18ML33 Analog Electronic Circuits syllabus for ML



A d v e r t i s e m e n t

Module-1 DC Biasing – BJT’s 0 hours

DC Biasing – BJT’s

Introduction, operating point, Fixed-Bias configuration, Emitter-bias configuration, Voltage-Divider Biasing, Emitter Follower Configuration. Relevant problems.

 

DC Biasing – FET’s

Introduction, Fixed-Bias Configuration, Self-Bias Configuration, Voltage-Divider biasing, Numerical.

Module-2 BJT AC Analysis 0 hours

BJT AC Analysis

BJT modeling, re transistor model: Common Emitter fixed Configuration, Voltage-Divider Bias, CE Emitter- Bias Configuration (Excluding P-spice Analysis), Emitter Follower Configuration, Cascaded Systems. The Hybrid Equivalent model, Approximate Hybrid Equivalent Circuit, Fixed bias configuration, Voltage-Divider configuration. Hybrid λ Model.

Module-3 FET Amplifiers 0 hours

FET Amplifiers

Introduction, JFET Small Signal Model, JFET AC equivalent Circuit, Fixed- Bias Configuration, Self-Bias Configuration (with bypassed Rs only), Voltage-Divider Configuration, Source Follower Configuration.

 

BJT and JFET Frequency Response:

Introduction, General Frequency Considerations, Low Frequency Response of BJT Amplifier, Low Frequency Response of FET Amplifier, Miller Effect Capacitance, Multistage frequency effects.

Module-4 Power Amplifiers 0 hours

Power Amplifiers:

Introduction: Definitions and Amplifier Types, Series Fed Class A Amplifier, Transformer Coupled Class A Amplifier, Class B Amplifier operation.

 

Class B amplifier circuits:

Transformer-Coupled Push-Pull Circuits, Complementary–Symmetry Circuits only, Amplifier Distortion, Class C and Class D Amplifier.

Module-5 Feedback and Oscillator Circuits 0 hours

Feedback and Oscillator Circuits:

Feedback concepts, Feedback connection types, effects of negative feedback, practical feedback circuits: - FET based voltage series Feedback, BJT based current series, and FET based voltage shunt feedback.

 

Oscillator operation:

Barkhaunsen’s criteria, Tunedoscillator Circuits: BJT based Colpitts, Hartley and Crystal oscillator. Unijunction transistor oscillator

Note:-Relevant problems on all topics

 

Course Outcomes:

After studying this course, students will able to:

• Explain the biasing of BJT and FET

• Model BJT/FET for ac/dc analysis

• Design Single stage, Multistage amplifier, with and without feedback

• Analyze Frequency response of BJT and FET.

• Acquire the knowledge of classifications of Power amplifier, operation, and able to design power amplifier.

• Apply the knowledge gained in designing of BJT/FET/UJT based Oscillators.

 

Question Paper Pattern:

• The question paper will have TEN questions.

• Each full question carry 20 marks

• There will be TWO full questions (with maximum of THREE sub questions) from each module.

• Each full question will have sub questions covering all the topics under a module.

• The students will have to answer FIVE full questions, selecting ONE full question from each module.

 

Textbook:

Robert L. Boylestad and Louis Nashelsky, “Electronics devices and Circuit theory”, Pearson, 10th Edition, 2009, ISBN:9788131727003

 

Reference Book:

David A. Bell, “Electronic Devices and Circuits”, Oxford University

Last Updated: Tuesday, January 24, 2023