cycle are: 0: Not overlapped in rapid traverse. 1: Overlapped in rapid traverse. In a thr...

  • Page 95

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 83 - [Example] For linear acceleration/deceleration SpeedRapid traverse rate(Parameter No. 1420)TimeTT T : Setting of parameter No. 1620 For bell-shaped acceleration/deceleration Speed Rapid traverse rate (Parameter No. 1420) Time T1 T2T2 T2T2 T1 T1 ...

  • Page 96

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 84 - Set the time constant used for exponential acceleration/deceleration in cutting feed, bell-shaped acceleration/deceleration after interpolation or linear acceleration/deceleration after interpolation in cutting feed for each axis. Which type to use ...

  • Page 97

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 85 - Set an FL rate for acceleration/deceleration after interpolation in the threading cycles G92 (T series), G76 (T series), and G76.7 (M series) for each axis. Set 0 at all times except in a special case. 1650 Timer for the acceleration/decelerati...

  • Page 98

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 86 - 1672 Acceleration change time of bell-shaped acceleration/deceleration before interpolation for linear rapid traverse, or acceleration change time of bell-shaped acceleration/deceleration in optimum torque acceleration/deceleration [Input type] P...

  • Page 99

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 87 - Set a minimum deceleration ratio (MDR) for an inner circular cutting feedrate change by automatic corner override. In the case of circular cutting offset inward, the actual feedrate is determined by a specified feedrate (F) as follows: Thus, the...

  • Page 100

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 88 - 1714 End distance (Ls) for inner corner override [Input type] Setting input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit of minimu...

  • Page 101

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 89 - NOTE The parameter No. 1726 is valid when bit 3 (TCO) of parameter No. 1611 is set to 1. 1732 Minimum allowable feedrate for the deceleration function based on acceleration in circular interpolation [Input type] Parameter input [Data type] Rea...

  • Page 102

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 90 - [Data type] Real axis [Unit of data] mm/sec2, inch/sec2, degree/sec2 (machine unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] Refer to the standard parameter setting table (D) (When the machine syste...

  • Page 103

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 91 - 1772 Acceleration change time of bell-shaped acceleration/deceleration before interpolation [Input type] Parameter input [Data type] 2-word path [Unit of data] msec [Valid data range] 0 to 200 Set an acceleration change time of bell-shaped acc...

  • Page 104

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 92 - For an axis with 0 set in this parameter, feedrate control based on acceleration change is disabled. If 0 is set for all axes, feedrate control based on acceleration change is not exercised. 1789 Maximum allowable acceleration change rate in feedr...

  • Page 105

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 93 - On an axis for which this parameter is set to 0, deceleration based on the outage-time deceleration signal is not performed. In synchronization control or tandem control, set the same parameter for the master axis and slave axis.

  • Page 106

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 94 - 4.18 PARAMETERS OF SERVO (1 OF 2) #7 #6 #5 #4 #3 #2 #1 #0 1800 RBK FFR CVR [Input type] Parameter input [Data type] Bit path #1 CVR When velocity control ready signal VRDY is set ON before position control ready signal PRDY comes ON 0:...

  • Page 107

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 95 - Bit 5 (CIN) of parameter No. 1801 0 1 Rapid traverse → Rapid traverse No. 1826 Rapid traverse → Rapid traverse No. 1826 Rapid traverse → Cutting feed No. 1826 Rapid traverse → Cutting feed No. 1826 Cutting feed → Cutting feed No. 1826 Cut...

  • Page 108

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 96 - #1 TQA Within a torque limit, an excessive stop-time/move-time error is: 0: Checked. 1: Not checked. #4 TQF When torque control is performed by the PMC axis control, follow-up operation is: 0: Not performed. 1: Performed. #7 NFP If position...

  • Page 109

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 97 - #1 TRE When bit 4 (TQF) of parameter No. 1803 is set to 0 (not to perform follow-up operation with a torque control command in PMC axis control), the servo error counter is: 0: Updated. When the error count exceeds the maximum allowable cumulative...

  • Page 110

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 98 - CAUTION If operation is continued with the external fan stopped while bit 2 (SWP) of parameter No. 1807 is set to 1, the servo amplifier may be overheated and "overheat alarm", "IPM alarm", or "VRDY off alarm" may be ...

  • Page 111

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 99 - NOTE 3 If this parameter is available, the machine coordinate value just before CNC turns off is saved. In the case of moving over 180 degree during turning off, a machine coordinate value may get out over a rotation because CNC saves a machine coor...

  • Page 112

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 100 - When an absolute position detector is used, after primary adjustment is performed or after the absolute position detector is replaced, this parameter must be set to 0, power must be turned off and on, then manual reference position return must be p...

  • Page 113

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 101 - #7 #6 #5 #4 #3 #2 #1 #0 1817 TANx SCPx SCRx SBLx [Input type] Parameter input [Data type] Bit axis NOTE When at least one of these parameters is set, the power must be turned off before operation is continued. #2 SBLx Smooth backlas...

  • Page 114

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 102 - NOTE 1 This parameter is valid when bit 2 (DC2) of parameter No. 1802 is set to 1. 2 If this parameter is set to an incorrect value, an incorrect coordinate system is established. In such a case, reverse the setting then perform reference position ...

  • Page 115

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 103 - NOTE This parameter disables movement based on the G28 command to a reference position. So, use this parameter only in special cases. #1 RF2x If G28 is specified for an axis for which a reference position is already established (Reference posit...

  • Page 116

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 104 - The automatic setting procedure is as follows: <1> Set an appropriate value in parameters Nos. 1815, 1821, and 1882. <2> Position the machine at the reference position by manual operation. <3> Set this parameter to 1. Alarm P...

  • Page 117

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 105 - Least input increment Least command increment0.00001 mm (diameter specification) 0.000005 mm Millimeter input 0.00001 mm (radius specification) 0.00001 mm 0.000001 inch (diameter specification) 0.000005 mm Millimeter machine Inch input 0.000001 in...

  • Page 118

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 106 - As the size of the reference counter, specify the grid interval for the reference position return in the grid method. [Size of the reference counter]=[Grid interval]/[Detection unit] [Grid interval]=[Amount of travel per rotation of the Pulsecode...

  • Page 119

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 107 - 1823 Value of the denominator of arbitrary command multiplier n/m NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word axis [Valid data range] 0 to 9999 Set...

  • Page 120

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 108 - 1828 Positioning deviation limit for each axis in movement [Input type] Parameter input [Data type] 2-word axis [Unit of data] Detection unit [Valid data range] 0 to 99999999 Set the positioning deviation limit in movement for each axis. If th...

  • Page 121

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 109 - 1836 Servo error amount where reference position return is possible [Input type] Parameter input [Data type] Word axis [Unit of data] Detection unit [Valid data range] 0 to 32767 This parameter sets a servo error used to enable reference posit...

  • Page 122

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 110 - NOTE 1 When the reference position shift function is enabled (when bit 4 (SFDx) of parameter No. 1008 is set to 1) When bit 4 (SFDx) of parameter No. 1008 is set to 1, the distance from a point at which the deceleration dog is released to the first...

  • Page 123

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 111 - 1850 Grid shift and reference position shift for each axis NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] 2-word axis [Unit of data] Detection unit [Valid...

  • Page 124

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 112 - NOTE 2 The positive or negative direction for compensating values is the direction of movement. 1868 Threshold position for converting scale data (each axis) NOTE When this parameter is set, the power must be turned off before operation is cont...

  • Page 125

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 113 - Normally, the amount of one rotation of rotary axis is 360, and the machine position 0 is the reference position. In this case, this parameter is set to 0. For instance, when this parameter is set to 523.000, the amount of one rotation become 523...

  • Page 126

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 114 - [Valid data range] 0 to 32767 This parameter sets the time from the detection of an unexpected disturbance torque until a servo alarm is issued. When 0 is set, however, the specification of 200 msec is assumed. 1881 Group number when an unexpecte...

  • Page 127

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 115 - 1884 Distance 2 from the scale zero point to reference position (linear scale with absolute address reference marks) or distance 2 from the base point to reference position (linear scale with an absolute address zero point) NOTE When this param...

  • Page 128

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 116 - [Example of parameter settings] When an encoder as shown Fig. 4.18 (b) is used with an IS-B, millimeter machine: 20.000 19.980 9.94010.0609.960 10.040 9.980 10.0205.00020.000mm20.020mm -[9960/(20020-20000)*20000+5000] = -9965000Mark 1Mark 2 Mark ...

  • Page 129

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 117 - Mark 1Mark 2Mark 1Mark 2Mark 1Mark 1 Mark 2Reference position 10.020 9.98010.0409.96010.0609.940Base point 20.000 20.020 Fig. 4.18 (c) If the reference position is located in the positive direction when viewed from the base point, set a positive...

  • Page 130

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 118 - 1886 Positional deviation when torque control is canceled [Input type] Parameter input [Data type] Word axis [Unit of data] Detection unit [Valid data range] 1 to 32767 Set a positional deviation value when torque control is canceled to return...

  • Page 131

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 119 - NOTE When at least one of these parameters is set, the power must be turned off before operation is continued. #0 FMD The FSSB setting mode is: 0: Automatic setting mode. (When the relationship between an axis and amplifier is defined on the FS...

  • Page 132

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 120 - No. Data type Contents 2013 Bit axis APTG HRV3 2014 Bit axis SPCTRF SPF HRV4 2015 Bit axis BZNG BLAT TDOU SSG1 PGTW 2016 Bit axis PK2VDN ABNT 2017 Bit axis PK2V25 HTNG COMSRC DBST 2018 Bit axis PFBCPY OVR8 MOVOBS RVRSE2019...

  • Page 133

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 121 - No. Data type Contents 2079 Word axis Conversion coefficient for dual position feedback (denominator) 2080 Word axis First-order lag time constant for dual position feedback 2081 Word axis Zero width for dual position feedback 2082 Word axis Backla...

  • Page 134

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 122 - No. Data type Contents 2165 Word axis Maximum amplifier current 2167 Word axis Stage 2 acceleration amount offset for two-stage backlash acceleration 2173 Word axis Distance to lift for the lifting function against gravity at emergency stop 2177 Wo...

  • Page 135

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 123 - No. Data type Contents 2318 Word axis Gain of disturbance elimination filter 2319 Word axis Inertia ratio of disturbance elimination filter 2320 Word axis Inverse function gain of disturbance elimination filter 2321 Word axis Filter time constant o...

  • Page 136

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 124 - No. Data type Contents 2386 Word axis Torsion preview control: acceleration torsion compensation value K1 2387 Word axis Torsion preview control: acceleration torsion compensation value K2 2388 Word axis Torsion preview control: acceleration torsio...

  • Page 137

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 125 - NOTE The setting of this parameter becomes valid after the power is turned off then back on. #7 XIAx Temporary absolute coordinate setting is: 0: Not used. 1: Used. NOTE 1 When temporary absolute coordinate setting is used, bit 1 (OPTx) of par...

  • Page 138

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 126 - If the absolute value of the torque command difference between two axes exceeds the value set in this parameter, an alarm is issued. Set the same value for two axes that are placed under axis synchronous control. The servo axis numbers of the synch...

  • Page 139

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 127 - [When spindle control with servo motor is used] Functions used when Normal position control is used Permissible rotation speed Extended permissible feedrate Feedrate limit multiplied by 10 Detection unit:1/1000deg Detection unit:1/10000deg Detectio...

  • Page 140

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 128 - 4.19 PARAMETERS OF DI/DO (1 OF 2) #7 #6 #5 #4 #3 #2 #1 #0 3001 MHI PGS RWM SON [Input type] Parameter input [Data type] Bit path #1 SON Automatic operation is started: 0: On the falling edge (“1” → “0”) of the automatic ope...

  • Page 141

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 129 - [Data type] Bit path #0 CHM For high-speed M/S/T/B, the distribution end signal DEN <Fn001.3> and an auxiliary function code signal M00 to M31 <Fn010 to Fn013> are: 0: Not turned off even upon completion of the execution of the aux...

  • Page 142

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 130 - #7 #6 #5 #4 #3 #2 #1 #0 DEC DAU DIT ITX ITL 3003 DEC DIT ITX ITL [Input type] Parameter input [Data type] Bit path #0 ITL Interlock signal for all axes 0: Enabled 1: Disabled #2 ITX Interlock signals for each axis 0: Enabled 1:...

  • Page 143

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 131 - #7 #6 #5 #4 #3 #2 #1 #0 3006 WPS EPS EPN GDC [Input type] Parameter input [Data type] Bit #0 GDC As the deceleration signal for reference position return: 0: X0009 is used. 1: G0196 is used. (X0009 is disabled.) #1 EPN As signals f...

  • Page 144

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 132 - 3010 Time lag in strobe signals MF, SF, TF, and BF [Input type] Parameter input [Data type] Word path [Unit of data] msec [Valid data range] 0 to 32767 The time required to send strobe signals MF<Fn007.0>, SF<Fn007.2>, TF<Fn007...

  • Page 145

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 133 - 3012 Skip signal assignment address NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word path [Valid data range] 0 to 727 Set an X address to which the ski...

  • Page 146

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 134 - NOTE This parameter is valid when bit 2 (XSG) of parameter No. 3008 is set to 1. 3017 Output time of reset signal RST [Input type] Parameter input [Data type] Word path [Unit of data] 16msec [Valid data range] 0 to 255 When the output time ...

  • Page 147

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 135 - Example 2. When parameter No. 3012 is set to 5 and parameter No. 3019 is set to 5 When bit 2 (XSG) of parameter No. 3008 is 1, the PMC axis control skip signal, measurement position arrival signal, and skip signal are allocated to X0005. #7 #6 #...

  • Page 148

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 136 - Value of parameter No. 3021 (the second digit) Setting value Input signal address Output signal address 0 G0000 to G0767 F0000 to F0767 1 G1000 to G1767 F1000 to F1767 : 9 G9000 to G9767 F9000 to F9767 Value of parameter No. 3021 (the first dig...

  • Page 149

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 137 - Value of parameter No. 3022 (the first digit) Setting value Input signal address Output signal address 0 Bit position A Bit position A 1 Bit position B Bit position B 2 Bit position C Bit position C 3 Bit position D Bit position D (The bit positio...

  • Page 150

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 138 - 4.20 PARAMETERS OF DISPLAY AND EDIT (1 OF 5) #7 #6 #5 #4 #3 #2 #1 #0 3100 CEM [Input type] Parameter input [Data type] Bit #1 CEM On the help and operation history screens, CE-marked MDI keys are displayed with: 0: Key names. 1: Sy...

  • Page 151

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 139 - NOTE If any of the following is executed when PPD is set to 1, the relative position display is preset to the same value as the absolute position display: (1) Manual reference position return (2) Coordinate system setting based on G92 (G50 for G ...

  • Page 152

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 140 - #7 #6 #5 #4 #3 #2 #1 #0 3106 DAK SOV OPH DHD [Input type] Setting input [Data type] Bit #0 DHD On the program screen: 0: Only a selected path can be edited and displayed. 1: Multiple paths can be edited and displayed at the same time...

  • Page 153

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 141 - #7 #6 #5 #4 #3 #2 #1 #0 3108 JSP SLM WCI PCT [Input type] Parameter input [Data type] Bit path #2 PCT For modal T display on the program check screen: 0: A specified T value is displayed. 1: HD.T and NX.T are displayed. Values display...

  • Page 154

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 142 - #0 OFA The axis names on the offset screen and fourth-axis/fifth-axis offset screen are: 0: Fixed to be "X", "Z", and "Y" ("E" and "5" on the fourth-axis/fifth-axis offset screen). 1: Parameter-s...

  • Page 155

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 143 - #3 EAH Messages of the external alarm/macro alarm in alarm or operation history: 0: Not recorded 1: Recorded NOTE This parameter is valid when bit 7 (HAL) of parameter No. 3196 is set to 0. #7 #6 #5 #4 #3 #2 #1 #0 3113 MS1 MS0 DCL HMC ...

  • Page 156

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 144 - NOTE 3 Even though you change the settings of bits 6 (MS0) and 7 (MS1) of parameter No. 3113, the alarm PW0000, "POWER MUST BE OFF" is not issued. You must however turn on the power again before the new settings can take effect. 4 If tex...

  • Page 157

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 145 - #7 #6 #5 #4 #3 #2 #1 #0 3115 APLx PGA NDFx NDAx NDPx [Input type] Parameter input [Data type] Bit axis #0 NDPx The current position is: 0: Displayed. 1: Not displayed. NOTE When using the electronic gear box (EGB) function, set 1 for...

  • Page 158

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 146 - #2 PWR Alarm SW0100, “PARAMETER ENABLE SWITCH ON”, which is issued when bit 0 (PWE) of setting parameter No. 8900 is set to 1, is cleared by: 0: + . 1: or turning on the external reset. #7 MDC Maintenance information data: 0: Cannot be ...

  • Page 159

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 147 - #3 TPA When the option for the external touch panel interface is selected, the external touch panel interface connection is: 0: Valid. 1: Invalid. For an external touch panel (called ETP hereinafter), the RS-232C serial port 2 (JD36A or JD54) on...

  • Page 160

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 148 - [Data type] Bit path D01 to D32 Set a group of G codes to be displayed on the program check screen. The table below indicates the correspondence between bits and G code groups. The setting of a bit has the following meaning: 0: Displays ...

  • Page 161

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 149 - #4 RPP To the value of the preset(or origin) of relative coordinates, the difference below the least input increment between absolute coordinate point and relative coordinate point is: 0: Not corrected. 1: Corrected. 3130 Axis display order...

  • Page 162

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 150 - 3133 Axis name (relative coordinate) for current position display [Input type] Parameter input [Data type] Byte axis [Valid data range] 0 to 255 These parameters set the axis name for current position display. When G code system B or C is used...

  • Page 163

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 151 - 3141 Path name (1st character) 3142 Path name (2nd character) 3143 Path name (3rd character) 3144 Path name (4th character) 3145 Path name (5th character) 3146 Path name (6th character) 3147 Path name (7th character) [Input type] Pa...

  • Page 164

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 152 - #7 #6 #5 #4 #3 #2 #1 #0 3191 FSS SSF WSI [Input type] Parameter input [Data type] Bit path #2 WSI On the workpiece zero point offset screen, the soft key [INPUT] is: 0: Displayed. 1: Not displayed. #3 SSF On the setting screen, th...

  • Page 165

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 153 - #7 #6 #5 #4 #3 #2 #1 #0 3194 DPM DPA [Input type] Parameter input [Data type] Bit path #2 DPA The absolute coordinates, relative coordinates, and remaining move amount during diameter/radius specification switching are displayed: 0:...

  • Page 166

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 154 - #6 HOM A history of external operator messages and macro messages ((#3006) is: 0: Recorded. 1: Not recorded. #7 HAL When an alarm is issued, additional information (modal data, absolute coordinates, and machine coordinates present at the iss...

  • Page 167

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 155 - #2 REP Action in response to an attempt to register a program whose number is the same as that of an existing program 0: An alarm is generated. 1: The existing program is deleted, then the new program is registered. Note that if the existing pro...

  • Page 168

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 156 - (7) Displaying programs NOTE This parameter setting does not affect the following programs: (1) Programs on the Data Server (2) Programs for running and editing memory card programs on a memory card #6 PSR Search for the program number of a p...

  • Page 169

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 157 - NOTE When a multi-path system is used, the setting for path 1 is followed. #1 OPC In MEM/EDIT/RMT mode, a program search or cueing operation: 0: Causes a warning when automatic operation has been started (automatic operation start signal STL =...

  • Page 170

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 158 - #4 PHS Operation history signal selection: 0: Does not interact with parameters. Operation history signal selection is added or deleted on the operation history signal selection screen. Changing the settings of parameters Nos. 24901 to 24920, N...

  • Page 171

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 159 - #0 SKY The function key on the MDI unit is: 0: Enabled. 1: Disabled. #3 NOS The one-touch menu is 0: Displayed. 1: Not displayed. #4 OFY The offset screen can be used to display and enter: 0: Only conventional offset values. 1: Y-axis off...

  • Page 172

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 160 - When the value set as the password (set in parameter No. 3210) is set in this parameter, the locked state is released and the user can now modify the password and the value set in bit 4 (NE9) of parameter No. 3202. NOTE The value set in this par...

  • Page 173

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 161 - When PMIN = 0, the specification of PMIN = 9000 is assumed. When PMAX = 0, the specification of PMAX = 9999 is assumed. So, when these parameters are set to the defaults, the programs from O9000 to O9999 are locked. NOTE 1 Parameters Nos. 3220 to...

  • Page 174

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 162 - #1 PDM On the Data Server file list screen: 0: M198 operation folders and DNC operation files can be set. 1: Folders in the Data Server can be set as the foreground folder and background folder. NOTE When an M198 external subprogram call or DN...

  • Page 175

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 163 - #7 #6 #5 #4 #3 #2 #1 #0 3280 NLC [Input type] Parameter input [Data type] Bit #0 NLC Dynamic display language switching is: 0: Enabled. 1: Disabled. When dynamic display language switching is disabled, the language setting screen i...

  • Page 176

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 164 - [Input type] Parameter input [Data type] Bit Select the languages to be used with the function for selecting five optional languages. Priority Language <1> JPN Japanese <2> GER German <3> FRE French <4> CHT Chinese(tradi...

