Transformer
Definition
of Transformer:
Electrical power transformer is a static device which transforms electrical energy from one circuit to
another without any direct electrical connection and with the help of mutual
induction between two windings. It transforms power from one circuit to another without changing its frequency but may be in different voltage level. This is a very short and simple definition of transformer, as we will go through this portion of tutorial related to electrical power transformer, we will understand more clearly and deeply "what is transformer ?" and basic theory of transformer.
Working Principle
of Transformer:
The working principle of transformer is very simple. It depends upon Faraday's law
of electromagnetic induction. Actually, mutual induction between two
or more winding is responsible for transformation action in an electrical
transformer.
Basic
Theory of Transformer:
Say you have one
winding which is supplied by an alternating electrical source. The alternating current through the winding produces a continually changing flux or alternating flux that surrounds the winding. If any other winding is brought nearer to the previous one, obviously some portion of this flux will link with the second. As this flux is continually changing in its amplitude and direction, there must be a change in flux linkage in the second winding or coil. According to Faraday's law of electromagnetic
induction, there must be an EMF induced in the second. If the circuit of the later winding is closed, there must be an current flowing through it. This is the simplest form of electrical power transformer and this is the most basic of working principle of transformer.
For better understanding, we are trying to repeat the above explanation in a
more brief way here. Whenever we apply alternating current to an electric coil,
there will be an alternating flux surrounding that coil. Now if we bring
another coil near the first one, there will be an alternating flux linkage with
that second coil. As the flux is alternating, there will be obviously a rate of
change in flux linkage with respect to time in the second coil. Naturally emf
will be induced in it as per Faraday's law of electromagnetic
induction.
Theory
of transformer:
The winding which
takes electrical power from the source, is generally known as primary winding of transformer. Here in our above example it is first winding. The
winding which gives the desired output voltage due to mutual induction in the
transformer, is commonly known as secondary winding of transformer. Here in our
example it is second winding. The above mentioned form of transformer is
theoretically possible but not practically, because in open air very tiny
portion of the flux of the first winding will link with second; so the current that flows through the closed circuit of later, will be so small in amount that it will be difficult to measure. The rate of change of flux linkage depends upon the amount of linked flux with the second winding. So, it is desired to be linked to almost all flux of primary winding to the secondary winding. This is
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