An electric circuit in engineering terms can be defined as a given set of electrical components that can be assembled to perform an electrical task. As we all know, a transformer by itself will not accomplish a voltage reduction as simple as the above given responses.A circuit? The transformer is all he needs.
Interesting, can you elaborate?An electric circuit in engineering terms can be defined as a given set of electrical components that can be assembled to perform an electrical task. As we all know, a transformer by itself will not accomplish a voltage reduction as simple as the above given responses.
Indeed, this would be some of the additional electrical components required to build a safe an reliable "electrical circuit" to achieve what the responses above have been provided for. My response given above was to provide an alternative to the original question on how to build a transformer from scratch. This is another option that depending on the expertise of the individual asking the question may give him/her the ability to utilize the electrical equipment at a different voltage level and frequency of the power voltage grid. A voltage transformer can be built by utilizing Faraday's law and applying the appropriate expertise withing the design of such field in electrical engineering. You may take a look at the following: http://en.wikipedia.org/wiki/Transformer. I hope this is of benefit to all of you.Perhaps I should've mentioned that our OP would also need a plug to fit their outlet, a suitable electrical cord, a fuse and fuse holder, a box to put the transformer in, and a suitable outlet that the monitor can plug into?
is to wind a transformer from scratch.a circuit diagram of a converter 100W
I suppose that one interpretation of is to wind a transformer from scratch.
It seems easier to pick up the Mouser catalog, turn to page 1971, and contemplate part #553-N4MG, a 150 VA autotransformer, as an example.
I'm not certain of how it can be seen as a circuit, though.
by Duane Benson
by Jake Hertz
by Duane Benson
by Duane Benson