  • Page 177

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 165 - #4 IWZ Setting a workpiece zero point offset value or workpiece shift value (T series) by MDI key input in the automatic operation activation or halt state is: 0: Not disabled. 1: Disabled. #5 GO2 Setting the second geometric tool offset valu...

  • Page 178

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 166 - When the modification of tool offset values by MDI key input is to be disabled using bits 0 (WOF) and 1 (GOF) of parameter No. 3290, parameters Nos. 3294 and 3295 are used to set the range where such modification is disabled. In parameter No. 3294...

  • Page 179

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 167 - 3321 Screen number assigned to the 1st vertical soft key to to 3336 Screen number assigned to the 16th vertical soft key [Input type] Parameter input [Data type] Word [Valid data range] 1 to 10000 Assign a screen number to be displayed as a ...

  • Page 180

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 168 - Screen No. Screen name Screen No.Screen name 119 Workpiece coordinate system shift 163 Servo guide: Y-TIME 120 Second geometry offset 164 Servo guide: XY 121 Tool geometry data 165 Servo guide: CIRCLE 122 Precision level 166 Servo guide: FOURIER 1...

  • Page 181

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 169 - Screen No. Screen name Screen No.Screen name 321 [Built-in/PCMCIA] Common 322 [Built-in/PCMCIA] FOCAS2/Ethernet 323 [Built-in/PCMCIA] FTP transfer Profibus setting 324 [MASTER] Overall 325 [MASTER] Bus parameter 326 [MASTER] Slave ta...

  • Page 182

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 170 - #6 SMX An S code specified in a block that specifies G92 (G50 with G code system A of the T series) is: 0: Regarded as a maximum spindle speed command. 1: Not regarded as a maximum spindle speed command (but regarded as a spindle speed command)....

  • Page 183

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 171 - #0 G01 G01 Mode entered when the power is turned on or when the control is cleared 0: G00 mode (positioning) 1: G01 mode (linear interpolation) #1 G18 Plane selected when power is turned on or when the control is cleared 0: G17 mode (plane X...

  • Page 184

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 172 - NOTE The following notes apply when this parameter is set to 1: 1 When two or more M codes are acceptable to one block, up to three M codes can be specified in the same block. Specifying more than three results in the alarm PS5074. 2 You can spec...

  • Page 185

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 173 - #2 SBP In an external device subprogram call, the address P format is based on: 0: File number specification 1: Program number specification NOTE In memory card operation, the program number specification format is used, regardless of the sett...

  • Page 186

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 174 - #1 DWL The dwell time (G04) is: 0: Always dwell per second. 1: Dwell per second in the feed per minute mode (G94), or dwell per rotation in the feed per rotation mode (G95). #3 G36 As a G code to be used with the automatic tool length measure...

  • Page 187

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 175 - Parameter G code group C01 01 C02 02 C03 03 : : C30 30 #7 CFH When bit 6 (CLR) of parameter No. 3402 is 1, the key on the MDI unit, the external reset signal, the reset and rewind signal, or emergency stop will, 0: Clear F codes, H codes (for...

  • Page 188

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 176 - 3428 Range specification 4 of M codes that do not perform buffering (upper limit) 3429 Range specification 5 of M codes that do not perform buffering (lower limit) 3430 Range specification 5 of M codes that do not perform buffering (upper lim...

  • Page 189

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 177 - When setting these parameters, follow the setting condition described below. If the condition is not satisfied, no M codes are added to the M code group setting screen as in the case where 0 is set. (Setting condition) The settings of parameters ...

  • Page 190

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 178 - BDX=0 Bit 0 (DPI) of parameter No. 3401 Bit 0 (AUP) of parameter No. 3450 Without the second auxiliary function optionWith the second auxiliary function option BDX=10 2.000 2.000 2.000 0 1 2.000 0.002 0.002 0 2.000 2.000 2.000 1 1 2.000 2.000 2.00...

  • Page 191

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 179 - #0 CRD If the functions of chamfering or corner R and direct drawing dimension programming are both enabled, 0: Chamfering or corner R is enabled. 1: Direct drawing dimension programming is enabled. #7 #6 #5 #4 #3 #2 #1 #0 3454 G1B PGR D...

  • Page 192

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 180 - #7 #6 #5 #4 #3 #2 #1 #0 3455 AXDx [Input type] Parameter input [Data type] Bit axis #0 AXDx If a decimal point is omitted for an axis address with which a decimal point can be used, the value is determined: 0: In accordance with th...

  • Page 193

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 181 - NOTE 2 The parameter SCF is used to set whether to add a search folder for the following subprogram/macro calls: • Subprogram call based on M98 • Figure copy based on G72.1/G72.2 • Macro call based on G65/G66/G66.1 • Macro interrupt based ...

  • Page 194

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 182 - When a search folder is added, a search is made in the following order: 0) Folder only for embedded macro (With the embedded macro-function.) 1) Folder where the main program is stored 2) Common program folder, which is an initial folder (LIBRARY)...

  • Page 195

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 183 - 3460 Second auxiliary function specification address [Input type] Parameter input [Data type] Byte path [Valid data range] 65to67, 85to87 Specify which of A, B, C, U, V, and W is to be used as the address for specifying the second auxiliary fu...

  • Page 196

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 184 - 3471 Allowable difference between the specified end position and the end position obtained from the increase/decrease and frequency in spiral interpolation or conic interpolation [Input type] Parameter input [Data type] Real axis [Unit of da...

  • Page 197

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 185 - NOTE When this parameter is set, the power must be turned off before operation is continued. #1 EPC The pitch error compensation on an axis of Cs contour control on the slave spindle side during simple synchronous spindle control is: 0: The sa...

  • Page 198

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 186 - In interpolation type pitch error compensation, a compensation value at each point in each error completion point interval is divided for output of one pulse at equally spaced intervals. If cycle type second pitch error compensation and interpolat...

  • Page 199

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 187 - 3622 Number of the pitch error compensation position at extremely positive position for each axis NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word axis...

  • Page 200

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 188 - [Data type] Real axis [Unit of data] mm, inch, degree (machine unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] See the description below. If the pitch error compensation of rotation axis type is pe...

  • Page 201

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 189 - Set the absolute value of pitch error compensation at reference position when a movement to the reference position is made from the negative direction if the direction of reference position return (bit 5 (ZMI) of parameter No. 1006) is positive or...

  • Page 202

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 190 - 3671 Number of the pitch error compensation position at extremely positive position for each slave axis when independent pitch error compensation is performed under spindle command synchronous control NOTE When this parameter is set, the power ...

  • Page 203

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 191 - 3681 Pitch error compensation value at the reference position when a movement is made to the reference position in the direction opposite to the reference position return direction for each slave axis in the case where independent both-direction ...

  • Page 204

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 192 - 4.23 PARAMETERS OF SPINDLE CONTROL #7 #6 #5 #4 #3 #2 #1 #0 3700 CNM NRF CRF [Input type] Parameter input [Data type] Bit path #0 CRF Reference position setting at an arbitrary position under Cs contour control is: 0: Not used. 1: Use...

  • Page 205

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 193 - #0 2P2 When a multi-path system is used, inter-path spindle control allows: 0: Configuration where the spindle that belongs to one path only is shared between path 1 and path 2. 1: Configuration where the spindles that belong to path 1 and 2 are...

  • Page 206

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 194 - • Signals of simple synchronous control of each spindle ESSYCs • Parking signals of simple synchronous control of each spindle PKESEs #7 CSS On the each spindle, Cs contour control is: 0: Not performed. 1: Performed. #7 #6 #5 #4 #3 #2 #1...

  • Page 207

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 195 - #4 EVS When the spindle control function (Spindle analog output or Spindle serial output) is used, S codes and SF are: 0: Not output for an S command. 1: Output for an S command. The output of S codes and SF for an S command in constant surfac...

  • Page 208

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 196 - y = x(path number selected by the spindle feedback selection signals)-1 When bit 3 (PCS) of parameter No. 3706 is set to 0 Selected path Position coder selection signals (path x)Selecting path Position coder selection signals (path m)Position cod...

  • Page 209

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 197 - #6 CWM #7 TCW Voltage polarity when the spindle speed voltage is output TCW CWM Voltage polarity 0 0 Both M03 and M04 positive 0 1 Both M03 and M04 negative 1 0 M03 positive, M04 negative 1 1 M03 negative, M04 positive #7 #6 #5 #4 #3 #2 #...

  • Page 210

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 198 - #0 SAM The sampling frequency to obtain the average spindle speed 0: 4 (Normally, set to 0.) 1: 1 #1 RSC In the constant surface speed control mode, the surface speed of a rapid traverse block is calculated: 0: In accordance with the coordina...

  • Page 211

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 199 - NOTE When at least one of these parameters is set, the power must be turned off before operation is continued. #3 MSC Multi-spindle control TYPE-C is: 0: Not used. 1: Used. NOTE If parameter MSC and bit 2 (MSI) of parameter No. 3709 for mult...

  • Page 212

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 200 - #7 #6 #5 #4 #3 #2 #1 #0 3716 A/Ss [Input type] Parameter input [Data type] Bit spindle NOTE When this parameter is set, the power must be turned off before operation is continued. #0 A/Ss Spindle motor type is : 0: Analog spindle...

  • Page 213

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 201 - 3720 Number of position coder pulses NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] 2-word spindle [Unit of data] Detection unit [Valid data range] 1 to...

  • Page 214

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 202 - #2 CSNs When the Cs contour control mode is turned off, an in-position check is: 0: Performed. 1: Not performed. #3 NCSs When the Cs contour control mode is set: 0: Switching to Cs contour control is completed when the spindle activating curr...

  • Page 215

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 203 - <3> Measure the output voltage. <4> Assign the value obtained by the following equation to parameter No. 3731. -8191 × Offset voltage (V)Setting value = 12.5 <5> After setting the parameter, specify the spindle speed so that ...

  • Page 216

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 204 - Spindle motor max. clamp speed (Parameter No.3736) Spindle speed (S command) Max. speed (4095, 10V) Spindle motor minimum clamp speed (Parameter No.3735) Spindle motor speed 3738 Spindle name 2 of each spindle 3739 Spindle name 3 of each spind...

  • Page 217

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 205 - [Data type] Word path [Unit of data] msec [Valid data range] 0 to 32767 Set the time elapsed from the execution of the S function up to the checking of the spindle speed arrival signal. 3741 Maximum spindle speed for gear 1 3742 Maximum spin...

  • Page 218

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 206 - Spindle motor max. clamp speed Spindle speed command (S command)Max. speed (4095, 10V) Spindle motor minimum clamp speed Spindle motor speedGear 1-2 change point Gear 2-3 change point Gear 1 max. speed parameter No.3741 Gear 2 max. speed paramet...

  • Page 219

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 207 - Spindle motor max. clamp speed (Parameter No.3736) Spindle speed command (S command) Max. speed (4095, 10V) Spindle motor minimum clamp speed (Parameter No.3735) Spindle motor speed Gear 1-2 change point parameter No.3761 Gear 2-3 change point...

  • Page 220

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 208 - 3772 Maximum spindle speed [Input type] Parameter input [Data type] 2-word spindle [Unit of data] min-1 [Valid data range] 0 to 99999999 This parameter sets the maximum spindle speed. When a command specifying a speed exceeding the maximum s...

  • Page 221

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 209 - NOTE 1 As for the setting of parameter <1> Set a value that is a multiple of 4 (0, 4, 8, etc.). <2> The range of the R address differs depending on the PMC kind and the memory size. Check the specifications of the PMC, and set a value...

  • Page 222

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 210 - NOTE 4 Identical P code values cannot be used for different spindles. (Identical P code values cannot be used even if the paths are different.) 5 When this parameter is used (when bit 3 (MPP) of parameter No. 3703 is set to 1), the spindle command...

  • Page 223

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 211 - NOTE 3 If the same value is set for two or more Cs contour control axes within the system, the alarm PS0513, "CS HI-SPEED SWITCHING SETTINGERROR" is issued. 4 The M code set here is buffering-inhibited. #7 #6 #5 #4 #3 #2 #1 #0 3797 ...

  • Page 224

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 212 - NOTE When this parameter is set, the power must be turned off before operation is continued. #7 #6 #5 #4 #3 #2 #1 #0 3799 SPC SSH SVPs ASDs NDPs NALs [Input type] Parameter input [Data type] Bit spindle #0 NALs An alarm detected on t...

  • Page 225

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 213 - 3842 Maximum speed for servo motor spindle control [Data type] 2-word [Valid data range] 0 to 9999 This parameter sets the maximum speed of the spindle to be subject to servo motor spindle control. 3843 Time constant for acceleration/decelera...

  • Page 226

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 214 - Parameters for Control of Serial Interface Spindle Cs Contouring Control Axis NumberData format Description 3900 3901 3902 3903 3904 Byte path Word path Word path Word path Word path First groupNumber of the servo axis whose loop gain ...

  • Page 227

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 215 - NumberData format Description 3940 3941 3942 3943 3944 Byte path Word path Word path Word path Word path Fifth groupNumber of the servo axis whose loop gain is to be changed according to the set values of parameters 3941 to 3944 when t...

  • Page 228

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 216 - Parameters for Serial interface spindle or spindle Parameters Nos. 4000 to 4799 below are basically used with the serial spindle amplifier. For details of these parameters, refer to either of the following manuals and other related documents, depe...

  • Page 229

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 217 - 4310 4311 [Input type] Parameter input [Data type] 2-word spindle 4312 to to 4351 [Input type] Parameter input [Data type] Word spindle #7 #6 #5 #4 #3 #2 #1 #0 4352 4353 [Input type] Parameter input [Data ...

  • Page 230

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 218 - 4404 to to 4437 (No user setting allowed = Note 1) to to 4439 (No user setting allowed = Note 1) to to 4441 (No user setting allowed = Note 1) to to 4447 (No user setting allowed = Note 1) to to 4459 (No user setting allowed = Note 1) ...

  • Page 231

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 219 - #7 #6 #5 #4 #3 #2 #1 #0 4670 to to 4679 [Input type] Parameter input [Data type] Bit spindle 4680 to to 4799 [Input type] Parameter input [Data type] Word spindle NOTE 1 Among the parameters of the spindle amplifi...

  • Page 232

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 220 - NOTE 4 The CNC can control up to eight spindle amplifiers with the serial interface. When the spindle amplifier provides the spindle switching function, one spindle amplifier can control two spindle motors using the switching function. The output ...

  • Page 233

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 221 - #7 #6 #5 #4 #3 #2 #1 #0 4800 SPK EPZ SCB [Input type] Parameter input [Data type] Bit NOTE When at least one of these parameters is set, the power must be turned off before operation is continued. #5 SCB The combination of a master...

  • Page 234

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 222 - NOTE 1 This parameter is valid only when bit 5 (SSY) of parameter No. 3704 is set to 0. 2 If the parking signals PK7 and PK8 for synchronization control are used when spindle command synchronous control and synchronization control are used at the ...

  • Page 235

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 223 - [Data type] Word spindle [Unit of data] Detection unit [Valid data range] 0 to 255 Set an allowable error pulse value between two spindles at phase synchronization time in the spindle synchronization control mode. This parameter is used to check...

  • Page 236

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 224 - NOTE 1 This parameter is valid if bit 5 (SSY) of parameter No. 3704 is set to 1. 2 The setting of a slave spindle as a master spindle is invalid. Be sure to set 0 for a spindle that is to function as a master spindle. 3 In this parameter, set a sp...

  • Page 237

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 225 - No. 4831(3)=0 No. 4831(4)=3 • When spindle synchronization control is exercised with one master spindle and multiple slave spindles: (First spindle (master spindle)/second spindle (slave spindle)/third spindle (slave spindle)/fourth spindle (...

  • Page 238

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 226 - #0 FLRs When the spindle speed fluctuation detection function is used, the unit of an allowable ratio (q) and fluctuation ratio (r) set by parameters No. 4911 and No. 4912 is: 0: 1% 1: 0.1% #4 FDEs Spindle speed fluctuation detection function...

  • Page 239

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 227 - #7 FDTs Spindle speed fluctuation detection is started: 0: When the actual spindle speed reaches a specified range or when the time specified with parameter No. 4914 elapses. 1: After the time specified with parameter No. 4914 has elapsed. 491...

  • Page 240

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 228 - #7 #6 #5 #4 #3 #2 #1 #0 4950 IMBs ESIs TRVs ISZs IDMs IORs [Input type] Parameter input [Data type] Bit spindle #0 IORs Resetting the system in the spindle positioning mode 0: Does not release the mode. 1: Releases the mode #1 IDMs ...

  • Page 241

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 229 - • In the case of specification B: When M codes for specifying a spindle positioning angle are specified, operations (1) to (3) are performed successively. (See parameter No. 4962.) (However, spindle orientation operation of (1) is not performed...

  • Page 242

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 230 - In this parameter, set an M code to be used for half-fixed angle positioning based on M codes. Six M code from Mα to M(α+5) are used for half-fixed angle positioning, when α is the value of this parameter. • When the number of M codes is set...

  • Page 243

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 231 - NOTE 1 Make sure that M codes from Mα to M (α+β-1) do not duplicate other M codes. 2 Do not set an M code that duplicates other M codes used for spindle positioning. 3 Do not set an M code used with other functions (such as M00-05, 30, 98, and ...

  • Page 244

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 232 - 4.24 PARAMETERS OF TOOL COMPENSATION (1 OF 3) #7 #6 #5 #4 #3 #2 #1 #0 5000 ASG MOF SBK [Input type] Setting input [Data type] Bit path #0 SBK With a block created internally for tool radius - tool nose radius compensation: 0: A singl...

  • Page 245

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 233 - #4 ASG When tool compensation memory B/C (M series) or the tool geometry/wear compensation function (T series) is valid, the compensation amount to be modified by the active offset value change mode based on manual feed is: 0: Geometry compensat...

  • Page 246

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 234 - NOTE This parameter is valid when the option for tool geometry/wear compensation is specified. #2 LWT Tool wear compensation is performed by: 0: Moving the tool. 1: Shifting the coordinate system. NOTE This parameter is valid when the optio...

  • Page 247

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 235 - #4 LGT Tool geometry compensation 0: Compensated by the shift of the coordinate system 1: Compensated by the tool movement NOTE This parameter is valid when the option for tool geometry/wear compensation is specified. #5 LGC When tool geome...

  • Page 248

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 236 - SUV SUP Type Operation 0 1 Type B A compensation vector perpendicular to the startup block or cancellation block and an intersection vector are output. 1 0 1 Type C When the startup block or cancellation block specifies no movement operation, th...

  • Page 249

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 237 - NOTE This parameter is valid only for an axis based on diameter specification. For an axis based on radius specification, specify a radius value, regardless of the setting of this parameter. #2 ODI The setting of a tool radius - tool nose radi...

  • Page 250

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 238 - #3 LVC A tool offset (geometry/wear) based on a tool movement and wear offset based on a coordinate shift are: 0: Not canceled by reset. 1: Canceled by reset. #6 TOS Set a tool length compensation or tool offset operation. 0: Tool length com...

  • Page 251

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 239 - Example 1) An alarm is raised in the following cases:1) G68 X_ Y_ Z_ I_ J_ K_ R_ ; : G43 H1 ; : G69 ; : G49 ;2) G43 H1 ; : G68 X_ Y_ Z_ I_ J_ K_ R_ ; : G49(G43H2,H2 etc.) ; : G69 ;← PS0049 raised← PS0049 raised E...

  • Page 252

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 240 - #1 CNC #3 CNV These bits are used to select an interference check method in the tool radius - tool nose radius compensation mode. CNV CNC Operation 0 0 Interference check is enabled. The direction and the angle of an arc are checked.0 1 Inter...

  • Page 253

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 241 - [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is IS-B, -999999.999 to +999999.999) When the tool moves around a corner in cutter compensation or tool nose radius comp...

  • Page 254

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 242 - [Valid data range] The settings of bits 3 to 0 (OFE, OFD, OFC, and OFA) of parameter No. 5042 are followed. For metric input OFE OFD OFC OFA Valid data range 0 0 0 1 0 to 9999.99mm 0 0 0 0 0 to 9999.999mm 0 0 1 0 0 to 9999.9999mm 0 1 0 0 0 to 9999...

  • Page 255

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 243 - Distance to X-axis + contact surface of touch sensor 1 (X1P) 5015 Distance to X-axis - contact surface of touch sensor 1 (X1M) 5016 Distance to Z-axis + contact surface of touch sensor 1 (Z1P) 5017 Distance to Z-axis - contact sur...

  • Page 256

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 244 - Z-axis - contact surface←Z-axis + contact surface ↑ X-axis + contact surface X1m X-axis - contact surface ↓ ○Measurement reference position X1p+X Z1mZ1p+Z Z-axis − contact surface →← Z-axis + contact s...

  • Page 257

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 245 - [Valid data range] 0 to number of tool compensation values Set a tool offset number used with the function for direct input of offset value measured B (when a workpiece coordinate system shift amount is set). (Set the tool offset number correspond...

  • Page 258

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 246 - (Tool tipposition ofreference tool)WorkpieceMeasurement surfaceOFSLOFSLMeasurement surfaceHmMachine zeropointZmZmLHmReference blockReferencemeasurementsurfaceL: Distance from the reference tool tip to the reference measurement surface (machine coo...

