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Single Phase Transformers ELE 2103 Electrical Machinery1

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Presentation on theme: "Single Phase Transformers ELE 2103 Electrical Machinery1"— Presentation transcript:

1 Single Phase Transformers ELE 2103 Electrical Machinery1

2 Transformer Ideal Transformer Practical Transformer Equivalent Circuit
Concept of flux leakage, Representation of Primary, Secondary & Core Impedances Equivalent Circuit Representation of Elements Exact, Approximate Exercise

3 Ideal Transformer – No Load
Pry & Sec windings have no resistance Core has infinite permeability (zero reluctance) No leakage or losses of any kind Im V1 Ø E1 E2 V2 N1 N2

4 Practical Transformer
Ø Mutual Flux X Primary Leakage Flux L1 Secondary Leakage Flux L2 X Windings have definite resistance values Occurrence of Losses Copper Loss (Pry & Sec) Core Loss (Hysteresis Loss & Eddy current Loss) Primary & Secondary Leakage Flux

5 Practical Transformer - Primary
Primary Leakage Flux L1 X Primary Side I1 sets up leakage flux L1 , links with primary only Leakage flux L1 induces an self induced emf eL1, thus opposing current I1 eL1 is treated as voltage drops across fictitious reactance placed in series X1 = primary leakage reactance Primary leakage reactance drop = I1 X1 = I1  L1 Primary Side Impedance Z1 = R1 + j X1 R1 X1

6 Practical Transformer - Secondary
Leakage Flux L2 X Secondary Side I2 sets up leakage flux L2 , links with secondary only Leakage flux L2 induces an self induced emf eL2, thus opposing current I2 eL2 is treated as voltage drops across fictitious reactance placed in series X2 = secondary leakage reactance Secondary leakage reactance drop = I2 X2 = I2  L2 Secondary Side Impedance Z2 = R2 + j X2 R2 X2

7 Core Confining the flux set up, to the magnetic material path Responsible for Hysteresis loss & Eddy current loss Hysteresis Loss minimized by high grade material such as silicon steel Eddy current loss minimized by stacks of thin laminations RC XM Io Im = Magnetising current component Ic Im Ic = Core loss current component Io = No load current

8 Practical Transformer Representation
Core Ø N1 N2 E1 E2 V2 V1 R1 X1 R2 X2 Rc Xm Ø N1 N2 V2 V1 R1 X1 R2 X2 Ideal

9 Practical Transformer - No Load
Rc Xm Ø N1 N2 V2 V1 R1 X1 R2 X2 Ideal Io E1 E2 Ic Im Primary Side Secondary Side

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