Proportional plus integral (pi) control, On-off control, Mounting the series ehg cl – Watlow Series EHG CL User Manual

Watlow Controls

6

EHG CL User’s Guide

Proportional Control

Some processes need to maintain a temperature or
process value closer to the set point than on-off con-
trol can provide. Proportional control provides closer
control by adjusting the output when the temperature
or process value is within a proportional band. When
the value is in the band, the controller adjusts the out-
put based on how close the process value is to the set
point.

The closer the process value is to the set point, the

lower the output power. This is similar to backing off
on the gas pedal of a car as you approach a stop sign.
It keeps the temperature or process value from swing-
ing as widely as it would with simple on-off control.
However, when the system settles down, the tempera-
ture or process value tends to “droop” short of the set
point.

With proportional control the output power level

equals (set point minus process value) divided by the
proportional band value.

Adjust the proportional band with Proportional

[`Pb].

Time

Temperature

Proportional Control

Set Point

Proportional Band

Droop

Overshoot

Proportional plus Integral (PI) Control

The droop caused by proportional control can be cor-
rected by adding integral control. When the system
settles down, the integral value is tuned to bring the
temperature or process value closer to the set point.
Integral determines the speed of the correction, but
this may increase the overshoot at startup or when
the set point is changed. Too much integral action will
make the system unstable. Integral is cleared when
the process value is outside of the proportional band.

Integral

[Int] is measured in minutes per repeat. A

low integral value causes a fast integrating action.

Proportional plus Integral plus Derivative (PID)
Control

Use derivative control to minimize the overshoot in
a PI-controlled system. Derivative

[dEu] adjusts the

output based on the rate of change in the temperature
or process value. Too much derivative will make the
system sluggish.

Time

Temperature

PID Control

Set Point

Reduced Overshoot

Proportional Band

Proportional Band x 2

Heating Slows

On-Off Control

On-off control switches the output either full on or full
off, depending on the input, set point and hysteresis
values. The hysteresis value indicates the amount the
process value must deviate from the set point to turn on
the output. Increasing the value decreases the number
of times the output will cycle. Decreasing hysteresis im-
proves controllability. With hysteresis set to the lowest
value of 3°C or 5°F, the process value would stay closer
to the set point, but the output would switch on and off
more frequently, and may result in the output “ chatter-
ing.” Both the control mode (

[Cnt] prompt) and hyster-

esis (

[Hys] prompt) values can be changed either using

the front panel or via Modbus communications.

Set Point

Time

Temperature

The heating action switches off when the process

temperature rises above the set point.

The heating action

switches on at startup.

Hysteresis

Process Temperature

On/Off System Cycles

The heating action switches on when the process temperature

drops below the set point minus the hysteresis.

Mounting the Series EHG CL

88.8 mm

(3.496 in)

55.8 mm

(2.196 in)

Base Controlller

front

48.4 mm

(1.907 in)

Base Controller

side