  • Page 259

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 247 - Number of digits of an offset number used with a T code command 5028 [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 3 Specify the number of digits of a T code portion that is used for a tool offset number (wear of...

  • Page 260

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 248 - NOTE 3 Ensure that the setting of parameter No. 5029 does not exceed the number of tool compensation values for each path (parameter No. 5024). If the setting of parameter No. 5029 exceeds the number of compensation values of a path, the least of ...

  • Page 261

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 249 - #0 GOB The tool offset B function (for a gas cutting machine) is: 0: Disabled. 1: Enabled. #7 #6 #5 #4 #3 #2 #1 #0 NO4 TLG TCT MOF OWD 5040 MOF [Input type] Parameter input [Data type] Bit path #0 OWD In radius programming (...

  • Page 262

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 250 - #7 #6 #5 #4 #3 #2 #1 #0 NM2 AON ATP ACR 5041 NM2 AON ACR [Input type] Parameter input [Data type] Bit path #0 ACR When the active offset value modification mode based on manual feed is selected in the reset state or cleared stat...

  • Page 263

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 251 - #6 AON When the tool compensation value (tool length compensation value used with tool length compensation A/B in the case of the M series) is changed in the active offset value modification mode: 0: In the case of the M series, the change becom...

  • Page 264

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 252 - OFE OFD OFC OFA Unit Valid data range 0 1 0 0 0.000001inch ±999.999999inch 1 0 0 0 0.0000001inch ±99.9999999inch Axis number for which Y-axis offset is used 5043 [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 2...

  • Page 265

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 253 - #7 #6 #5 #4 #3 #2 #1 #0 2AT 2NR 5051 [Input type] Parameter input [Data type] Bit path #0 2NR When the direct input of offset value measured B for 2 spindle lathe is used: 0: One touch sensor is used. 1: Two touch sensors a...

  • Page 266

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 254 - NOTE These parameters are valid when bit 1 (2AT) of parameter No. 5051 is set to 1. 5071 Number of first axis for grinding –wheel wear compensation 5072 Number of second axis for grinding–wheel wear compensation [Input type] Paramet...

  • Page 267

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 255 - #0 FXY The drilling axis in the drilling canned cycle, or cutting axis in the grinding canned cycle is: 0: In case of the Drilling canned cycle: Z-axis at all times. In case of the Grinding canned cycle: • For the Lathe system X-axis a...

  • Page 268

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 256 - #6 RAB When a canned drilling cycle using the Series 15 format is specified (with bit 1 (FCV) of parameter No. 0001 set to 1 and bit 3 (F16) of parameter No. 5102 set to 0), address R specifies: 0: Increment command. 1: Absolute command with G c...

  • Page 269

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 257 - [Data type] Bit path #2 FCK In a multiple repetitive canned cycle (G71 (T series), G71.7 (M series), G72 (T series), G72.7 (M series)), the machining profile is: 0: Not checked. 1: Checked. The target figure specified by G71, G71.7, G72, or G7...

  • Page 270

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 258 - #2 RF2 In a multiple repetitive canned cycle (G71 (T series), G71.7 (M series), G72 (T series), G72.7 (M series)) of type II, roughing is: 0: Performed. 1: Not performed. NOTE When a roughing allowance (Δi/Δk) is specified using the Series 1...

  • Page 271

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 259 - #0 ASU For G71 (T series), G71.7 (M series), G72 (T series), or G72.7 (M series), movement to the last turning start position is performed by: 0: Cutting feed. 1: Rapid traverse. For two-cycle operation to move toward the current turning start...

  • Page 272

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 260 - Spindle forward-rotation M code in drilling canned cycle 5112 [Input type] Parameter input [Data type] 2-word path [Valid data range] 0 to 99999999 This parameter sets the spindle forward-rotation M code in a drilling canned cycle. NOTE M0...

  • Page 273

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 261 - G83 (M series) G83 (T series, when the bit 2 (RTR) of parameter No. 5101 is set to 1) 4.25.2 Parameters of Thread Cutting Cycle Cutting value (chamfering value) in thread cutting cycles G92 and G76 5130 Cutting value (chamfering v...

  • Page 274

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 262 - NOTE Specify a radius value at all times. Escape in multiple repetitive canned cycles G71 and G72 5133 Escape in multiple repetitive canned cycles G71.7 and G72.7 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch ...

  • Page 275

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 263 - Retraction distance in the multiple repetitive canned cycle G73 (first axis on the plane) 5136 Retraction distance in the multiple repetitive canned cycle G73.7 (first axis on the plane) [Input type] Parameter input [Data type] Real path [Un...

  • Page 276

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 264 - This parameter sets a minimum depth of cut in the multiple repetitive canned cycle G76 or G76.7 so that the depth of cut does not become too small when the depth of cut is constant. NOTE Specify a radius value at all times. Finishing allowance...

  • Page 277

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 265 - If a monotonous command of type I or II is not specified for the axis in the roughing direction, the alarm PS0064, “THE FINISHING SHAPE IS NOT A MONOTONOUS CHANGE(FIRST AXES)” or PS0329, “THE FINISHING SHAPE IS NOTA MONOTONOUS CHANGE(SECOND ...

  • Page 278

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 266 - NOTE A check for a monotonous figure is made at all times during G71 and G72 or G71.7 and G72.7 cycles. A figure (programmed path) is checked. When tool nose radius compensation is performed, a path after compensation is checked. When bit 2 (FCK)...

  • Page 279

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 267 - #7 #6 #5 #4 #3 #2 #1 #0 CYM 5160 TSG CYM NOL OLS [Input type] Parameter input [Data type] Bit path #1 OLS When an overload torque detection signal is received in a peck drilling cycle of a small diameter, the feedrate and spi...

  • Page 280

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 268 - 5164 Percentage of the spindle speed to be changed at the start of the next advancing after an overload torque detection signal is received [Input type] Parameter input [Data type] Word path [Unit of data] % [Valid data range] 1 to 255 Thi...

  • Page 281

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 269 - NOTE When 0 is set, the cutting feedrate is not changed. 5167 Percentage of the cutting feedrate to be changed at the start of the next cutting when no overload torque detection signal is received [Input type] Parameter input [Data type] W...

  • Page 282

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 270 - This parameter sets the number of the custom macro common variable to which to output the total number of times the tool is retracted after the overload torque detection signal is received during cutting. The total number cannot be output to commo...

  • Page 283

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 271 - NOTE The axis number except for the cutting axis can be specified. When the axis number which is same to cutting axis is specified, an alarm PS0456, “ILLEGAL PARAMETER IN GRINDING” is issued at the time of execution. The Grinding Cycle is exe...

  • Page 284

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 272 - For the Lathe system: Set the Grinding axis number of Oscillation Direct Fixed Dimension Grinding Cycle(G74). For the Machining Center system: Set the Grinding axis number of Intermittent feed surface grinding cycle(G79). NOTE The axis number e...

  • Page 285

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 273 - [Data type] Byte path [Valid data range] 0 to Number of controlled axes Set the axis number of dressing axis in Continuous feed surface grinding cycle(G78). NOTE The axis number except for the cutting axis or grinding axis can be specified. When...

  • Page 286

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 274 - 4.26 PARAMETERS OF RIGID TAPPING #7 #6 #5 #4 #3 #2 #1 #0 SRS FHD PCP DOV SIG CRG G84 5200 FHD PCP DOV SIG CRG G84 [Input type] Parameter input [Data type] Bit path #0 G84 Method for specifying rigid tapping: 0: An M code specifying th...

  • Page 287

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 275 - #3 OVU The increment unit of the override parameter No. 5211 for tool rigid tapping extraction is: 0: 1% 1: 10% #4 OV3 A spindle speed for extraction is programmed, so override for extraction operation is: 0: Disabled. 1: Enabled. #7 #6 #...

  • Page 288

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 276 - #4 IRR As the in-position width at point R after movement from point I to point R in rigid tapping: 0: The in-position widths dedicated to rigid tapping (parameters Nos. 5300, 5302, 5304, and 5306) are selected. 1: The normal in-position width (...

  • Page 289

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 277 - #7 #6 #5 #4 #3 #2 #1 #0 DWP RIP RTX 5209 RIP [Input type] Parameter input [Data type] Bit path #0 RTX In rigid tapping in a lathe system, the tapping axis is: 0: Selected by selecting a plane. 1: Always assumed to be the Z-ax...

  • Page 290

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 278 - NOTE The override value is valid when bit 4 (DOV) of parameter No. 5200 is set to 1. When bit 3 (OVU) of parameter No. 5201 is set to 1, the unit of set data is 10%. An override of up to 200% can be applied to extraction. 5213 Return in peck ri...

  • Page 291

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 279 - [Valid data range] 1 to 32767 Each of these parameters is used to set the number of gear teeth on the spindle side for each gear in rigid tapping. NOTE When a position coder is attached to the spindle, set the same value for all of parameters No...

  • Page 292

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 280 - 5261 Time constant for acceleration/deceleration in rigid tapping for each gear (first gear) 5262 Time constant for acceleration/deceleration in rigid tapping for each gear (second gear) 5263 Time constant for acceleration/deceleration in rig...

  • Page 293

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 281 - [Unit of data] 0.01/sec [Valid data range] 1 to 9999 Each of these parameters is used to set a position control loop gain for the spindle and tapping axis in rigid tapping. These parameters significantly affect the precision of threading. Optimiz...

  • Page 294

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 282 - 5300 Tapping axis in-position width in rigid tapping (first spindle) [Input type] Parameter input [Data type] Word axis [Unit of data] Detection unit [Valid data range] 0 to 32767 This parameter sets a tapping axis in-position width when rigi...

  • Page 295

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 283 - This parameter sets a tapping axis in-position width when rigid tapping is performed using the fourth spindle. 5310 Positional deviation limit imposed during tapping axis movement in rigid tapping (first spindle) [Input type] Parameter input ...

  • Page 296

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 284 - [Calculation example] S = 3600 PLS = 4096 SP = 10 PC = 20 G = 3000 C = 1.5 6144203000605.11010040963600=××××××=valueSetting 5312 Positional deviation limit imposed while the tapping axis is stopped in rigid tapping (first spindle) ...

  • Page 297

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 285 - [Valid data range] -9999 to 9999 Each of these parameters is used to set a spindle backlash. 5350 Positional deviation limit imposed during tapping axis movement in rigid tapping (second spindle) [Input type] Parameter input [Data type] 2-wor...

  • Page 298

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 286 - This parameter is used to set a positional deviation limit imposed while the tapping axis is stopped in rigid tapping using the fourth spindle. 5365 Bell-shaped acceleration/deceleration time constant in rigid tapping (first-stage gear) 5366 B...

  • Page 299

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 287 - 4.27 PARAMETERS OF SCALING/COORDINATE ROTATION #7 #6 #5 #4 #3 #2 #1 #0 5400 SCR XSC LV3 D3R RIN [Input type] Parameter input [Data type] Bit path #0 RIN Coordinate rotation angle command (R) : 0: Specified by an absolute method 1: Spec...

  • Page 300

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 288 - #7 #6 #5 #4 #3 #2 #1 #0 5402 DMK [Input type] Parameter input [Data type] Bit path #3 DMK The manual handle interruption screen is displayed: 0: Using the program coordinate system (post-conversion coordinate system). 1: Using the...

  • Page 301

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 289 - [Valid data range] -999999999 to -1, 1 to 999999999 This parameter sets a scaling magnification for each axis when axis-by-axis scaling is enabled (with bit 6 (XSC) of parameter No. 5400 set to 1). For the first spindle to the third spindle (X-axi...

  • Page 302

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 290 - #0 PDI When the second axis on the plane in the polar coordinate interpolation mode is based on radius specification: 0: Radius specification is used. 1: Diameter specification is used. #2 PLS The polar coordinate interpolation shift function...

  • Page 303

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 291 - [Valid data range] 1 to the maximum controlled axis number This parameter sets the controlled axis number of the axis for controlling the normal direction. 5481 Feedrate of rotation of the normal direction controlled axis [Input type] Paramete...

  • Page 304

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 292 - N1 Tool center path N2 Travel distance Programmed pathFor straight line When the travel distance of N2 in the figure on the left does not exceed the setting, block N2 is machined with the tool being normal to block N1. N3Diameter Programmed path ...

  • Page 305

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 293 - 5486 Block distance to move until the end of rotation of the normal direction control axis [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the refer...

  • Page 306

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 294 - #6 SIM When the same block includes a command for the index table indexing axis and a command for another controlled axis: 0: The setting of bit 0 (IXS) of parameter No. 5502 is followed. 1: The commands are executed. NOTE Even when this param...

  • Page 307

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 295 - 5510 Controlled axis number of the index table indexing axis NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to Number of co...

  • Page 308

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 296 - This parameter sets the allowable limit of deviation between an involute curve passing through a start point and an involute curve passing through an end point for an involute interpolation command. 5620 Lower override limit in automatic feedra...

  • Page 309

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 297 - 5643 Amount of linear axis division (span value) in exponential interpolation [Input type] Setting input [Data type] Real path [Unit of data] mm, inch (machine unit) [Min. unit of data] Depend on the increment system of the reference axis [Va...

  • Page 310

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 298 - #0 ACA Update of the machine coordinates of flexible synchronous control group A is: 0 : Executed. 1 : Not executed. #1 ACB Update of the machine coordinates of flexible synchronous control group B is: 0 : Executed. 1 : Not executed. #2 A...

  • Page 311

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 299 - 5670 M code number for turning on the flexible synchronous control mode(group A) 5671 M code number for turning off the flexible synchronous control mode(group A) 5672 M code number for turning on the flexible synchronous control mode(group ...

  • Page 312

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 300 - Let p, q, and k be, respectively, a denominator determining gear ratio for flexible synchronization, numerator determining gear ratio for flexible synchronization, and index to the gear ratio denominator for flexible synchronization: The gear rati...

  • Page 313

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 301 - NOTE When these parameters are set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Byte path [Valid data range] 1 to number of controlled axes 5731 Straightness compensation : Compensatio...

  • Page 314

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 302 - [Input type] Parameter input [Data type] Word path [Valid data range] 0 to 1023 These parameters set compensation point numbers in stored pitch error compensation. Set four compensation points for each moving axis. 5761 Compensation correspond...

  • Page 315

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 303 - [Input type] Parameter input [Data type] Word path [Unit of data] Detection unit [Valid data range] -32767 to 32767 Each of these parameters sets a compensation value for each moving axis compensation point. 4.36 PARAMETERS OF INCLINATION COMP...

  • Page 316

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 304 - 4.37 PARAMETERS OF CUSTOM MACROS #7 #6 #5 #4 #3 #2 #1 #0 SBV SBM HGO MGO G67 6000 SBV SBM HGO V15 MGO G67 [Input type] Parameter input [Data type] Bit path #0 G67 If the macro modal call cancel command (G67) is specified when the ma...

  • Page 317

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 305 - #5 SBM Custom macro statement 0: Not stop the single block 1: Stops the single block If you want to disable the single blocks in custom macro statements using system variable #3003, set this parameter to 0. If this parameter is set to 1, the sin...

  • Page 318

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 306 - When the parameter PV5=1 Option “Addition of custom macro common variables” Non Yes Non #100 to #149 and #500 to #549 #100 to #199 and #500 to #999 Option “Embedded macro” Yes #100 to #149, #200 to #499 and #500 to #549 #100 to #199, #20...

  • Page 319

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 307 - #4 MPR Custom macro interrupt valid/invalid M code 0: M96/M97 1: M code set using parameters Nos. 6033 and 6034 #5 MSB Interrupt program 0: Uses a dedicated local variable (Macro-type interrupt) 1: Uses the same local variable as in the main ...

  • Page 320

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 308 - #0 SQC In the subprogram call function, a subprogram sequence number call is: 0: Not used. 1: Used. #7 #6 #5 #4 #3 #2 #1 #0 6007 SKM CVA MGE BCS SCS DPG [Input type] Parameter input [Data type] Bit path #0 DPG Specifies whether to al...

  • Page 321

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 309 - #1 MCA A macro alarm specification based on system variable #3000 is selected as follows: 0: An alarm number obtained by adding 3000 to a value assigned to variable #3000 and the corresponding message are displayed. (A value from 0 to 200 can b...

  • Page 322

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 310 - [Data type] Bit path #0 MSM When a Macro Call using M code or a Macro Call using M code (Specification of 3 Sets) are not at the beginning of the block: 0: Alarm PS0127, “DUPLICATE NC,MACRO STATEMENT” is issued. 1: The Macro Call using M c...

  • Page 323

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 311 - *4: Address M for call code does not become an argument. *5: Address N is passed to variable #14, and becomes a sequence number. 1: Address G becomes an argument. The addresses that can be used as arguments are as shown in the tables below. - ...

  • Page 324

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 312 - #7 #6 #5 #4 #3 #2 #1 #0 6010 *7 *6 *5 *4 *3 *2 *1 *0 #7 #6 #5 #4 #3 #2 #1 #0 6011 =7 =6 =5 =4 =3 =2 =1 =0 #7 #6 #5 #4 #3 #2 #1 #0 6012 #7 #6 #5 #4 #3 #2 #1 #0 #7 #6 #5 #4 #3 #2 #1 #0 6013 [7 [6 [5 [4 [3 [2 [1 [0 #7 #6 #5 #4 #3 #2 #1 ...

  • Page 325

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 313 - NOTE 1 Output data by this parameter is "Comment", and this is ignored at the time of reading. 2 Accuracy of the output data of the comment is up to 15 digits. The range of output data are nine digits above decimal point and eight digits...

  • Page 326

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 314 - NOTE The setting value of bit 7 (SFN) is effective in case of that bit 3 (OFN) equals 0. #7 #6 #5 #4 #3 #2 #1 #0 6020 NCM IFR NC2 NC1 [Input type] Parameter input [Data type] Bit path NOTE When at least one of these parameters is se...

  • Page 327

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 315 - Example In a 4-path system, when parameters are set as listed below, custom macro variables for paths 1 to 3 are used as variables common to these paths, but for path 4, custom macro variables for the path are used. Path number No. 6037 NC2Used ...

  • Page 328

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 316 - 6031 Start number of common variables to be protected among the common variables (#500 to #999) 6032 End number of common variables to be protected among the common variables (#500 to #999) [Input type] Parameter input [Data type] Word path ...

  • Page 329

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 317 - 6037 Number of custom macro variables common to tool path (for #500 to #999) [Input type] Parameter input [Data type] Word [Valid data range] 0 to 500 When the memory common to paths is used, this parameter sets the number of custom macro comm...

  • Page 330

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 318 - When the setting of parameter No. 6038 is changed to -900, the same set of custom macro calls (modal calls) is defined. NOTE 1 When the following conditions are satisfied, all calls using these parameters are disabled: 1) When a value not within ...

  • Page 331

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 319 - NOTE 1 When the following conditions are satisfied, all calls using these parameters are disabled: 1) When a value not within the specifiable range is set in each parameter 2) (Value of parameter No. 6042 + value of parameter No. 6043 - 1) > 99...

  • Page 332

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 320 - NOTE 2 If a range of M codes set by these parameters duplicate M codes specified in parameter No. 6071 to No. 6079, the calls specified by parameter No. 6071 to 6079 are made preferentially. 6047 Start M code used to call a custom macro [Input...

  • Page 333

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 321 - 6053 G code that calls the custom macro of program number 9013 6054 G code that calls the custom macro of program number 9014 6055 G code that calls the custom macro of program number 9015 6056 G code that calls the custom macro of program ...

  • Page 334

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 322 - 6071 M code used to call the subprogram of program number 9001 6072 M code used to call the subprogram of program number 9002 6073 M code used to call the subprogram of program number 9003 6074 M code used to call the subprogram of program ...

  • Page 335

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 323 - NOTE 1 If the same M code is set in these parameters, the younger number is called preferentially. For example, if 200 is set in parameter No. 6081 and No. 6082, and programs O9021 and O9022 both exist, O9021 is called when M200 is specified. 2 If...

  • Page 336

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 324 - 6093 Top address of custom macro interface signal R address (input signal) 6094 Top address of custom macro interface signal R address (output signal) NOTE When these parameters are set, the power must be turned off before operation is contin...

  • Page 337

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 325 - Specify the first O number of the program used by the one touch macro call function. When 9000 is set, for example, the relationship between macro call start signal MSCTx and the program number of a program started by the signal is as follows: MC...

  • Page 338

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 326 - 4.39 PARAMETERS OF POSITIONING BY OPTIMUM ACCELERATION #7 #6 #5 #4 #3 #2 #1 #0 6131 OADx [Input type] Parameter input [Data type] Bit axis NOTE When this parameter is set, the power must be turned off before operation is continued. ...

  • Page 339

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 327 - NOTE 5 For diameter programming axes, set a diameter. For example, assume that 10.000mm is set in a parameter for diameter programming axes. Then, when the travel distance has reached 10.000 mm, adjustment is performed. 6 The distance of each axis...

  • Page 340

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 328 - 6186 Level 6 servo loop gain 6187 Level 7 servo loop gain [Input type] Parameter input [Data type] Word axis [Unit of data] 0.01/sec [Valid data range] 1 to 9999 The servo loop gain for each axis is set. If 0 is set, parameter No. 1825 is u...

