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mm-wave silicon power amplifiers and transmitters / edited by Hossein Hashemi (University of Southern California), Sanjay Raman (Virginia Tech).

Contributor(s): Hashemi, Hossein [editor.] | Raman, Sanjay [editor.].
Material type: materialTypeLabelBookSeries: Cambridge RF and microwave engineering series: Publisher: Cambridge : Cambridge University Press, 2016Description: 1 online resource (xii, 458 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9781107295520 (ebook).Other title: mm-Wave Silicon Power Amplifiers & Transmitters.Subject(s): Millimeter wave devices -- Design and construction | Power amplifiers -- Design and construction | Metal oxide semiconductors, ComplementaryAdditional physical formats: Print version: : No titleDDC classification: 621.381/325 Online resources: Click here to access online
Contents:
Characteristics, performance, modeling, and reliability of CMOS technologies for mm-wave / David Harame, Vibhor Jai, Renata Camillo Castillo (IBM) -- Characteristics, performance, modeling, and reliability of CMOS technologies for mm-wave power amplifiers / Antonio Scuderi, Egidio Ragonese (ST-Microelectronics) -- Linear-mode mm-wave silicon power amplifiers / James Buckwalter (University of California, San Diego) -- Switch-mode mm-wave silicon power amplifiers / Harish Krishnaswamy (Columbia University), Hossein Hashemi (University of Southern California), Anandaroop Chakrabarti (Columbia University), Kunal Datta (University of Southern California) -- Stacked-transistor mm-wave power amplifiers / Peter Asbeck (University of California, San Diego), Harish Krishnaswamy (Columbia University) -- On-chip power combining techniques for mm-wave silicon power amplifiers / Tian-Wei Huang (National Taiwan University), Jeng-Han Tsai (National Taiwan Normal University, Jin-Fu Yeh) Tian-Wei Huang (National Taiwan University) -- Out-phasing mm-wave silicon transmitters / Patrick Reynaert, Dixian Zhao (Katholieke Universiteit Leuven) -- Digital MM-wave silicon transmitters / Ali M. Niknejad (University of California -- Berkeley), Sorin Voinigescu (University of Toronto) -- System-on-a-chip mm-wave silicon transmitters / Brian Floyd (North Carolina State University), Arun Natarajan (Oregon State University) -- Self-healing for mm-wave power amplifiers / Ali Hajimiri (California Institute of Technology), Steven M. Bowers (California Institute of Technology), Kaushik Sengupta (Princeton University), Kaushik Dasgupta (California Institute of Technology).
Summary: Build high-performance, spectrally clean, energy-efficient mm-wave power amplifiers and transmitters with this cutting-edge guide to designing, modeling, analysing, implementing and testing new mm-wave systems. Suitable for students, researchers and practicing engineers, this self-contained guide provides in-depth coverage of state-of-the-art semiconductor devices and technologies, linear and nonlinear power amplifier technologies, efficient power combining systems, circuit concepts, system architectures and system-on-a-chip realizations. The world's foremost experts from industry and academia cover all aspects of the design process, from device technologies to system architectures. Accompanied by numerous case studies highlighting practical design techniques, tradeoffs and pitfalls, this is a superb resource for those working with high-frequency systems.
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Title from publisher's bibliographic system (viewed on 05 Apr 2016).

Characteristics, performance, modeling, and reliability of CMOS technologies for mm-wave / David Harame, Vibhor Jai, Renata Camillo Castillo (IBM) -- Characteristics, performance, modeling, and reliability of CMOS technologies for mm-wave power amplifiers / Antonio Scuderi, Egidio Ragonese (ST-Microelectronics) -- Linear-mode mm-wave silicon power amplifiers / James Buckwalter (University of California, San Diego) -- Switch-mode mm-wave silicon power amplifiers / Harish Krishnaswamy (Columbia University), Hossein Hashemi (University of Southern California), Anandaroop Chakrabarti (Columbia University), Kunal Datta (University of Southern California) -- Stacked-transistor mm-wave power amplifiers / Peter Asbeck (University of California, San Diego), Harish Krishnaswamy (Columbia University) -- On-chip power combining techniques for mm-wave silicon power amplifiers / Tian-Wei Huang (National Taiwan University), Jeng-Han Tsai (National Taiwan Normal University, Jin-Fu Yeh) Tian-Wei Huang (National Taiwan University) -- Out-phasing mm-wave silicon transmitters / Patrick Reynaert, Dixian Zhao (Katholieke Universiteit Leuven) -- Digital MM-wave silicon transmitters / Ali M. Niknejad (University of California -- Berkeley), Sorin Voinigescu (University of Toronto) -- System-on-a-chip mm-wave silicon transmitters / Brian Floyd (North Carolina State University), Arun Natarajan (Oregon State University) -- Self-healing for mm-wave power amplifiers / Ali Hajimiri (California Institute of Technology), Steven M. Bowers (California Institute of Technology), Kaushik Sengupta (Princeton University), Kaushik Dasgupta (California Institute of Technology).

Build high-performance, spectrally clean, energy-efficient mm-wave power amplifiers and transmitters with this cutting-edge guide to designing, modeling, analysing, implementing and testing new mm-wave systems. Suitable for students, researchers and practicing engineers, this self-contained guide provides in-depth coverage of state-of-the-art semiconductor devices and technologies, linear and nonlinear power amplifier technologies, efficient power combining systems, circuit concepts, system architectures and system-on-a-chip realizations. The world's foremost experts from industry and academia cover all aspects of the design process, from device technologies to system architectures. Accompanied by numerous case studies highlighting practical design techniques, tradeoffs and pitfalls, this is a superb resource for those working with high-frequency systems.

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