Academics Course

Course Details

1 Title of the course
(L-T-P-C)		 Introduction to Electrical Systems and Electronics
(3-0-0-6)
2 Pre-requisite courses(s) Exposure to Calculus
3 Course content From Physics to Electrical Engineering
  1. Lumped matter discipline
  2. Batteries, resistors, current sources and basic laws
  3. I-V characteristics and modeling physical systems

Basic Circuit Analysis Methods
  1. KCL and KVL, voltage and current dividers
  2. Parallel and serial resistive circuits
  3. More complicated circuits
  4. Dependent sources, and the node method
  5. Superposition principle
  6. Thevenin and Norton method of solving linear circuits
  7. Circuits involving diode.

Analysis of Non-linear Circuits
  1. Toy example of non-linear circuit and its analysis
  2. Incremental analysis
  3. Introduction to MOSFET Amplifiers
  4. Large and small signal analysis of MOSFETs
  5. MOSFET as a switch

Introduction to the Digital World
  1. Voltage level and static discipline
  2. Boolean logic and combinational gates
  3. MOSFET devices and the S Model
  4. MOSFET as a switch; revisited
  5. The SR model of MOSFETs
  6. Non-linearities: A snapshot

Capacitors and Inductors
  1. Behavior of capacitors, inductors and its linearity
  2. Basic RC and RLC circuits
  3. Modeling MOSFET anomalies using capacitors
  4. RLC circuit and its analysis
  5. Sinusoidal steady state analysis
  6. Introduction to passive filters

Operational Amplifier Abstraction
  1. Introduction to Operational Amplifier
  2. Analysis of Operational amplifier circuits
  3. Op-Amp as active filters
  4. Introduction to active filter design

Transformers and Motors
  1. AC Power circuit analysis
  2. Polyphase circuits
  3. Introduction to transformers
  4. Introduction to motors
4 Texts/References
  1. Anant Agarwal and Jefferey H. Lang, “Foundations of Analog and Digital Electronics Circuits,” Morgan Kaufmann publishers, 2005
  2. Wlilliam H. Hayt, Jr., Jack E. Kemmerly and Steven M. Durbin, “Engineering Circuit Analysis,” Tata McGraw-Hill
  3. Theodore Wildi, “Electrical Machines, Drives and Power Systems,” Pearson, 6-th edition.
  4. V. Del. Toro, “Electrical Engineering Fundamentals,” Pearson publications, 2nd edition.

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