RTC
®
5 PC Interface Board
Rev. 1.9 e
10 Commands And Functions
374
Normal
List Command
para_jump_rel_3d
Function moves the output point (of the laser focus) along a 3D vector at jump speed from the
current position to the specified position (relative coordinate values) within a three-
dimensional process volume and, simultaneously as well as linearly, changes the signal
parameter selected via set_vector_control to the specified value.
Restriction If the 3D option is not enabled or no 3D correction table has been assigned (see
select_cor_table), then the command will have the same effect as para_jump_rel.
However, microvectorization will be calculated like a 3D command and hence will
influence the effective jump speed in the XY plane.
Call
para_jump_rel_3d( dX, dY, dZ, P )
Parameters
dX,dY,dZ
relative coordinates of the jump vector end point in bits as signed 32-bit
values; allowed range:
•for
X
and
Y
: [–8388608 … 8388607] (out-of-range values will be edge-
clipped). The complete value range [–8388608 … 8388607] is only usable
as a virtual image field e.g. for (enabled) Processing-on-the-fly applica-
tions. The current coordinates will be clipped to [–524288 … 524287] (real
image field size) during runtime directly prior to use of the correction table.
•for
Z
: [–32768 … 32767] (out-of-range values will be edge-clipped).
P
End value of the signal parameter as an unsigned 32-bit value; allowed range:
dependent on the selection made via set_vector_control (
Ctrl
parameter),
identical with set_vector_control (
Value
parameter)
Comments • The coordinates for the jump vector’s end point are to be supplied as relative coordi-
nates with respect to the current position. Otherwise, the command is identical to
para_jump_abs_3d (see the comments there).
•
P
will not be treated on a relative basis.
RTC
®
4
RTC
®
5 new command
In RTC
®
4 compatibility mode, the RTC
®
5 multiplies the specified value for the X and Y
coordinates by 16 (the permissible range of values is correspondingly reduced). The value
range for Z coordinates is identical for the RTC
®
5 and RTC
®
4.
The parameter
P
does not have a RTC
®
4 compatibility mode. The original RTC
®
5 units
must be used.
References jump_rel_3d, set_vector_control, para_jump_abs_3d, para_jump_rel
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