Difference between revisions of "SSR - solid state relay"

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http://docs-europe.electrocomponents.com/webdocs/0d82/0900766b80d82ad3.pdf
 
http://docs-europe.electrocomponents.com/webdocs/0d82/0900766b80d82ad3.pdf
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The SSR its uses and perculiarities.
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An SSR--or to give its correct name 'Solid-State Relay' is a development and improvement over the mechanical coil and contact relay or contactor used for switching high powers using a low controlling supply voltage. The SSR contains no moving parts, so is not subject to mechanical wear.
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It has many advantages and a couple of disadvantages over the mechanical counterpart. Principle advantage is the expected life-span is improved as there are no mechanical parts or contacts to arc or burn out. They are more immune to wear caused by frequent on/off cycles than the standard mechanical Relay type of device, and can give a finer temperature control due to the speed at which they can cycle.
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Principle Disadvantages are the fact being a 'Semiconductor' device it can fail Short-Circuit, meaning that the supply will be permanently connected to the load no matter what the control voltage is doing. Why they fail can be many- Incorrect use, wrong type for application, or too high an operating temperature ie no heatsink attached.
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Another disadvantage is that the SSR during normal use generates some heat as there is a small voltage-drop across the internal Triac semiconductor devices. The voltage-drop is usually around 3-5V at say, 10A so a heat of up to 50W can be developed--This is quite a lot of heat  energy.
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--This is quite normal, but must be dealt with if the device is to give long service and no unexpected failures.
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SSR's Must be fitted to a Heatsink that is recommended by its makers. Often the SSR can be purchased with the correct type heatsink for its capacity and it should be remembered that this heatsink should be mounted in such a way as to allow clear unobstructed airflow at all operating times.
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Testing circuits using SSR's can give some unexpected results--even though the device is operating normally. A cold test (without any power connected, just using a meter for continuity) will give incorrect readings. This is due to the way the device is made. A simple meter test would show up a short-circuit SSR but not confirm whether the device is good in other ways.
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Due to the internal construction and Snubber-Circuit inside the SSR it can be confusing to test under fault conditions. If there is  Mains supply to the SSR, and the load (heater, motor etc) is disconnected or faulty then there will be a Voltage at the Output connection as measured with a meter.
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--This does not mean the item is faulty. If a load, such as 100W Incandecent Lamp is connected in place of the usual switched device, then this voltage will disappear and the readings will be as expected providing the SSR is functioning normally.
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(Thats yer lot for now!)
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Revision as of 11:49, 13 July 2013

WarningIconSmall.png This page is a stub and needs expansion. Your knowledge is valuable to us - please consider sharing it by contributing to this wiki.

Page waiting to be written. Further info here ...

http://docs-europe.electrocomponents.com/webdocs/0d82/0900766b80d82ad3.pdf


The SSR its uses and perculiarities.

An SSR--or to give its correct name 'Solid-State Relay' is a development and improvement over the mechanical coil and contact relay or contactor used for switching high powers using a low controlling supply voltage. The SSR contains no moving parts, so is not subject to mechanical wear.

It has many advantages and a couple of disadvantages over the mechanical counterpart. Principle advantage is the expected life-span is improved as there are no mechanical parts or contacts to arc or burn out. They are more immune to wear caused by frequent on/off cycles than the standard mechanical Relay type of device, and can give a finer temperature control due to the speed at which they can cycle.

Principle Disadvantages are the fact being a 'Semiconductor' device it can fail Short-Circuit, meaning that the supply will be permanently connected to the load no matter what the control voltage is doing. Why they fail can be many- Incorrect use, wrong type for application, or too high an operating temperature ie no heatsink attached.

Another disadvantage is that the SSR during normal use generates some heat as there is a small voltage-drop across the internal Triac semiconductor devices. The voltage-drop is usually around 3-5V at say, 10A so a heat of up to 50W can be developed--This is quite a lot of heat energy. --This is quite normal, but must be dealt with if the device is to give long service and no unexpected failures.

SSR's Must be fitted to a Heatsink that is recommended by its makers. Often the SSR can be purchased with the correct type heatsink for its capacity and it should be remembered that this heatsink should be mounted in such a way as to allow clear unobstructed airflow at all operating times.

Testing circuits using SSR's can give some unexpected results--even though the device is operating normally. A cold test (without any power connected, just using a meter for continuity) will give incorrect readings. This is due to the way the device is made. A simple meter test would show up a short-circuit SSR but not confirm whether the device is good in other ways.

Due to the internal construction and Snubber-Circuit inside the SSR it can be confusing to test under fault conditions. If there is Mains supply to the SSR, and the load (heater, motor etc) is disconnected or faulty then there will be a Voltage at the Output connection as measured with a meter. --This does not mean the item is faulty. If a load, such as 100W Incandecent Lamp is connected in place of the usual switched device, then this voltage will disappear and the readings will be as expected providing the SSR is functioning normally.

(Thats yer lot for now!)