Technical information

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ds_x61_en_ssr_technical_information: 011212D

Principle of Operation

SSR Switching Characteristics

1.SSR for AC Loads

(1) Zero-crossing SSR

The zero-crossing SSR uses a

phototransistor or phototriac coupler to

isolate the input from the output (see the

circuit configuration on the previous

page). When the input signal is activated,

the internal zero-crossing detector circuit

triggers the triac to turn on as the AC load

voltage crosses zero.

The load current is maintained by the

triac’s latching effect after the input signal

is deactivated, until the triac is turned off

when the load voltage crosses zero. The

following describes voltage and current

wave forms for different types of loads:

• Resistive loads

Since resistive loads cause no phase

shift between the voltage and current, the

triac turns on when the AC load voltage

crosses zero after the input signal is

activated. The SSR turns off when the

AC load voltage crosses zero and the

load current is turned off after the input

signal is subsequently deactivated.

• Inductive loads

The SSR turns on when the load voltage

crosses zero after the input signal is

activated. It turns off when the load

current subsequently crosses zero after

the input signal is deactivated. A phase

difference between the voltage and

current may supply a transient spike to

the SSR when it is turned off. While the

snubber circuit absorbs this spike, an

excessively large spike may result in a

dv/dt error in the SSR’s internal triac.

(2) Random type SSR

Random type SSR uses a phototriac

coupler to isolate the input from the

output. When the input signal is

activated, the output immediately turns

on, since there is no zero-crossing

detector circuit. The load current is

maintained by the triac’s latching effect

after the input signal is deactivated, until

the AC load voltage crosses zero.

• Resistive loads

2. SSR for DC Loads

The SSR for DC loads uses a

phototransistor coupler to isolate the

input from the output. The output

immediately responds to the input, since

the phototransistor coupler directly turns

the output transistor ON or OFF.

Load voltage

Input voltage

SSR

output voltage

Load current

Load voltage

Input voltage

SSR

output voltage

Load current

A

C load voltage

Input voltage

SSR

output voltage

Load current