:ode
:005
lame
:onfiguration
Open-loop control, unipolar,
Open-loop control, bipolar with additional
setpoint
‘arameter
(Fectory
sefting
is printed in
hold)
O-
l-
2-
ll-
13-
14-
Open-loop control with digital frequency
and additional
setpoint
Closed-loop
control with analog
act. value
Closed-loop
control with
incremental encoder act. value
Closed-loop control with digital
frequency
setpoint
via
X8
and Incremental encoder
act. value via X5
15-
20-
21-
201-
202-
Closed-loop control with digital frequency
setpoint
via X5 and incremental
encoder act. value via
X8
Torque control
Frequency
setpoint
via terminal 8
Additional
setpoint
terminals
1/2
Torque
setpoint
terminals
3/4
Torque control
Frequency
setpoint
via X5
Additional
setpoint
terminals
1/2
Torque
setpoint
terminals
314
Dancer-Position controller
with diameter detection
Frequency
setpoint
via term. 8 (bipolar)
Act. value
diameter
terminals
1/2
(bipolar)
Act. value dancer terminals
3/4
Dancer-Position controller
with
diameter
detection
Frequency
setpoint
via X5
Act. value
diameter
terminals
1/2
Act. value dancer terminals
3/4
zceptance
SH
+ PRG]
10.3
Adjustment of analog inputs
Offset and gain of the analog inputs must be set according to
chapter
3.6.
In this
configuration,
terminals 3 and 4 act as input of the torque
setpoint. Depending on the maximum input voltage, a suitable
switch combination must be set on the switch group
Sl.
The switch
group
Sl
is set such that a maximum input voltage of 120V is
expected at terminals 3 and 4.
This switch group is located at the
1.h.s.
of the 8602MP (board with
control terminals). For setting, remove the
cover
of the frequency
controller.
rermi-
ial
17
2
Switch
Position
Use
Setpoint
2
Setpoint
-
torque
Setpoint
-
torque
Setpoint
-
torque
Setpoint
-
torque
Setpoint
-
torque
LevellResolutlon
.l
ov to
+l
ov
12
bit
+
sign
-1 ov to
+l
ov
12 bit + sign
-30v to
+3ov
12 bit + sign
-60V to
+6OV
12 bit + sign
-90v to
+9ov
12 bit + sign
-12ov
to
+12ov
12 bit + sign
124
To Next Page
Loading...
