Electrical Engineering 2nd semester Syllabus of CTEVT diploma in Computer Engineering

Electrical Engineering 2nd semester Syllabus of CTEVT diploma in Computer Engineering : 

Electrical engineering syllabus of Diploma in Computer Engineering(DCOM), CTEVT Diploma Electrical Engineering Syllabus of Nepal .Hello Guys today we see the syllabus of CTEVT Diploma in computer Engineering Subject Electrical Engineering Syllabus so stay with us : 

The total Full Marks of this subject is 80 and pass marks is 32. You can see some numerical question in the exam . So prepare a exam as per the question paper of this subject. This course focuses on familiarization of fundamental concepts in DC and AC electrical networks.

Syllabus of Electrical Engineering of DCOM : 

Unit 1. Electromagnetism and Electromagnetic Induction [6 Hours]

1.1. Definition of magnetic field, magnetic flux, flux density, filed intensity and 

permeability of magnetic material

1.2. Magnetic field due to current carrying conductor, force on a current carrying 

conductor

1.3. Faraday’s laws of electromagnetic induction, induced EMF, lenz’s law

1.4. Magnetic circuit concept, analogy to electric circuit

1.5. Hysteresis loop for magnetic material, hard and soft magnetic material

Unit 2. Electric Circuit Fundamentals: [6 Hours]

2.1. Electric current and voltage

2.2. Circuit elements: Resistor, Inductor, Capacitor

2.3. Voltage and current sources

2.4. Independent and dependent sources

2.5. Series and parallel circuits

2.6. Electric power and energy

Unit 3. DC Circuit Analysis: [7 Hours]

3.1. Ohm’s law

3.2. Kirchhoff’s current and voltage laws

3.3. Thevenin’s theorem

3.4. Nortorn’s theorem

3.5. Superposition theorem

3.6. Maximum power transfer theorem

3.7. Loop and nodal equations for electric networks

Unit 4. Single Phase AC Circuit Analysis: [8 Hours]

4.1. Generation of sinusoidal EMF

4.2. Instantaneous, peak, average and RMS values

4.3. Application of complex number, review of complex number calculation and 

use of j operator

4.4. Phasor representation of AC quantities

4.5. AC excitation for RL, RC and RLC circuits

4.6. Resonance in RLC series circuit

4.7. Power in AC circuits: active power, reactive power, apparent power, power 

triangle and power factor

Unit 5. 3-Phase AC Circuits: [6 Hours]

5.1. Generation of 3-phase sinusoidal voltage

5.2. Advantage of 3-phase system

5.3. Line and phase quantities (current, voltage)

5.4. Star and delta connection of 3-phase source and load.

5.5. Power in 3-phase circuits

Unit 6. Electric Machines: [8 Hours]

6.1. Transformers: Construction and working principle of single phase transformer

6.2. DC motor and generator: Construction, generation of voltage and torque 

production

6.3. Single phase AC motor

6.4. 3-phase induction motor: Construction and working principle

6.5. 3-phase synchronous generator: Construction and working principle

Unit 7. Cells and Batteries: [4 Hours]

7.1. Primary and secondary cells: definitions and examples, internal resistance of cell

7.2. Lead acid cell: construction, chemical reaction during charging and discharging, 

methods of charging (constant voltage and constant current charging)

7.3. Dry cell, Mercury cell, Ni-Cd cell, Li-ion cell

7.4. Series and parallel connection of cells

Electrical Engineering 2nd semester Reference Book of CTEVT DCOM : 

1. Theraja, B. L., Theraja, B. L., & Theraja, A. K. (2010). A textbook of electrical technology. Ram Nagar, New Delhi, India: S. Chand & Co.

2. Gupta, J. B. (1999). Fundamentals of electrical engineering and electronics. New Delhi: S.K. Kataria & Sons Publishers.

3. Del, T. V. (1984). Principles of electrical engineering. New Delhi: Prentice-Hall of India.

4. Cogdell, J. R. (1999). Foundations of electrical engineering. Upper Saddle River, N.J: Prentice Hall.