COURSE OUTLINE: This course aligns with the core courses in Electronics Circuits taught to undergraduates in Electrical and Computer Engineering. The objective of this course is to develop the ability to analyse and design electronic circuits both analog and digital, discrete and integrated. The course starts with the basics of the device most seldom encountered in mixed designs and then go on to do circuit analysis in the later parts.
Overview
Syllabus
Microelectronics: Devices To Circuits.
Bipolar Junction Transistor : Physical structure and Modes of Operation.
Bipolar Junction Transistor : Modes of operation-I.
Bipolar Junction Transistor : Modes of operation - II.
BJT Operation in active mode Circuit symbol and conventions -I.
BJT Operation in active mode Circuit symbol and conventions - II.
BJT as an amplifier ,small circuit model-I.
BJT as an amplifier small circuit model-II.
BJT Small Signal Circuit Model-I.
BJT Small Signal Circuit Model - II.
BJT as a switch and Ebers Moll Model.
Simple BJT Inverter and second order effects.
BJT Second order effects - I.
BJT Second order effects-II.
MOS Transistor basics-I.
MOS Transistor basics-II.
MOS Transistor basics-III.
MOS Parasitic and SPICE Model.
CMOS Inverter Basics -I.
CMOS Inverter Basics-II.
CMOS Inverter Basics-III.
Power Analysis -I.
Logical Efforts-I.
Fabrication-Process-I.
Fabrication-Process-II.
Biasing of Amplifier and its behaviour as an Analog switch-I.
Biasing of Amplifier and its behaviour as an Analog switch-II.
Biasing of Amplifier and its behaviour as an Analog switch-III.
CMOS CS/CG /CD Amplifier Configuration.
CMOS CG/CD Amplifier Configuration.
Internal CAP Models and high frequency Modelling-I.
Internal CAP Models and high frequency Modelling-II.
JFET, Structure and Operation.
Multistage and Differential Amplifier-I.
Multistage and Differential Amplifier-II.
MOS Differential Amplifier-I.
MOS Differential Amplifier-II.
Small signal operation and Differential Amplifiers-I.
Small signal operation and Differential Amplifiers-II.
Multistage Amplifier with SPICE Simulation.
S-Domain Analysis, Transfer Function ,Poles and Zeros-I.
S-Domain Analysis, Transfer Function ,Poles and Zeros-II.
High Frequency response of CS and CE Amplifier.
High Frequency response of CC and SF Configuration.
Frequency response of Differential Amplifier.
General Feedback Structure and properties of negative Feedback.
mod10lec46.
mod10lec47.
mod10lec48.
mod10lec49.
mod10lec50.
mod11lec51.
mod11lec52.
mod11lec53.
mod11lec54.
mod11lec55.
mod12lec56.
mod12lec57.
mod12lec58.
mod12lec59.
mod12lec60.
Taught by
IIT Roorkee July 2018
