Integral Gain (I); Derivative Control (D); Upper Bound For Integral Control; Primary Delay Filter Time - Delta VFD-B User Manual

10 - 03 Integral Gain ( I )
Settings
This parameter specifies integral control (continual sum of the deviation) and associated gain
(I). When the integral gain is set to 1 and the deviation is fixed, the output is equal to the input
(deviation) once the integral time setting is attained.
NOTE
The parameter can be set during operation for easy tuning.
10 - 04

Derivative Control (D)

Settings
This parameter specifies derivative control (rate of change of the input) and associated gain
(D). With this parameter set to 1, the PID output is equal to differential time x (present
deviation − previous deviation). It increases the response speed but it may cause over-
compensation.
NOTE
The parameter can be set during operation for easy tuning.
10 - 05

Upper Bound for Integral Control

Settings
This parameter defines an upper bound or limit for the integral gain (I) and therefore limits the
Master Frequency.
The formula is: Integral upper bound = Maximum Output Frequency (Pr.01-00) x (Pr.10-05).
This parameter can limit the Maximum Output Frequency.
10 - 06

Primary Delay Filter Time

Settings
To avoid amplification of measurement noise in the controller output, a derivative digital filter is
inserted. This filter helps to dampen oscillations.
The complete PID diagram is shown on the following page:
Revision July 2008, BE16, SW V4.08 & V5.00
0.00 to 100.00 sec
0.00 Disable
0.00 to 1.00 sec
00 to 100 %
0.0 to 2.5 sec
Chapter 5 Parameters|VFD-B Series
Factory Setting: 1.00
Factory Setting: 0.00
Factory Setting: 100
Factory Setting: 0.0
Unit: 0.01
Unit: 0.01
Unit: 1
Unit: 0.1
5-97