  • Page 341

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 329 - #5 SLS 0: The multi-step skip function does not use high-speed skip signals while skip signals are input. (The conventional skip signal is used.) 1: The multi-step skip function uses high-speed skip signals while skip signals are input. NOTE ...

  • Page 342

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 330 - Position during skip operationCurrent position of CNCMachine positionError amountPosition in consideration of delay Position without consideration of delayOrigin of the coordinate systemStop point #4 IGX When the high-speed skip function is us...

  • Page 343

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 331 - 1S1 to 1S8 These parameters specify whether to enable or disable each high-speed skip signal when the G31 skip command is issued. The following table shows the correspondence between the bits, input signals, and commands. The settings of the bits...

  • Page 344

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 332 - NOTE HDI0 to HDI7 are high-speed skip signals. Do not specify the same signal simultaneously for different paths. When bit 0 (GSK) of parameter No. 6200 is set to 1, commands to be skipped can be selected by setting the following parameter: Comm...

  • Page 345

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 333 - Parameter High-speed skip signalParameter High-speed skip signal9S1 HDI0 9S5 HDI4 9S2 HDI1 9S6 HDI5 9S3 HDI2 9S7 HDI6 9S4 HDI3 9S8 HDI7 #7 #6 #5 #4 #3 #2 #1 #0 6210 MDC ASB ASL DSK [Input type] Parameter input [Data type] Bit path #2 ...

  • Page 346

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 334 - 6220 Period during which skip signal input is ignored for the continuous high-speed skip function and EGB axis skip function and the skip function for flexible synchronous control [Input type] Parameter input [Data type] Byte path [Unit of da...

  • Page 347

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 335 - Parameter Corresponding high-speed measurement position arrival signal Parameter Corresponding high-speed measurement position arrival signal 1A1 HAE1 1A5 HAE5 1A2 HAE2 1A6 HAE6 1A3 HAE3 1A7 HAE7 1A4 HAE4 1A8 HAE8 0: The corresponding high-speed...

  • Page 348

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 336 - #7 #6 #5 #4 #3 #2 #1 #0 6240 AMH AE0 [Input type] Parameter input [Data type] Bit path #0 AE0 Measurement position arrival is assumed when the automatic tool compensation signals XAE1 and XAE2<X004.0 and X004.1> (T series) or ...

  • Page 349

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 337 - [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is IS-B, -999999.999 to +999999.999) These parame...

  • Page 350

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 338 - [Valid data range] Refer to the standard parameter setting table (C) (When the increment system is IS-B, 0.0 to +999000.0) This parameter sets a feedrate for the skip function (G31). This parameter is valid when bit 1 (SFP) of parameter No. 6207 i...

  • Page 351

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 339 - 4.41 PARAMETERS OF EXTERNAL DATA INPUT/OUTPUT #7 #6 #5 #4 #3 #2 #1 #0 6300 EEX ESR ESC [Input type] Parameter input [Data type] Bit path #3 ESC When a reset is input between the input of the external data input read signal ESTB and t...

  • Page 352

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 340 - #3 EED To specify data for external tool compensation and external workpiece coordinate system shift, use: 0: Signals ED15 to ED0. (The value which can be specified for tool compensation and workpiece coordinate system shift is from 0 to ±7999...

  • Page 353

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 341 - When this bit is set to 1, the detection level is reflected in parameter No. 2104 (servo) or 4341 (spindle) when the soft key [END] is pressed after the detection level is changed on the torque monitor screen. (The abnormal load detection function...

  • Page 354

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 342 - #2 MC5 #3 MC8 These parameters set the number of M code groups and the number of M codes per group. (See explanations of parameters Nos. 6411 to 6490.) MC5 MC8 M code group setting 0 0 Standard (20 groups of four) 1 0 16 groups of five 0 1 10...

  • Page 355

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 343 - #0 ADC If a move command and an auxiliary function (M/S/T/B code) are specified in the same block when the manual handle retrace function is used, the block: 0: Disables reverse movement. 1: Does not disable reverse movement. NOTE To use this ...

  • Page 356

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 344 - #1 HRB In PMC axis control, with the manual handle retrace, program execution in the forward direction: 0: Cannot be performed. 1: Can be performed. #2 HRC During orientation operation according to G00 for a Cs contour control axis, with the...

  • Page 357

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 345 - 6415 M code of group B in manual handle retrace (1) to to 6418 M code of group B in manual handle retrace (4) 6419 M code of group C in manual handle retrace (1) to to 6422 M code of group C in manual handle retrace (4) 6423 M code of gro...

  • Page 358

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 346 - 6475 M code of group Q in manual handle retrace (1) to to 6478 M code of group Q in manual handle retrace (4) 6479 M code of group R in manual handle retrace (1) to to 6482 M code of group R in manual handle retrace (4) 6483 M code of gro...

  • Page 359

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 347 - 6510 Specifying the graphic coordinate system [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 8 (When the dynamic graphic display function is used, set a value from 0 to 7.) Specify the graphic coordinate system in ...

  • Page 360

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 348 - When the dynamic graphic display function is used, the relationship between the setting and the drawing coordinate system is as follows: Y X Setting=0 (XY) ZYSetting=1 (ZY) ZY Setting=2 (YZ) Z X Setting=3 (XZ) Setting=5 (XYZ) Z XY Setting=6 (YXZ)...

  • Page 361

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 349 - [Valid data range] 0 to 151515 Each of these parameters sets the RGB value of each color palette by specifying a 6-digit number as described below. rrggbb: 6-digit number (rr: red data, gg: green data, bb: blue data) The valid data range of each c...

  • Page 362

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 350 - NOTE The number of parts is not counted for M02, M30 when bit 0 (PCM) of parameter No. 6700 is set to 1. 6712 Total number of machined parts [Input type] Setting input [Data type] 2-word path [Valid data range] 0 to 999999999 This parameter ...

  • Page 363

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 351 - 6753 Integrated value of cutting time 1 [Input type] Setting input [Data type] 2-word path [Unit of data] msec [Valid data range] 0 to 59999 For details, see the description of parameter No. 6754. 6754 Integrated value of cutting time 2 [...

  • Page 364

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 352 - 4.47 PARAMETERS OF TOOL MANAGEMENT FUNCTIONS (1 OF 2) #7 #6 #5 #4 #3 #2 #1 #0 6801 LVF NOTE The use of this parameter varies depending on whether the tool management function or tool life management function is used. [Input type] Pa...

  • Page 365

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 353 - GS2 GS1 Number of groups Number of tools 0 0 1/8 of maximum number of groups (No. 6813) 32 0 1 1/4 of maximum number of groups (No. 6813) 16 1 0 1/2 of maximum number of groups (No. 6813) 8 1 1 Maximum number of groups (No. 6813) 4 NOTE After ch...

  • Page 366

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 354 - #7 #6 #5 #4 #3 #2 #1 #0 M6E EMD LVF TSM 6801 M6E EMD LVF NOTE The use of this parameter varies depending on whether the tool management function or tool life management function is used. [Input type] Parameter input [Data type] B...

  • Page 367

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 355 - #0 T99 When M99 of the main program is executed, and there is a the life was expired tool group: 0: The tool change signal TLCH <Fn064.0> is not output. 1: TLCH is output, and the automatic operation becomes a stopped state.. If the life...

  • Page 368

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 356 - NOTE When tool information of a tool being used (marked with "@") in the group being used or to be used next or tool information of the most recently used tool (marked with "@") in a group that is neither the group being used n...

  • Page 369

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 357 - #7 RMT Tool life arrival notice signal TLCHB <Fn064.3> is turned ”1” and ”0” as follows: 0: The signal is turned ”1” if the remaining life value (the life value minus the life counter value) is smaller than or equal to the rema...

  • Page 370

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 358 - #1 TCI During automatic operation (the automatic operation signal OP<Fn000.7> is ”1”), editing of tool life data is: 0: Disabled. 1: Enabled. NOTE When this parameter is set to 1, tool life data can be edited even during automatic op...

  • Page 371

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 359 - #4 LFB The tool life management B function is: 0: Disabled. 1: Enabled. When the tool life management B function is enabled, the following functions can be used: <1> Tool life value extension (count specification: 99999999 times, duration ...

  • Page 372

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 360 - When the life is specified by count, the tool change signal TLCH <Fn064.0> is output if the life of at least one tool group has expired when the tool life count restart M code is issued. The T code (tool life management group command) specif...

  • Page 373

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 361 - This parameter sets the remaining tool life (use duration) used to output the tool life notice signal TLCHB <Fn064.3> when the tool life is specified by use duration. If a value greater than the tool life value or 0 is specified in this para...

  • Page 374

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 362 - NOTE The setting of 0 means that the position switch function is not used. 6930 Maximum value of the operating range of the 1st position switch (PSW101) 6931 Maximum value of the operating range of the 2nd position switch (PSW102) : : 6945 ...

  • Page 375

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 363 - 4.50 PARAMETERS OF MANUAL OPERATION AND AUTOMATIC OPERATION #7 #6 #5 #4 #3 #2 #1 #0 7001 MFM JEX JSN JST ABS MIT [Input type] Parameter input [Data type] Bit path #0 MIT Manual intervention and return function is: 0: Disabled. 1: Enable...

  • Page 376

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 364 - #3 JBF In manual numerical specification, B function specification is: 0: Allowed. 1: Not allowed. #6 TNR When the updated compensation value in the tool retract and recover function is effective (the bit 7 (TRO) of parameter No.7002 is set ...

  • Page 377

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 365 - [Unit of data] mm, inch, deg (input unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is IS-...

  • Page 378

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 366 - [Data type] Bit path #0 JHD Manual handle feed in JOG feed mode or incremental feed in the manual handle feed is: 0: Invalid. 1: Valid. #1 THD In the TEACH IN JOG mode, the manual pulse generator is: 0: Disabled. 1: Enabled. #3 HCL The c...

  • Page 379

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 367 - #1 RTH By a reset or emergency stop, the amount of manual handle interruption is: 0: Not canceled. 1: Canceled. #2 HNT When compared with the travel distance magnification selected by the manual handle feed travel distance selection signals (...

  • Page 380

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 368 - #3 MRI Internal relay (the R signal) of PMC that uses it with input data in manual linear/circular interpolation: 0: R960 to R979 are used. 1: The address that bound it with the parameter No. 13541 is used. #4 MRO Internal relay (the R signal...

  • Page 381

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 369 - t Rapid Traverse Rate A:amount of pulses corresponds to value of Rapid Traverse Rate.B:amount of pulses accumulated in CNC. C:amount of pulses the same as B. ABC Amount of pulses exported by CNC in Manual Handle Feed Amount of pulses B is ...

  • Page 382

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 370 - 7131 Manual handle feed magnification m2 / 2nd. manual pulse generator 7132 Manual handle feed magnification n2 / 2nd. manual pulse generator 7133 Manual handle feed magnification m3 / 3rd. manual pulse generator 7134 Manual handle feed mag...

  • Page 383

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 371 - #2 SZE When reference position setting with mechanical stopper is used in axis synchronous control, the limit of the difference between the positional deviation of the master axis and that of the slave axis (parameter No. 8323) is: 0: Checked. 1...

  • Page 384

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 372 - 7187 Torque limit value in reference position setting with mechanical stopper or grid-type reference position return with mechanical stopper [Input type] Parameter input [Data type] Word axis [Valid data range] 0 to 255 This parameter sets a...

  • Page 385

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 373 - #3 OP4 JOG feedrate override select, feedrate override select, and rapid traverse override select on software operator's panel 0: Not performed 1: Performed #4 OP5 Optional block skip select, single block select, machine lock select, and dry...

  • Page 386

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 374 - On software operator's panel, set a feed axis corresponding to an arrow key on the MDI panel when jog feed is performed. Setting value Feed axis and direction 0 Not moved 1 First axis, positive direction 2 First axis, negative direction 3 Second ...

  • Page 387

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 375 - Parameters Nos. 7276 to 7283 : Name of general-purpose switch 8 Parameters Nos. 7284 to 7291 : Name of general-purpose switch 9 Parameters Nos. 7292 to 7299 : Name of general-purpose switch 10 Parameters Nos. 7352 to 7359 : Name of general-purpose...

  • Page 388

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 376 - #7 #6 #5 #4 #3 #2 #1 #0 7301 3DD ROF [Input type] Parameter input [Data type] Bit path #0 ROF When the coordinates for restarting are displayed on the program restart screen: 0: Tool length compensation (M series), tool position com...

  • Page 389

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 377 - • When BDS is set to 1 (ordinary format) The bits marked with an asterisk (*) are used to specify the travel distance per unit time. 15 14 13 12 11 10987654321 0 * * * ************ * #4 IT0 #5 IT1 #6 IT2 IT2 IT1 IT0 Interpolation of h...

  • Page 390

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 378 - In pattern 1, retract operation ends after high-speed binary program operation ends, and in pattern 2, retract operation ends before high-speed binary program operation ends. Pattern 1 Type 1 Type 2Type 3 Pattern 2 Type 1 Type 2 Type 3 . . ....

  • Page 391

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 379 - #0 BM0 During high-speed cycle cutting or high-speed binary program operation, axis moving signals MV1 to MV8 <Fn102> are: 0: Always set to 1. 1: Set to 1 when the tool moves along the axis. NOTE When bit 0 (BM0) of parameter No. 7504 is...

  • Page 392

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 380 - This parameter sets a retract direction and retract feedrate along each axis in a high-speed cycle machining retract operation. The superimposed feedrate for each axis is specified, and the retract direction is specified with a sign. 7515 Number...

  • Page 393

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 381 - [Example 2] When the high-speed cycle cutting data variable mode is set to addition B (262144 variables) and high-speed cycle cutting is to be performed only for path 2 No.7516 No.7517 Available variables Path 1 0...

  • Page 394

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 382 - 7522 Retraction distance in high-speed binary program operation [Input type] Parameter input [Data type] 2-word axis [Valid data range] -999999999 to 999999999 This parameter sets the travel distance in retract operation during high-speed bina...

  • Page 395

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 383 - In retract operation during high-speed binary program operation, deceleration can be started at the specified timing when the tool passes a certain point along a reference axis during cycle operation. Setting the reference controlled-axis number a...

  • Page 396

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 384 - #7 AOS When the number of control paths in a system is 2 or more, the high-speed cycle cutting function is: 0: Not executed. 1: Executed. 4.56 PARAMETERS OF ROTARY TABLE DYNAMIC FIXTURE OFFSET #7 #6 #5 #4 #3 #2 #1 #0 7570 CFA ...

  • Page 397

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 385 - 7586 Rotation axis for fixture offset (third group) 7587 Linear axis 1 for fixture offset (third group) 7588 Linear axis 2 for fixture offset (third group) [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to Nu...

  • Page 398

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 386 - #1 SNG The rotational direction of the polygon synchronization axis in the spindle-spindle polygon turning mode is: 0: Not reversed. 1: Reversed. #2 HDR When phase control is exercised in spindle-spindle polygon turning mode (bit 5 (COF) of p...

  • Page 399

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 387 - NOTE When the use of phase control is not selected, the steady state is reached in a shorter time because phase synchronization control is not applied. Once steady rotation is achieved, however, polygon turning must be completed without changing ...

  • Page 400

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 388 - #3 PLROT The machine coordinates of a tool rotation axis for polygon turning are: 0: Rounded by the setting in parameter No.7620. 1: Rounded by 360° (or the setting in parameter No. 1260 when bit 0 (ROA) of parameter No. 1008 is set to 1). #5...

  • Page 401

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 389 - 7610 Control axis number of tool rotation axis for polygon turning NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Byte path [Valid data range] 1 to number...

  • Page 402

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 390 - This parameter sets the allowable level of deviation between the actual speed and specified speed of each spindle in spindle-spindle polygon turning. The value set with this parameter is used for both the master axis and polygon synchronization ax...

  • Page 403

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 391 - NOTE 1 Spindle-spindle polygon turning is enabled only for serial spindles. 2 When any one of parameters No. 7640 and 7641 is set to 0, polygon turning is performed using the first spindle (master axis) and the second spindle (polygon synchronous...

  • Page 404

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 392 - NOTE 2 This parameter is invalid if either parameter No. 7642 or No.7643 is set to 0. In this case, the settings of parameter No. 7640 and No.7641 are valid. 3 When a spindle other than the first serial spindle is used as a master axis, the multi-...

  • Page 405

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 393 - #0 HBR When the electronic gear box (EGB) function is used, performing a reset: 0: Cancels the synchronization mode (G81 or G81.5). 1: Does not cancel the synchronization mode. The mode is canceled only by the G80 or G80.5 command. NOTE To per...

  • Page 406

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 394 - #3 LZR When L (number of hob threads) = 0 is specified at the start of EGB synchronization (G81): 0: Synchronization is started, assuming that L = 1 is specified. 1: Synchronization is not started, assuming that L = 0 is specified. However, heli...

  • Page 407

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 395 - #1 ARE The retract function executed when an alarm is issued retracts the tool during: 0: EGB synchronization or automatic operation (automatic operation signal OP <Fn000.7> = “1”). 1: EGB synchronization. #2 ARO The retract functi...

  • Page 408

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 396 - #0 SEGs Simple spindle EGB function is: 0: Not used. 1: Used. Set 1 for a serial spindle used as the slave axis for the simple spindle EGB function,. 7709 Axial feed axis number for helical gear compensation [Input type] Parameter input [D...

  • Page 409

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 397 - #7 #6 #5 #4 #3 #2 #1 #0 7731 EPA HBR RTS ECN EFX [Input type] Parameter input [Data type] Bit path #0 EFX As the EGB command: 0: G80 and G81 are used. 1: G80.4 and G81.4 are used. NOTE When this parameter is set to 0, no canned cycle...

  • Page 410

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 398 - [Unit of data] mm, inch, degree (machine unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is...

  • Page 411

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 399 - [Example 1] When the EGB master axis is the spindle and the EGB slave axis is the C-axis Synchronization switch CNC Detection unitβ p/rev α p/rev C-axis Least command increment 0.001deg Command pulses ×FFGGear ratio A Detector ×CMR Slave axi...

  • Page 412

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 400 - 7776 Feedrate during automatic phase synchronization for the workpiece axis [Input type] Parameter input [Data type] Real path [Unit of data] deg/min [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] Re...

  • Page 413

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 401 - 7783 Number of pulses from the position detector per EGB slave axis rotation [Input type] Parameter input [Data type] 2-word axis [Unit of data] Detection unit [Valid data range] 1 to 999999999 For a slave axis, set the number of pulses gener...

  • Page 414

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 402 - #0 SVE Signal-based servo EGB synchronization is: 0: Disabled (servo and spindle synchronization is enabled). 1: Enabled (servo and spindle synchronization is disabled). #1 UFF During U-axis synchronization, a interpolation command to between...

  • Page 415

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 403 - 4.59 PARAMETERS OF AXIS CONTROL BY PMC (1 OF 3) #7 #6 #5 #4 #3 #2 #1 #0 8001 SKE AUX NCC RDE OVE MLE [Input type] Parameter input [Data type] Bit path #0 MLE Whether all axis machine lock signal MLK <Gn108> is valid for PMC-contro...

  • Page 416

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 404 - #7 #6 #5 #4 #3 #2 #1 #0 8002 FR2 FR1 PF2 PF1 F10 DWE RPD [Input type] Parameter input [Data type] Bit path #0 RPD Rapid traverse rate for PMC-controlled axes 0: Feedrate specified with parameter No. 1420 1: Feedrate specified with the fe...

  • Page 417

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 405 - #3 FEX The maximum feedrate that can be achieved by the machine during cutting feed or continuous feed in PMC axis control is: 0: Not extended. 1: Extended. Restrictions • Parameters for setting the time constants for linear acceleration/decel...

  • Page 418

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 406 - #2 JFM This parameter sets the units used to specify feedrate data when continuous feed is specified in axis control by the PMC. Increment system Bit 2 (JFM) of No. 8004 Millimeter input (mm/min) Inch input (inch/min) Rotation axis (min-1) 010...

  • Page 419

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 407 - #5 IFV When bit 2 (OVE) of parameter No. 8001 is set to 1 in PMC axis control, the feedrate override signal *EFOVx and the override cancel signal OVC are: 0: Used on a path-by-path basis. (The start groups (1st group, 5th group, ... 33rd group, ...

  • Page 420

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 408 - This parameter is valid in the mirror image mode set with the mirror image signals MI1 to MI8 <G106.0 to G106.7> set to 1 or bit 0 (MIRx) of parameter No. 12 set to 1. If a movement is made along the same axis by doubly specifying a command ...

  • Page 421

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 409 - NOTE When a value other than the above is set, the axis is not controlled by the PMC. #7 #6 #5 #4 #3 #2 #1 #0 8011 XRT [Input type] Parameter input [Data type] Bit axis #0 XRT The axis that uses the group specified by parameter N...

  • Page 422

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 410 - [Data type] Bit #0 EOS In external pulse synchronization (serial spindle synchronization) in PMC axis control, the serial spindle to be synchronized is: 0: The first spindle of path 1. 1: Any spindle. NOTE If EOS is set to 0, only the servo ...

