Integrated 60GHz RF Beamforming in CMOS by Yikun YuIntegrated 60GHz RF Beamforming in CMOS by Yikun Yu

Integrated 60GHz RF Beamforming in CMOS

byYikun Yu, Peter G.M. Baltus, Arthur H.M. van Roermund

Paperback | February 25, 2013

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Integrated 60GHz RF Beamforming in CMOSdescribes new concepts and design techniques that can be used for 60GHz phased array systems. First, general trends and challenges in low-cost high data-rate 60GHz wireless system are studied, and the phased array technique is introduced to improve the system performance. Second, the system requirements of phase shifters are analyzed, and different phased array architectures are compared. Third, the design and implementation of 60GHz passive and active phase shifters in a CMOS technology are presented. Fourth, the integration of 60GHz phase shifters with other key building blocks such as low noise amplifiers and power amplifiers are described in detail. Finally, this book describes the integration of a 60GHz CMOS amplifier and an antenna in a printed circuit-board (PCB) package.

Title:Integrated 60GHz RF Beamforming in CMOSFormat:PaperbackDimensions:118 pagesPublished:February 25, 2013Publisher:Springer-Verlag/Sci-Tech/TradeLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:940073493X

ISBN - 13:9789400734937

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Table of Contents

1 Introduction. 1.1 Background. 1.2 State of the Art. 1.3 Outline of the Book.

2 Millimeter-Wave Wireless Communication. 2.1 Millimeter-Wave Communication. 2.2 System Requirements. 2.3 Implementation in Silicon & CMOS. 2.4 Conclusion.

3 Phased Arrays and Architecture Selection. 3.1 A 60GHz WPAN Link Budget. 3.2 Operation Principles of Phased Arrays. 3.3 Benefits of Phased Arrays. 3.4 Phased Arrays and MIMO. 3.5 Phase-Shift Quantization. 3.6 Phased-Array Architectures. 3.7 Conclusion.

4 RF Phase Shifters for Phased Arrays. 4.1 Switched-Line Phase Shifters. 4.2 Loaded-Line Phase Shifters. 4.3 Reflection-Type Phase Shifters. 4.4 Switched-Filter Phase Shifters. 4.5 Traveling-Wave Phase Shifters. 4.6 Vector-Modulator Based Phase Shifters. 4.7 Conclusion.

5 A 60GHz Passive Phase Shifter. 5.1 Design of a Passive Phase Shifter. 5.2 Measurement Results. 5.3 Conclusion.

6 A 60GHz Active Phase Shifter Integrated with LNA. 6.1 Principle of an Active RF Phase Shifter. 6.2 Design of an Active RF Phase Shifter. 6.3 Design of an LNA and a Combiner. 6.4 Measurement Results. 6.5 Conclusion.

7 A 60GHz Active Phase Shifter Integrated with PA. 7.1 Design of an Active RF Phase Shifter. 7.2 Design of a Power Amplifier. 7.3 Measurement Results. 7.4 Conclusion.

8 Flip-Chip Integration. 8.1 Package Materials. 8.2 Package Prototype. 8.3 Measurement Results. 8.4 Conclusion.

9 Summary

List of symbols and abbreviations. References. Biography.

2 Millimeter-Wave Wireless Communication. 2.1 Millimeter-Wave Communication. 2.2 System Requirements. 2.3 Implementation in Silicon & CMOS. 2.4 Conclusion.

3 Phased Arrays and Architecture Selection. 3.1 A 60GHz WPAN Link Budget. 3.2 Operation Principles of Phased Arrays. 3.3 Benefits of Phased Arrays. 3.4 Phased Arrays and MIMO. 3.5 Phase-Shift Quantization. 3.6 Phased-Array Architectures. 3.7 Conclusion.

4 RF Phase Shifters for Phased Arrays. 4.1 Switched-Line Phase Shifters. 4.2 Loaded-Line Phase Shifters. 4.3 Reflection-Type Phase Shifters. 4.4 Switched-Filter Phase Shifters. 4.5 Traveling-Wave Phase Shifters. 4.6 Vector-Modulator Based Phase Shifters. 4.7 Conclusion.

5 A 60GHz Passive Phase Shifter. 5.1 Design of a Passive Phase Shifter. 5.2 Measurement Results. 5.3 Conclusion.

6 A 60GHz Active Phase Shifter Integrated with LNA. 6.1 Principle of an Active RF Phase Shifter. 6.2 Design of an Active RF Phase Shifter. 6.3 Design of an LNA and a Combiner. 6.4 Measurement Results. 6.5 Conclusion.

7 A 60GHz Active Phase Shifter Integrated with PA. 7.1 Design of an Active RF Phase Shifter. 7.2 Design of a Power Amplifier. 7.3 Measurement Results. 7.4 Conclusion.

8 Flip-Chip Integration. 8.1 Package Materials. 8.2 Package Prototype. 8.3 Measurement Results. 8.4 Conclusion.

9 Summary

List of symbols and abbreviations. References. Biography.

4 RF Phase Shifters for Phased Arrays. 4.1 Switched-Line Phase Shifters. 4.2 Loaded-Line Phase Shifters. 4.3 Reflection-Type Phase Shifters. 4.4 Switched-Filter Phase Shifters. 4.5 Traveling-Wave Phase Shifters. 4.6 Vector-Modulator Based Phase Shifters. 4.7 Conclusion.

5 A 60GHz Passive Phase Shifter. 5.1 Design of a Passive Phase Shifter. 5.2 Measurement Results. 5.3 Conclusion.

6 A 60GHz Active Phase Shifter Integrated with LNA. 6.1 Principle of an Active RF Phase Shifter. 6.2 Design of an Active RF Phase Shifter. 6.3 Design of an LNA and a Combiner. 6.4 Measurement Results. 6.5 Conclusion.

7 A 60GHz Active Phase Shifter Integrated with PA. 7.1 Design of an Active RF Phase Shifter. 7.2 Design of a Power Amplifier. 7.3 Measurement Results. 7.4 Conclusion.

8 Flip-Chip Integration. 8.1 Package Materials. 8.2 Package Prototype. 8.3 Measurement Results. 8.4 Conclusion.

9 Summary

List of symbols and abbreviations. References. Biography.

6 A 60GHz Active Phase Shifter Integrated with LNA. 6.1 Principle of an Active RF Phase Shifter. 6.2 Design of an Active RF Phase Shifter. 6.3 Design of an LNA and a Combiner. 6.4 Measurement Results. 6.5 Conclusion.

7 A 60GHz Active Phase Shifter Integrated with PA. 7.1 Design of an Active RF Phase Shifter. 7.2 Design of a Power Amplifier. 7.3 Measurement Results. 7.4 Conclusion.

8 Flip-Chip Integration. 8.1 Package Materials. 8.2 Package Prototype. 8.3 Measurement Results. 8.4 Conclusion.

9 Summary

List of symbols and abbreviations. References. Biography.

8 Flip-Chip Integration. 8.1 Package Materials. 8.2 Package Prototype. 8.3 Measurement Results. 8.4 Conclusion.

9 Summary

List of symbols and abbreviations. References. Biography.

List of symbols and abbreviations. References. Biography.

Editorial Reviews

From the reviews:"The book gives the principles of the design and the realization of miniature transmission systems (solid-state technique) used in wireless Ethernet, high definition image transmission in multimedia, smart phones, DVD players, etc. . The References section is particularly excellent and up-to-date. The essential theory and experimental results are clearly worked out so that the volume is an excellent companion for researchers working in the area of solid-state circuits." (Dumitru Stanomir, Zentralblatt MATH, Vol. 1218, 2011)