- It consists of only single winding which is common to both primary and secondary winding.
- It has two end terminals ( PR) acts as primary and one end terminal ( either P or R ) and inter mediate terminal Q acts as a secondary winding ( Figure A ).
- The position of the intermediate terminal Q determines whether auto – transformer works as step down transformer or step up transformer.
- The theory and operation of the auto - transformer is similar to that of conventional two winding transformer.
- The auto transformer is cheaper than the ordinary transformer because of single winding uses less copper than the two winding.
- Since the voltage / turn is equal in both winding, the voltage develops across each winding depends on number of turns.
- Figure B shows a step down transformer in which PQ winding acts as a primary having N1 turns and QR winding acts as a secondary winding consists of N2 turns.
- If the supply voltage V1 is given to primary winding
Induced emf per turn ( Et ) = V1
/ N1
As we know that the value of Et
is same for both winding
Secondary voltage V2 = Et ×
N2
Saving of Copper in Auto transformer as
step down transformer
- The weight of winding material ( Copper ) is proportional to the length and area of cross section of the conductors.
W a Volume of material
W a ( a × L )
- The cross section of the conductor depends on current ( I ) and length of conductors is proportional to the number of turns ( N ).
- Therefore the weight of copper is directly proportional to ampere - turns ( NI ).
Weight of the copper in the ordinary
transformer ( WO ) = N1I1 + N2I2
Weight of copper in the auto transformer ( Wa
) =
Weight of copper in part PQ a I1
( N1 – N2 )
Weight of copper in part QR a ( I2
– I1 ) N2
Total weight of copper in the auto
transformer a I1 ( N1 – N2 ) + ( I2
– I1 )
N2
a ( I1N1 + I2N2
– 2N2I1 )
Weight of copper in auto transformer ( Wa
) / Weight of copper in ordinary transformer ( WO ) = ( I1N1 + I2N2
– 2N2I1 ) / ( I1N1 + I2N2
)
= ( I1N1 + I1N1
– 2N2I1 ) / 2N1I1 ( As N1I1 = N2I2
)
= ( 2I1N1 / 2I1N1
) – ( 2N2I1 / 2I1N1 )
= ( 1 ) – ( K ) ( As K = N2 / N1 = I1
/ I2 )
= 1 – K
Therefore Wa = ( 1 – K ) WO
Saving in Copper = WO – Wa
= WO – ( 1 – K ) WO
= KWO
- Therefore the saving in copper material depends on the value of K ( Voltage transformation ratio ).
- Higher value of K, more saving in copper material
Saving of Copper in Auto transformer as Step
up transformer
Weight of the copper in the ordinary transformer ( WO ) = N1I1 + N2I2
Weight of copper in the auto transformer ( Wa ) =
Weight of copper in part PR a I2 ( N2 – N1 )
Weight of copper in part QR a ( I1 – I2 ) N1
Total weight of copper in the auto transformer a I2 ( N2 – N1 ) + ( I1 – I2 )
N1
a ( I1N1 + I2N2 – 2N1I2 )
Weight of copper in auto transformer ( Wa ) / Weight of copper in ordinary transformer ( WO ) = ( I1N1 + I2N2 – 2N1I2 ) / ( I1N1 + I2N2 )
= ( I1N1 + I1N1 – 2N1I2 ) / 2N1I1 ( As N1I1 = N2I2 )
= ( 2I1N1 / 2I1N1 ) – ( 2N1I2 / 2 N1I1 )
= ( 1 ) – ( 1 / K ) ( As K = N2 / N1 = I1 / I2 )
= ( 1 – 1 / K )
Therefore Wa = [ ( 1 – 1 / K ) ] WO
Saving in copper = WO – [ ( 1 – 1 / K ) ] WO
= [ 1 – 1 + 1 / K ] WO
= ( 1 / K ) WO
- Therefore the saving in copper material depends on the value of 1 / K.
- Lower value of K, more saving in copper material
Application
- The auto – transformer is used for starting of synchronous motor and induction motor. Its winding is used only during starting period of the motor for a few seconds.
- It is used as a furnace transformer for getting suitable supply voltage for furnace winding from 230 V supply.
- It is used as laboratory equipment to get suitable supply voltage as per requirement.
- To compensate the small voltage drop in a distribution cable by giving small voltage boost.
- It may be used as interconnecting transformer in 132 kV / 66 kV supply system.
Connection of two winding transformer into Auto
– transformer
- The winding connection diagram of an auto transformer from two winding transformer may be as ( I ) Step down transformer ( II ) Step up transformer
Conversion of Two winding Transformer into
Step down Auto Transformer
Conversion of Two winding Transformer into
Step up Auto Transformer
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