ADLINK PCI-8164 User Manual

Function Library

167

Circular Interpolation Motion Section 6.8

Function Name

Description

_8164_start_a_arc_xy

Begin an absolute circular interpolation for X & Y

_8164_start_r_arc_xy

Begin a relative circular interpolation for X & Y

_8164_start_a_arc_zu

Begin an absolute circular interpolation for Z & U

_8164_start_r_arc_zu

Begin a relative circular interpolation for Z & U

_8164_start_a_arc2

Begin an absolute circular interpolation for any 2 of
the 4 axes

_8164_start_r_arc2

Begin a relative circular interpolation for any 2 of the
4 axes

_8164_start_tr_arc_xyu

Begin a t-curve relative arc with U axis sync.

_8164_start_ta_arc_xyu

Begin a t-curve absolute arc with U axis sync.

_8164_start_sr_arc_xyu

Begin a s-curve relative arc with U axis sync

_8164_start_sa_arc_xyu

Begin a s-curve absolute arc with U axis sync

_8164_start_tr_arc_xy

Begin a t-curve relative circular interpolation for X & Y

_8164_start_ta_arc_xy

Begin a t-curve absolute circular interpolation for X &
Y

_8164_start_sr_arc_xy

Begin a s-curve relative circular interpolation for X &
Y

_8164_start_sa_arc_xy

Begin a s-curve absolute circular interpolation for X &
Y

_8164_start_tr_arc_zu

Begin a t-curve relative circular interpolation for Z & U

_8164_start_ta_arc_zu

Begin a t-curve absolute circular interpolation for Z &
U

_8164_start_sr_arc_zu

Begin a s-curve relative circular interpolation for Z &
U

_8164_start_sa_arc_zu

Begin a s-curve absolute circular interpolation for Z &
U

_8164_start_tr_arc2

Begin a t-curve relative circular interpolation for any 2
of the 4 axes

_8164_start_ta_arc2

Begin a t-curve absolute circular interpolation for any
2 of the 4 axes

_8164_start_sr_arc2

Begin a s-curve relative circular interpolation for any
2 of the 4 axes

_8164_start_sa_arc2

Begin a s-curve absolute circular interpolation for any
2 of the 4 axes