On-off control, Proportional control – Watlow EZ-ZONE ST User Manual

Watlow EZ-ZONE

®

ST

•

69

•

Chapter 7 Features

prior to sensor failure, and that power level is less

than 75 percent.

Time

Temperature

Bumpless Transfer

40%

Sensor

Break

2 minutes

Locks in

Output

Power

0%

Set Point

Actual Temperature

Output Power

Power

100%

Input Error Latching [`i;Er] (Setup Page, Analog

Input Menu) determines the controller’s response once

a valid input signal returns to the controller. If latch-

ing is on, then the controller will continue to indicate

an input error until the error is cleared. To clear a

latched alarm, press the Advance Key

‰

then the Up

Key ¿.

If latching is off, the controller will automatically

clear the input error and return to reading the tem-

perature. If the controller was in the auto mode when

the input error occurred, it will resume closed-loop

control. If the controller was in manual mode when

the error occurred, the controller will remain in open-

loop control.

The Manual Control Indicator Light % is on when

the controller is operating in manual mode.

You can easily switch between modes if the Control

Mode [`C;M] parameter is selected to appear in the

Home Page.

To transfer to manual mode from auto mode, press

the Advance Key

‰

until [`C;M] appears in the lower

display. The upper display will display [AUto] for auto

mode. Use the Up ¿ or Down ¯ keys to select [Man].

The manual set point value will be recalled from the

last manual operation.

To transfer to auto mode from manual mode, press

the Advance Key

‰

until [`C;M] appears in the lower

display. The upper display will display [MAn] for

manual mode. Use the Up ¿ or Down ¯ keys to select
[AUto]

. The automatic set point value will be recalled

from the last automatic operation.

Changes take effect after three seconds or immedi-

ately upon pressing either the Advance Key

‰

or the

Infinity Key ˆ.

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 hys-

teresis improves controllability. With hysteresis set to

0, the process value would stay closer to the set point,

but the output would switch on and off more frequent-

ly, and may result in the output “chattering.”

On-off control can be selected with Heat Algorithm

[`h;Ag]

or Cool Algorithm [`C;Ag] (Setup Page, Loop

Menu).

On-off hysteresis can be set with Heat Hysteresis

[`h;hY]

or Cool Hysteresis [`C;hY] (Operations Page,

Loop Menu).

Note:

Input Error Failure Mode

[faIl]

does not function in on-off

control mode . The output goes off .

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

Hysteresis

Time

Temperature

On/Off System Cycles

The cooling action

switches

on at startup.

Process Temperature

The cooling action switches on when

the process temperature rises above

the set point plus the hysteresis.

Set Point

The heating action switches on when the process temperature

drops below the set point minus the hysteresis.

The cooling action switches off when the process

temperature drops below the set point.

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.

In an application with one output assigned to heat-

ing and another assigned to cooling, each will have a

separate proportional parameter. The heating parame-

ter takes effect when the process temperature is lower

than the set point, and the cooling parameter takes ef-

fect when the process temperature is higher than the

set point.