Bit 4: Feedrate disable (exception for MD30460 $MA_BASE_FUNCTION_MASK bit6)
For bit 4 feed disable, it must be taken into account that a PLC-controlled axis,
for which MD30460
$MA_BASE_FUNCTION_MASK bit 6 = 1, is not stopped by the feed disable,
and that no interruption and no cancellation are triggered here.
Bit 5: Feedrate override
Bit 6: Rapid traverse override
Bit 7: Feedrate stop, geometry axis or CP-SW limit stop or stop by an OEM application
Bit 8 = 0:
The maximum feedrate for handwheel travel of geometry axes is that specified in
machine data JOG_AX_VELO for the corresponding machine axis/axes.
Bit 8 = 1:
The maximum feedrate for handwheel travel of geometry axes is that specified in
machine data MAX_AX_VELO for the corresponding machine axis/axes.
Bit 9 = 0:
The override is active during handwheel travel of geometry axes.
Bit 9 = 1:
During handwheel travel of geometry axes, the override is assumed to be 100%
irrespective of the position of the override switch.
Exception: override 0, which is always active.
Bit 10 = 0:
MD11310 $MN_HANDWH_REVERSE is not active for DRF, i.e. handwheel travel with DRF is
carried out as if MD11310 $MN_HANDWH_REVERSE = 0.
Bit 10 = 1:
MD11310 $MN_HANDWH_REVERSE is active for DRF.
Bit 11 = 0:
When the contour handwheel is deselected, program processing is continued
automatically.
Bit 11 = 1:
When the contour handwheel is deselected, an NCSTOP is triggered automatically.
Program processing is not continued until NCSTART is entered.
Bit 12 = 0:
NC start has no effect on handwheel travel.
Bit 12 = 1:
The previously collected paths are rejected at NC start.
Bit 13 = 0:
For DRF, bits 0 - 3 and bit 12: bit = 0 / bit = 1 are active (see above).
Bit 13 = 1:
For DRF, bits 0 - 3 and bit 12 are NOT active: the DRF motion is not interrupted by a
stop,
and a
DRF motion can take place even in "Automatic interrupted" state (achieved
by NC Stop).
Note:
If an alarm leads to an axis stop and if such an alarm is pending, no DRF motion
can take place.
Bit 14 = 0:
The maximum feedrate for handwheel travel of geometry axes is that specified in
SD41120 $SN_JOG_REV_SET_VELO or in MD32050 $MA_JOG_REV_VELO (for revolutional
feedrate) or in MD32040 $MA_JOG_REV_VELO_RAPID (for rapid traverse) for the
corresponding machine axis, the spindle or rotary axis feedrate is included in the
calculation.
Bit 14 = 1:
The maximum rotational feedrate for handwheel travel of geometry axes is the feedrate
specified
in MD32000 $MA_MAX_AX_VELO for the corresponding machine axis (see also bit
6).
Machine data
3.3 Channel-specific machine data
Parameter Manual
Parameter Manual, 08/2015, 6FC5397-8EP40-0BA1 157
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