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Microwave Engineering II Book

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Description:UNIT I1. Microwave MeasurementsObjectives, Introduction, Basic Microwave Bench Set Up, Microwave Source, Isolator, Frequency Meter, Variable Attenuator, Slotted Line, Crystal Detector, VSWR Meter, Detection of Microwaves, Point Contact Diode, Schottky Barrier Diode (SBD), Power Measurement, Very Low Power Measurements, Low Power Measurement, High Power Measurement, Impedance Measurement, Measurement of Impedance using Slotted Line, Impedance Measurement using Magic Tee, Measurement of Impedance using Reflectometer, Scattering Parameter Measurement, Using Network Analyser, Using Swept Frequency Measurement Technique, Frequency Measurements, Electronics Techniques for Frequency Measurement, Measurement of Voltage Standing Wave Ratio (VSWR), Slotted Line Technique, Measurement of Low VSWR, Measurement of Very Low VSWR, Measurement of High VSWR, Solved Problems, Review Questions. UNIT II2. Planar Transmission LinesObjectives, Introduction, Striplines, Microstripline, Characteristic Impedance of Microstripline, Losses in Microstripline, Quality Factor Q of a Microstrip Line, Limitations of Microstrip, Parallel Stripline, Parameters of Parallel Stripline, Characteristic Impedance, Losses in Parallel Stripline, Coplanar Strip Line, Shielded Strip Line, Slot Line, Integrated Fin-Line, Advantage of fin Lines, Non-Radiative Guide, Transition, Waveguide to Suspended Stripline Transition, Co-axial to Strip Line Launcher, Co-axial to Suspended Strip Line Launcher, Rectangular Waveguide to Microstrip Transition, Microstrip to Slot-Line Transition, Microstrip to Coplanar Waveguide Transition, Bends and Discontinuities, Effects of Discontinuities, Solved Problems, Review Questions. UNIT III3. Microwave Network AnalysisObjectives, Introduction, Impedance and Admittance Matrix, Reciprocal Networks, Lossless Networks, The Scattering Matrix, Reciprocal Networks and Lossless Networks, A Shift in Reference Planes, Generalized Scattering Parameters, The Transmission (ABCD) Matrix, Relation to Impedance Matrix, Equivalent Circuits for Two-Port Network, ABCD Matrix for Series Impedance, ABCD for T Impedance Network, ABCD for Transmission Line, Table of ABCD Network, Conversion S to ABCD, Signal Flow Graphs, Decomposition of Signal Flow Graphs, Application to TRL (Thru-Reflected Line) Network Analyzer Calibration, Discontinuities in Waveguides and Microstrips, Microstrip Discontinuity Compensation, Solved Problems, Review Questions. UNIT IV4. Microwave Semiconductor DevicesObjectives, Introduction, PIN Diode, Construction, Operation, Applications of PIN Diode, Varactor Diode, Construction, Operation, Figure of Merit of Varactor Diode, Applications of Varactor Diodes, Tunnel Diode (Esaki Diode), Operation, Equivalent Circuit of Tunnel Diode, Applications of Tunnel Diode, Performance Characteristics of Tunnel Diode, Gunn Diode, Transferred Electron Devices (TED’s), Construction of Gunn Diode, Working Principle, Domain Formation, Modes of Operation of TED’s, Performance Characteristics, Applications of Gunn Diode, Avalanche Transit Time Devices, IMPATT Diode, TRAPATT Diode, Solved Problems, Review Questions. UNIT V5. Microwave TransistorsObjectives, Introduction, Microwave Bipolar Junction Transistors (BJT), Construction, Principle of Operation, Different Parameters Associated with BJT, Power Frequency Limitations, Performance Characteristics, Advantages, Drawbacks, FET (Junction Field Effect Transistor), Difference between BJT’s and FET’s, JFET, MESFET (Metal Semiconductor Field Effect Transistor), CCD (Charge Coupled Devices), Construction, Working Principle, Surface Channel Charge Coupled Devices (SCCD), Performance Characteristics, Applications, Solved Problems, Review Questions. 6. Masers and LaserObjectives, Introduction, Fundamentals of Masers, Ammonia Masers, Ruby Maser, Application of maser, Laser (light Amplification by Stimulated Emission of Radiation), Ruby Laser, Gas Lasers, Review Questions. 7. Monolithic Microwave Integrated CircuitsObjectives, Introduction, Materials, Substrate Materials, Conductor Materials, Dielectric Materials, Resistive Materials, Monolithic Microwave Integrated-Circuits Growth, MMIC Fabrication Techniques, Fabrication Example, Mosfet Fabrication, MOSFET Formation, NMOS Growth, CMOS Development, Thick and Thin Film Technology, Thin-Film Formation, Planar Resistor Film, Planar Inductor Film, Planar Capacitor Film, Hybrid Integrated-Circuit Fabrication, Plate-Through Technique, Etch Back Techniques, Advantages and Disadvantages of MMICs, Applications of MMIC, Use of GaAs for MIC’s, Solved Problems, Review Questions. P. PapersWe have made it easy for you to find a PDF Ebooks without any digging. And by having access to our ebooks online or by storing it on your computer, you have convenient answers with Microwave Engineering II Book. To get started finding Microwave Engineering II Book, you are right to find our website which has a comprehensive collection of manuals listed.
Our library is the biggest of these that have literally hundreds of thousands of different products represented.

