Special Operation And Frequency Control; Pid Control (Pr. 127 To Pr. 134, Pr. 575 To Pr. 577) - Mitsubishi Electric FR-F740-00023-EC Instruction Manual

Special operation and frequency control

3.19 Special operation and frequency control
Perform process control such as pump and air
volume.
Pump function by multiple motors
Traverse function
Switch between the inverter operation and
commercial power-supply operation to operate.
Avoid overvoltage alarm due to regeneration by
automatic adjustment of output frequency

3.19.1 PID control (Pr. 127 to Pr. 134, Pr. 575 to Pr. 577)

The inverter can be used to exercise process control, e.g. flow rate, air volume or pressure.
Pr.126
page 135 The terminal 2 input signal or parameter setting is used as a set point and the terminal 4 input signal used as a
Pr.135
feedback value to constitute a feedback system for PID control.
page 198
Pr.571
Parameter
page 81
Number
Pr.611
page 114
PID control automatic
127
switchover frequency
128 PID action selection
129 PID proportional band
*1
130 PID integral time
*1
131 PID upper limit
132 PID lower limit
133 PID action set point
*1
134 PID differential time
*1
190
Purpose
Initial
Name
Value
9999
10
100%
1s
9999
9999
9999
9999
Parameter that must be Set
PID control
Advanced PID function
Traverse function
Commercial power supply-
inverter switchover function
Regeneration avoidance
function
Setting
Range
Set the frequency at which the control is automatically
0 to 400Hz
changed to PID control.
9999 Without PID automatic switchover function
10 PID reverse action
11 PID forward action
20 PID reverse action
21 PID forward action
50 PID reverse action
51 PID forward action
60 PID reverse action
61 PID forward action
If the proportional band is narrow (parameter setting is small),
the manipulated variable varies greatly with a slight change of
the measured value. Hence, as the proportional band narrows,
0.1 to 1000%
the response sensitivity (gain) improves but the stability
deteriorates, e.g. hunting occurs.
Gain Kp = 1/proportional band
9999 No proportional control
For deviation step input, time (Ti) required for only the integral
(I) action to provide the same manipulated variable as that for
0.1 to 3600s
the proportional (P) action. As the integral time decreases, the
set point is reached earlier but hunting occurs more easily.
9999 No integral control.
Set the upper limit value. If the feedback value exceeds the
setting, the FUP signal is output. The maximum input (20mA/
0 to 100%
5V/10V) of the measured value (terminal 4) is equivalent to
100%.
9999 No function
Set the lower limit value. If the measured value falls below the
setting range, the FDN signal is output. The maximum input
0 to 100%
(20mA/5V/10V) of the measured value (terminal 4) is
equivalent to 100%.
9999 No function
0 to 100% Used to set the set point for PID control.
9999 Terminal 2 input is the set point.
For deviation lamp input, time (Td) required for providing only
0.01 to the manipulated variable for the proportional (P) action. As the
10.00s differential time increases, greater response is made to a
deviation change.
9999 No differential control.
Pr. 127 to Pr. 134,
Pr. 575 to Pr. 577
Pr. 575 to Pr. 591
Pr. 592 to Pr. 597
Pr. 135 to Pr. 139, Pr. 159
Pr. 882 to Pr. 886
Description
Deviation value signal input
(terminal 1 )
Measured value (terminal 4 )
Set point (terminal 2 or Pr. 133)
Deviation value signal input
(L W , CC-Link communication)
ON ORKS
Measured value, set point input
(L W , CC-Link communication)
ON ORKS
Refer
to Page
190
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212
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214