Description

Book Synopsis
Microwave devices, circuits and subsystems are used in modern microwave communication systems. These include fixed and mobile microwave communications services as well as terrestrial cellular applications. Volume 1 in this two-volume series provides an up-to-date and comprehensive reference to these communications.

Trade Review
"…this book is a good reference for [the] microwave engineering community." (IEEE Circuits & Devices Magazine, November/December 2006)

Table of Contents
List of contributors.

Preface.

1. Overview of the Book (I.A. Glover, S.R. Pennock and P.R. Shepherd).

1.1 Introduction.

1.2 RF Devices.

1.3 Signal Transmission and Network Methods.

1.4 Amplifiers.

1.5 Mixers.

1.6 Filters.

1.7 Oscillators and Frequency Synthesisers.

2. RF Devices: Characteristics and Modelling (A. Suarez and T. Fernandez).

2.1 Introduction

2.2 Semiconductor Properties

2.3 P-N Junction.

2.4 The Schottky Diode.

2.5 PIN Diodes.

2.6 Step-Recovery Diodes.

2.7 Gunn Diodes.

2.8 IMPATT Diodes.

2.9 Transistors.

References.

3. Signal Transmission, Network Methods and Impedance Matching (N.J. McEwan, T.C. Edwards, D. Dernikas and I.A. Glover).

3.1 Introduction.

3.2 Transmission Lines: General Considerations.

3.3 The Two-Conductor Transmission Line: Revision of Distributed Circuit Theory.

3.4 Loss, Dispersion, Phase and Group Velocity.

3.5 Field Theory Method for Ideal TEM Case.

3.6 Microstrip.

3.7 Coupled Microstrip Lines.

3.8 Network Methods.

3.9 Impedance Matching.

3.10 Network Analysers.

3.11 Summary.

References.

4. Amplifier Design (N.J. McEwan and D. Dernikas).

4.1 Introduction.

4.2 Amplifier Gain Definitions.

4.3 Stability.

4.4. Broadband Amplifier Design.

4.5 Low Noise Amplifier Design.

4.6 Practical Circuit Considerations.

4.7 Computer-Aided Design (CAD).

References.

5. Mixers: Theory and Design (A. Tazon and L. de la Fuente).

5.1 Introduction.

5.2 General Properties.

5.3 Devices for Mixers.

5.4 Non-Linear Analysis.

5.5 Diode Mixer Theory.

5.6 FET Mixers.

5.7 IF Amplifier.

5.8 Single-Balanced FET Mixers.

5.9 Double-Balanced FET Mixers.

5.10 Harmonic Mixers.

5.11 Monolithic Mixers.

References.

6. Filters (A Mediavilla).

6.1 Introduction.

6.2 Filter Fundamentals.

6.3 Mathematical Filter Responses.

6.4 Low Pass Prototype Filter Design.

6.5 Filter Impedance and Frequency Scaling.

6.6 Elliptic Filter Transformation.

6.7 Filter Normalisation.

7. Oscillators, Frequency Synthesisers and PLL Techniques (E. Artal, J.P. Pascal and J. Portilla).

7.1 Introduction.

7.2 Solid State Microwave Oscillators.

7.3 Negative Resistance Diode Oscillators.

7.4 Transistor Oscillators.

7.5 Voltage-Controlled Oscillators.

7.6 Oscillator Characterisation and Testing,

7.7 Microwave Phase Locked Oscillators.

7.8 Subsystems for Microwave Phase Locked Oscillators (PLOs).

7.9 Phase Noise.

7.10 Examples of PLOs.

References.

Index.

