Lecture Plan (Monsoon) 2025–2026

Course Details

Electronics NPHC504 DC Credits:3 (L-T-P: 3-0-0)
Lecture Times:Wednesday: 03:00 pm – 03:50 pmThursday: 03:00 pm – 03:50 pmFriday: 02:00 pm – 02:50 pm
Teacher:Prof. P. M. Sarun, Ph.D.Course Website+91-9471191816
Course Objective
  • To introduce students to basic and advanced electronic circuits and devices
  • To teach fundamental principles of analog and digital electronics
Learning Outcomes
  • Analyze analog and digital circuits used in various devices
  • Design and explain principles of analog and digital electronics circuits

Lecture Schedule

Unit No. Topics Hours Learning Outcome
1Introduction to the subject1Familiarize with subject and evaluation
2Number systems, logic gates, Boolean algebra, K-map, arithmetic circuits4Basics of digital electronics
3Flip-Flops, Registers, Counters, A/D & D/A conversion, MUX/DEMUX9Advanced digital logic circuits
4Network theorems, diodes, BJT/JFET, transistor switch, Schottky, junctions7Semiconductor device principles
5Ideal amplifier, feedback theory, oscillators5Amplifiers and feedback
6Differential amplifier, op-amp, frequency response3Op-amp fundamentals
7Op-amp applications: adder, subtractor, filters, diff eqs5Op-amp applications
8Multivibrators, 555 timer circuits1Multivibrator circuits
9Modulation, demodulation, pulse/digital communication4Modern communication technologies
10Digital logic families, ICs, microprocessors/controllers3ICs and miniaturization

Books

Text Books Reference Books
  • Millman's Electronic Devices and Circuits – Millman (Tata McGraw Hill, 2007)
  • Digital Principles and Applications – Leach & Malvino (Tata McGraw Hill, 2006)
  • Semiconductor Devices: Physics and Technology – S.M. Sze (Wiley, 2007)
  • Electronic Devices and Circuits (SIE) – Cathey (McGraw-Hill, 2008)
  • Electronic Device and Circuit Theory – Boylestad & Nashelsky (Pearson, 2013)
  • Integrated Electronics – Millman & Halkias (Tata McGraw Hill, 2010)
  • Microelectronics – Millman & Grabel (Tata McGraw Hill, 1999)
  • Electronic Devices and Circuits – Gupta (S.K. Kataria, 2010)
  • Electronic Fundamentals and Applications – Ryder (PHI, 2009)
  • Handbook of Electronics – Gupta & Kumar (Pragati Prakashan, 2010)
  • Electronics: Fundamentals and Applications – Chattopadhyay & Rakshit (New Age, 2010)

Evaluation Plan

Evaluation Plan Quiz dates
  • Mid Semester: 30 marks [60 marks exam of 2 hours]
  • End Semester: 50 marks [50 marks exam of 2 hours]
  • Quizzes: 2 each of 10 marks
  • Total Marks: 100
  • Quiz I : 5 September 2024
  • Quiz II : 8 November 2024
  • Actual mark of Quizzes may vary.
  • No make-up exams for quizzes

Lectures Taken

Sl No. Topics Date
1Introduction to the subject24/07/2025
2Number systems25/07/2025
3logic gates30/07/2025
4Binary Addition31/07/2025
5Boolean algebra06/08/2025
6K-map07/08/2025
7K-map08/08/2025
8arithmetic circuits09/08/2025
9arithmetic circuits13/08/2025
10Flip-Flops14/08/2025
11Flip-Flops20/08/2025
12Registers21/08/2025
13Registers22/08/2025
14Counters28/08/2025
15Counters29/08/2025
16D/A conversion03/09/2025
17D/A conversion04/09/2025
18MUX/DEMUX10/09/2025
19A/D conversion11/09/2025
20A/D conversion12/09/2025
21A/D conversion13/09/2025