Nanometer CMOS RFICs for Mobile TV Applications

Nonfiction, Science & Nature, Science, Physics, Spectrum Analysis, Technology, Microwaves
Cover of the book Nanometer CMOS RFICs for Mobile TV Applications by Ahmed A. Youssef, James Haslett, Springer Netherlands
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Author: Ahmed A. Youssef, James Haslett ISBN: 9789048186044
Publisher: Springer Netherlands Publication: June 17, 2010
Imprint: Springer Language: English
Author: Ahmed A. Youssef, James Haslett
ISBN: 9789048186044
Publisher: Springer Netherlands
Publication: June 17, 2010
Imprint: Springer
Language: English

Nanometer CMOS RFICs for Mobile TV Applications focuses on how to break the trade-off between power consumption and performance (linearity and noise figure) by optimizing the mobile TV front-end dynamic range in three hierarchical levels: the intrinsic MOSFET level, the circuit level, and the architectural level. It begins by discussing the fundamental concepts of MOSFET dynamic range, including nonlinearity and noise. It then moves to the circuit level introducing the challenges associated with designing wide-dynamic range, variable-gain, broadband low-noise amplifiers (LNAs). The book gives a detailed analysis of a new noise-canceling technique that helps CMOS LNAs achieve a sub - 2 dB wideband noise figure. Lastly, the book deals with the front-end dynamic range optimization process from the systems perspective by introducing the active and passive automatic gain control (AGC) mechanism.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

Nanometer CMOS RFICs for Mobile TV Applications focuses on how to break the trade-off between power consumption and performance (linearity and noise figure) by optimizing the mobile TV front-end dynamic range in three hierarchical levels: the intrinsic MOSFET level, the circuit level, and the architectural level. It begins by discussing the fundamental concepts of MOSFET dynamic range, including nonlinearity and noise. It then moves to the circuit level introducing the challenges associated with designing wide-dynamic range, variable-gain, broadband low-noise amplifiers (LNAs). The book gives a detailed analysis of a new noise-canceling technique that helps CMOS LNAs achieve a sub - 2 dB wideband noise figure. Lastly, the book deals with the front-end dynamic range optimization process from the systems perspective by introducing the active and passive automatic gain control (AGC) mechanism.

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