Operating instructions

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Tune your system with PID loop

When your unit is equipped with a humidity or dew

point transmitter (when you are able to adjust the set

point through the keypad/display) control is

accomplished through a PID control loop. PID stands

for Proportional, Integral and Derivative.

With a PID loop, you are able to tune your system

for maximum performance using the proportional

(Kp), integral (Ki) and derivative (Kd) gain terms.

These gain factors work in the following way: The

overall demand in a PID system is made up of three

distinct parts that are added together. There is the

proportional piece, the integral piece and the

derivative piece. Each one of these parts is calculated

and then multiplied by a gain factor. These gain

factors are the setup variables that you have access

to. By making a gain factor larger, you increase its

components overall influence on the system demand

equation. Once the multiplication has taken place, all

three terms are added together to determine the

overall demand percentage. One other term that is

user-controlled in the PID equation is the

proportional band.

The proportional term

The proportional band is the band (in % RH, or °F/°C

for dew point control) in which the humidifier will

modulate.

For example, if starting with a set point of 35% and a

proportional band of 10%, the humidifier operation

will be as follows: On initial start-up, assume an

actual humidity level of 15%. The proportional band

is 10% so the humidifier will modulate when the

actual humidity is in the range 25-45%. If the actual

humidity is lower than 25%, the humidifier will be

full on. If the actual humidity is above 45%, the

humidifier will be full off. In the example, starting at

an actual humidity level of 15%, the humidifier will

be full on. As the actual humidity level climbs into

the range of the proportional band (25-45%), the

humidifier will begin to modulate down. Once the set

point of 35% is reached, the humidifier will be full

off.

Looking at this scheme a little closer, a problem can

be found. In almost all applications there will be

some constant load on the humidifier just as there is a

constant load on the heating equipment. With this

control scheme, the actual humidity must be less than

the set point for the humidifier to be on. What ends

up happening is the humidifier finds a happy

medium where the actual humidity is something less

than the set point, which allows the humidifier to

continue to run. This difference between the set point

and the actual running humidity level is called the

droop. This droop can be corrected using the next

term, the integral gain.

The integral term

The integral gain affects how fast the humidifier will

react to a droop condition. The higher the number,

the faster the reaction. (An integral term of zero

disables this variable and allows the unit to run on the

proportional band only.) The way this term works is

as follows: When the actual humidity is in the

proportional band, the humidifier demand is

somewhere between 0 and 100 percent. Every 1/2

Operation:

PID tuning

Control functions: PID tuning.

Operation