Programming manual
412
CNC 8070
14.
CNC VARIABLES
Alphabetical listing of variables
(SOFT V02.0X)
404
(V.)[n].A.SYNCVELOFF.Xn Velocity offset for synchronization ............................................................ Page 396
(V.)[n].A.SYNCVELW.Xn Maximum velocity difference to start correcting it..................................... Page 396
(V.)[n].A.TACCEL.Xn Theoretical instantaneous acceleration value .......................................... Page 399
(V.)[n].A.TFEED.Xn Theoretical instantaneous feedrate value................................................. Page 399
(V.)[n].A.TFILTOUT.Xn Output of the pre-load filter....................................................................... Page 399
(V.)[n].A.TIPPOS.Xn Machine coordinates. Real of the tool tip ................................................. Page 387
(V.)[n].A.TIPTPOS.Xn Machine coordinates. Theoretical of the tool tip ....................................... Page 387
(V.)[n].A.TJERK.Xn Theoretical instantaneous jerk value ........................................................ Page 399
(V.)[n].A.TOFL.Xn Deviation of the active offset on the Xn axis............................................. Page 383
(V.)[n].A.TOFLW.Xn Deviation of the active wear offset on the Xn axis .................................... Page 383
(V.)[n].A.TOFLW.Xn Wear offset of the tool in the first axis of the channel............................... Page 382
(V.)[n].A.TOFLW.Xn Wear offset of the tool in the first axis of the channel............................... Page 383
(V.)[n].A.TORQUE.Xn Current torque in Sercos .......................................................................... Page 399
(V.)[n].A.TPIIN.Xn Input of the PI of the master axis of the tandem (in rpm) ......................... Page 399
(V.)[n].A.TPIOUT.Xn Output of the PI of the master axis of the tandem (in rpm) ...................... Page 399
(V.)[n].A.TPOS.Sn Theoretical spindle position ...................................................................... Page 388
(V.)[n].A.TPOS.Xn Machine coordinates. Theoretical of the tool base ................................... Page 387
(V.)[n].A.TPOSINC.Xn Theoretical position increment of the current sampling period................. Page 399
(V.)[n].G.ACS Number of the active ACS function .......................................................... Page 394
(V.)[n].G.ACTIVPROBE Number of the active probe ...................................................................... Page 393
(V.)[n].G.AXIS Number of axes of the channel................................................................. Page 397
(V.)[n].G.AXISCH Name the axes of the channel .................................................................. Page 397
(V.)[n].G.AXISNAMEx Name of the "x" axis of the channel.......................................................... Page 397
(V.)[n].G.BLKN Last block executed (number) .................................................................. Page 402
(V.)[n].G.BLKSKIP Block skip function ( \ ) activated .............................................................. Page 401
(V.)[n].G.CIRERR[i] Arc center correction ................................................................................ Page 392
(V.)[n].G.CNCFRO % F at the selector switch......................................................................... Page 389
(V.)[n].G.CNCHANNEL Channel number....................................................................................... Page 402
(V.)[n].G.CS Number of the active CS function............................................................. Page 394
(V.)[n].G.CSMAT1 Die resulting from the incline plane. Element row 1 column 1.................. Page 394
(V.)[n].G.CSMAT10 Offset of the current coordinate system referred to machine zero on the first axis
Page 394
(V.)[n].G.CSMAT11 Offset of the current coordinate system referred to machine zero on the second axis
Page 394
(V.)[n].G.CSMAT12 Offset of the current coordinate system referred to machine zero on the third axis
Page 394
(V.)[n].G.CSMAT2 Die resulting from the incline plane. Element row 1 column 2.................. Page 394
(V.)[n].G.CSMAT3 Die resulting from the incline plane. Element row 1 column 3.................. Page 394
(V.)[n].G.CSMAT4 Die resulting from the incline plane. Element row 2 column 1.................. Page 394
(V.)[n].G.CSMAT5 Die resulting from the incline plane. Element row 2 column 2.................. Page 394
(V.)[n].G.CSMAT6 Die resulting from the incline plane. Element row 2 column 3.................. Page 394
(V.)[n].G.CSMAT7 Die resulting from the incline plane. Element row 3 column 1.................. Page 394
(V.)[n].G.CSMAT8 Die resulting from the incline plane. Element row 3 column 2.................. Page 394
(V.)[n].G.CSMAT9 Die resulting from the incline plane. Element row 3 column 3.................. Page 394
(V.)[n].G.CYTIME Part-program execution time (in hundredths of a second)........................ Page 401
(V.)[n].G.FEED Active feedrate in G94 .............................................................................. Page 389
(V.)[n].G.FILENAME Name of the program in execution............................................................ Page 402
(V.)[n].G.FILEOFFSET Position occupied by the line in execution ................................................ Page 402
(V.)[n].G.FIRST First time a program is executed .............................................................. Page 401
(V.)[n].G.FIX Number of current fixture.......................................................................... Page 380
(V.)[n].G.FMAN JOG feedrate in G94 ................................................................................ Page 386
(V.)[n].G.FPREV Active feedrate in G95 .............................................................................. Page 389
(V.)[n].G.FREAL Real CNC feedrate ................................................................................... Page 389
(V.)[n].G.FRO % F active at the CNC .............................................................................. Page 389
(V.)[n].G.FULLSTATUS CNC status (detailed) ............................................................................... Page 400
(V.)[n].G.GS[i] Status of the requested "G" function ........................................................ Page 391
(V.)[n].G.GUP[i] Value of the global arithmetic parameter [i] .............................................. Page 380
(V.)[n].G.GUPF[i] Value of the global arithmetic parameter [i]. Value per 10000 .................. Page 380
(V.)[n].G.HGS History of "G" functions to be displayed ................................................... Page 391
(V.)[n].G.HGS1..10 Status of the requested "G" (32 bit) functions .......................................... Page 391
(V.)[n].G.HMS History of "M" functions of the master spindle to be displayed................. Page 391
(V.)[n].G.HMSi History of "M" functions of the "i" spindle to be displayed ........................ Page 391
(V.)[n].G.I/J/K Arc center coordinates (I, J, K) ................................................................. Page 392
(V.)[n].G.IBUSY An independent axis is in execution ......................................................... Page 396
(V.)[n].G.INTMAN Movements in jog mode are allowed ........................................................ Page 402
(V.)[n].G.LINKACTIVE Slaving status ........................................................................................... Page 392
(V.)[n].G.LONGAX Longitudinal axis....................................................................................... Page 398
(V.)[n].G.LUPACT[i] Value of local arithmetic parameter [i] active level.................................... Page 380
(V.)[n].G.LUPm[i] Value of local arithmetic parameter [i] of m level ...................................... Page 380
(V.)[n].G.LUPmF[i] Value of local arithmetic parameter [i] of m level. Value per 1000 ............ Page 380
(V.)[n].G.M01STOP Conditional stop function (M01) activated ................................................ Page 401
(V.)[n].G.MANFPR JOG feedrate in G95 ................................................................................ Page 386
(V.)[n].G.MASTERSP Master spindle of the channel .................................................................. Page 397
(V.)[n].G.MEETCH[i] MEET type mark expected by the [n] channel of the [i] channel .............. Page 394
(V.)[n].G.MEETST[i] Status of the MEET type [i] mark in the [n] channel ................................. Page 394
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