Practical Microstrip and Printed Antenna Design

Practical Microstrip and Printed Antenna Design (2019) is a book by Anil Pandey published by Artech House in 2019. It is written by Anil Pandey. Anil Pandey is an engineer, inventor, author and scientist. His research focuses on antenna design, electromagnetic solvers, signal integrity and power integrity. He has published 40 research papers in journals, proceedings, national and international conferences and holds two patents. He received his Master of Technology in RF microwave engineering from the Indian Institute of Technology. In 2001, he graduated from Bipin Tripathi Kumaon Institute of Technology, with a Bachelor of Engineering in Electronics followed by a Master of Technology in Microwave engineering received in 2003 from the Indian Institute of Technology (BHU)in Varanasi India
Structure
Practical Microstrip and Printed Antenna Design unfolds the design technique of application based microstrip and printed antennas. The book covers the elementary printed and microstrip antenna topics needed by engineers and students with no background in antenna theory to study and understand the basic design principles and features of antennas. Several antenna design topics and antenna projects are presented in this book for the first time. These include new designs in the areas of 5G, wearable antennas, automobile antennas, system-level antenna simulation, phased array beamforming designs, meta-material antennas, and fractal antennas. The book covers the topic of antennas from roughly three vantage points: printed antenna fundamentals, antenna design technique, and design of real-world application-based antennas. This book is divided in 15 chapters.
*Chapter 1 discusses the various types of printed antennas and important antenna specifications that are needed to start an antenna design.
*Chapter 2 examines the most widely used printed antenna, microstrip antennas,to solidified concepts developed in this chapter and provides specific antenna design concepts for complex and array antenna designs in later chapters. Printed antennas are heavily used in wireless communication and mobile phone antennas.
*Chapter 3 gives an overview of antenna designs used in smartphones. Mobile phone designers are struggling every day with various compliance-related problems that fail critical products to pass compliance certification and cause a big loss of profit.
*Chapter 4 introduces the concept of various compliances in mobile phone antenna design and methodology to measure these compliances.
*Chapter 5 covers the frequency and polarization reconfiguration antenna design that is used in a modern wireless communication systems.
*Chapter 6 outlines the design of the printed array antenna for several applications.
*Chapter 7 gives and overview of the microwave remote sensing antennas, synthetic aperture radar (SAR) antenna, and antenna pattern synthesis are described comprehensively using.
*Chapter 8 covers a high-power SAR antenna system design.
*Chapter 9 focused on the design and analysis of a multi-frequency antenna using a shared aperture are presented.
*Chapter 10 is on phase array antenna with a real-world spaceborne application.
*Chapter 11 is all about the design of broadband antennas is discussed based on electromagnetic bandgap (EBG), photonic bandgap (PBG), frequency selective service (FSS) fractal antenna, and many other latest technologies
*Chapter 12 provides an idea of current research and development (R&D) trends in the design, analysis, and synthesis of broadband, multiband, and reconfigurable antennas for modern wireless communications
*Chapter 13 is focused on automobile antenna design.
*Chapter 14 presents antenna design consideration in a complete transceiver system for the active phased array at C-band using multitechnology-based chips.
*Chapter 15 is the last chapter in this book, in which a system-level, three-dimensional, beam-steerable, high-gain phased array system for a 5G multiple input and multiple- output (MIMO) network is designed.

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