Course Code
P245
Credit
5
Prerequisite
- None -
Total Hours
14 Lectures + 9 Practicals
Outcome of the Course
This final basic training in experimental physics equips the student with concepts and methods for doing advanced experiments in electronics.
Approval
Syllabus
PART I : Theory (14 Lectures)
- Foundations, passive elements, sources – dependent sources
- Survey of network theorems and network analysis
- Transient response of R-L circuit, R-C circuits, sinusoidal steady state response
- Diodes and diode circuits, power supply – rectifiers, full wave rectifier without center tapped transformer
- Bipolar junction transistors, constant current source, constant voltage source, field effect transistors, basic differential amplifier circuit
PART II : Experiments (9 Practicals)
- Diode characteristics (Si/Ge & Zener)
- Half wave rectifier circuit
- Fullwave bridge rectifier circuit
- Zener regulated power suppl
- Passive RC filters and phase shifting network
- LCR series resonance circuit
- Transistor characteristics
- Single and two stage RC coupled amplifier
- Characteristics of Metal-oxide semiconductor field-effect transistor (MOSFET)
Reference Books
- The art of electronics by Paul Horowitz and Winfield Hill, Cambridge University Press
- Electronics by Allan R. Hambley, Prentice Hall
- Electronics Fundamentals by Thomas L. Floyd, Prentice Hall
- Introduction to Electronics by Earl Gates, Cengage Learning
- Op-amps and linear integrated circuits by R.A. Gayakwad, Prentice Hall of India
- Microelectronics by Millman, Grabel, McGraw-Hill