Design and Applications of Active Integrated Antennas.

Design and Applications of Active Integrated Antennas -- Contents -- Preface -- Acknowledgments -- Chapter 1 Introduction -- 1.1 Review of Wireless Communication Technology Evolution -- 1.2 Transmitter and Receiver Architectures -- 1.2.1 RF Transmitter Architectures -- 1.2.2 RF Receiver Architectures -- 1.2.3 Digital IF RF Transceivers -- 1.3 Technology Trends -- 1.4 Conclusions -- References -- Chapter 2 Impedance Matching Methods -- 2.1 Introduction to Impedance Matching -- 2.2 Narrowband Matching -- 2.2.1 Lumped Element Matching Using the L-Network -- 2.2.2 Example on the Lumped Element L-Matching Method -- 2.2.3 Quality Factor of a Matching Network -- 2.2.4 Lumped Element Matching Using the T-Networks and π-Networks -- 2.2.5 Example on T-Matching Using Lumped Elements -- 2.2.6 Distributed Element Matching -- 2.2.7 Example on Distributed Element Matching -- 2.3 Wideband Matching -- 2.3.1 Constant-Q Circles Technique -- 2.3.2 Real Frequency Technique -- 2.3.3 Non-Foster Based Technique -- 2.4 Use of CAD for Matching Network Design -- 2.5 Conclusions -- References -- Chapter 3 Amplifier Design -- 3.1 Generic Approach for Amplifiers Design -- 3.2 LNA Design -- 3.2.1 Noise Analysis in Cascaded Systems -- 3.2.2 Noise Analysis in Amplifiers -- 3.2.3 Design Procedure -- 3.2.4 Design Example -- 3.3 Maximum Gain Amplifier Design -- 3.3.1 Matching Requirements -- 3.3.2 Design Procedure -- 3.3.3 Design Example -- 3.4 Amplifier Design for Gain-Noise Trade-Off -- 3.4.1 Gain Circles -- 3.4.2 Design Procedure -- 3.4.3 Design Examples -- 3.5 PA Design -- 3.5.1 Load-Pull Analysis -- 3.5.2 Design Procedure -- 3.6 Conclusions -- References -- Chapter 4 Antenna Fundamentals -- 4.1 Antenna Features and Metrics -- 4.1.1 Input Impedance, Resonance, and Bandwidth -- 4.1.2 Radiation Pattern, Efficiency, Polarization, Gain, and MEG -- 4.2 Antenna Types.

4.2.1 Dipole Antennas -- 4.2.2 Monopole Antennas -- 4.2.3 Patch Antennas -- 4.2.4 Loop Antennas -- 4.2.5 Slot Antennas -- 4.3 Antenna Arrays -- 4.3.1 Linear Antenna Arrays -- 4.3.2 Planar Antenna Arrays -- 4.3.3 Circular Antenna Arrays -- 4.4 MIMO Antenna Systems -- 4.4.1 Features of MIMO Antennas and Systems -- 4.4.2 Performance Metrics of MIMO Antenna Systems -- 4.4.3 MIMO Antenna System Examples -- 4.5 Computer-Aided Antenna Design -- 4.5.1 Printed Monopole Antenna Modeling Example Using HFSS -- 4.5.2 Printed PIFA Antenna Modeling Example Using CST -- 4.6 Conclusions -- References -- Chapter 5 Active Integrated Antennas -- 5.1 Performance Metrics of AIA -- 5.1.1 Frequency Bandwidth -- 5.1.2 Power Gain -- 5.1.3 Total Efficiency -- 5.1.4 Stability -- 5.1.5 Noise Performance -- 5.1.6 Example -- 5.2 Oscillator-Based AIA -- 5.2.1 Design Outline -- 5.2.2 Examples -- 5.3 Amplifier-Based AIA -- 5.3.1 Design Outline -- 5.3.2 Examples -- 5.4 Mixer-Based AIA -- 5.4.1 Design Outline -- 5.4.2 Examples -- 5.5 Transceiver-Based AIA -- 5.5.1 Design Outline -- 5.5.2 Examples -- 5.6 Other Types of AIAs -- 5.6.1 Frequency, Polarization, and Pattern Reconfigurable Antennas -- 5.6.2 On-Chip/On-Package Antennas -- 5.6.3 Non-Foster Antennas -- 5.7 Conclusions -- References -- Chapter 6 A Codesign Approach for Designing AIAs -- 6.1 Detailed AIA Codesign Procedure -- 6.2 Narrowband AIA Codesign Examples -- 6.3 Wideband AIA Codesign Examples -- 6.4 UWB AIA Codesign Approach -- 6.5 Conclusions -- References -- Appendix A Using ADS Tutorial -- Example A.1: RF Lumped Component-Based BPF -- Example A.2: RF Amplifier Characteristics Based on Its S-Parameters -- Appendix B Using the MWO Tutorial -- Example B.1: Lowpass RF Filter -- Appendix C Using the HFSS Tutorial -- Appendix D Using the CST Tutorial -- List of Acronyms -- About the Authors.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.