  • Page 423

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 411 - NOTE When 0 is set in this parameter, the value set in parameter No. 1622 is used. The value set in parameter No. 1622 is used also for linear acceleration/deceleration after cutting interpolation. 8031 FL rate for exponential acceleration/de...

  • Page 424

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 412 - 4.60 PARAMETERS OF MULTI-PATH CONTROL #7 #6 #5 #4 #3 #2 #1 #0 8100 NWP DSB IAL RST [Input type] Parameter input [Data type] Bit machine group #0 RST The pressing of the key on the MDI panel is: 0: Valid for all paths. 1: Valid only f...

  • Page 425

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 413 - #2 NAL In the superimposed control of the high speed cycle machining, when the movement is not generated in the next block of the synchronous start block by waiting M code, 0: Synchronous start is unusable. (Alarm DS0069, “MISSING THE MOVE CO...

  • Page 426

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 414 - #0 ESB External subprogram calls on the data server: 0: Do not support multipath operations. 1: Support multipath operations. NOTE To use multipath operations with external subprogram calls on the data server, set parameter No. 20 to 5. 8110...

  • Page 427

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 415 - Tool post 2Tool post 1+X+ZTool post 2Tool post 1+X+ZTool post 2Tool post 1+X+Z+X+ZTool post 2Tool post 1+X+Z+X+Z+Z+X(1) When TY1=0 and TY0=0(2) When TY1=0 and TY0=1(3) When TY1=1 and TY0=0(4) When TY1=1 and TY0=1 #2 IT0 When offset number 0 is ...

  • Page 428

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 416 - 8141 Distance along the X axis between the reference positions of tool post 1 and tool post n in the same machine group 8143 Distance along the Z axis between the reference positions of tool post 1 and tool post n in the same machine group [I...

  • Page 429

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 417 - WARNING Measure (ε1, ζ1), (ε2, ζ2), and (ε3, ζ3) in the state where reference position return operation is completed for all axes (the tool is at the reference position.) After modifying parameter No. 8141 and No. 8143 for each path, be su...

  • Page 430

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 418 - Coordinate system pattern with the reference position based on the tool post of path 1 in the same machine group 8158 [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 3 This parameter is used for checking the interf...

  • Page 431

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 419 - NOTE If this parameter is 1 for any one of the paths in a machine group, it is assumed to be 1 for all the paths. #6 SPE The synchronization deviation is: 0: The difference between the positioning deviation of the master axis and that of the s...

  • Page 432

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 420 - #1 SERx The synchronization deviation is: 0: Not detected. 1: Detected. NOTE When both master and slave axes move in synchronization, the positioning deviations of the corresponding axes are compared with each other. If the difference is grea...

  • Page 433

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 421 - #5 MPSx When composite control is terminated, the workpiece coordinate system is: 0: Not set automatically. 1: Set automatically. NOTE When the workpiece coordinate system is automatically set at the end of composite control, it is calculated ...

  • Page 434

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 422 - NOTE Upon the execution of a move command along an axis for which MUMx is set to 1 during mixed control, alarm PS0353, “THE INSTRUCTION WAS DONE FOR THE AXIS WHICH WAS NOT ABLE TO MOVE.” is issued. For example, when axis X1 and axis X2 are pl...

  • Page 435

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 423 - #5 SMIx In synchronous control, the manual handle interruption amount for the master axis or the mirror image mode is: 0: Reflected in the slave axis. 1: Not reflected in the slave axis. When this bit (SMIx) is set to 0 Manual handle interrupti...

  • Page 436

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 424 - #1 MWEx In automatic workpiece coordinate system setting, performed when composite control is canceled, a workpiece shift and position offset are: 0: Not considered. 1: Considered. NOTE When bit 5 (MPSx) of parameter No. 8162 is set to 1 and w...

  • Page 437

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 425 - #7 #6 #5 #4 #3 #2 #1 #0 8166 MIX [Input type] Parameter input [Data type] Bit NOTE When this parameter is set, the power must be turned off before operation is continued. #1 MIX For composite control: 0: An interface for three pa...

  • Page 438

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 426 - NOTE SWMx is enabled when bit 1 (SPMx) of parameter No. 8163 is set to 1. #5 SWSx In automatic workpiece coordinate system setting at the end of synchronous control, a workpiece shift is: 0: Not considered. 1: Considered. NOTE SWSx is enable...

  • Page 439

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 427 - 1: The synchronous or composite control mode is not canceled. The following operation is performed to perform follow-up operation: When the emergency stop signal *ESP is turned off, the relevant path is determined and operation is performed so tha...

  • Page 440

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 428 - #7 #6 #5 #4 #3 #2 #1 #0 8169 SESx MRFx MVMx MDMx [Input type] Parameter input [Data type] Bit axis #0 MDMx As machine coordinates in composite control: 0: Coordinates for the local path are displayed. 1: Coordinates for the other path...

  • Page 441

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 429 - This parameter sets with which axis each axis is to be placed under composite control. When zero is specified, control of the axis is not replaced under composite control. An identical number can be specified in two or more parameters, but composi...

  • Page 442

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 430 - X2 = (Value specified for the X-axis of path 2) ± (Machine coordinate of X1) Plus when bit 6 (MCDx) of parameter No. 8162 of path 2 is set to 0 Minus when bit 6 (MCDx) of parameter No. 8162 of path 2 is set to 1 If bit 5 (MPSx) of parameter No....

  • Page 443

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 431 - [Valid data range] Refer to standard parameter setting table (C) (When the increment system is IS-B, 0 to +999000.0) Set a rapid traverse rate for each of the axes when the rapid traverse override of the axes (master and slave axes) under superimp...

  • Page 444

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 432 - #0 AAC 0: Does not perform angular axis control. 1: Performs inclined axis control. #2 AZR 0: The machine tool is moved along the Cartesian axis during manual reference position return along the slanted axis under angular axis control. 1: Th...

  • Page 445

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 433 - NOTE When this parameter bit is set, the power must be turned off before operation is continued. #0 ARF In angular axis control, a movement from an intermediate point to the reference position in the G28/G30 command is: 0: Made in the angular ...

  • Page 446

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 434 - #7 #6 #5 #4 #3 #2 #1 #0 8302 SMA [Input type] Parameter input [Data type] Bit path NOTE When this parameter is set, the power must be turned off before operation is continued. #7 SMA When an absolute position detector is attache...

  • Page 447

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 435 - NOTE 1 For the parameters that can be set automatically, refer to Subsection 1.6.10, "Automatic Setting of Parameters for Slave Axes", in Connection Manual (Function) (B-64483EN-1). 2 Set this parameter to the same value for both the mas...

  • Page 448

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 436 - Set this parameter for one of the master and slave axes. When there are multiple slave axes for one master axis, set this parameter to 1 for an axis with which a synchronization error excessive alarm is issued for recovery. If an alarm is issued w...

  • Page 449

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 437 - #2 SRF In axis synchronous control, G28, G30, and G53: 0: Make the same movement along the slave axis as a movement along the master axis. 1: Make movements along the slave axis and master axis independently to specified positions. #4 SLR Wh...

  • Page 450

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 438 - Example 2) When three sets of axis synchronous control is used: When the master axes are the first axis, second axis, and third axis, and the slave axes are the sixth axis, fifth axis, and fourth axis, set parameter No. 8311 as follows: Paramet...

  • Page 451

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 439 - This parameter sets a maximum allowable error in a synchronization error check based on machine coordinates. When the error between the master and slave axes in machine coordinates exceeds the value set in this parameter, the machine stops with th...

  • Page 452

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 440 - 8327 Torque difference alarm detection timer [Input type] Parameter input [Data type] 2-word axis [Unit of data] msec [Valid data range] 0 to 4000 This parameter sets a time from the servo preparation completion signal, SA <Fn000.6>, be...

  • Page 453

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 441 - [Data type] 2-word axis [Unit of data] Detection unit [Valid data range] 1 to 32767 When a synchronization error below the value set in this parameter is detected, synchronization error compensation is not performed. The setting for the slave ax...

  • Page 454

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 442 - CAUTION To switch between synchronous operation and normal operation, specify the M code set in parameter No. 8337 or 8338. 4.65 PARAMETERS OF SEQUENCE NUMBER COMPARISON AND STOP 8341 Program number subject to comparison and stop [Input type...

  • Page 455

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 443 - #0 ROV As rapid traverse override for a section from the chopping/oscillation start point to point R: 0: Chopping/oscillation override is used. 1: Rapid traverse override is used. #2 CVC The feedrate along the chopping/oscillation axis is cha...

  • Page 456

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 444 - [Unit of data] mm/min, inch/min, deg/min (input unit) [Min. unit of data] Depend on the increment system of the chopping/oscillation axis [Valid data range] Refer to the standard parameter setting table (C) (When the increment system is IS-B, 0.0...

  • Page 457

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 445 - #0 EST The simple NURBS interpolation start function is: 0: Disabled. 1: Enabled. #1 HIK The high-precision knot command of NURBS interpolation is: 0: Disabled. 1: Enabled. #5 FDI Parametric feedrate control of NURBS interpolation is: 0: D...

  • Page 458

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 446 - #7 #6 #5 #4 #3 #2 #1 #0 8459 OVRB [Input type] Parameter input [Data type] Bit path #3 OVRB For deceleration based on a feedrate difference or acceleration rate in AI contour control, override is: 0: Disabled. 1: Enabled. Usually, ...

  • Page 459

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 447 - This parameter specifies a block length used as a reference to decide whether to apply smooth interpolation or Nano smoothing. If the line specified in a block is longer than the value set in the parameter, smooth interpolation or Nano smoothing i...

  • Page 460

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 448 - Usually, set a value of about 1/10 of the maximum tolerance value (set in parameter No. 8491). When 0.0 is set, 1/10 of the maximum tolerance (set in parameter No. 8491) is used as a minimum tolerance. When a negative value is set, a minimum toler...

  • Page 461

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 449 - 0: The switch corresponding to the bit is enabled. 1: The switch corresponding to the bit is disabled (always outputs 0). Parameter Switch E01 1st high-speed position switch E02 2nd high-speed position switch E03 3rd high-speed position switch : :...

  • Page 462

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 450 - Parameter Switch : : A16 16th high-speed position switch #7 #6 #5 #4 #3 #2 #1 #0 8516 B08 B07 B06 B05 B04 B03 B02 B01 #7 #6 #5 #4 #3 #2 #1 #0 8517 B16 B15 B14 B13 B12 B11 B10 B09 [Input type] Parameter input [Data type] Bit path B01 t...

  • Page 463

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 451 - Set 0 for the number corresponding to a high-speed position switch which is not to be used. NOTE For the 11th to 16th, see parameters Nos. 12201 to 12206. 8580 Maximum value of the operation range of the first high-speed position switch 8581 ...

  • Page 464

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 452 - NOTE When at least one of these parameters is set, the power must be turned off before operation is continued. #0 RSK After the key is pressed, the key code is: 0: Not passed to the application program. 1: Passed to the application program. ...

  • Page 465

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 453 - #7 WGS When C Language Executor is used, the win_getstat function for acquiring the status of multiwindow display is based on: 0: Series 30i/31i/32i specification. 1: Series 16i/18i/21i specification. When the current status of window display ...

  • Page 466

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 454 - #7 RCC When the rs_close function is executed in RS-232C communication of C Language Executor with DC control exercised in the transmission/reception mode: 0: Communication is ended after checking the DC code of the communication destination dev...

  • Page 467

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 455 - [Data type] 2-word path [Unit of data] sec [Valid data range] -12×3600 to 12×3600 This parameter sets the time difference from the Greenwich time in seconds. The time difference of Japan is -9 hours. So, set -32400 (= -9×3600) seconds. #7 ...

  • Page 468

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 456 - 8783 Size of DRAM used with C Language Executor (for application program with "EXP_DRAMSIZE = ON" enabled in MAKEFILE setting) [Input type] Parameter input [Data type] Word [Unit of data] 64KByte [Valid data range] 16 to 128 This pa...

  • Page 469

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 457 - 4.70 PARAMETERS OF MAINTENANCE #7 #6 #5 #4 #3 #2 #1 #0 8900 PWE [Input type] Setting input [Data type] Bit #0 PWE The setting, from an external device and MDI panel, of those parameters that cannot be set by setting input is: 0: D...

  • Page 470

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 458 - NOTE When this parameter is set, the power must be turned off before operation is continued. 8911 Percentage for life warning display on the periodic maintenance screen [Input type] Parameter input [Data type] Byte path [Unit of data] % [Va...

  • Page 471

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 459 - 4.71 PARAMETERS OF THE INCORRECT OPERATION PREVENTION FUNCTION 10000 Lower limit 1 of tool offsets No. 01 to to 10019 Lower limit 1 of tool offsets No. 20 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch, degree (i...

  • Page 472

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 460 - 10060 Upper limit 2 of tool offsets No. 01 to to 10079 Upper limit 2 of tool offsets No. 20 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch, degree (input unit) [Min. unit of data] Depend on the increment system o...

  • Page 473

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 461 - • T series, with tool geometry/wear offsets, X-axis and wear offsets • M series, tool offset memory B and wear offsets • M series, tool offset memory C, wear, and length offsets 10140 Upper limit 4 of tool offsets No. 01 to to 10159 Uppe...

  • Page 474

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 462 - [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is IS-B, -999999.999 to +999999.999) These paramet...

  • Page 475

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 463 - 10284 Upper limit 7 of tool offsets No. 01 to to 10287 Upper limit 7 of tool offsets No. 04 [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch, degree (input unit) [Min. unit of data] Depend on the increment system o...

  • Page 476

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 464 - 10300 Upper limit 2 of a tool offset number range No. 01 to to 10303 Upper limit 2 of a tool offset number range No. 04 [Input type] Parameter input [Data type] Word path [Valid data range] 0 to maximum number of offset sets Each of these pa...

  • Page 477

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 465 - Each of these parameters sets the upper limit of a workpiece zero point offset range. For an additional workpiece coordinate system, set a value after adding 1000. These parameters correspond to the workpiece zero point offset lower/upper limits s...

  • Page 478

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 466 - #6 ASD Axis state display is: 0: Enabled. 1: Disabled. 10331 Lower limit of external workpiece zero point offsets [Input type] Parameter input [Data type] Real axis [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the inc...

  • Page 479

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 467 - #6 EIB When the CNC is turned on next, overwrite-protected backup data is: 0: Not updated. 1: Updated. NOTE This parameter is valid when 2 or a greater value is set in parameter No. 10342, and bit 1 (ABI) of parameter No. 10340 is set to 1. ...

  • Page 480

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 468 - #1 L2D When the forbidden area of the stored stroke check 2, 3 (Parameter No.1322, 1323) is set or it is changed by G22 command, the setting value for axes with diameter specification is: 0: Half of command value 1: Command value #3 HPA When ...

  • Page 481

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 469 - 4.74 PARAMETERS OF PARALLEL AXIS CONTROL 10360 Bias value for the offset number of a tool offset for each axis [Input type] Setting input [Data type] Word axis [Valid data range] 0 to the number of tool offsets When parallel operation is per...

  • Page 482

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 470 - Axis switching number 0 indicates that axis switching is not performed. 4.76 PARAMETERS OF TOOL RETRACT AND RECOVER #7 #6 #5 #4 #3 #2 #1 #0 10410 NRT [Input type] Parameter input [Data type] Bit axis #0 NRT In tool retract and re...

  • Page 483

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 471 - 4.78 PARAMETERS OF HIGH-SPEED SMOOTH TCP (1 OF 2) #7 #6 #5 #4 #3 #2 #1 #0 10485 STC [Input type] Setting input [Data type] Bit path #0 STC If, in a TCP start block (G43.4, G43.5), address "L" is omitted, TCP is: 0: Starte...

  • Page 484

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 472 - [Valid data range] 0 or positive 9 digit of minimum unit of data (refer to the standard parameter setting table (B)) (When the increment system is IS-B, 0.0 to +999999.999) If a value other than 0 is set in this parameter and the setting of parame...

  • Page 485

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 473 - 4.81 PARAMETERS OF THREE-DIMENSIONAL ROTARY ERROR COMPENSATION 10770 1st linear compensation axis for three-dimensional rotary error compensation 10771 2nd linear compensation axis for three-dimensional rotary error compensation 10772 3rd lin...

  • Page 486

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 474 - 10780 Number of compensation point at reference point of 1st linear axis for three-dimensional rotary error compensation 10781 Number of compensation point at reference point of 2nd linear axis for three-dimensional rotary error compensation 1...

  • Page 487

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 475 - [Data type] Real path [Unit of data] mm, inch, degree (Machine unit) [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting (A)) (When the ...

  • Page 488

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 476 - [Data type] Byte path [Valid data range] 1 to Number of controlled axes These parameters set three compensation axes for applying 3-dimensional error compensation. 10803 Number of compensation points for 3-dimensional error compensation (first ...

  • Page 489

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 477 - 10812 Compensation interval for 3-dimensional error compensation (first compensation axis) 10813 Compensation interval for 3-dimensional error compensation (second compensation axis) 10814 Compensation interval for 3-dimensional error compens...

  • Page 490

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 478 - 10834 Machine coordinates of compensation point 1 for compensation axis 1 subject to 3-dimensional machine position compensation to to 10843 Machine coordinates of compensation point 10 for compensation axis 1 subject to 3-dimensional machine p...

  • Page 491

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 479 - 10864 Compensation value 1 of compensation point 1 for compensation axis 1 subject to 3-dimensional machine position compensation to to 10873 Compensation value 10 of compensation point 10 for compensation axis 1 subject to 3-dimensional machin...

  • Page 492

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 480 - [Valid data range] 0 to the number of controlled axes or m×100+n (m:1 to the path number, n:1 to the number of controlled axes) Setting value) 1 to 32 : controlled axes on own path 101 to 132 : controlled axes on path1 201 to 232 : contr...

  • Page 493

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 481 - If there is no relevant rectangle area, set 0. 10905 Maximum point of rectangle 1 of group D in the second axis 10906 Minimum point of rectangle 1 of group D in the second axis [Input type] Parameter input [Data type] Real [Unit of data] m...

  • Page 494

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 482 - 10911 Maximum point of rectangle 3 of group D in the first axis 10912 Minimum point of rectangle 3 of group D in the first axis [Input type] Parameter input [Data type] Real [Unit of data] mm, inch (machine unit) [Min. unit of data] Depend ...

  • Page 495

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 483 - 10917 Maximum point of rectangle 4 of group D in the second axis 10918 Minimum point of rectangle 4 of group D in the second axis [Input type] Parameter input [Data type] Real [Unit of data] mm, inch (machine unit) [Min. unit of data] Depen...

  • Page 496

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 484 - NOTE When this parameter is set, the power must be turned off before operation is continued. #0 ICE Built-in 3D interference check function is: 0: Enabled. 1: Disabled. However, the setting related to 3D interference check is effective. Th...

  • Page 497

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 485 - #7 TFU The update function of the tool figure by built-in 3D interference check setting change signal TDICHG <G519.4> is: 0: Invalid. 1: Valid. #7 #6 #5 #4 #3 #2 #1 #0 10931 TDIC107 TDIC106 TDIC105TDIC104TDIC103TDIC102 TDIC101 TDIC100 ...

  • Page 498

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 486 - #7 TDIC107 In built-in 3D interference check function, check for interference between object 1 and object 2 is: 0: Disabled. 1: Enabled. #7 #6 #5 #4 #3 #2 #1 #0 10932 TDIC109 TDIC108 [Input type] Parameter input [Data type] Bit CAU...

  • Page 499

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 487 - #3 TDIC203 In built-in 3D interference check function, check for interference between tool holder 1 and object 4 is: 0: Enabled. 1: Disabled. #4 TDIC204 In built-in 3D interference check function, check for interference between tool holder 1 ...

  • Page 500

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 488 - #3 TDIC211 In built-in 3D interference check function, check for interference between object 2 and object 6 is: 0: Disabled. 1: Enabled. #4 TDIC212 In built-in 3D interference check function, check for interference between object 3 and object...

  • Page 501

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 489 - #3 TDIC219 In built-in 3D interference check function, check for interference between tool 1 and tool holder 2 is: 0: Enabled. 1: Disabled. #4 TDIC220 In built-in 3D interference check function, check for interference between tool holder 1 an...

  • Page 502

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 490 - #3 TDIC227 In built-in 3D interference check function, check for interference between object 3 and tool holder 2 is: 0: Enabled. 1: Disabled. #4 TDIC228 In built-in 3D interference check function, check for interference between object 4 and t...

  • Page 503

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 491 - #7 #6 #5 #4 #3 #2 #1 #0 10938 TDIC307 TDIC306 TDIC305TDIC304TDIC303TDIC302 TDIC301 TDIC300 [Input type] Parameter input [Data type] Bit CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interfer...

  • Page 504

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 492 - #7 #6 #5 #4 #3 #2 #1 #0 10939 TDIC315 TDIC314 TDIC313TDIC312TDIC311TDIC310 TDIC309 TDIC308 [Input type] Parameter input [Data type] Bit CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interfer...

  • Page 505

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 493 - #7 #6 #5 #4 #3 #2 #1 #0 10940 TDIC320TDIC319TDIC318 TDIC317 TDIC316 [Input type] Parameter input [Data type] Bit CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interference check setting c...

