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Course Detail

Course Name Electrical and Electronics Engineering
Course Code 25ARE103
Program B. Tech. in Automation & Robotics Engineering
Semester 1
Credits 3

Syllabus

Unit 1: Basics of Electrical Engineering: DC Fundamentals

Review of Electrical Engineering: Law of Resistance, Ohm’s law. Series-Parallel Combination: Voltage Divider and Current Divider Rules. Sources: Concept of Current and Voltage Sources, Source Transformation. Circuit Analysis: Mesh Analysis using KVL, Node Analysis using KCL.

Lab: Construction and Analysis of Resistive Network, Verification of Voltage and Current Divider.

AC Fundamentals

AC Generation: Faraday’s Laws of Electro-magnetic Induction, Definition of Self and Mutual Inductances, AC Components: Inductive and Capacitive Reactance, Series-Parallel Combination of R, L, C. AC Analysis: Instantaneous & RMS values.

Lab: Construction and Analysis of RLC Network

Unit 2: Basics of Electronics Engineering: Analog Fundamentals

Analog Components: PN Junction Diode: Characteristics, Bridge Rectifiers, BJT: Construction, Transistor as a Swich. Analog Computing: Operational Amplifiers – Inverting and Non-inverting amplifier.

Lab: Characteristics of PN Junction Diode, Transistor as a Switch, Realization of Inverting and Non-Inverting amplifiers using Op-Amp

Unit 3: Basics of Electronics Engineering: Digital Fundamentals

Digital Components: Basic and Universal Gates. Digital Analysis: Boolean Algebra, Truth Tables, Logic Expression Simplification using K-map.

Digital Design: Design of combinational circuits – adders and subtractors; overview of sequential circuits; introduction to the Arithmetic Logic Unit (ALU).

Lab: Realization of combinational and sequential logic circuits

Objectives and Outcomes

Course Objectives

  • Understand and apply the basic laws of electrical engineering in analysing DC and AC circuits.
  • Gain foundational knowledge of analog electronic components and their applications.
  • Realize logic circuits for standard and other specific logical operations

 Course Outcomes

 At the end of the course, the student will be able to

CO1: Analyse the DC circuits and verify them through practical lab experiments.

CO2: Evaluate the behaviour of RLC circuits for the sinusoidal power supply.

CO3: Analyse various electronic components and design analog circuits for robotics applications.

CO4: Develop various digital logic circuits for real-world applications.

CO-PO Mappings 

CO/PO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 PSO1 PSO2 PSO3
CO1 3 2 3
CO2 3 2 3
CO3 3 1 1 1 1
CO4 3 1 3

Text Books /References

Text Books
Lawrence M. Thompson Dean Ford, CAP, PE, ‘Basic Electricity and Electronics for Control – Fundamentals and Applications’, Fourth Edition, ISA, 2023
Alexander C K and Sadiku M N O, “Fundamentals of electric circuits”, 5th edition, New York, McGraw-Hill, 2013.
Adel S. Sedra, Kenneth Carless Smith, Tony Chan Carusone, “Microelectronic Circuits” 7th Edition, Oxford University Press, 2020
Hirak Sarkar, “Beginner’s Guide to Electronics and Robotics”,LAP Lambert Academic Publishing (2024)

References
Edward Hughes. “Electrical Technology”.7th Edition, Pearson Education Asia, 2011
Vincent Del Toro, ‘Electrical Engineering Fundamentals’, Prentice Hall of India Private Limited, 2003, 2nd Edition.
Michael Tooley B. A., “Electronic circuits: Fundamentals and Applications”, 3rd Edition, Elsevier Limited, 2006.

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