Solid State Relay uses and Advantages

Solid-state relays

As
versatile as electromechanical relays can be, they do suffer many limitations.
They can be expensive to build, have a limited contact cycle life, take up a
lot of room, and switch slowly, compared to modern semiconductor devices. These
limitations are especially true for large power contactor relays. To address
these limitations, many relay manufacturers offer ”solidstate” relays, which
use an SCR, TRIAC, or transistor output instead of mechanical contacts to switch
the controlled power. The output device (SCR, TRIAC, or transistor) is
optically-coupled to an LED light source inside the relay. The relay is turned
on by energizing this LED, usually with low-voltage DC power. This optical isolation
between input to output rivals the best that electromechanical relays can
offer.


Solid State Relay

 Being
solid-state devices, there are no moving parts to wear out, and they are able
to switch on and off much faster than any mechanical relay armature can move.
There is no sparking between contacts, and no problems with contact corrosion.
However, solid-state relays are still too expensive to build in very high
current ratings, and so electromechanical contactors continue to dominate that
application in industry today.

One
significant advantage of a solid-state SCR or TRIAC relay over an
electromechanical device is its natural tendency to open the AC circuit only at
a point of zero load current. Because SCR’s and TRIAC’s are thyristors,
their inherent hysteresis maintains circuit continuity after the LED is
de-energized until the AC current falls below a threshold value (the holding
current
). In practical terms what this means is the circuit will never be
interrupted in the middle of a sine wave peak. Such untimely interruptions in a
circuit containing substantial inductance would normally produce large voltage
spikes due to the sudden magnetic field collapse around the inductance. This
will not happen in a circuit broken by an SCR or TRIAC. This feature is called zero-crossover
switching
.
One
disadvantage of solid state relays is their tendency to fail ”shorted” on their
outputs,while
electromechanical relay contacts tend to fail ”open.” In either case, it is
possible for a relay to fail in the other mode, but these are the most common
failures. Because a ”fail-open” state is generally considered safer than a ”fail-closed”
state, electromechanical relays are still favored over their solid-state
counterparts in many applications.

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