Programming manual
412
CNC 8070
14.
CNC VARIABLES
Alphabetical listing of variables
(SOFT V02.0X)
406
(V.)[n].G.TOTP3 Additional parameter 3 of the active tool .................................................. Page 383
(V.)[n].G.TOTP4 Additional parameter 4 of the active tool .................................................. Page 383
(V.)[n].G.TOWTIPR Tip radius wear of the offset being prepared ........................................... Page 383
(V.)[n].G.TSTATUS Status of the tool being prepared ............................................................. Page 383
(V.)[n].G.WAITCH[i] WAIT type mark expected by the [n] channel from the [i] channel ........... Page 394
(V.)[n].G.WAITST[i] Status of the WAIT type [i] mark in the [n] channel .................................. Page 394
(V.)[n].MPA.ABSFEEDBACK[g].XnAbsolute feedback system .................................................................... Page 371
(V.)[n].MPA.ABSOFF[g].Xn Offset with respect to coded ref. mark...................................................... Page 372
(V.)[n].MPA.ACCEL[g].Xn Acceleration.............................................................................................. Page 372
(V.)[n].MPA.ACCJERK[g].Xn Acceleration Jerk...................................................................................... Page 372
(V.)[n].MPA.ACFGAIN[g].Xn Percentage AC-Forward in automatic....................................................... Page 372
(V.)[n].MPA.ACFWFACTOR[g].XnAcceleration time constant...................................................................... Page 372
(V.)[n].MPA.ACTBAKAN[g].Xn Application of the additional velocity command pulse .............................. Page 371
(V.)[n].MPA.ANAOUTID[g].Xn Analog output of the axis.......................................................................... Page 373
(V.)[n].MPA.AUTOGEAR.Xn Automatic gear change............................................................................. Page 369
(V.)[n].MPA.AXISCH[g].Xn Feedback sign change ............................................................................. Page 371
(V.)[n].MPA.AXISEXCH Channel change permission..................................................................... Page 368
(V.)[n].MPA.AXISMODE.Xn Work mode ............................................................................................... Page 368
(V.)[n].MPA.AXISTYPE.Xn Type of axis............................................................................................... Page 368
(V.)[n].MPA.BACKLASH[g].Xn Backlash ................................................................................................... Page 371
(V.)[n].MPA.BAKANOUT[g].Xn Additional velocity command pulse .......................................................... Page 371
(V.)[n].MPA.BAKTIME[g].Xn Duration of the additional velocity command pulse .................................. Page 371
(V.)[n].MPA.BIDIR.Xn Bi-directional compensation .................................................................... Page 370
(V.)[n].MPA.CAXIS.Xn Works as a "C" axis .................................................................................. Page 368
(V.)[n].MPA.CAXSET.Xn Work set for "C" axis................................................................................. Page 368
(V.)[n].MPA.COUNTERID[g].Xn Feedback input for the axis....................................................................... Page 373
(V.)[n].MPA.DECEL[g].Xn Deceleration ............................................................................................. Page 372
(V.)[n].MPA.DECINPUT.Xn Home switch ............................................................................................. Page 369
(V.)[n].MPA.DECJERK[g].Xn Deceleration Jerk ..................................................................................... Page 372
(V.)[n].MPA.DEFAULTSET.Xn Default work set (on power-up) ................................................................ Page 370
(V.)[n].MPA.DIAMPROG.Xn Programming in diameters ....................................................................... Page 369
(V.)[n].MPA.DISTLUBRI[g].Xn Distance for lubrication pulse ................................................................... Page 372
(V.)[n].MPA.DRIVEID.Xn Sercos drive select (ID) ............................................................................ Page 368
(V.)[n].MPA.DRIVETYPE.Xn Type of drive ............................................................................................. Page 368
(V.)[n].MPA.DSYNCPOSW.Xn Position synchronization window .............................................................. Page 369
(V.)[n].MPA.DSYNCVELW.Xn Velocity synchronization window .............................................................. Page 369
(V.)[n].MPA.DWELL.Xn Dwell for dead axes .................................................................................. Page 369