  • Page 506

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 494 - #1 TDIC401 In built-in 3D interference check function, check for interference between tool 1 and tool holder 4 is: 0: Enabled. 1: Disabled. #2 TDIC402 In built-in 3D interference check function, check for interference between tool holder 1 an...

  • Page 507

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 495 - #1 TDIC409 In built-in 3D interference check function, check for interference between object 3 and tool holder 4 is: 0: Enabled. 1: Disabled. #2 TDIC410 In built-in 3D interference check function, check for interference between object 4 and t...

  • Page 508

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 496 - #1 TDIC417 In built-in 3D interference check function, check for interference between tool 2 and tool holder 4 is: 0: Enabled. 1: Disabled. #2 TDIC418 In built-in 3D interference check function, check for interference between tool holder 2 an...

  • Page 509

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 497 - #7 #6 #5 #4 #3 #2 #1 #0 10945 TDIR107 TDIR106 TDIR105TDIR104TDIR103TDIR102 TDIR101 TDIR100 [Input type] Parameter input [Data type] Bit CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interfer...

  • Page 510

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 498 - #7 TDIR107 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between object 1 and object 2 is: 0: Enabled. 1:...

  • Page 511

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 499 - #2 TDIR202 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between tool 1 and object 6 is: 0: Enabled. 1: D...

  • Page 512

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 500 - #1 TDIR209 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between object 2 and object 4 is: 0: Enabled. 1:...

  • Page 513

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 501 - #0 TDIR216 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between object 4 and object 6 is: 0: Enabled. 1:...

  • Page 514

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 502 - CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interference check setting change signal TDICHG<G519.4> is set to “1”. #0 TDIR224 In built-in 3D interference check function, during cutt...

  • Page 515

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 503 - #7 #6 #5 #4 #3 #2 #1 #0 10951 TDIR234 TDIR233 TDIR232 [Input type] Parameter input [Data type] Bit CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interference check setting change signal...

  • Page 516

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 504 - #2 TDIR302 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between tool holder 1 and tool 3 is: 0: Enabled....

  • Page 517

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 505 - #1 TDIR309 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between object 3 and tool holder 3 is: 0: Enable...

  • Page 518

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 506 - #0 TDIR316 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between tool 2 and tool 3 is: 0: Enabled. 1: Dis...

  • Page 519

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 507 - #2 TDIR402 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between tool holder 1 and tool 4 is: 0: Enabled....

  • Page 520

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 508 - #1 TDIR409 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between object 3 and tool holder 4 is: 0: Enable...

  • Page 521

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 509 - #0 TDIR416 In built-in 3D interference check function, during cutting feed, canned cycle or 3D interference check between specified targets disable signal (TDISD) = “1”, check for interference between tool 2 and tool 4 is: 0: Enabled. 1: Dis...

  • Page 522

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 510 - CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interference check setting change signal TDICHG<G519.4> is set to “1”. #0 TDIR424 In built-in 3D interference check function, during cutt...

  • Page 523

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 511 - 10963 Figure number of tool holder 4 in built-in 3D interference check function [Input type] Parameter input [Data type] Word [Valid data range] 0 to the number of tool holder 4 figures In built-in 3D interference check function, the figure ...

  • Page 524

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 512 - #5 TDISH13 In built-in 3D interference check function, when tool holder 3 and object 1 interfere, 0: OT alarm occurs. 1: OT alarm does not occur, and interference is notified by the signal. #6 TDIST14 In built-in 3D interference check functi...

  • Page 525

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 513 - #7 TDISH24 In built-in 3D interference check function, when tool holder 4 and object 2 interfere, 0: OT alarm occurs. 1: OT alarm does not occur, and interference is notified by the signal. #7 #6 #5 #4 #3 #2 #1 #0 10968 TDISH34 TDIST34 TDISH...

  • Page 526

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 514 - CAUTION This parameter is not updated until the power supply is turned off once or built-in 3D interference check setting change signal TDICHG<G519.4> is set to “1”. #0 TDIST41 In built-in 3D interference check function, when tool 1...

  • Page 527

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 515 - #1 TDISH51 In built-in 3D interference check function, when tool holder 1 and object 5 interfere, 0: OT alarm occurs. 1: OT alarm does not occur, and interference is notified by the signal. #2 TDIST52 In built-in 3D interference check functio...

  • Page 528

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 516 - #4 TDIST63 In built-in 3D interference check function, when tool 3 and object 6 interfere, 0: OT alarm occurs. 1: OT alarm does not occur, and interference is notified by the signal. #5 TDISH63 In built-in 3D interference check function, whe...

  • Page 529

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 517 - 4.86 PARAMETERS OF SPINDLE CONTROL WITH SERVO MOTOR #7 #6 #5 #4 #3 #2 #1 #0 11000 SRV SOA FSR SPC [Input type] Parameter input [Data type] Bit axis NOTE When at least one of these parameters is set, the power must be turned off before ...

  • Page 530

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 518 - #1 TCR In SV speed control mode, time constant of acceleration/deceleration after interpolation for spindle control with servo motor or spindle control with Cs contour control is: 0: The parameter No. 1622. (Time constant of acceleration/decele...

  • Page 531

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 519 - [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 0 or positive 9 digit of minimum unit of data (refer to the standard parameter setting table (B)) (When the increment system is IS-B, 0.0 to +999999.999) Thi...

  • Page 532

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 520 - In spindle control with servo motor or spindle control with Cs contour control, set the time constant of acceleration/deceleration after interpolation in cutting feed for SV speed control mode. Set the time constant used for exponential accelerati...

  • Page 533

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 521 - 11031 Individual acceleration / deceleration 2 (Leg 2) [Input type] Parameter input [Data type] 2-word axis [Unit of data] min-1/s [Valid data range] 0 to 100000 In spindle control with servo motor or spindle control with Cs contour control, ...

  • Page 534

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 522 - Set an acceleration change time of bell-shaped acceleration/ deceleration before interpolation (time for changing from the state of constant federate (A) to the state of constant acceleration/deceleration (C) at the acceleration rate calculated fr...

  • Page 535

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 523 - Time constant for acceleration/deceleration after cutting feed interpolation in rigid tapping extraction (fourth gear) 11068 [Input type] Parameter input [Data type] Word axis [Unit of data] msec [Valid data range] 0 to 4000 If bit 2 (TDR) ...

  • Page 536

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 524 - 11102 Tolerance between actual spindle speed and command value of Path Table start block [Input type] Parameter input [Data type] 2-word spindle [Unit of data] min-1 [Valid data range] 0, 1 to +99999999 At the start of the Path Table Operati...

  • Page 537

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 525 - #1 PSM In Path Table Operation, smoothing of axis movement commands is: 0: not executed. 1: executed. When bit 1 (PSM) of parameter No.11104 is set to 1, the reductive effect of torque command by acceleration/deceleration after interpolation bec...

  • Page 538

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 526 - 11113 Action when feed hold is detected during the table of spindle position reference being executed [Input type] Parameter input [Data type] Byte [Valid data range] 0, 1 When feed hold is detected during the table of spindle position refere...

  • Page 539

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 527 - [Valid data range] 0 to 8 This parameter sets the number of decimal places of rotation direction errors in workpiece setting error compensation. Parameter No. 11201 1 2 3 4 Least input increment (deg) 0.1 0.01 0.001 0.0001 Maximum settable value (...

  • Page 540

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 528 - 11210 Reference position of linear inclination compensation DST0 [Input type] Parameter input [Data type] Real axis [Unit of data] mm, inch, degree (machine unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid d...

  • Page 541

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 529 - #2 3DW If, in the 3-dimensional coordinate system conversion mode, workpiece coordinate system selection using a G code is specified, the selection: 0: Operates in accordance with conventional specifications. (The workpiece coordinate system dif...

  • Page 542

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 530 - • Shifting of a workpiece coordinate system when a local coordinate system or workpiece coordinate system is set up #2 IMG Inch/metric conversion is: 0: Performed with the G20/G21 (G70/G71). 1: Not performed with the G20/G21 (G70/G71). NOTE ...

  • Page 543

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 531 - When using the function for switching the rapid traverse rate, time constant, and loop gain according to the positioning distance, this parameter sets the positioning distance for each axis. NOTE 1 To use this parameter, set bit 0 (OADx) of param...

  • Page 544

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 532 - #1 TOU When the program restart auxiliary function output function is applied in a lathe system, T codes are: 0: Not output to the MDI program. 1: Output to the MDI program. NOTE In a machining center system, they are output regardless of the ...

  • Page 545

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 533 - #0 TCS If bit 6 (TOS) parameter No. 5006 = 0 and bit 2 (TOP) of parameter No. 11400 = 0, tool center point control cancel (G49) is: 0: Performed by axis movement. 1: Performed by coordinate system shift. Parameter Tool center point control comm...

  • Page 546

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 534 - NOTE This parameter is regarded as being set to 0 in the following modes: 1) 3-dimensional coordinate system conversion 2) Tilted working plane command 3) Workpiece setting error compensation 4) Cutting point command If 1 is set in this paramete...

  • Page 547

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 535 - Be sure to specify the same time constant value for all axes except for a special application. If different time constant values are set, a correct linear line cannot be obtained. 4.96 PARAMETERS OF MACHINE CONFIGURATION SELECTING FUNCTION 11266 ...

  • Page 548

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 536 - #7 #6 #5 #4 #3 #2 #1 #0 11269 MSF ON1 ADF TCC [Input type] Parameter input [Data type] Bit path #1 TCC When G41/G42 is specified in tool center point control mode, it is regarded as 0: cutter compensation and tool nose radius compensa...

  • Page 549

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 537 - NOTE When each axis workpiece coordinate system preset signals are turned 1 more than two signals by an M code, please turn 1 the signals of all axis at the same timing. If the timing is different, only the axis of the first signal turned 1 is pr...

  • Page 550

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 538 - 4.98 PARAMETERS OF SYNCHRONOUS/COMPOSITE CONTROL AND SUPERIMPOSED CONTROL (2 OF 3) #7 #6 #5 #4 #3 #2 #1 #0 11284 SKP SSH [Input type] Parameter input [Data type] Bit #0 SSH During superimposed control, manual handle interruption to ...

  • Page 551

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 539 - 4.100 PARAMETERS OF DISPLAY AND EDIT (2 OF 5) #7 #6 #5 #4 #3 #2 #1 #0 11300 MUC ATH MPH FPI ASH [Input type] Parameter input [Data type] Bit #3 ASH When the actual feedrate is read with FOCAS2 and the PMC window: 0: Data that has bee...

  • Page 552

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 540 - NOTE When quick response is not required in particular for display operation and so on, normally set this parameter to 0 to reduce the load on the CNC. #7 #6 #5 #4 #3 #2 #1 #0 11302 CPG FPF PES ADC SMD SDG SPR SPG [Input type] Parameter inp...

  • Page 553

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 541 - #7 #6 #5 #4 #3 #2 #1 #0 11303 ISQ DPM BDP DVP SRC LDP [Input type] Parameter input [Data type] Bit #0 LDP The servo load meter axis display: 0: Interacts with the axis display of coordinate values. 1: Does not interact with the axis dis...

  • Page 554

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 542 - #3 ON8 Program numbers are: 0: Four digits long. 1: Eight digits long. NOTE If program numbers are changed from eight digits to four digits, all programs will be automatically deleted from program memory. If this parameter is changed from 1 t...

  • Page 555

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 543 - 11307 Display sequence of the coordinates in current position display NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 5 T...

  • Page 556

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 544 - Display sequence of coordinatesSetting 1 2 3 4 5 Relative coordinates Machine coordinates Remaining travel distance Absolute coordinates If the setting is beyond the valid data range, 0 is assumed. When the multipath simultaneous display function...

  • Page 557

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 545 - NOTE When quick response is not required in particular for display operation and so on, normally set this parameter to 0 to reduce the load on the CNC. #6 ABH When the absolute coordinates data are read with FOCAS2 or the PMC window: 0: Data t...

  • Page 558

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 546 - Thereafter, the attribute of the MTB1 folder is locked unless the same value as the password is set to the key word. Moreover, the value of the password cannot be changed. • When the key is open, The attribute of the MTB1 folder can be changed...

  • Page 559

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 547 - #1 MLD On the program list screen, division of the screen display is: 0: Disabled. 1: Enabled. NOTE This parameter is valid when a 10.4-, 15-inch, or 19-inch display unit is used. #2 DFM On the program list screen, of the soft key character...

  • Page 560

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 548 - #1 IDC The soft key [UPDATA ALL ID], which updates ID information on the servo or spindle information screen as a batch, is: 0: Not displayed. 1: Displayed. NOTE IDC is effective only if bit 0 (IDW) of parameter No. 13112 is set to 1. #7 P...

  • Page 561

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 549 - NOTE For characters and codes, see Appendix A, "CHARACTER-CODE CORRESPONDENCE TABLE". If the first character is 0 or an illegal character code, "NX.T" is displayed. 4.103 PARAMETERS OF GRAPHIC DISPLAY (2 OF 5) #7 #6 #5 #4 ...

  • Page 562

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 550 - 11331 Screen center coordinate value in the drawing range in dynamic graphic display [Input type] Parameter input [Data type] Real axis [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the applied ax...

  • Page 563

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 551 - 11341 Drawing color of a blank figure in dynamic graphic display [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 7 This parameter sets the color in which a blank figure is drawn with the dynamic graphic display funct...

  • Page 564

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 552 - [Valid data range] 0 or positive 9 digit of minimum unit of data (refer to the standard parameter setting table (B)) (When the increment system is IS-B, 0.000 to +999999.999) These parameters set the dimensions of a blank in the dynamic graphic ...

  • Page 565

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 553 - #4 YGW If Y-axis offset geometry and wear compensation is enabled, switching between the tool geometry and wear compensation screens is performed with 0: Soft key [SWITCH]. 1: Soft key [WEAR]/[GEOMETRY]. #7 PDM When the pattern data input fun...

  • Page 566

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 554 - #1 COL At the detail off screen of program list, the comment of program is: 0: Not displayed. 1: Displayed. NOTE It is effective to 10.4-, 15-inch, and 19-inch display units. #4 3DD The setting screen for the 3-dimensional machine position ...

  • Page 567

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 555 - NOTE During a subprogram call, the sequence number of the subprogram is maintained. #1 SDE Sequence numbers on the screen are displayed with: 0: 5 digits. 1: 8 digits. #7 #6 #5 #4 #3 #2 #1 #0 11354 HPM DPC SOH SAH CRS [Input type] Par...

  • Page 568

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 556 - #7 HPM High-speed program management is: 0: Disabled. 1: Enabled. NOTE 1 There are no changes about the display of programs and the editing operation method of programs. 2 In cases that this function is enabled, if the power supply is turned...

  • Page 569

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 557 - #4 SCM In the initial state, the custom macro screen is: 0: A small screen display. 1: A full screen display. #7 #6 #5 #4 #3 #2 #1 #0 11356 DPD EPC SFS DCT TLD [Input type] Parameter input [Data type] Bit #0 TLD When the protection ...

  • Page 570

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 558 - When parameter checksum function is effective, checksum value which is calculated at power-on is set. 0 is set when the parameter checksum function is invalid. 11359 Standard Checksum [Input type] Parameter input [Data type] 2-word Checksum ...

  • Page 571

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 559 - #0 SFB Folder made by template program function or multi-path program management function: 0: Should be set to the foreground folder and the background folder by an operator. 1: Becomes to the foreground folder and the background folder automati...

  • Page 572

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 560 - #7 #6 #5 #4 #3 #2 #1 #0 11365 D40 D39 D38 D37 D36 D35 D34 D33 #7 #6 #5 #4 #3 #2 #1 #0 11366 D48 D47 D46 D45 D44 D43 D42 D41 #7 #6 #5 #4 #3 #2 #1 #0 11367 D56 D55 D54 D53 D52 D51 D50 D49 [Input type] Parameter input [Data type] Bit pa...

  • Page 573

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 561 - #6 APM Bar-graph display that shows the total of power consumption is: 0: Enabled. 1: Disabled NOTE This parameter is effective at parameter PWC(No.11368#5)=1. #7 #6 #5 #4 #3 #2 #1 #0 11370 RPD [Input type] Parameter input [Data ...

  • Page 574

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 562 - #5 CDE Call stack display is: 0: Available. 1: Not available. 11376 Time-out period of USB memory [Input type] Parameter input [Data type] Word [Unit of data] sec [Valid data range] 0 to 32767 Set the time-out period of the USB memory. Ple...

  • Page 575

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 563 - 4 digits from the top are displayed in power consumption monitoring screen, though the value of bar graph is estimated by using this parameter itself. e.g.) If 9999999 is specified, -9999kW/9999kW are displayed. If 11100 is specified, -11.10k...

  • Page 576

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 564 - #1 NO5 The fifth axis offset function is: 0: Not used. 1: Used. #2 TOP Set a tool length compensation or tool offset operation. 0: Tool length compensation or tool offset operation is performed by an axis movement. 1: Tool length compensation...

  • Page 577

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 565 - #4 MMT If the tool offset for milling and turning function is used, the compensation values acquired with machining center system measurement functions are regarded as: 0: Tool length compensation values. 1: Tool position compensation values. If...

  • Page 578

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 566 - - Tool offset number of tool radius compensation value H code + (parameter No. 11419) - Tool offset number of corner-R compensation value H code + 2 * (parameter No. 11419) When parameter No. 11419 is 0, the interval of the offset number is 1. ...

  • Page 579

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 567 - These parameters set the acceleration change time of bell-shaped acceleration/deceleration in optimum acceleration/deceleration for rigid tapping (time taken for the change from the constant speed state (A) to the acceleration state (C) with the a...

  • Page 580

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 568 - 11441 Permissible acceleration at P0 in optimum acceleration/deceleration for rigid tapping (gear 1) 11442 Permissible acceleration at P1 in optimum acceleration/deceleration for rigid tapping (gear 1) 11443 Permissible acceleration at P2...

  • Page 581

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 569 - 11467 Permissible deceleration at P1 in optimum acceleration/deceleration for rigid tapping (gear 2) 11468 Permissible deceleration at P2 in optimum acceleration/deceleration for rigid tapping (gear 2) 11469 Permissible deceleration at P3...

  • Page 582

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 570 - #7 #6 #5 #4 #3 #2 #1 #0 11486 AMM ART ADQ [Input type] Parameter input [Data type] Bit path #0 ADQ Command for shifting the threading start angle by address Q in re-machining thread is: 0: Disabled. 1: Enabled. #1 ART Arbitrary sp...

  • Page 583

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 571 - NOTE 2 When this parameter is set to 0, this function is invalid. 3 If the same value is set for two or more Cs contour control axes within the path, the alarm PS0531, “THREADING PARAMETER ERROR” is issued. 4 The M code set in this parameter p...

  • Page 584

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 572 - [Unit of data] 0.01% [Valid data range] -32768 to 32767 (If this parameter is set to 0, the setting is assumed to 10000.) Thread start position compensation for arbitrary speed threading made fine adjustments by this parameter. It is a multiplier...

  • Page 585

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 573 - NOTE 2 The followings can be commanded with the machine lock shift value remained. - Automatic reference position return (The middle point is not specified) - Workpiece coordinate system preset - Local coordinate system setting - Machine coordinat...

  • Page 586

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 574 - #7 #6 #5 #4 #3 #2 #1 #0 11505 ISU [Input type] Setting input [Data type] Bit #0 ISU When an USB memory card is selected as an I/O device, data input/output is performed using 0: ASCII codes. 1: ISO codes. WARNING 1 Unless data i...

  • Page 587

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 575 - If the setting is 0, monitoring is performed on a 5 occurrences/8 hours basis. NOTE When this parameter is set, the power must be turned off before operation is continued. 11531 Warning value for the ECC correction counter (SRAM) [Input typ...

  • Page 588

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 576 - NOTE When this parameter is set, the power must be turned off before operation is continued. 11534 Warning value (common to FL-net boards 1 and 2) for the number of FL-net error detection occurrences [Input type] Parameter input [Data type]...

  • Page 589

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 577 - NOTE 1 The setting must be a multiple of 4 (4, 8, …). 2 This function is disabled if the parameter is 0. 3 When performing multipath control, be careful to keep the data addresses of each path from overlapping with those of the other paths. 4 Th...

  • Page 590

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 578 - #3 FAM The method of command specification used by programs in flexible path axis assignment is: 0: Identification number method. 1: Axis name method. #4 FAC If the axis removement command is issued for an axis which already removed, or assi...

  • Page 591

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 579 - If this parameter is set to 0 and machine type is table rotation type, axis moving signals in tool center point control mode is the signals for axes on table coordinate system. #2 D3IT In the 3-dimensional coordinate system conversion mode, the...

  • Page 592

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 580 - The command in (1) converts the coordinates before the coordinate system rotation command, (X10,Y10), into the coordinates (X'14.142,Y'0) in the coordinate system rotated by 45 degrees (X'Y'). Then, the tool moves to the specified position (X'14....

  • Page 593

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 581 - [Data type] Word path [Valid data range] 0 to 1000 Set the number of look-ahead blocks for each path used in high-speed processing. NOTE 1 When this parameter is set, the power must be turned off before operation is continued. 2 This parameter c...

