Microwave Electronics

Paper Code: 
PHY 144(A)
Credits: 
04
Contact Hours: 
60.00
Max. Marks: 
100.00
Objective: 

This course will enable students to understand and know about:

  • Introduction to Microwaves
  • Production of Microwaves
  • Propagation of Microwaves through wave guides
  • Resonators
  • Passive Devices  & Ferrites
  • Measurement Techniques

 

12.00
Unit I: 
Introduction to microwaves

Introduction to microwaves and its frequency spectrum, Application of microwaves.

Wave guides:Rectangular wave guides: Wave Equation & its solutions, TE & TM modes, Dominant mode and choice of wave guide Dimensions, Methods of excitation of wave guide, Introduction to micro strip wavelines.Attenuation - Cause of attenuation in wave guides, wall current & derivation of   attenuation constant, Q of the wave guide.

Resonators: Resonant Modes of rectangular cavity resonators,Q of the cavity resonators, Excitation techniques, Frequency meter, Tuning Probe.

12.00
Unit II: 
Ferrites

Ferrites: Microwave propagation in ferrites, Faraday rotation, Devices employing Faraday rotation (isolator, Gyrator, Circulator).

Passive Devices: Termination (Short circuit and matched terminations),Attenuator, phase changers, E&H plane Tees, Hybrid Junctions. Directional coupler.

 

12.00
Unit III: 
Microwave tubes

Microwave tubes: Spacecharge spreading of an electronbeam, Beam focusing.
Klystrons: Velocity Modulation, Two Cavity Klystron, Reflex Klystron, Efficiency of Klystrons.

Magnetrons: types & description, Theoretical relations between Electric &        Magnetic field of oscillations. Modes of oscillation & operating characteristics.Introduction to Travelling wave tubes.

12.00
Unit IV: 
Avalanche Transit Time Device

Avalanche Transit Time Device:Read Diode, Negative resistance of an      avalanching   p-n     Junction      diode,.

Transferred Electron Device: Gunn effect, two velley, model, High field,Domains, Different Modes for Microwave generation

12.00
Unit V: 
Microwave Measurement

Microwave Measurement: (a)Microwave Detectors: Power, Frequency, Attenuation, Impedance (Using smith Chart), VSWR, Reflectometer, Directivity, coupling using directional coupler.

(b)  Complex permittivity of materials & its measurement: definition of complex permmittity, measurement of permmittity of solids, liquids and powders using different methods.

 

References: 
  1. Atwater, Introduction to microwave theory (McGraw Hill).
  2. M.L.Sisodia and G.S. Raghuvanshi, Microwave Circuits & Passive Devices. (New Age International, New Delhi)
  3. RE. Collin, Foundations of microwave engineering. (McGraw Hill).
  4. H.A. Watson, Microwave Semiconductor Devices and their Circuit applications. (McGraw Hill).
  5. M.L. Sisodia and Vijay Laxmi Gupta, Microwave. ( New Age, New Delhi).
  6. A.Vanderziel, Solid State physical electronics. (PHI, India).            
  7. M. Sucher & J.Fox, Hand book of microwave measurement. Vol-II (Polytechnic Press, New York).
  8. H.J. Reich, Microwave Principles. (CBS).
  9. K. C. Gupta, Microwaves. (Wiley)
  10. Ben Streetman, Solid State Electronic Devices, V Edition (Amazon)
  11. A.R. Von Hippel, Dielectric materials and Applications (Wiley, New York)
Academic Year: 
2018-2019
  • Printer-friendly version
  • PDF version