RF and mm-Wave Power Generation in Silicon presents the challenges and solutions of designing power amplifiers at RF and mm-Wave frequencies in a silicon-based process technology. It covers practical power amplifier design methodologies, energy- and spectrum-efficient power amplifier design examples in the RF frequency for cellular and wireless connectivity applications, and power amplifier and power generation designs for enabling new communication and sensing applications in the mm-Wave and THz frequencies.

With this book you will learn:

• Power amplifier design fundamentals and methodologies
• Latest advances in silicon-based RF power amplifier architectures and designs and their integration in wireless communication systems
• State-of-the-art mm-Wave/THz power amplifier and power generation circuits and systems in silicon

• Extensive coverage from fundamentals to advanced design topics, focusing on various layers of abstraction: from device modeling and circuit design strategy to advanced digital and mixed-signal architectures for highly efficient and linear power amplifiers
• New architectures for power amplifiers in the cellar and wireless connectivity covering detailed design methodologies and state-of-the-art performances
• Detailed design techniques, trade-off analysis and design examples for efficiency enhancement at power back-off and linear amplification for spectrally-efficient non-constant envelope modulations
• Extensive coverage of mm-Wave power-generation techniques from the early days of the 60 GHz research to current state-of the-art reconfigurable, digital mm-Wave PA architectures
• Detailed analysis of power generation challenges in the higher mm-Wave and THz frequencies and novel technical solutions for a wide range for potential applications, including ultrafast wireless communication to sensing, imaging and spectroscopy
• Contributions from the world-class experts from both academia and industry

1. Introduction
Part I: Power amplifier design methodologies 2. Power amplifier fundamentals
Part II: RF Power Amplifier Design Examples 3. CMOS power amplifier design for wireless connectivity applications: A highly linear WLAN power amplifier in advanced SoC CMOS 4. CMOS power amplifier design for cellular applications: An EDGE/GSM dual-mode quad-band PA in 0.18 µm CMOS 5. Energy-efficiency enhancement and linear amplifications: A transformer-based Doherty approach 6. Linear power amplification with high back-off efficiency: An out-phasing approach 7. Energy efficiency enhancement and linear amplifications: An envelope-tracking (ET) approach 8. A digital RF power amplification technique based on the switched-capacitor circuit 9. A transformer-based reconfigurable digital polar Doherty power amplifier fully integrated in bulk CMOS
Part III: mm-Wave and Terahertz Power Generation Design Examples 10. 60 GHz all silicon radio IC: How it all started 11. mm-Wave power-combining architectures: Current combining 12. mm-Wave power-combining architectures: Hybrid combining 13. mm-Wave CMOS design above 60 GHz 14. Self-healing techniques for robust mm-Wave power amplification 15. mm-Wave class-E PA design in CMOS 16. High-speed, efficient, mm-Wave power-mixer-based digital transmitters 17. THz power generation beyond transistor fmax 18. THz signal generation, radiation, and beam-forming in silicon: A circuit and electromagnetics co-design approach 19. Silicon-based THz signal generation with multiphase subharmonic injection-locking oscillators