Mitsubishi Digital Electronics FR-D700-G Manual

A SERVICE OF

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202

Special operation and speed control

4)Reverse operation

Increases the manipulated variable (rotation speed) if deviation X = (set point - measured value) is positive, and decreases

the manipulated variable if deviation is negative.

5)Forward action

Increases the manipulated variable (rotation speed) if deviation X = (set point - measured value) is negative, and decreases

the manipulated variable if deviation is positive.

Relationships between deviation and manipulated variable (rotation speed)

(3) Connection diagram

Deviation

Positive Negative

Reverse action

Forward action

Sink logic

Pr. 128 = 20

Pr. 182 = 14

Pr. 190 = 15

∗1 The power supply must be selected in accordance with the power specifications of the detector used.

∗2 The used output signal terminal changes depending on the Pr. 190 and Pr. 192 (output terminal selection) settings.

∗3 The used input signal terminal changes depending on the Pr. 178 to Pr. 182 (input terminal selection) settings.

∗4 The AU signal need not be input.

Set point

X>0

X<0

Feedback signal

(measured value)

+

-

[Heating]

Deviation

Set point

Measured value

Decrease

Cold

Increase

Hot

Set point

X>0

X<0

Feedback signal

(measured value)

+

-

[Cooling]

Deviation

Set point

Measured value

Too cold

Decrease

Hot

Increase

Power supply

MCCB

Drive unit

Forward rotation

Reverse rotation

PID control selection

Setting Potentiometer

(Set point setting)

0 24V

Power

supply

*1

AC1φ

200/220V 50/60Hz

R/L1

S/L2

T/L3

STF

STR

RH(X14)

*3

SD

10

2

5

4

*4

U

V

W

*2(FUP)RUN

SE

(measured value) 4 to 20mA

Motor

M

Pump

P

Upper limit

Output signal

common

2-wire type

Detector

3-wire type

-

++ +

-

(OUT) (24V)

(COM)