Pid tuning explanations, Auto-tune, Initiate auto-tune – Red Lion PAX2C User Manual

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AUTO-TUNE

Auto-Tune is a user-initiated function where the controller automatically

determines the Proportional Band, Integral Time, Derivative Time, Digital

Filter, Control Ouput Dampening Time, and Relative Gain (Heat/Cool) values

based upon the process characteristics. The Auto-Tune operation cycles the

controlling output(s) at a control point three-quarters of the distance between the

present process value and the setpoint. The nature of these oscillations

determines the settings for the controller’s parameters.

Prior to initiating Auto-Tune, it is important that the controller and system be

verified. (This can be accomplished in On/Off Control or Manual Control

Mode.) If there is a wiring, system or controller problem, Auto-Tune may give

incorrect tuning or may never finish. Auto-Tune may be initiated at start-up,

from setpoint or at any other process point. However, insure normal process

conditions (example: minimize unusual external load disturbances) as they will

have an effect on the PID calculations.

AUTO-TUNING CODE FIGURE

INITIATE AUTO-TUNE

Below are the parameters and factory settings that affect Auto-Tune

calculations. If changes are needed, then they must be made before starting

Auto-Tune. Please note that it is necessary to configure the input and control

outputs prior to initiating auto-tune.

DISPLAY PARAMETER

FACTORY SETTING

MENU

FLtr

Digital Filtering

1.0

INPt

CHYS

On/Off Control Hysteresis 2 (Temperature Mode)

0.2

(Process Mode)

Pid

tCod

Auto-Tune Code

2

Pid

dEAd

Deadband

0.0

Pid

tUNE

Auto-Tune Access

LOC

Pid

1. Enter the Setpoint value via the PID Menu or via the Display, Parameter or

Hidden Menu Loop Menu (if enabled).

2. Initiate Auto-Tune by changing Auto-Tune tUNE to YES via the PID Menu or

via the Display, Parameter or Hidden Menu Loop Menu (if enabled).

DERIVATIVE TIME

Derivative time is defined as the time, in seconds, in which the output due to

proportional action alone equals the output due to derivative action with a

ramping process error. As long as a ramping error exists, the derivative action is

“repeated” by proportional action every derivative time. The units of derivative

time are seconds per repeat.

Derivative action is used to shorten the process response time and helps to

stabilize the process by providing an output based on the rate of change of the

process. In effect, derivative action anticipates where the process is headed and

changes the output before it actually “arrives”. Increasing the derivative time

helps to stabilize the response, but too much derivative time coupled with noisy

signal processes, may cause the output to fluctuate too greatly, yielding poor

control. None or too little derivative action usually results in decreased stability

with higher overshoots. No derivative action usually requires a wider proportional

and slower integral times to maintain the same degree of stability as with

derivative action. Derivative action is disabled by setting the time to zero.

PRIMARY/ALTERNATE PID VALUES

The PAX2C incorporates two different groups of PID parameters in memory.

These are designated as the Primary (Pri) and Alternate (Alt) PID values. It is

possible to toggle between these values using the PID Selection parameter

which is available in the PID configuration menu. This functionality (PSEL) is

also available via the user inputs, function keys or Line 2 user function.

The Active PID parameters reflect the PID values that are selected via the

PSEL

parameter. If a change is made to an active PID value, such as a user change

or after an Auto-tune, the values will automatically be copied into the Primary

or Alternate group depending on which group is selected by the PSEL parameter.

TIME

TIME

INTEGRAL

TIME

DEVIATION

OUTPUT

POWER (%)

INTEGRAL OUTPUT

PROPORTIONAL OUTPUT

NOTE: TOTAL OUTPUT POWER IS CALCULATED

BASED ON THE THREE PID SETTINGS.

TIME

DERIVATIVE

TIME

TIME

DEVIATION

OUTPUT

POWER (%)

DERIVATIVE OUTPUT

PROPORTIONAL OUTPUT

NOTE: TOTAL OUTPUT POWER IS CALCULATED

BASED ON THE THREE PID SETTINGS.

Note: The Proportional band shift due to integral action

may itself be “reset” by temporarily setting the controller

to the on/off control mode (proportional band = 0).

TIME

TEMPERATURE

SP

0

1

2

3

4

TYPICAL RESPONSE CURVES

WITH AUTOTUNE DAMPENING

CODES 0 TO 4.

pid Tuning eXplanaTiOns