Yaskawa G5HHP Drive User Manual

Advanced Operation

7.5.1 Application Constants: b

7 - 46

PID Control Settings

D

PID Control Mode Selection: b5-01

User

Change

during

Setting

Factory

Valid Access Levels

User

Constant

Number

Name

g

during

Opera-

tion

Setting

Range

Unit Factory

Setting

V/f

Control

V/f with

PG

Open

Loop

Vector

Flux

Vector

b5-01

PID control mode

selection

x

0 to 2

--

0

A

A

A

A

D

Settings

Setting

Contents

0

PID control disabled

1

PID control enabled, deviation signal is subject to derivative control.

2

PID control enabled, feedback signal is subject to derivative control.

•

To enable PID control, set either “1” or “2.” (Normally “2” is used, for measured-value derivative

PID control).

•

When PID control is enabled, the target value input is determined by constant b1-01 (reference

selection).

•

When target value input is set to b1--01=0 (digital operator), setting value becomes o1--03 (% unit),

and the target value should be input by percent. (When switching speed reference, 100% becomes

the max. frequency reference value.)

•

The feedback value is input from a multi-function analog input terminal or frequency reference (cur-

rent) terminal. Set PID feedback (setting: B) for either the constant H3-05 (multi-function analog

input, terminal 42), or constant H3-09 (multi-function analog input, terminal 39) function selection.

(See Table 7.11.) Adjust the amount of feedback by setting the gain and bias of the analog inputs

that are used.

D

Proportional gain (P), Integral (I) Time, and Differential (D) Time: b5-02, b5-03, b5-05

•

Adjust the responsiveness of the PID control by means of the proportional gain (P), integral time

(I), and derivative time (D).

User

Change

during

Setting

Factory

Valid Access Levels

User

Constant

Number

Name

g

during

Opera-

tion

Setting

Range

Unit Factory

Setting

V/f

Control

V/f with

PG

Open

Loop

Vector

Flux

Vector

b5-02

Proportional gain (P)

f

0.00 to

25.00

Mul-

tiple

1.00

A

A

A

A

b5-03

Integral (I) time

f

0.0 to 360.0

s

1.0

A

A

A

A

b5-05

Differential (D) time

f

0.00 to

10.00

s

0.00

A

A

A

A

•

Optimize the responsiveness by adjusting it while operating an actual load (mechanical system).

(Refer to Adjusting PID Control on page 7 - 47.) Any control (P, I, or D) that is set to zero (0.0, 0.00)

will not operate.

D

Integral (I) Limit: b5-04

User

Change

during

Setting

Factory

Valid Access Levels

User

Constant

Number

Name

g

during

Opera-

tion

Setting

Range

Unit Factory

Setting

V/f

Control

V/f with

PG

Open

Loop

Vector

Flux

Vector

b5-04

Integral (I) limit

f

0.0 to 100.0

%

100.0

A

A

A

A

•

This constant prevents the calculated value of the integral control in the PID control from exceeding

the fixed amount.

•

There is normally no need to change the setting.

•

Reduce the setting if there is a risk of load damage, or of the motor going out of step, by the Inverter’s

response when the load suddenly changes. If the setting is reduced too much, the target value and

the feedback value will not match.

•

Set this constant as a percentage of the maximum output frequency, with the maximum frequency

taken as 100%.

D

PID Limit: b5-06

7