This course will enable students to understand and know about:
(a) 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.
(b) Attenuation - Cause of attenuation in wave guides, wall current & derivation of attenuation constant, Q of the wave guide.
3. Resonators: Resonant Modes of rectangular cavity resonators,Q of the cavity resonators, Excitation techniques, Frequency meter, Tuning Probe.
1. Ferrites: Microwave propagation in ferrites, Faraday rotation, Devices employing Faraday rotation (isolator, Gyrator, Circulator).
2. Passive Devices: Termination (Short circuit and matched terminations),Attenuator, phase changers, E&H plane Tees, Hybrid Junctions. Directional coupler.
1. Microwave tubes: Spacecharge spreading of an electronbeam, Beam focusing.Klystrons: Velocity Modulation, Two Cavity Klystron, Reflex Klystron, Efficiency of Klystrons.
2. Magnetrons: types & description, Theoretical relations between Electric & Magnetic field of oscillations. Modes of oscillation & operating characteristics. Introduction to Travelling wave tubes.
1. Avalanche Transit Time Device:Read Diode, Negative resistance of an avalanching p-n Junction diode,.
2. Transferred Electron Device: Gunn effect, two velley, model, High field Domains, Different Modes for Microwave generation.
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.