Nanometer CMOS RFICs for Mobile TV Applications [recurso electrónico] / by Ahmed A. Youssef, James Haslett.
Tipo de material: TextoSeries Analog Circuits and Signal ProcessingEditor: Dordrecht : Springer Netherlands : Imprint: Springer, 2010Descripción: XV, 200p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9789048186044Tema(s): Engineering | Microwaves | Engineering | Microwaves, RF and Optical Engineering | Solid State Physics | Spectroscopy and MicroscopyFormatos físicos adicionales: Printed edition:: Sin títuloClasificación CDD: 621.3 Clasificación LoC:TK7876-7876.42Recursos en línea: Libro electrónicoTipo de ítem | Biblioteca actual | Colección | Signatura | Copia número | Estado | Fecha de vencimiento | Código de barras |
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Libro Electrónico | Biblioteca Electrónica | Colección de Libros Electrónicos | TK7876 -7876.42 (Browse shelf(Abre debajo)) | 1 | No para préstamo | 377782-2001 |
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TK7876 -7876.42 Advances in Wireless Networks and Information Systems | TK7876 -7876.42 Electromagnetics and Network Theory and their Microwave Technology Applications | TK7876 -7876.42 Near-Space Remote Sensing | TK7876 -7876.42 Nanometer CMOS RFICs for Mobile TV Applications | TK7876 -7876.42 Linear CMOS RF Power Amplifiers for Wireless Applications | TK7876 -7876.42 Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets | TK7881.15 Condition Monitoring and Assessment of Power Transformers Using Computational Intelligence |
Preface. List of Symbols and Abbreviation -- One: Introduction and Overview. 1.1 Mobile TV Architectures. 1.2 DVB-H Mobile TV System Definitions. 1.3 Scope of This Book -- Two: Wideband CMOS LNA Design Techniques. 2.1 Dynamic Range Limits in MOSFETs. 2.2 Traditional CMOS LNA Topologies. 2.3 Recent Trends in Wideband CMOS LNAs. 2.4 Techniques to Improve the Wideband LNA Dynamic Range. 2.5 Chapter Summary -- Three: Nanometer CMOS LNAs for Mobile TV Receivers. 3.1 Requirements of the LNA in Mobile TV Receivers. 3.2 A 65 nm CMOS Wideband LNA Prototype. 3.3 Experimental Results. 3.4 Chapter Summary -- Four: RF Attenuator Linearization Circuits. 4.1 The Necessity of RF Automatic Gain Control. 4.2 RF Gain Control System Analysis. 4.3 Highly Linear RF Front-End Architectures. 4.4 Design of the Binary Weighted RF Attenuator. 4.5 Practical Considerations. 4.6 A 65 nm CMOS RF Passive Attenuator. 4.7 Chapter Summary -- Five: Wide Dynamic Range Mobile TV Front-End Architecture. 5.1 Mobile TV Front-End with Automatic Gain Control. 5.2 A 65 nm CMOS RF Front-End Prototype. 5.3 Chapter Summary -- Six: Summary and Conclusions. 6.1 Summary and Conclusions. 6.2 Further Research Areas -- References. Index. Author Biographies.
The RF front-end is the most fundamental building block of any wireless system. Nanometer CMOS RFICs for Mobile TV Applications brings together what IC design engineers need to know for the development of low-cost, wide-dynamic range RF front-ends for today’s fastest growing communication markets. Drawing on their experience from both industry and academia, the authors use the emerging DVB-H mobile TV standard to provide readers with the step-by-step design progression of the described nanometer CMOS RFICs. 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. By describing in detail the physical realization of several 65 nm CMOS test chips, this book uncovers the practical challenges inherent in using nanometer CMOS technologies for RF circuit design and provides the solutions needed to overcome those challenges.
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