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Copyright: 2022
Pages: 340
ISBN: 9781630818982

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Description

This new edition of a previous bestseller gives you practical techniques for optimizing RF and microwave circuits for applications in radar systems design, with an emphasis on current and emerging technologies. Completely updated with new material, the book shows you how to design RF components for radar systems and how to choose appropriate materials and packaging methods. It takes you through classic techniques, to the state of the art, and finally to emerging technologies. You will learn:

 

    • How to design high-frequency circuits for use in radar applications
    • How to integrate components while avoiding higher-level assembly issues and troubleshooting problems on the measurement bench
    • How to properly simulate, build, assemble, and test high-frequency circuits
    • How to debug issues with hardware on the bench
    • How to connect microwave theory to practical circuit design

 

Theory and practical information are provided while addressing topics ranging from heat removal to digital circuit integration. The book serves as a teaching aid for classic techniques that are still relevant today. It also demonstrates how these techniques are serving as the foundation for technologies to come. You will be equipped to consider future needs and emerging enabling technologies and confidently think (and design) outside the box to ensure future needs are met. The book also shows you how to incorporate modern design techniques often overlooked or underused, and will help you to better understand the capabilities and limitations of today’s technology and the emerging technologies that are on the horizon to mitigate those limitations.

 

This is a must-have resource for system-level radar designers who want to up their game in RF/microwave component design. It is also a great tool for RF/microwave engineers tasked or interested in designing components for radar systems. Students and new designers of radar components will also benefit and be well prepared to start designing immediately.

Table Of Contents
PART I. Microwave Background: Crossing the Chasm from System to Component Level. Introduction to Microwave Design. Component Modeling. PART II. Component Design: Power Amplifier. Low Noise Amplifiers. Passive Circuitry. PART III. Higher-level Integration: Microwave Integrated Circuits. Transmit/Receive Module Integration. PART IV. Demonstration Hardware: Assembly and Prototyping. On the Measurement Bench. PART V. Advanced Topics: Exploring Terahertz Radar. Final Thoughts. Appendix. Index.

Author

  • Joseph R. Guerci

    has 35 years of advanced technology development experience in industrial, academic, and government settings, including a seven-year term with the Defense Advanced Research Projects Agency (DARPA). Guerci is a fellow of the IEEE, a recipient of the 2007 IEEE Warren D. White Award and the 2020 IEEE Dennis J. Picard Medal, and the author of several bestselling books.

  • Nickolas Kingsley

    has spent more than 20 years designing microwave and millimeter-wave front-end hardware for military and commercial applications. He is an avid designer and inventor and has given invited talks internationally on topics ranging from device physics to next-generation system architectures. Most of his career was spent with Auriga Microwave, BAE Systems, and Lockheed Martin. He currently leads the enabling technology group at Teradyne in North Reading, Massachusetts.

    Dr. Kingsley has a PhD in electrical engineering from the Georgia Institute of Technology. His specializations include active and passive design, packaging, multiphysics analysis, and designing for manufacturing. He is a senior member of the IEEE, an active member of the Microwave Theory and Techniques Society, and a former technical program review committee chair for the International Microwave Symposium.