1 outline and functions, 1 outline of control methods, 2 functions – Yaskawa G5HHP Drive User Manual

Introduction

1.1.2 Functions

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1.1 Outline and Functions

The VS-616G5 Inverters provides full-current vector control based on advanced control logic. An autotuning

function is included for easy vector control.
The Digital Operator provides a liquid crystal display that is 2 lines by 16 characters in size. User constant settings

and monitor items are easily read in interactive operations in either Japanese or English. (The display language

can be changed by setting a user constant.)

1.1.1 Outline of Control Methods

The VS-616G5 uses four control methods.

D

Open-loop vector control (factory setting)

D

Flux vector control

D

V/f control without PG

D

V/f control with PG feedback

PG stands for pulse generator (encoder).
Vector control is a method for removing interference with magnetic flux and torque, and controlling torque

according to references.
Current vector control independently controls magnetic flux current and torque current by simultaneously

controlling the motor primary current and phases. This ensures smooth rotation, high torque, and accurate

speed/torque control at low speeds.
Vector control can be replaced by the conventional V/f control system. If the motor constants required for

vector control are not known, the motor constants can be automatically set with autotuning.
The control methods are effective for the following applications:

D

Open-loop vector control:

General variable-speed drive.

D

Flux vector control:

Simple servodrive, high-precision speed control/torque control.

D

V/f control without PG:

Conventional Inverter control mode. Used for multi-drive operation

(connecting multiple motors to one Inverter).

D

V/f control with PG feedback: Simple speed feedback control. (For applications with the PG

connected to the machine shaft rather than the motor shaft.)

The control characteristics for each mode are shown in Table 1.1.

Table 1.1 Control Method Characteristics

Characteristic

Vector Control

V/f Control

Open-loop

Flux Vector

Without PG

With PG feedback

Speed Control

Range

1:100

1:1000

1:40

1:40

Speed Control

Precision

±0.2 %

±0.02 %

±2 to 3 %

±0.03 %

Initial Drive

150% at 1 Hz

150% at 0 r/min

150% at 3 Hz

1.1.2 Functions

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Autotuning

Autotuning is effective for vector control. It solves problems in applicable motor restrictions and difficult

constant settings. The motor constants are automatically set by entering a value from the motor’s rating

nameplate.
Autotuning allows flux vector control to operate accurately with virtually any normal AC induction motor,

regardless of the supplier.
Always perform autotuning for motor unit separately before vector control operation.

J

Torque Control

Torque control is effective for flux vector control with PG. Torque is controlled by taking multi-function

analog input signals as torque references. Torque control accuracy is ±5%. Switching is possible between

torque control and speed control.

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