Microwave/RF Engineering: Transmission Lines & Smith Chart

Microwave/RF Engineering Basics | Transmission Lines | Smith Chart | Scattering Parameters | Waveguides | Diodes


What you'll learn
Introduction to Microwave Fundamentals
Transmission Lines
Smith Chart
Scattering Parameters
Waveguides
Microwave Devices
Microwave Sources
Microwave Diodes

Requirements
No Prior knowledge is needed

Description
A
Microwave/RF
Engineering course delves into the principles and applications of microwave frequencies, typically ranging from 1 GHz to 300 GHz. In this course of
Microwave/RF Engineering,
Students can explore the design, analysis, and case studies of microwave circuits and systems.
Prof. Hitesh Dholakiya is a Microwave/RF/Communication Engineer with over 15 years of experience in RF (Radio Frequency), antennas, and microwaves. With a passion for teaching and a wealth of industry knowledge, Prof. Hitesh Dholakiya is dedicated to helping students achieve their academic and professional goals in
Microwave/RF
Engineering.
The
Microwave/RF
Engineering course caters specifically to Engineers, Professionals, Researchers, and Enthusiasts keen on delving into
Microwave/RF
Systems. It stands out as a distinctive offering within the online learning landscape.
This
Microwave/RF
Engineering course aims to give students an in-depth grasp of
Microwave/RF
systems, encompassing their principles, applications, and design intricacies. Microwave systems serve as pivotal components across diverse sectors such as aviation, defense, meteorology, and remote sensing, underscoring their significance. This course equips participants with a robust knowledge base by delving into theoretical underpinnings and contemporary advancements in
Microwave
Engineering.
This
Microwave/RF
course includes videos related to Microwave Engineering and covers all
Microwave/RF
Engineering fundamentals.
The following chapters are covered in this course on
Microwave/RF Engineering.
1. Introduction to Microwave Engineering
2. Transmission Line
3. Smith Chart
4. Scattering Parameters
5. Waveguide in Microwave
6. Microwave Devices
7. Microwave sources
8. Microwave Diodes
9. Microwave Measurement
Topic wise Detailed Syllabus of
Microwave/RF Engineering
is as follows:
1. Introduction to Microwave Engineering:
Microwave Frequency Bands, Microwave Applications, Advantages of Microwave Signals.
2. Transmission Line:
Basics of Transmission Line, Types of Transmission Line {Two Parallel Wire Transmission Line, Coaxial Transmission Line and Microstrip Transmission Line}, Transmission Line Equivalent Circuit, Transmission Line Equations, Parameters of Transmission Line {Propagation Constant, Attenuation Constant, Phase Constant, Characteristics Impedance, Reflection Coefficient, Transmittance Coefficient, VSWR, Standing Patter, Input Impedance}, Generation of Phase Delay in Transmission Line, Examples on Transmission Line, Transmission Line Parameters, Impedance matching of Transmission Line, Losses in Transmission Line.
3. Smith Chart:
Basics of Smith Chart, Mathematics of Smith Chart, Examples on Smith Chart, Parameters of Smith chart like VSWR, Reflection Coefficient, Load Impedance, Input Impedance, Line Impedance, Vmax and Vmin location, Admittance, Parallel stub Impedance matching, Series stub Impedance matching.
4. Scattering Parameters:
Basics of Scattering parameters, Properties of Scattering parameters, Scattering parameters for two port network, Scattering parameters for four-port network, Examples of Scattering parameters.
5. Waveguide in Microwave:
Basics of Waveguide, Parameters of Waveguide, Comparison of Waveguide and Transmission line, Why TEM Mode is not possible in rectangular Waveguide, Parallel plate waveguide, Rectangular Waveguide, Group velocity and phase velocity in rectangular Waveguide, Modes in Rectangular Waveguide, Degenerated Modes in Rectangular Waveguide, Dominant Modes if Waveguide, Cut off frequency in rectangular Waveguide, Circular Waveguide, Comparison of Rectangular Waveguide and Circular Waveguide, Examples of circular Waveguide, Comparison of circular waveguide and rectangular waveguide, Examples on waveguide.
6. Microwave Devices:
Waveguide Discontinuities, Coupling Mechanisms in Waveguides, Waveguide Attenuators, Waveguide Phase Shifters, Isolator in Microwave, Waveguide Gyrators, Circulator in Microwave, Examples on Circulators in Microwave, Directional Coupler in Microwave, Examples of directional couplers in Microwave, Two holes directional coupler in Microwave, E plane Tee, H plane Tee, Magic Tee, Hybrid Ring or Rat Race coupler.
7. Microwave sources:
Reflex Klystron, Two cavity Klystron amplifier, Comparison of Reflex klystron and two cavity klystron, Magnetron Oscillator, Travelling wave tube, Parametric Amplifier, MASER - Microwave Amplification Stimulated Emission Radiation, Cavity Resonator, Limitations of conventional tubes over microwave tubes.
8. Microwave Diodes:
Schottky Diode, Gunn Diode, Varactor Diode, TRAPATT Diode, Tunnel Diode, IMPATT Diode, BARITT Diode, PIN Diode.
9. Microwave Measurement:
EMI, EMC, Power Measurement {Bolometer}, Attenuation Measurement {Power Ratio Method}, Phase Shift Measurement, VSWR Measurement, Impedance Measurement, Quality Factor Measurement.
Enroll now and take the first step toward mastering
Microwave/RF Engineering
! Join Our Community of students who have transformed their careers with our expert-led course on
Microwave/RF Engineering
!
See you in the
Microwave/RF Engineering
course! You're going to love it!
Thank You…
Who this course is for:
Students (Engineering, Diploma, Science)
Engineering students specializing in electrical, electronic, or communication engineering
Professionals working in industries such as defense, aerospace, and telecommunications
Researchers and scientists interested in advancing their knowledge of Microwave Systems
Individuals seeking to transition into Microwave/RF or related fields
Anyone with a keen interest in understanding the principles and applications of Microwave

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