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4 3 Second PID Set4 3 Second PID Set

In certain applications the process characteristics are strongly related to the

process value. The ETR-3400 provides two sets of PID values. When the

process is changed to different set point, the PID values can be switched to

In certain applications the process characteristics are strongly related to the

process

value. The ETR-3400 provides two sets of PID values. When the

process

is changed to different set point, the PID values can be switched to

Event input +

Event input

Event input +

Event

input

Apply Signal ToApply Signal To

Setup

EIFN choose PID2 or SP.P2EIFN choose PID2 or SP.P2

Choose for then both set point and PID values will be switched to

another set simultaneously. The signal applied to event input may come from

SP.P2 EIFNChoose for then both set point and PID values will be switched to

another

set simultaneously. The signal applied to event input may come from

SP.P2 EIFN

Application 1: Programmed by Set PointApplication 1: Programmed by Set Point

Application 2: Programmed by Process ValueApplication 2: Programmed by Process Value

Auto-tuning Second PIDAuto-tuning Second PID

If the process value exceeds a certain limit, 500 F for example, it is desirable

to use another PID values to optimize the control performance. You can use a

process high alarm to detect the limit of the process value. Choose PV1H for

A1FN, A1MD selects NORM, adjust A1SP to be equal to 500 F, and choose

PID2 for EIFN. If the temperature is higher than 500 F, then alarm 1 is

activated. The alarm 1 output is connected to event input, the PID values will

If the process value exceeds a certain limit, 500 F for example, it is desirable

use another PID values to optimize the control performance. You can use a

process

high alarm to detect the limit of the process value. Choose PV1H for

A1FN,

A1MD selects NORM, adjust A1SP to be equal to 500 F, and choose

PID2

for EIFN. If the temperature is higher than 500 F, then alarm 1 is

activated.

The alarm 1 output is connected to event input, the PID values will

The optimal PID values for a process may vary with its process value and set

point. Hence if a process is used for a wide range of set point, dual PID values

are necessary to optimize the control performance. If the first PID set is

selected (event input is not applied) during auto-tuning procedure, the PID

values will be stored in PB1, TI1 and TD1. Similarly, if the second PID set is

selected (event input is applied while PID2 or SP.P2 is selected for EIFN)

during auto-tuning, the PID values will be stored in PB2, TI2 and TD2 as soon

The optimal PID values for a process may vary with its process value and set

point.

Hence if a process is used for a wide range of set point, dual PID values

are

necessary to optimize the control performance. If the first PID set is

selected

(event input is not applied) during auto-tuning procedure, the PID

values

will be stored in PB1, TI1 and TD1. Similarly, if the second PID set is

selected

(event input is applied while PID2 or SP.P2 is selected for EIFN)

during

auto-tuning, the PID values will be stored in PB2, TI2 and TD2 as soon

EIFN= SP.P2EIFN= SP.P2

EIFN= PID2EIFN= PID2

Alarm output Controls the Event

input

Alarm output Controls the Event

input

Refer to Section 5-9 for more details.Refer to Section 5-9 for more details.

See Section 5-9See Section 5-9