Mitsubishi FR-F500 Instruction Manual page 137

Transistorized inverter

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(5) Parameter setting

Parameter

Setting

Number

128

0.1 to 1000%

129

9999

0.1 to 3600 s

130

9999

0 to 100%

131

9999

0 to 100%

132

9999

133

0 to 100%

0.01 to 10.00 s

134

9999

( 6 ) Adjustment procedure

Parameter setting

Terminal setting

Switch X14 signal on.

Name

For heating, pressure control,

etc.

For cooling, etc.

PID action

selection

For heating, pressure control,

etc.

For cooling, etc.

Advanced PID control (NA, EC versions only)

If the proportional band is narrow (parameter setting is small), the

manipulated variable varies greatly with a slight change of the process value.

Hence, as the proportional band narrows, the response sensitivity (gain)

PID proportional

improves but the stability deteriorates, e.g. hunting occurs.

band

Gain K = 1/proportional band.

Time only required for the integral (I) action to provide the same manipulated

variable as that for the proportional (P) action. As the integral time

PID integral time

decreases, the set point is reached earlier but hunting occurs more easily.

Set the upper limit. If the feedback value exceeds the setting, the FUP signal

Upper limit

is output. (Process value of 4mA is equivalent to 0% and 20mA to 100%.)

Set the lower limit. If the feedback value falls below the setting, the FDN

signal is output. (Process value of 4mA is equivalent to 0% and 20mA to

Lower limit

100%.)

Only valid for the PU command in the PU operation or PU/external combined

PID action set

mode.

point for PU

For external operation, the voltage across 2-5 is the set point.

operation

(Pr. 902 value is equivalent to 0% and Pr. 903 value to 100%.)

Time only required for the differential (D) action to provide the same process

value as that for the proportional (P) action. As the differential time

PID differential

increases, greater response is made to the deviation change.

time

Adjust the PID control parameters, Pr. 128 to Pr. 134

Set the I/O terminals for PID control. (Pr. 180 to Pr. 186, Pr. 190 to Pr.195)

Pr. 128 = 10, 11, 20, 21

Run

Description

No proportional control

No integral control.

No function

No differential control.

124

PARAMETERS

PID reverse

Deviation value

action

signal input

PID forward

(terminal 1)

action

PID reverse

Set point (terminal 2

action

or Pr. 133), Process

value input, (terminal

PID forward

action

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