Wiring of the standard device, We recommend to use lenze system cables for wiring – Lenze EVS9332xK User Manual

Wiring of the standard device

Wiring of digital frequency input / digital frequency output

5

5.11

l

5.11−2

EDSVS9332K EN 8.0−07/2013

)

Note!

ƒ

We recommend to use Lenze system cables for wiring.

ƒ

For self−made cables only use cables with shielded cores
twisted in pairs.

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

X9

X10

< 50 m

A

B

Z

A

A

B

Z

B

Z



9300VEC019

Fig. 5.11−1

Connection of digital frequency input (X9) / digital frequency output (X10)

X9

Slave drive



Signals for CW rotation

X10 Master drive

Cores twisted in pairs

X9 − Digital frequency input
Connector: Pin, 9−pole, Sub−D

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)

X10 − Digital frequency output
Connector: Socket, 9−pole, Sub−D

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 signals at X9

Code

Function

C0427 = 0

CW rotation

Track A leads track B by 90 ° (positive value at DFIN−OUT)

CCW rotation

Track A lags track B by 90 ° (negative value at DFIN−OUT)

C0427 = 1

CW rotation

Track A transmits the speed
Track B = LOW (positive value at DFIN−OUT)

CCW rotation

Track A transmits the speed
Track B = HIGH (negative value at DFIN−OUT)

C0427 = 2

CW rotation

Track A transmits the speed and direction of rotation (positive
value at DFIN−OUT)
Track B = LOW

CCW rotation

Track B transmits the speed and direction of rotation (negative
value at DFIN−OUT)
Track A = LOW

Wiring

Adjustment