Week - 1 |
Course Introduction; The Engineering Profession,Main Branches; The Fields of Study in Electrical Engineering ; SI Units System; Electrical Concepts: Atom and electrons, Electric charge, Current, Voltage, Energy, and Power |
Week - 2 |
Electric Circuit; Open Circuit and Short Circuit Concepts; Resistance and Ohm's Law; Passive Sign System; Kirchhoff's Laws. LAB: Introduction to Lab and the Instruments, Basic Rules. |
Week - 3 |
Nominal Value, Measured Value, Accuracy, and Tolerance; Series and Parallel Connection; Dependent and Independent Current and Voltage Sources; Ideal and Practical Sources; Linearity and Time-invariance; Analysis Methods: Loop analysis.
LAB: Measurement of Resistance, DC Current, and DC Voltage. |
Week - 4 |
Analysis Methods: Nodal analysis; Source Transformations; Superposition Theorem.
LAB: DC Circuit Analysis. |
Week - 5 |
Thevenin and Norton Equivalent Circuits; Power Transfer; Step by Step Solution; Sinusoidal Forcing Function. |
Week - 6 |
Thevenin and Norton Equivalent Circuits; Power Transfer; Step by Step Solution; Sinusoidal Forcing Function.
LAB: Superposition. |
Week - 7 |
Capacitance and Inductance; Alternating Current Circuits; Phasor Concept .
LAB: Thevenin's Theorem. |
Week - 8 |
Impedance and Admittance, AC Circuit Analysis; Average and Effective Values, Average, Active, Reactive, and Complex Power; Power Factor.
LAB: Oscilloscopes. |
Week - 9 |
Compensation, Three Phase Systems.
LAB: Reactance of R, L, and C Elements. |
Week - 10 |
Semi-conductors; Diodes and Some Diode Circuits.
LAB: RC Circuits. |
Week - 11 |
Transistors; Some Transistor Circuits.
LAB: RLC Circuits. |
Week - 12 |
Mutual Inductance and Transformers: Linear transformers, Ideal transformers. |
Week - 13 |
Mutual Inductance and Transformers: Linear transformers, Ideal transformers.
LAB: Diodes and DC Power Supply. |
Week - 14 |
Areas of Electrical Engineers Work: Power, Electronics, Control, Communications, Signal processing, Electromagnetics, Digital systems and Computers. |