DC Circuit Analysis: Network Theorems - Thevenin’s theorem, Norton’s theorem, Superposition theorem, Maximum power transfer theorem.
AC Circuit Analysis: Basic concepts of AC circuits – RMS value and average value – Behavior of resistor, capacitor, and inductor in AC circuits – Sinusoidal steady-state analysis of AC circuits – Power factor - Resonance in AC circuits. Introduction To Magnetic Theory.
Diode: Clipping, clamping circuits, applications in rectifiers and power supplies.
Amplifiers: BJT - Characteristics - DC analysis and AC analysis of BJT. Application of BJT as amplifiers/switch.
Introduction to Operational Amplifiers: Characteristics/specifications and application circuits.
Digital Circuits: Boolean logic – basic gates – truth tables – logic minimization using K-maps – combinatorial and sequential circuits.
Boylestad, R. L. and Nashelsky, L., Electronic Devices and Circuit Theory, Pearson Education (2003).
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Vincent DelToro: Electrical Engineering Fundamentals, Pearson Education, 1989.
A. E. Fitzgerald, David E Higginbothom, Arvin Grabel: Basic Electrical Engineering, Tata McGraw-Hill, 2010.
Hughes, E.: Electrical and Electronic Technology, Pearson Education, 2008.
Charles K Alexander, Mathew N. O. Sadiku: Electric Circuits, McGraw-Hill; 4th edition, 2008.
Fitzgerald, Kingsley, Umans: Electric Machinery, Tata McGraw-Hill, 2017.
M. G. Say: Performance and Design of AC Machines, CBS; 3rd edition, 2002.
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Course Outcomes (COs):
CO1: Demonstrate Proficiency in DC Circuit Analysis
CO2: Apply AC Circuit Analysis Techniques
CO3: Understanding of the characteristics of diodes and transistors
CO4: Understanding of the operational circuits and its design
CO5: Realize digital circuits using basic gates