  • Page 594

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 582 - 11631 M code 1 to protect 11632 M code 2 to protect 11633 M code 3 to protect 11634 M code 4 to protect 11635 M code 5 to protect 11636 M code 6 to protect 11637 M code 7 to protect 11638 M code 8 to protect 11639 M code 9 to prot...

  • Page 595

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 583 - [Example of setting] 1st set 2nd set 3rd set M code No. 11641=50 No. 11643=150 No. 11645=900 Number of codes No. 11642=10 No. 11644=5 No. 11646=30 M codes to protect M50 to M59 M150 to M154 M900 to M929 [Example of use] Parameter No...

  • Page 596

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 584 - 11647 The local variable number corresponding to the axis address [Input type] Parameter input [Data type] Byte axis [Unit of data] No unit [Valid data range] 0 to 33 The address as an argument of the macro call is allocated to local variable...

  • Page 597

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 585 - It is necessary to set the value of both level1 and level10. 11686 Standard value of smoothing level when nano smoothing is used [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 10 Set standard value of smoothing lev...

  • Page 598

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 586 - [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A) (When the increment system is IS-B, -999999.999 to +999999.999) If a value o...

  • Page 599

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 587 - [Valid data range] 0 or positive 9 digit of minimum unit of data (refer to the standard parameter setting table (B)) (When the increment system is IS-B, 0.0 to +999999.999) In Smooth control (G43.4P3, G43.5P3), paths of Tool center point are paths...

  • Page 600

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 588 - 4.112 PARAMETERS OF SERVO (2 OF 2) #7 #6 #5 #4 #3 #2 #1 #0 11802 KSV SWF CPY [Input type] Parameter input [Data type] Bit axis NOTE When at least one of these parameters is set, the power must be turned off before operation is continu...

  • Page 601

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 589 - NOTE Before the dual position feedback compensation clamp function can be used, a setting to enable dual position feedback is required in addition to the setting of this bit. #2 TSF Under tandem control, the servo of the slave axis is turned ...

  • Page 602

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 590 - (The signal addresses are those in the first path, and the actual addresses differ depending on the group used.) Bit 7 (IFH) of No. 11850 = 0 (*EROVs are on a path-by-path basis.) Bit 7 (IFH) of No. 11850 = 1 (*EROVs are on a group-by-group basis...

  • Page 603

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 591 - CAUTION If any of these parameters is nonzero, a duplicate or missing number results in the PMC alarm "ER50 PMC EXECUTION ORDER ERROR", thus disabling all the PMCs from starting. 11905 Execution time percentage (%) of PMC of executi...

  • Page 604

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 592 - 11910 I/O Link channel 1 input/output addresses 11911 I/O Link channel 2 input/output addresses 11912 I/O Link channel 3 input/output addresses NOTE When these parameters are set, the power must be turned off before operation is continued. ...

  • Page 605

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 593 - CAUTION 1 If a duplicate number is set when a value other than 0 is set in any of these parameters, PMC alarm “ER52 I/O LINK CHANNEL ASSIGNMENT ERROR” is issued, and none of the PMCs can be started. 2 If a parameter is not set, the assignment...

  • Page 606

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 594 - CAUTION 1 If a duplicate number is set in these parameters and parameter Nos. 11910 to 11912, PMC alarm "ER52 I/O LINK CHANNEL ASSIGNMENT ERROR" is issued, and none of the PMCs can be started. 2 The dual check safety PMC (DCSPMC) uses t...

  • Page 607

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 595 - Setting value Input/output address 103 F3000to3767 / G3000to3767 of the first PMC 104 F4000to4767 / G4000to4767 of the first PMC 105 F5000to5767 / G5000to5767 of the first PMC 106 F6000to6767 / G6000to6767 of the first PMC 107 F7000to7767 / G7000t...

  • Page 608

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 596 - CNC First PMC F/G0 to 767 of CNC F/G1000 to 1767 of CNC F/G2000 to 2767 of CNC F/G3000 to 3767 of CNC F/G4000 to 4767 of CNC F/G5000 to 5767 of CNC F/G6000 to 6767 of CNC F/G7000 to 7767 of CNC F/G8000 to 8767 of CNC F/G9000to 9767 of CNC F/G0 to...

  • Page 609

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 597 - #0 PCC For a multipath PMC, ladder execution and stop are: 0: Controlled individually for each PMC path. 1: Controlled simultaneously for all PMC paths. NOTE When the PMC memory sharing mode is used, ladder execution and stop are controlled s...

  • Page 610

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 598 - CAUTION If a value beyond the valid data range is set in this parameter, PMC alarm "ER57 MULT PATH PMC I/F ASSIGNMENT ERROR" is issued, and none of the PMCs can be started. Similarly, when a PMC specified in this parameter is not pres...

  • Page 611

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 599 - Monitoring of the DeviceNet normal signal starts when the time set in this parameter elapses after power-on. When this setting is 0 or negative value, monitoring of the signal starts after 60 seconds from power-on. 11936 The number of PMC paths ...

  • Page 612

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 600 - CAUTION 1 If the value set in any of these parameters is beyond the valid data range, PMC alarm "ER58 PMC MEMORY TYPE SETTING ERROR" is issued, and none of the PMCs can be started. 2 When the PMC memory type has been changed, the PMC ba...

  • Page 613

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 601 - 4.115 PARAMETERS OF EMBEDDED MACRO (2 OF 2) 12020 G code number for the embedded macro (first) 12023 G code number for the embedded macro (second) 12026 G code number for the embedded macro (third) 12029 G code number for the embedded macro...

  • Page 614

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 602 - 12022 Number of G code macro for embedded macro (first) 12025 Number of G code macro for embedded macro (second) 12028 Number of G code macro for embedded macro (third) 12031 Number of G code macro for embedded macro (fourth) 12034 Number...

  • Page 615

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 603 - 4.116 PARAMETERS OF HIGH-SPEED POSITION SWITCH (2 OF 2) 12201 Controlled axis for which the eleventh high-speed position switch function is performed 12202 Controlled axis for which the twelfth high-speed position switch function is performed ...

  • Page 616

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 604 - [Data type] Real path [Unit of data] mm, inch, degree (machine unit) [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (Whe...

  • Page 617

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 605 - [Data type] Word [Valid data range] -1, 0 to 127, 200 to 327, 400 to 527, 600 to 727 To set X address of manual pulse generator connected with I/O Link in PMC. When the manual pulse generator is not connected, set -1 to this parameter. PMC Pa...

  • Page 618

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 606 - HS1E (HS1IE) HS1D (HS1ID) HS1C (HS1IC) HS1B (HS1IB) HS1A (HS1IA) Parameter (No. 12310) 0 1 0 1 0 10 0 1 0 1 1 11 0 1 1 0 0 12 0 1 1 0 1 13 0 1 1 1 0 14 0 1 1 1 1 15 1 0 0 0 0 16 1 0 0 0 1 17 1 0 0 1 0 18 1 0 0 1 1 19 1 0 1 0 0 20 1 0 1 0 1 21 1 0 ...

  • Page 619

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 607 - This parameter sets the states of the manual handle feed axis selection signals (HS1A to HS1E for the first manual handle) or the manual handle interrupt axis selection signals (HS1IA to HS1IE for the first manual handle) when a movement is made i...

  • Page 620

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 608 - #0 CAC If a workpiece coordinate system offset is set for the rotation axis, the coordinate system of the rotation axis used to calculate the 3-dimensional manual feed is: 0: Machine coordinate system. For those parameters Nos. 19680 to 19714 ...

  • Page 621

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 609 - Bit 1 (FLL) of parameter No. 12320 Bit 0 (TWD) of parameter No. 12320 Directions of 3-dimensional machining manual feed 1 1 When the tilted working plane indexing is issued: X, Y, and Z directions in the feature coordinate system When the command ...

  • Page 622

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 610 - When the fourth or fifth manual handle is used for 3-dimensional machining manual feed, the option for manual handle feed with 4/5 handles is required. If 0 or the number of an unavailable handle is set, the first handle is assumed. #7 #6 #5 #4...

  • Page 623

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 611 - 12344 PMC path of the 5th. manual pulse generator connected with I/O Link [Input type] Parameter input [Data type] Byte [Valid data range] 0 to 3 Referring to parameters Nos. 12300 to 12304. 12350 Manual handle feed magnification m in each...

  • Page 624

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 612 - This parameter sets the waiting synchronous start M code to use if high-speed cycle machining or axis moving due to high-speed binary operation is to be started in synchronization with the superimposition command for an arbitrary operation path. F...

  • Page 625

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 613 - 12733 4th time constant of linear acceleration/deceleration of continuous feed operation based on a speed command in PMC axis control [Input type] Parameter input [Data type] Word axis [Unit of data] msec/1000min-1 [Valid data range] 0 to 327...

  • Page 626

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 614 - 12737 3rd feedrate for changing time constant of continuous feed operation based on a speed command in PMC axis control [Input type] Parameter input [Data type] Word axis [Unit of data] min-1 [Valid data range] 0 to 32767 Set feedrate paramet...

  • Page 627

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 615 - Set external deceleration rate 4 for cutting feed or positioning of linear interpolation type (G00). 12752 External deceleration rate setting 4 for each axis in rapid traverse [Input type] Parameter input [Data type] Real axis [Unit of data]...

  • Page 628

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 616 - 4.122 PARAMETERS OF DISPLAY AND EDIT (5 OF 5) 12801 Operation history signal selection address type (No. 01) to to 12820 Operation history signal selection address type (No. 20) [Input type] Parameter input [Data type] Byte [Valid data range...

  • Page 629

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 617 - 12841 Operation history signal selection address number (No. 01) to to 12860 Operation history signal selection address number (No. 20) [Input type] Parameter input [Data type] Word [Valid data range] For an explanation of the address ranges...

  • Page 630

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 618 - NOTE 2 If the value of the address type (Nos. 12801 to 12820) corresponding to that signal is 0, a warning, "DATA IS OUT OF RANGE" appears; retry setting a value. 12990 G code modal group (first one) to be recorded as history data when...

  • Page 631

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 619 - NOTE When at least one of these parameters is set, the power must be turned off before operation is continued. #1 TPB Baud rate used with the external touch panel 0: 19200 bps is always used. 1: The baud rate with the baud rate number set in p...

  • Page 632

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 620 - #7 EDT During memory operation, program editing is: 0: Enabled. 1: Disabled. NOTE 1 When 0 is set, during memory operation, you can stop the program by a single block stop or feed hold, select the EDIT mode, and edit the program. When the main...

  • Page 633

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 621 - #0 CLR Upon reset, the display of a travel distance by 3-dimensional machining manual feed is: 0: Not cleared. 1: Cleared. #3 CFD As feedrate F, the 3-dimensional machining manual feed screen displays: 0: Composite feedrate at the linear axi...

  • Page 634

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 622 - #3 IAU For MDI key input, the key is: 0: Enabled. 1: Disabled. #4 SI1 Soft key input of the characters shown below is: 0: Disabled. 1: Enabled. < > ¥ % $ ! ~ : " ' #5 SI2 Soft key input of the characters shown below and switc...

  • Page 635

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 623 - #7 SQP A program restart with the P type is: 0: Enabled. 1: Disabled. 13131 Group number for simultaneous display of multiple paths [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 10 This parameter sets a group fo...

  • Page 636

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 624 - 13140 First character in spindle load meter display 13141 Second character in spindle load meter display [Input type] Setting input [Data type] Byte spindle [Valid data range] These parameters set character codes to set the name of each spi...

  • Page 637

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 625 - NOTE This parameter is valid when bit 3 (ETE) of parameter No. 13200 is set to 0 (arrival notice for each type number). #3 ETE The tool life arrival notice signal is output: 0: For each tool type. 1: For each tool. #4 TP2 The output format ...

  • Page 638

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 626 - #4 TFT On the tool management data screen, data extraction for a specified item is: 0: Disabled. 1: Enabled. #6 TDS A tool data search using a tool type number is: 0: Not performed. 1: Performed. #7 #6 #5 #4 #3 #2 #1 #0 13202 DOM DOT DO...

  • Page 639

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 627 - NOTE This parameter is valid when the machine control type is the lathe system or compound system. #7 DOM On the tool management function screen, the tool offset data of the M series is: 0: Displayed. 1: Not displayed. NOTE This parameter is...

  • Page 640

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 628 - #7 #6 #5 #4 #3 #2 #1 #0 13204 DTA ATA TDL [Input type] Parameter input [Data type] Bit #0 TDL The protection function for tool management data using a key is: 0: Disabled. 1: Enabled. #1 ATA The tool attachment signal, magazine nu...

  • Page 641

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 629 - [Input type] Parameter input [Data type] Word [Valid data range] 0 to 64 (Extended to 240 or 1000 by the addition of an option) This parameter sets the number of valid tools in tool management data. 13221 M code for tool life count restart [...

  • Page 642

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 630 - 13227 Number of data items in the second cartridge NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word [Valid data range] 1 to 64(Extended to 240 or 1000...

  • Page 643

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 631 - 13237 Number of data items in the fourth cartridge NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word [Valid data range] 1 to 64(Extended to 240 or 1000 ...

  • Page 644

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 632 - 13241 Number of rows of the first cartridge (when the cartridge is of the matrix type) NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word [Valid data ra...

  • Page 645

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 633 - 13244 Number of columns of the second cartridge (when the cartridge is of the matrix type) NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word [Valid data...

  • Page 646

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 634 - 13247 Number of rows of the fourth cartridge (when the cartridge is of the matrix type) NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Word [Valid data ra...

  • Page 647

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 635 - [Input type] Parameter input [Data type] Byte path [Valid data range] 0 to 4 This parameter sets the number of standby positions usable with the tool management function. 13252 M code for specifying a particular tool [Input type] Parameter i...

  • Page 648

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 636 - 4.124 PARAMETERS OF TOOL LIFE MANAGEMENT (2 OF 2) 13221 M code for tool life count restart [Input type] Parameter input [Data type] Word path [Valid data range] 0 to 255 (not including 01, 02, 30, 98, and 99) When 0 is set, this parameter is ...

  • Page 649

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 637 - 13321 Straightness compensation: Compensation point number a of moving axis 6 to to 13324 Straightness compensation: Compensation point number d of moving axis 6 NOTE When these parameters are set, the power must be turned off before operat...

  • Page 650

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 638 - These parameters set the number of a straightness compensation point located at the most negative position for each moving axis. If a parameter setting exceeds the valid data range, an alarm is issued, and compensation cannot be performed. 13391 ...

  • Page 651

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 639 - #7 #6 #5 #4 #3 #2 #1 #0 13421 FSV FRF FCN FRS [Input type] Parameter input [Data type] Bit path NOTE Set these parameters for the first path only. It will be effective to all paths. #0 FRS In a program containing an M code for tur...

  • Page 652

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 640 - [Data type] Word path [Unit of data] msec [Valid data range] 0 to 4000 These parameters set the acceleration/deceleration time constants of the slave axis subject to automatic phase synchronization for flexible synchronous control. The accelera...

  • Page 653

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 641 - [Unit of data] mm, inch, deg (machine unit) [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 0 or positive 9 digit of minimum unit of data (refer to the standard parameter setting table (B)) (When the in...

  • Page 654

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 642 - NOTE 5 If this parameter bit is 1, alarms PS0011 and PS1202 are issued if the feed selection command is used to switch the modal code of group 05 and the axis command is executed in cutting feed mode without specifying a feedrate (F), even if cutt...

  • Page 655

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 643 - NOTE 2 This parameter is valid when bit 4 (MRO) of parameter No.7106 is set to 1. 3 About setting parameters Nos. 13541 and 13542 (1) Set the value which becomes the multiple of four. (0, 4, 8, …) (2) The address of output data and input data mu...

  • Page 656

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 644 - This parameter sets the M code for C-axis unclamping in canned cycles for drilling (second set). NOTE This parameter is valid when bit 4 (CME) of parameter No. 5161 is set to 1. 4.130 PARAMETERS OF THE MACHINING CONDITION SELECTION FUNCTION #7...

  • Page 657

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 645 - [Data type] Real axis [Unit of data] mm/sec/sec, inch/sec/sec, degree/sec/sec (machine unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] Refer to the standard parameter setting table (D) (When the ma...

  • Page 658

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 646 - Each of these parameters sets an allowable acceleration rate change amount per 1 ms for each axis in speed control based on acceleration rate change under control on the rate of change of acceleration in successive linear interpolation operations ...

  • Page 659

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 647 - 13622 Time constant for acceleration/deceleration after interpolation when AI contour control is used (precision level 1) 13623 Time constant for acceleration/deceleration after interpolation when AI contour control is used (precision level 10...

  • Page 660

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 648 - NOTE The parameter numbers corresponding to the following cannot be specified: • Bit parameters • Spindle parameters Nos. 4000 to 4799 • Parameters of real number type • Parameters that require power-off (for which the alarm PW0000, “P...

  • Page 661

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 649 - 4.131 PARAMETERS OF PARAMETER CHECK SUM FUNCTION #7 #6 #5 #4 #3 #2 #1 #0 13730 CSR CKS [Input type] Parameter input [Data type] Bit #0 CKS A power-on, a parameter check sum check is: 0: Not performed. 1: Performed. #7 CSR Alarm N...

  • Page 662

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 650 - [Valid data range] 0 to maximum parameter number These parameters set the numbers of the parameters to be excluded from the check sum in the parameter check sum function. 13751 Start number of the range to be excluded from the NC parameter check...

  • Page 663

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 651 - 4.132 PARAMETERS OF DUAL CHECK SAFETY (2 OF 2) 13810 13811 13821 to to 13829 13831 to to 13838 13840 to to 13843 13880 to to 13911 13920 to to 13951 13960 to to 13991 These parameters are related to Dual C...

  • Page 664

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 652 - 4.134 PARAMETERS OF PARAMETERS OF AXIS CONTROL/INCREMENT SYSTEM (3 OF 3) #7 #6 #5 #4 #3 #2 #1 #0 14000 IRF INA [Input type] Parameter input [Data type] Bit axis #1 INA If an inch-metric switch command is executed at a position other...

  • Page 665

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 653 - 4.136 PARAMETERS OF PIVOT AXIS CONTROL #7 #6 #5 #4 #3 #2 #1 #0 14250 RGE [Input type] Parameter input [Data type] Bit path #3 RGE The division of the gain multiplier of the pivot axis is: 0: Performed at up to 10 points. For the...

  • Page 666

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 654 - 14280 Setting for the gain multiplier of angle 1 (θ - gain for G diagrams) 14281 Setting for the gain multiplier of angle 2 (θ - gain for G diagrams) 14282 Setting for the gain multiplier of angle 3 (θ - gain for G diagrams) 14283 Settin...

  • Page 667

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 655 - 3rd axis: Angles 21.0 to 30.0 to 8th axis: Angles 71.0 to 75.0 Parameter 1st axis 2nd axis 3rd axis 4th axis 5th axis 6th axis 7th axis 8th axis14270 1.0 11.0 21.0 31.0 41.0 51.0 61.0 71.0 14271 2.0 12.0 22.0 32.0 42.0 52.0 62.0 72.0 14272 3.0 ...

  • Page 668

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 656 - Parameter 1st axis 2nd axis 3rd axis 4th axis 5th axis 6th axis 7th axis 8th axis 14283 845 1520 1945 2153 2119 2017 1896 1724 14284 922 1566 1971 2154 2109 2007 1880 1704 14285 999 1612 1997 2155 2099 1996 1864 - 14286 1076 1659 2022 2154 2089 ...

  • Page 669

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 657 - #7 #6 #5 #4 #3 #2 #1 #0 14500 [Input type] Parameter input [Data type] Bit 14501 to 14637 [Input type] Parameter input [Data type] Byte / 2-word / Real 4.139 PARAMETERS OF GRAPHIC DISPLAY (3 OF 5) 14706 Directions of the ...

  • Page 670

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 658 - 14714 Unit of horizontal movement when a movement is made with the dynamic graphic display function [Input type] Parameter input [Data type] Word [Valid data range] 0 to 255 This parameter sets the unit of horizontal movement (in dots) applied...

  • Page 671

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 659 - #0 ETH The embedded Ethernet function (a built-in port or PCMCIA LAN card) is: 0: Used. 1: Not used. NOTE When this parameter is set, the power must be turned off before operation is continued. #1 PCH At the start of communication of the FT...

  • Page 672

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 660 - #4 UNS In the CNC Unsolicited Messaging function of a built-in port, when the end of the function is requested by other than the CNC Unsolicited Messaging server currently connected: 0: The request for the end of the function is rejected. 1: The...

  • Page 673

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 661 - [Data type] Bit #0 IB1 Movement direction of group B (the first axis) 0: The direction of movement along the first axis of the group-B movement plane is the same as the direction of movement along the first axis on the group-A movement plane....

  • Page 674

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 662 - #0 NA1 Rectangle 1 in the group A which rotates according to the movement of rotary axes is specified. #1 NA2 Rectangle 2 in the group A which rotates according to the movement of rotary axes is specified. #2 NA3 Rectangle 3 in the group A...

  • Page 675

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 663 - #3 IDA2 Movement direction of group D (the second axis) 0: The direction of movement along the second axis of the group-D movement plane is the same as the direction of movement along the second axis on the group-A movement plane. 1: The direc...