Pages: 295

Format: PDF, EPUB & Kindle Edition

Publisher: Genius Publications

Release: —

ISBN: 818887082X

Description: UNIT I1. Microwave MeasurementsObjectives, Introduction, Basic Microwave Bench Set Up, Microwave Source, Isolator, Frequency Meter, Variable Attenuator, Slotted Line, Crystal Detector, VSWR Meter, Detection of Microwaves, Point Contact Diode, Schottky Barrier Diode (SBD), Power Measurement, Very Low Power Measurements, Low Power Measurement, High Power Measurement, Impedance Measurement, Measurement of Impedance using Slotted Line, Impedance Measurement using Magic Tee, Measurement of Impedance using Reflectometer, Scattering Parameter Measurement, Using Network Analyser, Using Swept Frequency Measurement Technique, Frequency Measurements, Electronics Techniques for Frequency Measurement, Measurement of Voltage Standing Wave Ratio (VSWR), Slotted Line Technique, Measurement of Low VSWR, Measurement of Very Low VSWR, Measurement of High VSWR, Solved Problems, Review Questions. UNIT II2. Planar Transmission LinesObjectives, Introduction, Striplines, Microstripline, Characteristic Impedance of Microstripline, Losses in Microstripline, Quality Factor Q of a Microstrip Line, Limitations of Microstrip, Parallel Stripline, Parameters of Parallel Stripline, Characteristic Impedance, Losses in Parallel Stripline, Coplanar Strip Line, Shielded Strip Line, Slot Line, Integrated Fin-Line, Advantage of fin Lines, Non-Radiative Guide, Transition, Waveguide to Suspended Stripline Transition, Co-axial to Strip Line Launcher, Co-axial to Suspended Strip Line Launcher, Rectangular Waveguide to Microstrip Transition, Microstrip to Slot-Line Transition, Microstrip to Coplanar Waveguide Transition, Bends and Discontinuities, Effects of Discontinuities, Solved Problems, Review Questions. UNIT III3. Microwave Network AnalysisObjectives, Introduction, Impedance and Admittance Matrix, Reciprocal Networks, Lossless Networks, The Scattering Matrix, Reciprocal Networks and Lossless Networks, A Shift in Reference Planes, Generalized Scattering Parameters, The Transmission (ABCD) Matrix, Relation to Impedance Matrix, Equivalent Circuits for Two-Port Network, ABCD Matrix for Series Impedance, ABCD for T Impedance Network, ABCD for Transmission Line, Table of ABCD Network, Conversion S to ABCD, Signal Flow Graphs, Decomposition of Signal Flow Graphs, Application to TRL (Thru-Reflected Line) Network Analyzer Calibration, Discontinuities in Waveguides and Microstrips, Microstrip Discontinuity Compensation, Solved Problems, Review Questions. UNIT IV4. Microwave Semiconductor DevicesObjectives, Introduction, PIN Diode, Construction, Operation, Applications of PIN Diode, Varactor Diode, Construction, Operation, Figure of Merit of Varactor Diode, Applications of Varactor Diodes, Tunnel Diode (Esaki Diode), Operation, Equivalent Circuit of Tunnel Diode, Applications of Tunnel Diode, Performance Characteristics of Tunnel Diode, Gunn Diode, Transferred Electron Devices (TED’s), Construction of Gunn Diode, Working Principle, Domain Formation, Modes of Operation of TED’s, Performance Characteristics, Applications of Gunn Diode, Avalanche Transit Time Devices, IMPATT Diode, TRAPATT Diode, Solved Problems, Review Questions. UNIT V5. Microwave TransistorsObjectives, Introduction, Microwave Bipolar Junction Transistors (BJT), Construction, Principle of Operation, Different Parameters Associated with BJT, Power Frequency Limitations, Performance Characteristics, Advantages, Drawbacks, FET (Junction Field Effect Transistor), Difference between BJT’s and FET’s, JFET, MESFET (Metal Semiconductor Field Effect Transistor), CCD (Charge Coupled Devices), Construction, Working Principle, Surface Channel Charge Coupled Devices (SCCD), Performance Characteristics, Applications, Solved Problems, Review Questions. 6. Masers and LaserObjectives, Introduction, Fundamentals of Masers, Ammonia Masers, Ruby Maser, Application of maser, Laser (light Amplification by Stimulated Emission of Radiation), Ruby Laser, Gas Lasers, Review Questions. 7. Monolithic Microwave Integrated CircuitsObjectives, Introduction, Materials, Substrate Materials, Conductor Materials, Dielectric Materials, Resistive Materials, Monolithic Microwave Integrated-Circuits Growth, MMIC Fabrication Techniques, Fabrication Example, Mosfet Fabrication, MOSFET Formation, NMOS Growth, CMOS Development, Thick and Thin Film Technology, Thin-Film Formation, Planar Resistor Film, Planar Inductor Film, Planar Capacitor Film, Hybrid Integrated-Circuit Fabrication, Plate-Through Technique, Etch Back Techniques, Advantages and Disadvantages of MMICs, Applications of MMIC, Use of GaAs for MIC’s, Solved Problems, Review Questions. P. PapersWe have made it easy for you to find a PDF Ebooks without any digging. And by having access to our ebooks online or by storing it on your computer, you have convenient answers with Microwave Engineering II Book. To get started finding Microwave Engineering II Book, you are right to find our website which has a comprehensive collection of manuals listed.
Our library is the biggest of these that have literally hundreds of thousands of different products represented.

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Microwave Engineering II Book

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