ELECTRICAL ENGINEERING - SET 4 - VIDEO ACCESS

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SET4 - REVISED NOTES – DETAILED TOPICS 

  1. Capacitors – Revision
  2. Inductors – Revision
  3. First Order Circuits
  4. Singularity Functions
  5. Step Response of an RC Circuit
  6. Step Response of an RL Circuit
  7. Second Order Circuits
  8. The Source-free Series RLC Circuit
  9. The Source-free Parallel RLC Circuit
  10. Step Response of a Series RLC Circuit
  11. Step Response of a Parallel RLC Circuit
  12. General Second Order Circuits
  13. Instantaneous and Average Power
  14. Maximum Power Transfer
  15. Effective (RMS) Value
  16. Apparent Power and Power Factor
  17. Complex Power
  18. Conservation of AC Power

19.  INSTANTANIOUS AND AVERAGE POWER

a.     MAXIMUM POWER TRANSFER

b.     EFFECTIVE (RMS) VALUE:

c.     APPARANT POWER AND POWER FACTOR

d.     COMPLEX POWER

e.     CONSERVATION OF AC POWER

f. POWER FACTOR CORRECTION

20.  THREE-PHASE CIRCUITS

a.     BALANCED THREE PHASE VOLTAGES

b.     BALANCED THREE PHASE LOADS

c.     Different configurations:

                                                    i.    Balanced Wye-Wye connection (Y-Y)

                                                  ii.    Balanced Wye-Delta connection (Y-∆)

                                                 iii.    Balanced Delta-Delta connection (∆-∆)

                                                 iv.    Balanced Delta-Wye connection (∆-Y)

d.     POWER IN A BALANCED SYSTEM

e.     UNBALANCED THREE-PHASE SYSTEMS

 

 

 

 

 

 

21.  SHORT CURCUIT TRANSMISSION LINES

22.  PHASOR DIAGRAMS

23.  RESISTANCE AND INDUCTANCE

24.  VOLTAGE REGULATION

25.  LINE EFFICIENCY

26.  MAGNETIC CIRCUITS

a.    Magnetic field

b.    Magnetic circuit

c.     Inductance and mutual inductance

d.    Magnetic material

27.  SINUSOIDAL STEADY STATE ANALYSIS

a.     Normal analysis example

b.     Super position example

c.     Source Transformation Principle

d.     Thevenin and Norton Equivalent Circuits

28.  Transformers

28.1 Ideal transformers

28.1.1 Power in an Ideal Transformer

28.1.2 Impedance referral/ Transformation

28.2 Real/ Non-Ideal transformers

28.2.1 Impedance referral/ Transformation

28.2.2 Regulation and efficiency

29. Electric Machines

29.1  DC Machines Motors

29.1.1 Windings

29.1.2 Losses, Power ratings, and Efficiency

29.1.3 Power efficiency

29.2 AC Machines

29.2.1 Three phase Induction motor Rotating field

29.2.2 Synchronous speed

29.2.3 Slip and slip frequency

29.2.4  Equivalent circuit and performance calculation

29.2.5 Power and torque calculation