  • Page 676

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 664 - [Data type] Word [Valid data range] 0 to the number of controlled axes or m×100+n (m:1 to the path number, n:1 to the number of controlled axes) Setting value 1 to 32 : controlled axes on own path 101 to 132 : controlled axes on path1 201 ...

  • Page 677

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 665 - Setting value 1 to 32 : controlled axes on own path 101 to 132 : controlled axes on path1 201 to 232 : controlled axes on path2 : 901 to 932 : controlled axes on path9 1001 to 1032 : controlled axes on path10 This parameter sets the a...

  • Page 678

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 666 - [Data type] Word [Valid data range] 0 to the number of controlled axes or m×100+n (m:1 to the path number, n:1 to the number of controlled axes) Setting value 1 to 32 : controlled axes on own path 101 to 132 : controlled axes on path1 201 ...

  • Page 679

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 667 - 14918 Axis number of the rotary axis on which group C is rotated [Input type] Parameter input [Data type] Word [Valid data range] 0 to the number of controlled axes or m×100+n (m:1 to the path number, n:1 to the number of controlled axes) Se...

  • Page 680

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 668 - These parameters set the maximum point and minimum point of rectangle area 1 of group A in the second axis. When a rotation axis is present (parameter No. 14912), set the distances from the machine zero point to the maximum and minimum points afte...

  • Page 681

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 669 - 14928 Maximum point of rectangle 3 of group A in the first axis 14929 Minimum point of rectangle 3 of group A in the first axis [Input type] Parameter input [Data type] Real [Unit of data] mm, inch(machine unit) [Min. unit of data] Depend o...

  • Page 682

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 670 - These parameters set the maximum point and minimum point of rectangle area 4 of group A in the first axis. When a rotation axis is present (parameter No. 14912), set the distances from the machine zero point to the maximum and minimum points after...

  • Page 683

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 671 - [Min. unit of data] Depend on the increment system of the reference axis in the first path [Valid data range] 9 digit of minimum unit of data(refer to standard parameter setting table(A)) (When the increment system is IS-B, -999999.999 to +999999....

  • Page 684

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 672 - [Min. unit of data] Depend on the increment system of the reference axis in the first path [Valid data range] 9 digit of minimum unit of data(refer to standard parameter setting table(A)) (When the increment system is IS-B, -999999.999 to +999999....

  • Page 685

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 673 - 14950 Maximum point of rectangle 3 of group B in the second axis 14951 Minimum point of rectangle 3 of group B in the second axis [Input type] Parameter input [Data type] Real [Unit of data] mm, inch(machine unit) [Min. unit of data] Depen...

  • Page 686

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 674 - These parameters set the maximum point and minimum point of rectangle area 4 of group B in the second axis. When a rotation axis is present (parameter No. 14915), set the distances from the machine zero point to the maximum and minimum points afte...

  • Page 687

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 675 - When a rotation axis is present (parameter No. 14918), set the distances from the machine zero point to the maximum and minimum points after the reference position return has been performed for the group-C movement axes with the rotation axis set ...

  • Page 688

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 676 - [Data type] Real [Unit of data] mm, inch (machine unit) [Min. unit of data] Depend on the increment system of the reference axis in the first path [Valid data range] 9 digit of minimum unit of data(refer to standard parameter setting table(A)) (...

  • Page 689

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 677 - [Min. unit of data] Depend on the increment system of the reference axis in the first path [Valid data range] 9 digit of minimum unit of data(refer to standard parameter setting table(A)) (When the increment system is IS-B, -999999.999 to +999999....

  • Page 690

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 678 - This parameter sets the coordinate value (reference angular displacement) of the rotation axis when rectangle areas of group C are set for the interference check function. If there is no relevant rotation axis, set 0. 4.142 PARAMETERS OF PERIODIC...

  • Page 691

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 679 - 14988 Magnification for periodical secondary pitch error compensation for each axis NOTE When this parameter is set, the power must be turned off before operation is continued. [Input type] Parameter input [Data type] Integer axis [Valid dat...

  • Page 692

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 680 - 18065 M code 1 that prohibits backward movement and is output as an M code 18066 M code 2 that prohibits backward movement and is output as an M code [Input type] Parameter input [Data type] Word path [Valid data range] 1 to 999 When an M c...

  • Page 693

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 681 - 4.144 PARAMETERS OF AI CONTOUR CONTROL (2 OF 2) #7 #6 #5 #4 #3 #2 #1 #0 19500 FCC FNW [Input type] Parameter input [Data type] Bit path #6 FNW When the feedrate is determined according to the feedrate difference and acceleration in ...

  • Page 694

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 682 - #0 HPF When a feedrate is determined based on acceleration in AI contour control, smooth feedrate control is: 0: Not used. 1: Used. #4 ZOL The deceleration function based on cutting load in AI contour control (deceleration based on Z-axis fal...

  • Page 695

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 683 - 19518 Block length in speed control with acceleration or smooth speed control and speed control with change of acceleration are invalidated [Input type] Parameter input [Data type] Real path [Unit of data] mm/min, inch/min, degree/min (input...

  • Page 696

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 684 - 19534 Limit for changing cylindrical interpolation cutting point compensation in a single block [Input type] Parameter input [Data type] Real path [Unit of data] mm, inch (input unit) [Min. unit of data] Depend on the increment system of the ...

  • Page 697

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 685 - #0 FAP Optimal torque acceleration/deceleration is: 0: Disabled. 1: Enabled. When the linear positioning parameters, namely bit 1 (LRP) of parameter No. 1401 and bit 0 (FAP) of parameter No. 19540, are set to 1, and a value other than 0 is set ...

  • Page 698

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 686 - The speeds at acceleration setting points P1 to P4 are to be set with speed parameters Nos. 19541 to 19544 as ratios to the rapid traverse speed (parameter No. 1420). The speed at P0 is 0, and the speed at P5 is the rapid traverse rate specified w...

  • Page 699

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 687 - 19565 Optimal torque acceleration/deceleration (acceleration at P2 during movement in - direction and deceleration) 19566 Optimal torque acceleration/deceleration (acceleration at P3 during movement in - direction and deceleration) 19567 Opti...

  • Page 700

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 688 - 19587 Tolerance of rotary axes for nano smoothing 2 [Input type] Setting input [Data type] Real axis [Unit of data] degree (input unit) [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] 0 or positive 9 ...

  • Page 701

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 689 - This parameter sets the angular difference used to determine whether to apply nano smoothing 2. At a point having a difference in angle greater than this setting, nano smoothing 2 is turned off. The angular difference means the angle between the d...

  • Page 702

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 690 - #5 NIC When the compensation plane is changed in 3-dimensional cutter compensation, the interference check is: 0: Performed. 1: Not performed. #7 TIT If, in a tool rotary type machine (parameter No. 19680 = 2), tool center point control and ...

  • Page 703

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 691 - Compensation vector Programmed path Tool center path Compensation Center Z Y Direction from compensation center to command end position Compensation VectorProgrammed path Tool center path Compensation center Z Y Direction from command end posi...

  • Page 704

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 692 - #7 #6 #5 #4 #3 #2 #1 #0 19608 HEL MIR PRI DET NI5 [Input type] Parameter input [Data type] Bit path #1 NI5 The interference check in 3-dimensional cutter compensation is performed by: 0: Projecting a look-ahead command position onto a ...

  • Page 705

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 693 - #1 CCT The cancellation of the G codes in group 08 is: 0: Specified by G49. 1: Able to be specified by G49.1 as well. If G49 is specified when cancellation using G49.1 is set, the G codes of group 08 are canceled. 19625 Number of blocks to be ...

  • Page 706

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 694 - (90-Δθ)≤θ≤(90+Δθ) θ = 90° Normally, set a value around 1.0. 19632 Distance from a programmed point (pivot point) to tool center point position (cutting point) [Input type] Parameter input [Data type] Real axis [Unit of data] mm,...

  • Page 707

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 695 - [Data type] Real path [Unit of data] deg [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) The interference check/avoidance...

  • Page 708

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 696 - # 0 TRD Reference angle of the tool nose rotation axis is 0: 0 degree. 1: 180 degree. # 1 SRD Direction of rotation of the swivel head axis is 0: Counterclockwise. 1: Clockwise. # 2 INW Amount of wear is 0: Taken into account in the offse...

  • Page 709

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 697 - [Example 2] The controlled axes include only the linear axes X, Y, and Z. By using the tool attachment, the tool axis is tilted in the same tool axis direction as when the A- and C-axes are rotated. Bit 0 (RAM) of parameter No. 19650Bit 1 (RAP) ...

  • Page 710

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 698 - A- and B-axes (The tool axis is the Z-axis and the B-axis is the master.) A- and B-axes (The tool axis is the Z-axis and the A-axis is the master.) Center of rotation Center of rotation Tool axis directionTool axis directionWorkpieceWorkpiece Ex...

  • Page 711

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 699 - [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is IS-B, -999999.999 to +999999.999) An offset can be applied to the angular displacement for the tool axis direction to...

  • Page 712

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 700 - Bit 5 (SVC) of parameter No. 19665 Bit 4 (SPR) of parameter No. 19665 Shift of controlled point 1 0 The controlled point is shifted according to the result of the following automatic calculation: - (Intersection offset vector between the tool axis...

  • Page 713

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 701 - Set an offset value (tool holder offset value) specific to the machine from the control point to the tool attachment position in tool length compensation (after specification of G53.1 in the tilted working plane indexing mode), tool length compens...

  • Page 714

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 702 - NOTE A hypothetical axis is also counted as a controlled rotary axis. <Hypothetical axis> In some cases, it is convenient to use an imaginary rotary axis whose angle is fixed to a certain value. For example, suppose that a tool is mounted...

  • Page 715

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 703 - YZX231 Parameter No.19682 19683 Inclination angle when the first rotation axis is an inclined axis [Input type] Parameter input [Data type] Real path [Unit of data] Degree [Min. unit of data] The increment system of the reference axis is t...

  • Page 716

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 704 - 0: Clockwise direction as viewed from the negative to positive direction of the axis specified in parameter No. 19682 (right-hand thread rotation) 1: Counterclockwise direction as viewed from the negative to positive direction of the axis specifie...

  • Page 717

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 705 - If parameter No. 19687 is set to a value 1 to 3, set 0 degrees. If parameter No. 19687 is set to a value 4 to 6, set the inclination angle. 19689 Rotation direction of the second rotation axis [Input type] Parameter input [Data type] Byte pat...

  • Page 718

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 706 - 6: On Z-axis tilted a certain angle from the positive direction of Z-axis to the positive direction of X-axis (Values 4 to 6 are to be set when the inclined rotation axis control function is used.) When the third rotation axis is the slave axis, t...

  • Page 719

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 707 - Set the tool axis direction in the machine coordinate system when the rotation axes for controlling the tool are all at 0 degrees. Also, set the tool axis direction in the machine coordinate system in a mechanism in which only the rotation axes fo...

  • Page 720

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 708 - Tool axis direction when the reference tool axis direction is Z-axis RAX Y Z XYZRBX ZTool holder offset Tool length offsetY 19700 Rotary table position (X-axis of the basic three axes) 19701 Rotary table position (Y-axis of the basic three a...

  • Page 721

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 709 - 19703 Intersection offset vector between the first and second rotation axes of the table (X-axis of the basic three axes) 19704 Intersection offset vector between the first and second rotation axes of the table (Y-axis of the basic three axes) ...

  • Page 722

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 710 - If parameter No. 19680 is 21, set the vector from point D on the tool axis to point E determined on the tool rotation axis as the intersection offset vector in the machine coordinate system when the rotation axes for controlling the tool are all a...

  • Page 723

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 711 - When tool axis and tool rotary axis do not intersect Tool length offsetTool holder offset Intersection offset vector between tool axis and second rotary axis of tool D E Tool center point Controlled point Second rotary axis of tool F First rotary...

  • Page 724

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 712 - When an appropriate value is set in parameter No. 19738 in tool posture control for tool center point control (type 2), a tool posture near the singular point may occur during the execution of a block. If this happens, change the tool posture at t...

  • Page 725

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 713 - 19744 Lower limit of the movement range of the second rotation axis [Input type] Parameter input [Data type] Real path [Unit of data] Degree [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit o...

  • Page 726

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 714 - [Min. unit of data] Depend on the increment system of the reference axis [Valid data range] 9 digit of minimum unit of data (refer to standard parameter setting table (A)) (When the increment system is IS-B, -999999.999 to +999999.999) This param...

  • Page 727

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 715 - #4 TCR In speed determination using the speed difference at a corner in AI contour control, permissible speed difference parameter No. 19761 for rapid traverse in tool center point control is: 0: Disabled. 1: Enabled. #5 INZ If, in tool cente...

  • Page 728

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 716 - [Min. unit of data] Depend on the increment system of the applied axis [Valid data range] Refer to the standard parameter setting table (C) (When the increment system is IS-B, 0.0 to +240000.0) If, in rapid traverse during tool center point contro...

  • Page 729

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 717 - The slave is a generic term for servo amplifiers, spindle amplifiers and separate detector interface units connected via an FSSB optical cable to the CNC. Numbers 1 to 32 are assigned to slaves, with younger numbers sequentially assigned to slaves...

  • Page 730

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 718 - Example of axis configuration and parameter settings - Example 1 Typical setting Spindle number 110012100231003410045100573001810069300211 to 321000Slave numberATRNo.24000 -24031X A Y Z B (M1) C (M2) (None) Axis 1 X 1 2 Y 3 3 Z 4 4 A 2 5 B 5 6 ...

  • Page 731

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 719 - - Example 2 Setting with a dummy axis in use Example of axis configuration and parameter settings when the electronic gear box (EGB) function is used (EGB slave axis: A-axis, EGB dummy axis: B-axis) 11001210023100341005510066300173002810041000Sl...

  • Page 732

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 720 - 24064 ATR value corresponding to slave 01 on third FSSB line 24065 ATR value corresponding to slave 02 on third FSSB line to to 24095 ATR value corresponding to slave 32 on third FSSB line NOTE When these parameters are set, the power must ...

  • Page 733

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 721 - Correspondence between connectors and connector numbers Connector Connector number JF104 4 JF105 5 JF106 6 JF107 7 JF108 8 (Setting example) Connector to which each separate detector interface unit is attached Parameter setting Controlled axis 1s...

  • Page 734

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 722 - 24136 ATR value corresponding to connector 2 on the fifth separate detector interface unit to to 24143 ATR value corresponding to connector 8 on the fifth separate detector interface unit 24144 ATR value corresponding to connector 1 on the si...

  • Page 735

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 723 - 24192 ATR value corresponding to connector 1 on the twelfth separate detector interface unit to to 24199 ATR value corresponding to connector 8 on the twelfth separate detector interface unit NOTE When these parameters are set, the power must...

  • Page 736

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 724 - [Valid data range] 0 to the maximum number of spindles In FSSB high-speed rigid tapping, set the index number of spindle axis that synchronizes to servo axis. NOTE 1 When the parameter FHR (Bit 0 of No.24203) is 1, this parameter is enabled. 2 F...

  • Page 737

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 725 - NOTE 3 When a PMC path number is set, 1 is set as the initial value in the address type (Nos. 12801 to 12820) corresponding to that signal, and 0 is set as the initial value in the address number (Nos. 12841 to 12860) and the bit number (Nos. 1288...

  • Page 738

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 726 - State before G81.1 command The first dead pointFirst command of oscillation motion after the power is turned on or in the state of reset. In the state that command of cancel was specified on the way to lower dead point at last oscillation motion....

  • Page 739

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 727 - It is the acceleration rate of starting motion (from point R to center point between upper and lower dead points) or cancel motion. Moreover, when override is changed during oscillation motion, the acceleration/ deceleration is set by this paramet...

  • Page 740

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 728 - 25861 Rotation axis for performing spindle unit compensation/tool length compensation (1st set) 25862 Linear axis 1 for performing spindle unit compensation/tool length compensation (1st set) 25863 Linear axis 2 for performing spindle unit co...

  • Page 741

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 729 - 25880 Reference angle of the rotation axis for performing spindle unit compensation (1st set) 25881 Reference angle of the rotation axis for performing spindle unit compensation (2nd set) 25882 Compensation amount of the rotation axis for per...

  • Page 742

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 730 - #0 GTP When a general-purpose tool is drawn in animated simulation, the tip is: 0: Positioned on the front. 1: Positioned on the rear. Front RearTip HolderHolder 27351 Cutting edge length applied when a general-purpose tool is drawn in animat...

  • Page 743

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 731 - When 0 is set, 50 mm for metric input or 1.9685 inch for inch input is assumed. 27353 Holder width applied when a general-purpose tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (me...

  • Page 744

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 732 - Holder width 2 Tip HolderHolder width #7 #6 #5 #4 #3 #2 #1 #0 27356 TTP [Input type] Parameter input [Data type] Bit #0 TTP When a threading tool is drawn in animated simulation, the tip is: 0: Positioned on the front. 1: Positio...

  • Page 745

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 733 - [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data range] 0 or larger This parameter sets the holder length applied when a threading tool is drawn in animated simulation. Holder lengthTip Holder When ...

  • Page 746

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 734 - Front RearTip HolderHolder 27361 Holder length applied when a groove cutting tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data rang...

  • Page 747

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 735 - #7 #6 #5 #4 #3 #2 #1 #0 27363 BTP [Input type] Parameter input [Data type] Bit #0 BTP When a round-nose tool is drawn in animated simulation, the tip is: 0: Positioned on the front. 1: Positioned on the rear. Front RearTip HolderH...

  • Page 748

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 736 - Holder width Tip Holder When 0 is set, 14 mm for metric input or 0.5512 inch for inch input is assumed. #7 #6 #5 #4 #3 #2 #1 #0 27366 STP [Input type] Parameter input [Data type] Bit #0 STP When a point nose straight tool is draw...

  • Page 749

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 737 - 27368 Holder length applied when a point nose straight tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data range] 0 or larger This par...

  • Page 750

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 738 - Holder length 2 Tip Holder 27371 Holder width 2 applied when a point nose straight tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid dat...

  • Page 751

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 739 - [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data range] 0 or larger This parameter sets the length of cut applied when a flat end milling cutter is drawn in animated simulation. Length of cut When 0 is set, 50 mm for ...

  • Page 752

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 740 - Included angle 27376 Length of cut applied when a chamfering tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data range] 0 or larger T...

  • Page 753

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 741 - 27378 Shank length applied when a chamfering tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data range] 0 or larger This parameter set...

  • Page 754

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 742 - Length of cut When 0 is set, 50 mm for metric input or 1.9685 inch for inch input is assumed. 27381 Length of cut applied when a reamer is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm ...

  • Page 755

    B-64490EN/03 4.DESCRIPTION OF PARAMETERS - 743 - 27383 Length of cut applied when a face milling cutter is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [Unit of data] 0.001mm (metric input), 0.0001inch (inch input) [Valid data range] 0 or larger This paramete...

  • Page 756

    4.DESCRIPTION OF PARAMETERS B-64490EN/03 - 744 - Holder length Tip Holder When 0 is set, 50 mm for metric input or 1.9685 inch for inch input is assumed. 27386 Holder width applied when a multifunction tool is drawn in animated simulation [Input type] Parameter input [Data type] 2-word [U...

  • Page 757

    APPENDIX

  • Page 758

  • Page 759

    B-64490EN/03 APPENDIX A.CHARACTER CODE LIST - 747 - A CHARACTER CODE LIST Character Code Comment CharacterCodeComment A 065 6 054 B 066 7 055 C 067 8 056 D 068 9 057 E 069 032 Space F 070 ! 033 Exclamation mark G 071 ” 034 Quotation marks H 072 # 035 Sharp I 073 $ 036 Dollar mark ...

  • Page 760

  • Page 761

    B-64490EN/03 INDEX i-1 INDEX <Number> 3-DIMENSIONAL ERROR COMPENSATION.........475 3-DIMENSIONAL MACHINE POSITION COMPENSATION...................................................477 5-AXIS MACHINING FUNCTION ............................696 <A> ACCELERATION/DECELERATION CONTROL ......7...

  • Page 762

    INDEX B-64490EN/03 i-2 INPUTTING AND OUTPUTTING PARAMETERS THROUGH THE RS232C INTERFACE.....................4 INPUTTING PARAMETERS THROUGH THE RS232C INTERFACE..................................................5 INTERFERENCE CHECK BETWEEN PATHS.........414 INVOLUTE INTERPOLATION ...................

  • Page 763

    B-64490EN/03 INDEX i-3 SYNCHRONOUS/COMPOSITE CONTROL AND SUPERIMPOSED CONTROL (1 OF 3)..................418 SYNCHRONOUS/COMPOSITE CONTROL AND SUPERIMPOSED CONTROL (2 OF 3)..................538 SYNCHRONOUS/COMPOSITE CONTROL AND SUPERIMPOSED CONTROL (3 OF 3)..................611 SYSTEM CONFIGURATI...

  • Page 764

  • Page 765

    B-64490EN/03 REVISION RECORD r-1 REVISION RECORD Edition Date Contents 03 Aug., 2011 • Addition of following items - Input type - Parameters of arbitrary speed threading - Parameters of high precision oscillation function • Correction of errors 02 Oct., 2010 • Addition of following item...

  • Page 766

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