Microelectromechanical sytems (MEMS) applications in RF and microwave electronics are revolutionizing wireless communications. This text provides a comprehensive explanation of the fabrication and fundamental physics of MEMS and their applications in electronic communication systems. The book integrates circuit fabrication technology, device design-oriented materials, mechanical and microwave considerations, and RF/microwave electronics to give engineers and managers a clear understanding of the potential and limitations of MEMS in electronic communications.

MEMS (microelectromechanical systems) for RF (radio frequency)/wireless applications is the technological engine enabling the next wave in even smaller, more sophisticated wireless products than those in use right now. MEMS is an exciting young technology and this is the first comprehensive book to address the design of RF MEMS-based circuits for use in high performance wireless systems. This groundbreaking book enables professionals to understand the realm of applications of RF MEMS technology; become knowledgeable of the wide variety and performance levels of RF MEMS devices; and design the architecture of wireless systems to achieve greater system performance with lower power requirements.

This timely volume covers issues and topics in a systematic way that quickly brings engineers up to speed with this technology. What's more, the book features exercises and detailed case studies on working RF MEMS circuits that will help practitioners decide what approaches best fit their design constraints.

This book is intended for readers who already have knowledge of devices and circuits for radio-frequency (RF) and microwave communication and are ready to study the systems engineering-level aspects of modern radio communications systems. The authors provide a general overview of radio systems with their components, focusing on the analog parts of the system and their non-idealities. Based on the physical functionality of the various building blocks of a modern radio system, block parameters are derived, which allows the examination of their influence on the overall system performance. The discussion is complemented by tutorial exercises based on the Agilent SystemVue electronic system-level (ESL) design software. With these tutorials, readers gain practical experience with realistic design examples of radio transmission systems for communications and radar sensing. The tutorials cover state-of-the-art system standards and applications and consider the characteristics of typical radio-frequency hardware components. For all tutorials, a comprehensive description of the tasks, including some hints to the solutions, is provided. The readers are then ableto perform these tasks independently. A complete set of simulation models and solutions to the tutorial exercises is given.
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Presents the first unified exposition of the physical principles at the heart of NanoMEMS-based devices and applications

Provides newcomers with a much needed coherent scientific base for undertaking study and research in this field

Takes great pains in rendering transparent advanced physical concepts and techniques, such as quantum information, second quantization, Luttinger liquids, bosonization, and superconductivity

The operational theme permeating most definitions of the IoT concept, is the wireless communication of networked objects, in particular, smart sensing devices and machines, exchanging data a la Internet. In this book, a detailed look is taken at the fundamental principles of devices and techniques whose exploitation will facilitate the development of compact, power-efficient, autonomous, smart, networked sensing nodes underlying and encompassing the emerging IoT era. The book provides an understanding of nanoelectromechanical quantum circuits and systems (NEMX), as exemplified by firstly the uncovering of their origins, impetus and motivation, and secondly by developing an understanding of their device physics, including, the topics of actuation, mechanical vibration and sensing. Next the fundamentals of key devices, namely, MEMS/NEMS switches, varactors and resonators are covered, including a wide range of implementations. The book then looks at their energy supply via energy harvesting, as derived from wireless energy and mechanical vibrations. Finally, after an introduction to the fundamentals of IoT networks and nodes, the book concludes with an exploration of how the NEMX components are encroaching in a variety of emerging IoT applications.