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Charge-based CMOS digital R...
This book introduces a completely novel architecture that can relax the trade-off existing today between noise, power and area consumption in a very suitable solution for advanced wireless communication systems. Through the combination of charge-domain operation with incremental signaling, this architecture gives the best of both worlds, providing the reduced area and high portability of digital-intensive architectures with an improved out-of-band noise performance given by intrinsic noise filtering capabilities. Readers will be enabled to design higher performance radio front-ends that consume less power and area, especially with respect to the transmitter and power amplifier designs, considered by many the "battery killers" on most mobile devices. Describes an innovative architecture that has proved to support advanced wireless communication systems, with outstanding noise performance and improved power and area consumption; Provides an in-depth description of underlying concepts, implementation and results achieved; Demonstrates two real implementations, showing design details and measurement results
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monografia Rebiun23634940 https://catalogo.rebiun.org/rebiun/record/Rebiun23634940 m o d cr un|---aucuu 161008t20162017sz ob 000 0 eng d 959886062 960042149 963735871 9783319457871 electronic bk.) 331945787X electronic bk.) 9783319457864 3319457861 AU@ 000058909524 AU@ 000065093019 CBUC 991047579519706706 958504 MIL EBLCP eng pn EBLCP IDEBK YDX GW5XE AZU OCLCF OCLCQ IDB UAB OCLCQ IOG OHI MERER ESU OCLCQ JBG IAD ICW ICN OTZ OCLCQ U3W CAUOI KSU OCLCQ UKAHL OCLCQ 621.3841/8 23 620 Charge-based CMOS digital RF transmitters Pedro Emiliano Paro Filho, Jan Craninckz, Piet Wambacq, Mark Ingels Cham Springer [2016], ©2017 Cham Cham Springer 1 online resource (180 pages) 1 online resource (180 pages) Text txt rdacontent computer c rdamedia online resource cr rdacarrier Analog Circuits and Signal Processing Includes bibliographical references Preface; Acknowledgments; Contents; List of Figures; List of Tables; List of Abbreviations; Biography; 1 Introduction ; 1.1 The Fear of Disconnection; 1.2 Advanced Wireless Communication Systems; 1.3 Flexible Multi-Standard Operation; 1.3.1 TX Frontend Key Requirements; 1.4 High Performance TX Architectures; 1.5 Quadrature Direct-Conversion Transmitters; 2 Incremental-Charge-Based Operation ; 2.1 Introduction; 2.2 Incremental-Charge-Based Operation; 2.2.1 Noise and Alias Performance; 2.2.1.1 Alias Attenuation; 2.2.1.2 Intrinsic Noise Filtering; 2.2.1.3 Quantization Noise Scaling 2.2.1.4 Harmonic Performance; 2.3 Charge-Based Transmitter; 2.3.1 Power Efficiency; 2.4 Conclusion; 3 Capacitive Charge-Based Transmitter ; 3.1 Introduction; 3.2 Architecture; 3.2.1 Operating Principles; 3.2.2 CQDAC Operation; 3.2.3 Noise and Alias Performance; 3.2.3.1 Intrinsic RSCC Noise Filtering; 3.2.3.2 Quantization Noise; 3.2.3.3 sinc2 Alias Attenuation; 3.2.4 Harmonic Performance; 3.3 Circuit Realization; 3.3.1 CQDAC; 3.3.1.1 CUNIT/CBB; 3.3.1.2 Unit Cell; 3.3.1.3 Thermometer Decoder; 3.3.1.4 Layout; 3.3.2 Mixer and PPA; 3.3.2.1 PPA Design; 3.3.2.2 Mixer Design; 3.3.3 LO Generation 3.3.4 Top-Level Description; 3.4 Measurement Results; 3.4.1 Measurement Setup; 3.4.2 CQDAC Measurement Results; 3.4.3 CQDAC TX Measurement Results; 3.5 Conclusion; 4 Resistive Charge-Based Transmitter ; 4.1 Introduction; 4.2 Architecture; 4.2.1 Operating Principles; 4.2.2 RQDAC Operation; 4.2.3 Noise and Alias Performance; 4.2.3.1 Intrinsic RC Noise Filtering; 4.2.3.2 Quantization Noise; 4.2.3.3 sinc2 Alias Attenuation; 4.2.4 Harmonic Performance; 4.2.4.1 RQDAC Switch; 4.2.4.2 Mixer Switches; 4.3 Circuit Realization; 4.3.1 RQDAC; 4.3.1.1 Unit Cell; 4.3.1.2 Layout; 4.3.2 Mixer Design 4.3.3 LO Generation; 4.3.4 Top-Level Description; 4.4 Measurement Results; 4.4.1 Measurement Setup; 4.4.2 RQDAC Measurement Results; 4.4.3 RQDAC TX Measurement Results; 4.5 Conclusion; 5 Conclusion ; 5.1 Summary; Bibliography This book introduces a completely novel architecture that can relax the trade-off existing today between noise, power and area consumption in a very suitable solution for advanced wireless communication systems. Through the combination of charge-domain operation with incremental signaling, this architecture gives the best of both worlds, providing the reduced area and high portability of digital-intensive architectures with an improved out-of-band noise performance given by intrinsic noise filtering capabilities. Readers will be enabled to design higher performance radio front-ends that consume less power and area, especially with respect to the transmitter and power amplifier designs, considered by many the "battery killers" on most mobile devices. Describes an innovative architecture that has proved to support advanced wireless communication systems, with outstanding noise performance and improved power and area consumption; Provides an in-depth description of underlying concepts, implementation and results achieved; Demonstrates two real implementations, showing design details and measurement results Radio- Transmitter-receivers Metal oxide semiconductors, Complementary Radio frequency integrated circuits Metal oxide semiconductors, Complementary. Radio frequency integrated circuits. Radio- Transmitter-receivers. Electronic books Paro Filho, Pedro Emiliano Craninckx, J. Jan) Wambacq, Piet Ingels, M. Mark) () Gutiérrez de Terán, Ignacio 1967-) Print version Paro Filho, Pedro Emiliano. Charge-based CMOS Digital RF Transmitters. Cham : Springer International Publishing, ©2016 9783319457864 Analog circuits and signal processing series