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Radio Design in Nanometer Technologies

Springer Verlag GmbH
ISBN/EAN: 9789048172016
Umbreit-Nr.: 1598239

Sprache: Englisch
Umfang: xxviii, 316 S.
Format in cm:
Einband: kartoniertes Buch

Erschienen am 19.10.2010
Auflage: 1/2006
€ 106,99
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  • Zusatztext

    • Radio Design in Nanometer Technologies is the first volume that looks at the integrated radio design problem as a "piece of a big puzzle", namely the entire chipset or single chip that builds an entire wireless system. This is the only way to successfully design radios to meet the stringent demands of today's increasingly complex wireless systems.

  • Kurztext

    • This is the first volume that looks at the integrated radio design problem as a "piece of a big puzzle"Most books discuss more on communications or more on hardware but not both, this book strikes the right balance between the two and provides the reader with a holistic view of the subject of radio design: current and future trends

  • Autorenportrait
    • InhaltsangabeDedication. List of Figures. List of Tables. Preface. Acknowledgment. Part I: Current and Future Trends. 1. '4G' and the Wireless World 2015- Challenges in System Architectures and Communication Paradigms; Jens Zander, KTH. 2. Cellular RF Requirements and Integration Trends; Sven Mattison, Ericsson. 3. Software Defined Radio: Vision, Challenges and Solutions; Christer Svensson, Stefan Andersson, Linköping University. Part II: Digital SoC Design. 4. Trends in SoC Architectures; Ahmed Hemani, Peter Klapproth, Philips. 5. Programmable Baseband Processors; Dake Liu, Anders Nilsson, Eric Tell, Linköping University. 6. Analog to Digital Conversion Technologies for Software Defined Radio; Ana Rusu, Mohammed Ismail, KTH. 7. Reconfigurable A/D Converters for Flexible Wireless Tranceivers in 4G Radios; Georges Gielen, Erwin Goris, Yi Ke, KU Leuven. Part III:Radio Design. 8. Receiver Design for Integrated Multi-Standard Wireless Radios; Delia Rodríguez de Llera González, Ana Rusu, Mohammed Ismail, KTH. 9. On-chip ESD Protection for RFICs; Elyse Rosenbaum1, Sami Hyvonen2, 1Univ of Illinois, Urbana, 2Intel Corporation. 10. Silicon-Based Millimeter-Wave Power Amplifiers; Mona Mostafa Hella, Burak Catli. 11. Monolithic Inductor Modeling and Optimization; Niklas Troedsson, Henrik Sjöland, Lund University of Technology. 12. Challenges in the Design of PLLs in Deep Submicron Technologies; Waleed Khalil, Bertan Bakkaloglu, Intel Corporation. 13. RFIC Design for First-Pass Silicon Success; James Wilson, Mohammed Ismail, Firstpass Inc. About the Authors. Subject Index.