(V.)[n].MPA.ESTDELAY[g].Xn Following error delay ................................................................................ Page 372
(V.)[n].MPA.EXTMULT[g].Xn External factor for distance-coded mark................................................... Page 372
(V.)[n].MPA.FACEAXIS.Xn Face axis .................................................................................................. Page 368
(V.)[n].MPA.FBACKAL[g] Feedback alarm activation........................................................................ Page 371
(V.)[n].MPA.FBACKSRC.Xn Type of axis............................................................................................... Page 368
(V.)[n].MPA.FEDYNFAC[g].Xn % of following error deviation.................................................................... Page 372
(V.)[n].MPA.FFGAIN[g].Xn Percentage of Feed-Forward in automatic................................................ Page 372
(V.)[n].MPA.FFWTYPE[g].Xn Pre-control (feed-forward) type................................................................. Page 372
(V.)[n].MPA.FLWEMONITOR[g].XnMonitoring type ..................................................................................... Page 372
(V.)[n].MPA.FREQUENCY[i].Xn Break or center frequency ........................................................................ Page 370
(V.)[n].MPA.G00FEED[g].Xn Feedrate in G00........................................................................................ Page 371
(V.)[n].MPA.HIRTH.Xn Hirth axis ................................................................................................. Page 368
(V.)[n].MPA.HPITCH.Xn Hirth axis pitch.......................................................................................... Page 368
(V.)[n].MPA.I0CODDI1[g].Xn Pitch between 2 fixed coded marks.......................................................... Page 372
(V.)[n].MPA.I0CODDI2[g].Xn Pitch between 2 variable coded marks..................................................... Page 372
(V.)[n].MPA.I0TYPE[g].Xn Reference mark (I0) type.......................................................................... Page 372
(V.)[n].MPA.INCJOGDIST[i].Xn Moving distance at [i] dial position............................................................ Page 370
(V.)[n].MPA.INCJOGFEED[i].Xn Feedrate at [i] position .............................................................................. Page 370
(V.)[n].MPA.INPOMAX[g].Xn Time to get in position .............................................................................. Page 372
(V.)[n].MPA.INPOSW[g].Xn In-position zone ........................................................................................ Page 371
(V.)[n].MPA.INPOTIME[g].Xn Minimum time to stay in position .............................................................. Page 372
(V.)[n].MPA.INPUTREV[g].Xn Turns of the motor shaft............................................................................ Page 371
(V.)[n].MPA.INPUTREV2[g].Xn Turns of the motor shaft (2nd feedback)................................................... Page 371
(V.)[n].MPA.IPOACCP.Xn Maximum % of execution acceleration with G201 .................................... Page 370
(V.)[n].MPA.IPOFEEDP.Xn Maximum % of execution feedrate with G201 .......................................... Page 370
(V.)[n].MPA.JOGFEED.Xn Continuous JOG mode feedrate............................................................... Page 370
(V.)[n].MPA.JOGRAPFEED.Xn Rapid feed in continuous JOG mode........................................................ Page 370
(V.)[n].MPA.LACC1[g].Xn Acceleration of the first section................................................................. Page 372
(V.)[n].MPA.LACC2[g].Xn Acceleration of the second section........................................................... Page 372
(V.)[n].MPA.LFEED[g].Xn Change speed .......................................................................................... Page 372
(V.)[n].MPA.LONGAXIS.Xn Longitudinal axis....................................................................................... Page 368
(V.)[n].MPA.LOOPCH[g].Xn Analog voltage sign change ..................................................................... Page 371
(V.)[n].MPA.LOSPDLIM.Xn Lower "rpm OK" percentage..................................................................... Page 369
(V.)[n].MPA.LSCRWCOMP.Xn Leadscrew error compensation ................................................................ Page 370
(V.)[n].MPA.MANACCP.Xn Maximum % of jog acceleration with G201 .............................................. Page 370
(V.)[n].MPA.MANACFGAIN[g].XnPercentage of AC-Forward in JOG .......................................................... Page 372
(V.)[n].MPA.MANFEEDP.Xn Maximum % of jog feedrate with G201..................................................... Page 370
(V.)[n].MPA.MANFFGAIN[g].Xn Percentage of Feed-Forward in JOG........................................................ Page 372
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