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Microwave Integrated Circuits

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Free Online Course: Microwave Integrated Circuits provided by Swayam is a comprehensive online course, which lasts for 8 weeks long, 2-3 hours a week. The course is taught in English and is free of charge. Upon completion of the course, you can receive an e-certificate from Swayam. Microwave Integrated Circuits is taught by Jayanta Mukherjee.

IIT Bombay NPTEL via Swayam
8 weeks long, 2-3 hours a week
Finished
Overview

  • Microwave Integrated Circuits is a course designed for introducing the field of Microwave Engineering to students, engineers and academics. Since at microwave frequencies, the distributed circuit effects become very prominent, new circuit theories based on Maxwell's laws have to be introduced. Further, new circuit design techniques as well as new circuit elements are also introduced. The first part of the course deals with the basics of theory. In the later part, the designs of various microwave devices like couplers, circulators, filters and amplifiers are introduced. INTENDED AUDIENCE :Students of BE/ME/MS/BSc/MSc/PhD Both UG/ PG can be allowedPREREQUISITES :Basics of Network TheoryINDUSTRY SUPPORT :NIL

Syllabus

  • Week 1
    Lecture 1:Introduction
    Lecture 2:Reflection Coefficient, VSWR, Smith Chart
    Lecture 3:Reflection Coefficient, VSWR
    Lecture 4: Smith Chart
    Lecture 5:Applications of the Smith Chart
    Lecture 6:Microwave components

    Week 2
    Lecture 7:Broadband Impedance matching
    Lecture 8:Multi-section transformer
    Lecture 9:Maximally flat (binomial) transformer, Chebyshev transformer
    Lecture 10:Non-uniform transmission line(Tapers)

    Week 3
    Lecture 11:Scattering Parameters
    Lecture 12:Properties of Scattering Parameters
    Lecture 13:Properties of Scattering Parameters (contd.)
    Lecture 14:Signal flow graph, ABCD parameters

    Week 4
    Lecture 15:1 and 2 port passive components
    Lecture 16:3-port microwave components
    Lecture 17:Couplers
    Lecture 18:Coupled line couplers

    Week 5
    Lecture 19:Resonators and narrow band filters
    Lecture 20:Narrow-band filters
    Lecture 21:Filter design: Image parameter method, Insertion loss method
    Lecture 22:Filter synthesis, Kuroda’s Identity

    Week 6
    Lecture 23:Impedance Matching Circuits for Amplifiers
    Lecture 24:Micro strip matching(contd.), Mason’s rule, Power gain equations
    Lecture 25:Amplifier Gain Stability
    Lecture 26:Amplifier Gain Stability(contd.)

    Week 7
    Lecture 27:Gain circles
    Lecture 28:Gain circles(contd.)
    Lecture 29:Noise
    Lecture 30:Noise figure circles(contd.)

    Week 8
    Lecture 31:DC Biasing
    Lecture 32:Amplifier Classes, Frequency compensation
    Lecture 33:Linearity
    Lecture 34:Oscillator Design

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