E L C O p e r a t i o n M a n u a l
F o r m o r e i nf o r m a t i o n v i sit :
w w w. e a t o n . c o m
MN05003006E
4-14
generated.
b[6] = 1: negative logic enabled. When LSP input signal is Off, LPS signal will be
generated.
5.
LSN input polarity is set in b7 of CR#5.
b[7] = 0: positive logic enabled. When LSN input signal is On, LSN signal will be
generated.
b[7] = 1: negative logic enabled. When LSN input signal is Off, LSN signal will be
generated.
6.
The direction of zero return is set in b8 of CR#5.
b[8] = 0: decreasing CP value towards zero
b[8] = 1: increasing CP value towards zero
7.
The rotation direction is set in b9 of CR#5.
b[9] = 0: CP value increasing
b[9] = 1: CP value decreasing
8.
The DOG triggering mode is set in b10 of CR#5.
b[10] = 0: triggering rising-edge
b[10] = 1: triggering falling-edge (valid in interrupt single-speed position mode and
interrupt 2-speed positioning mode)
9.
The DOG polarity is set in b11 of CR#5.
b[11] = 0: positive logic enabled. When DOG input signal is On, DOG signal will be
generated.
b[11] = 1: negative logic enabled. When DOG input signal is Off, DOG signal will be
generated.
10. The type of acceleration curve is set in b12 of CR#5.
b[12] = 0: trapezoid acceleration curve
b[12] = 1, S acceleration curve
11. The START response time is set in b13 of CR#5.
b[13] = 0: 4m
b[13] = 1: 12ms (with input noise filter)
12. The START input polarity is set in b14 of CR#5.
b[14] = 0: positive logic enable. When START input signal is On, the output will be
enabled.
b[14] = 1: negative logic enabled. When START input signal is Off, the output will be
enabled.
13. The STOP input polarity is set in b15 of CR#5.
b[15] = 0: positive logic enabled. When STOP input signal is On, the output will be
enabled.
b[15] = 1: negative logic enabled. When STOP input signal is Off, the output will be
enabled.
