7 encoder connection, 1 encoder signal (cn2) names and functions, 2 encoder connection examples – Yaskawa Sigma-5 Large Capacity Users Manual: Design and Maintenance-Rotary Motors-Mechatrolink-II Communication Reference User Manual

3 Wiring and Connection

3.7.1 Encoder Signal (CN2) Names and Functions

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3.7 Encoder Connection

This section describes the encoder signal (CN2) names, functions, and connection examples.

3.7.1 Encoder Signal (CN2) Names and Functions

The following table shows the names and functions of encoder signals (CN2).

∗ These do not need to be connected for an incremental encoder.

3.7.2 Encoder Connection Examples

The following diagrams show connection examples of the encoder, the SERVOPACK, and the host controller.

(1) Incremental Encoder

∗1. The pin arrangement for wiring connectors varies in accordance with the servomotor that is used.

∗2.

: represents shielded twisted-pair wires.

Signal Name

Pin No.

Function

PG 5 V

1

Encoder power supply +5 V

PG 0 V

2

Encoder power supply 0 V

BAT (+)*

3

Battery (+)

BAT (-)*

4

Battery (-)

PS

5

Serial data (+)

/PS

6

Serial data (-)

Shield

Shell

–

35

0 V

SG

1

PA O

/PAO

PBO

/PBO

PCO

/PCO

1

2

5
6

CN2

33
34

36

19
20

ENC

CN1

Incremental encoder

Connector shell

Connector

shell

Phase A

Phase B

Phase C

SERVOPACK

∗2

CN1

∗1

PS

FG

/PS

PG5V

PG0V

0 V

Phase A

Phase B

Phase C

Host controller

R

R

R

Shielded wire

∗2

Output line-driver SN75ALS174
manufactured by Texas
Instruments or the equivalent

R (terminating resistance): 220 to 470

Ω

Applicable line receiver: SN75ALS175 or MC3486

manufactured by Texas
Instruments, or the equivalent

MEC
HA