Leyssenne, Laurent.
Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets [electronic resource] / by Laurent Leyssenne, Eric Kerhervé, Yann Deval. - XVI, 168 p. online resource. - Analog Circuits and Signal Processing . - Analog Circuits and Signal Processing .
Preface -- Acknowledgments -- Abbreviations -- Chapter 1 Mobile Phone Transmitters for Wireless Standards: systems, architectures and technologies -- Chapter 2 Discretized Reconfiguration Techniques for Radiofrequency Power Amplifiers -- Chapter 3 Continuous Adaptive Bias Technique for Radiofrequency Power amplifiers -- General Conclusion -- Appendices -- Index.
Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets is intended to designers and researchers who have to tackle the efficiency/linearity trade-off in modern RF transmitters so as to extend their battery lifetime. High data rate 3G/4G standards feature broad channel bandwidths, high dynamic range and critical envelope variations which generally forces the power amplifier (PA) to operate in a low efficiency “backed-off” regime. Classic efficiency enhancement techniques such as Envelope Elimination and Restoration reveal to be little compliant with handset-dedicated PA implementation due to their channel-bandwidth-limited behavior and their increased die area consumption and/or bill-of-material. The architectural advances that are proposed in this book circumvent these issues since they put the stress on low die-area /low power-consumption control circuitry. The advantages of silicon over III/V technologies are highlighted by several analogue signal processing techniques that can be implemented on-chip with a power amplifier. System-level and transistor-level simulations are combined to illustrate the principles of the proposed power adaptive solutions. Measurement on BICMOS demonstrators allows validating the functionality of dynamic linearity/efficiency management. In Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets, PA designers will find a review of technologies, architectures and theoretical formalisms (Volterra series…) that are traditionally related to PA design. Specific issues that one encounters in power amplifiers (such as thermal / memory effects, stability, VSWR sensitivity…) and the way of overcoming them are also extensively considered throughout this book.
9789400704251
10.1007/978-94-007-0425-1 doi
Engineering.
Software engineering.
Microwaves.
Electronics.
Systems engineering.
Engineering.
Microwaves, RF and Optical Engineering.
Electronics and Microelectronics, Instrumentation.
Circuits and Systems.
Special Purpose and Application-Based Systems.
TK7876-7876.42
621.3
Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets [electronic resource] / by Laurent Leyssenne, Eric Kerhervé, Yann Deval. - XVI, 168 p. online resource. - Analog Circuits and Signal Processing . - Analog Circuits and Signal Processing .
Preface -- Acknowledgments -- Abbreviations -- Chapter 1 Mobile Phone Transmitters for Wireless Standards: systems, architectures and technologies -- Chapter 2 Discretized Reconfiguration Techniques for Radiofrequency Power Amplifiers -- Chapter 3 Continuous Adaptive Bias Technique for Radiofrequency Power amplifiers -- General Conclusion -- Appendices -- Index.
Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets is intended to designers and researchers who have to tackle the efficiency/linearity trade-off in modern RF transmitters so as to extend their battery lifetime. High data rate 3G/4G standards feature broad channel bandwidths, high dynamic range and critical envelope variations which generally forces the power amplifier (PA) to operate in a low efficiency “backed-off” regime. Classic efficiency enhancement techniques such as Envelope Elimination and Restoration reveal to be little compliant with handset-dedicated PA implementation due to their channel-bandwidth-limited behavior and their increased die area consumption and/or bill-of-material. The architectural advances that are proposed in this book circumvent these issues since they put the stress on low die-area /low power-consumption control circuitry. The advantages of silicon over III/V technologies are highlighted by several analogue signal processing techniques that can be implemented on-chip with a power amplifier. System-level and transistor-level simulations are combined to illustrate the principles of the proposed power adaptive solutions. Measurement on BICMOS demonstrators allows validating the functionality of dynamic linearity/efficiency management. In Reconfigurable RF Power Amplifiers on Silicon for Wireless Handsets, PA designers will find a review of technologies, architectures and theoretical formalisms (Volterra series…) that are traditionally related to PA design. Specific issues that one encounters in power amplifiers (such as thermal / memory effects, stability, VSWR sensitivity…) and the way of overcoming them are also extensively considered throughout this book.
9789400704251
10.1007/978-94-007-0425-1 doi
Engineering.
Software engineering.
Microwaves.
Electronics.
Systems engineering.
Engineering.
Microwaves, RF and Optical Engineering.
Electronics and Microelectronics, Instrumentation.
Circuits and Systems.
Special Purpose and Application-Based Systems.
TK7876-7876.42
621.3