Temperature control option, Theory of operation – Precision Control Systems 930 User Manual

Model 930 ControlIR

TM

Instruction Manual

Operating Instructions

Research, Inc.

Page 12 of 25

TEMPERATURE
CONTROL OPTION

Setup Summary

Table 4-1 Temperature
Controller
Configuration

THEORY OF
OPERATION

Principles of SCR Power
Control

Figure 4-2 Conduction of one

SCR when turned on

at the beginning of a

half-cycle

This section contains temperature controller configuration information for your system.
Refer to the Model XT19 installation and instruction manual for operating the
temperature controller.

Table 4-1 displays factory configurations made for your system:

Sensor Input (TCT option) ‘K’ type thermocouple scaled 0-2500

°F

Sensor Input (TCP option) 4-20mA signal scaled 0-2500

°F

Control Type:

PID (proportional, integral & derivative)

AL 1 (alarm 1):

Full scale high, non-latching, set for 2000

°F

(This alarm will trip a relay connected to TB100 pins 13
and 14)

Control Output:

0-20 milliamps

This alarm may be re-configured as necessary for your process





SCR type power controllers control power by regulating when silicon controlled
rectifiers (SCRs) conduct AC line current to the load.

A SCR is a solid-state, electronic switching device that turns on (fires) very quickly
when a low-level “gating” signal is applied to its gate electrode. The timing of the
gating signal, and therefore the length of time the SCR conducts, is determined by the
controller’s firing circuitry in response to a control signal. The greater the percentage
of time the SCR is on, the greater the average power it allows to pass through to the
load.

The Model 910 uses a random-fire solid state relay within its SCR poser controller.
This relay is a package consisting of 2 SCRs and a gate drive circuit.

During the positive half-cycle of the AC line voltage the SCR’s anode is positive with
respect to its cathode, so during that half-cycle the SCR will begin to conduct
whenever a gating signal is applied to its gate electrode (see figure 4-2). Once turned
on, an SCR will continue to conduct until its anode-to-cathode voltage drops to zero, so
the SCR continues to conduct until the end of the half-cycle.

INPUT LINE VOLTAGE

FIRING

CIRCUITRY

CONTROL SIGNAL

GATING SIGNAL

OUTPUT LINE VOLTAGE

GATE

CATHODE

ANODE