Microwave Devices Circuits and Subsystems for

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A Hardback by Ian A. Glover, Steve Pennock, Peter Shepherd

15 in stock


    View other formats and editions of Microwave Devices Circuits and Subsystems for by Ian A. Glover

    Publisher: John Wiley & Sons Inc
    Publication Date: 24/03/2005
    ISBN13: 9780471899648, 978-0471899648
    ISBN10: 047189964X
    Also in:
    Communications engineering / telecommunications Electronics and communications engineering Electronics: circuits and components

    Description

    Book Synopsis
    Microwave devices, circuits and subsystems are used in modern microwave communication systems. These include fixed and mobile microwave communications services as well as terrestrial cellular applications. Volume 1 in this two-volume series provides an up-to-date and comprehensive reference to these communications.

    Trade Review
    "…this book is a good reference for [the] microwave engineering community." (IEEE Circuits & Devices Magazine, November/December 2006)

    Table of Contents
    List of contributors.

    Preface.

    1. Overview of the Book (I.A. Glover, S.R. Pennock and P.R. Shepherd).

    1.1 Introduction.

    1.2 RF Devices.

    1.3 Signal Transmission and Network Methods.

    1.4 Amplifiers.

    1.5 Mixers.

    1.6 Filters.

    1.7 Oscillators and Frequency Synthesisers.

    2. RF Devices: Characteristics and Modelling (A. Suarez and T. Fernandez).

    2.1 Introduction

    2.2 Semiconductor Properties

    2.3 P-N Junction.

    2.4 The Schottky Diode.

    2.5 PIN Diodes.

    2.6 Step-Recovery Diodes.

    2.7 Gunn Diodes.

    2.8 IMPATT Diodes.

    2.9 Transistors.

    References.

    3. Signal Transmission, Network Methods and Impedance Matching (N.J. McEwan, T.C. Edwards, D. Dernikas and I.A. Glover).

    3.1 Introduction.

    3.2 Transmission Lines: General Considerations.

    3.3 The Two-Conductor Transmission Line: Revision of Distributed Circuit Theory.

    3.4 Loss, Dispersion, Phase and Group Velocity.

    3.5 Field Theory Method for Ideal TEM Case.

    3.6 Microstrip.

    3.7 Coupled Microstrip Lines.

    3.8 Network Methods.

    3.9 Impedance Matching.

    3.10 Network Analysers.

    3.11 Summary.

    References.

    4. Amplifier Design (N.J. McEwan and D. Dernikas).

    4.1 Introduction.

    4.2 Amplifier Gain Definitions.

    4.3 Stability.

    4.4. Broadband Amplifier Design.

    4.5 Low Noise Amplifier Design.

    4.6 Practical Circuit Considerations.

    4.7 Computer-Aided Design (CAD).

    References.

    5. Mixers: Theory and Design (A. Tazon and L. de la Fuente).

    5.1 Introduction.

    5.2 General Properties.

    5.3 Devices for Mixers.

    5.4 Non-Linear Analysis.

    5.5 Diode Mixer Theory.

    5.6 FET Mixers.

    5.7 IF Amplifier.

    5.8 Single-Balanced FET Mixers.

    5.9 Double-Balanced FET Mixers.

    5.10 Harmonic Mixers.

    5.11 Monolithic Mixers.

    References.

    6. Filters (A Mediavilla).

    6.1 Introduction.

    6.2 Filter Fundamentals.

    6.3 Mathematical Filter Responses.

    6.4 Low Pass Prototype Filter Design.

    6.5 Filter Impedance and Frequency Scaling.

    6.6 Elliptic Filter Transformation.

    6.7 Filter Normalisation.

    7. Oscillators, Frequency Synthesisers and PLL Techniques (E. Artal, J.P. Pascal and J. Portilla).

    7.1 Introduction.

    7.2 Solid State Microwave Oscillators.

    7.3 Negative Resistance Diode Oscillators.

    7.4 Transistor Oscillators.

    7.5 Voltage-Controlled Oscillators.

    7.6 Oscillator Characterisation and Testing,

    7.7 Microwave Phase Locked Oscillators.

    7.8 Subsystems for Microwave Phase Locked Oscillators (PLOs).

    7.9 Phase Noise.

    7.10 Examples of PLOs.

    References.

    Index.

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