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Department of Electrical and Computer Engineering

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Department of Electrical and Computer Engineering. EE20A - Electromechanical Energy Conversion ... Alternating Voltage sets up varying flux in core ... – PowerPoint PPT presentation

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Title: Department of Electrical and Computer Engineering


1
Department of Electrical and Computer Engineering
  • EE20A - Electromechanical Energy Conversion
  • Transformers

2
Principle of Operation
  • Ferromagnetic, laminated core
  • Primary and Secondary Windings
  • Alternating Voltage level conversion

3
Principle of Operation
  • Alternating Voltage sets up varying flux in core
  • Varying flux links with windings on secondary
    side
  • Flux linkage results in voltage source

4
Non-Ideal Transformer
  • Leakage losses in windings
  • Hysteresis Eddy Current Losses in Transformer
    Core
  • Resistive Losses in primary and secondary
    windings

5
Equivalent Circuit
6
Points to Remember
  • when going to the HV side, impedances go up
  • when going to the LV side impedances go down
  • any side can be treated as the primary, all the
    must be done is that the turns ratio should be
    adjusted to suit

7
Open Circuit Test
  • Measure Voc , Ioc and Poc
  • Calculate Zoc and qoc
  • Io Ioc cos qoc
  • Im Ioc sin qoc
  • Ro Voc / Io
  • Xm Voc / Im
  • Poc Voc x Ioc x cos qoc

8
Open Circuit Test
9
Short Circuit Test
  • Measure Vsc , Isc and Psc
  • Calculate Zsc and qsc
  • Rs Zsccos qsc
  • Xs Zscsin qsc
  • Psc Vsc x Isc x cos qsc

10
Short Circuit Test
11
Summary
p.f _at_ qL
12
Turns Ratio
  • a ( N1 / N2 ) Coil Turns Ratio
  • E1 N1 Voltage Turn Ratio
  • E2 N2
  • I1 N2 Ampere Turn Ratio
  • I2 N1

13
Summary
  • Power out V2 I2 cos qL
  • IIN INL I1
  • INL IO jIm PHASE DIFFERENCE 90 DEG
  • -j Lagging p.f.
  • 4. N1I1 - N2I2 0

14
Summary

  • Equivalent Losses

  • Stored Energy
  • 7. V2 E2
  • 8. E2 E1 N2
  • N1

15
Summary
9. E1 V1 I1 RS jXS 10. ?
Output Power x 100
Input Power Input Power losses
x 100 Input Power
Output Power x 100 Output
Power Losses
16
Summary
  • ? V2 I2 cos qL x 100
  • V2 I2 cos qL IO2RO
    I12RS
  • Efficiency ()
  • Regulation () (VNL2 VFL2 ) X 100

  • VFL2
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