Wiring the standard device
Wiring of digital frequency input / digital frequency output
5
5.12
5.12-2
EDSVF9333V EN 3.0-06/2005
Note!
ƒ Lenze recommends using Lenze system cables for wiring.
ƒ If self-prepared cables are used, only use cables with cores that
are twisted in pairs and shielded.
B
Enable (EN)
Lamp
control (LC)
GND
Z
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
A
X9X10
<50m
A
B
Z
A
A
B
Z
B
Z
9300VEC019
Fig. 5.12-1 Connection of digital frequency input (X9) / digital frequency output (X10)
X9 Slave drive c Signals with C W rotation
X10 Master drive
Cores twisted in pairs
Assignment of 9-pole Sub-D socket (X9) at the controller
Pin 1
2 3 4 5 6 7 8 9
Signal B A A +5 V GND Z Z LC B
0.14 mm
2
(AWG 26)
0.5 mm
2
(AWG 20)
0.14 mm
2
(AWG 26)
0.5 mm
2
(AWG 20)
0.14 mm
2
(AWG 26)
Assignment of 9-pole Sub-D socket (X10) at the controller
Pin 1
2 3 4 5 6 7 8 9
Signal B A A +5 V GND Z Z EN B
0.14 mm
2
(AWG 26)
0.5 mm
2
(AWG 20)
0.14 mm
2
(AWG 26)
0.5 mm
2
(AWG 20)
0.14 mm
2
(AWG 26)
Evaluation of the input signal at X9
Code Function
C0427 = 0
Clockwise
rotation
Track A leads track B by 90 ° (positive value at DFIN-OUT)
Counter-clock
wise rotation
Track A lags track B by 90 ° (negative value at DFIN-OUT)
C0427 = 1
Clockwise
rotation
Track A transmits the speed
Track B = LOW (positive value at DFIN-OUT)
Counter-clock
wise rotation
Track A transmits the speed
Track B = HIGH (negative value at DFIN-OUT)
C0427 = 2
Clockwise
rotation
Track A transmits the speed and direction of rotation (positive
value at DFIN-OUT)
Track B = LOW
Counter-clock
wise rotation
Track B transmits the speed and direction of rotation (negative
value at DFIN-OUT)
Track A = LOW
Wiring
Adjustment
To Next Page
Loading...
Need help?
General
