Yaskawa SGDB User Manual

1.2 Servo Configuration

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(2) Servomotor

(a) DC servomotor and AC servomotor

Servomotors are divided into two types: DC servomotors and AC servomotors.

DC servomotors are driven by direct current (DC). They have a long history. Up
until the 1980s, the term “servomotor” used to imply a DC servomotor.

From 1984, AC servomotors were emerging as a result of rapid progress in micro-
processor technology. Driven by alternating current (AC), AC servomotors are
now widely used because of the following advantages:

• Easy maintenance:

No brush

• High speed:

No limitation in rectification rate

Note however that servomotors and SERVOPACKs use some parts that are sub-
ject to mechanical wear or aging. For preventive maintenance, inspect and re-
place parts at regular intervals.
For details, refer to Chapter 6 Inspection, Maintenance, and Troubleshooting.

(b) AC servomotor

AC servomotors are divided into two types: synchronous type and induction type.
The synchronous type is more commonly used.

For a synchronous type servomotor, motor speed is controlled by changing the
frequency of alternating current.

A synchronous type servomotor provides strong holding torque when stopped, so
this type is ideal when precise positioning is required. Use this type for a servo
mechanism for position control.

The following figure illustrates the structure of a synchronous type servomotor:

Light-emitting

element

Rotary disc

Light-receiving

element

Armature

wire

Housing

Stator core

Front cap

Ball bearing

Shaft

Rotor core

Magnet

Lead wire

Position detector

(encoder)

Yaskawa SGMj servomotors are of the synchronous type.

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