Mitsubishi Electric FR-A520-0.4K Instruction Manual page 155

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Instruction manual (228 pages)

Instruction manual (228 pages)

Instruction manual (225 pages)

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(7) Calibration example

(A detector of 4mA at 0°C and 20mA at 50°C is used to adjust the room temperature to 25°C under PID

control.

The set point is given to across inverter terminals 2-5 (0-5V).)

START

Determine the set point.

Determine the set point of the

item to be adjusted.

Convert the set point into %.

Calculate the ratio of the set

point to the detector output.

Make calibration.

Set the set point.

Enter a voltage to across

terminals 2-5 according to

the set point (%).

Operation

Set the proportional band (Pr.129)

and integral time (Pr. 130) to slightly

higher values and the differential

time (Pr. 134) to "9999" (function

invalid), and switch on the start signal.

Is the process

value steady?

Adjust parameters.

Set the proportional band (Pr. 129)

and integral time (Pr. 130) to slightly

higher values and set the differential

time (Pr.134) to a slightly lower value

to stabilize the process value.

END

*When calibration is required, use Pr. 902 and Pr. 903 (terminal 2) or Pr. 904 and Pr. 905 (terminal 4)

to calibrate the detector output and set point setting input.

Perform calibration in the PU mode during an inverter stop.

Set the room temperature to 25°C.

Set Pr. 128 and switch on the X14 signal to enable PID control.

Detector specifications

When the detector used has the specifications that 0°C is equivalent to

4mA and 50°C to 20mA, the set point of 25°C is 50% because 4mA is

equivalent to 0% and 20mA to 100%.

When the set point setting input (0 to 5V) and detector output (4 to

20mA) must be calibrated, make the following calibration*.

Set point = 50%

Since the specifications of terminal 2 are such that 0% is equivalent

to 0V and 100% to 5V, enter 2.5V into terminal 2.

For PU operation, set the set point (0 to 100%) in Pr. 133.

During operation, set the proportional band (Pr. 129) and integral time

(Pr. 130) to slightly higher values and set the differential time to "9999"

(function invalid). In accordance with the system operation, reduce the

proportional band and increase integral time (Pr. 130) for the slow

responce system, gradually increase the differential time

(Pr. 134) using differential control.

Yes

Optimize parameters.

While the process value is steady,

the proportional band (Pr. 129) and integral

time may (Pr. 130) be reduced and the

differential time (Pr. 134) increased

throughout the operation.

146

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PARAMETERS

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