Item type | Current library | Collection | Call number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Books | Main library B3 | Faculty of Engineering & Technology (Electrical) | 621.3813 M (Browse shelf(Opens below)) | Available | 00007400 | |
Books | Main library B3 | Faculty of Engineering & Technology (Electrical) | 621.3813 M (Browse shelf(Opens below)) | Available | 00007401 |
621.3813 K.A.M Microwave engineering : concepts and fundamentals / | 621.3813 L.S.M Microwave devices and circuits / | 621.3813 L.S.M Microwave devices and circuits / | 621.3813 M Microwave devices, circuits and subsystems for communications engineering / | 621.3813 M Microwave devices, circuits and subsystems for communications engineering / | 621.3813 M Microwave engineering / | 621.3813 M.M.M Microwave/RF applicators and probes for material heating, sensing, and plasma generation : a design guide / |
Includes bibliographical references and index.
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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