“Microwave Electronics” by Grigoriev, Ivanov, and Molokovsky offers a comprehensive overview of microwave electronic circuits, devices, and systems. Here’s a summary:
The book begins by introducing readers to the fundamental concepts of microwave electronics, covering topics such as microwave transmission lines, passive components, and active devices. Grigoriev, Ivanov, and Molokovsky elucidate how microwave frequencies, typically ranging from 1 GHz to 300 GHz, enable the transmission of high-speed data, the generation of high-frequency signals, and the development of advanced communication systems.
Readers are then guided through a detailed exploration of microwave circuit design and analysis techniques. The authors discuss methods for impedance matching, signal coupling, and power amplification in microwave circuits, highlighting the importance of balanced design principles and distributed parameter modeling for achieving high performance and reliability.
A significant portion of the book is dedicated to exploring the design and characterization of microwave components and devices. Grigoriev, Ivanov, and Molokovsky discuss topics such as microwave filters, couplers, mixers, oscillators, and amplifiers, providing insights into their operating principles, design considerations, and practical applications in communication, radar, and instrumentation systems.
Furthermore, the book addresses advanced topics in microwave electronics, such as microwave integrated circuits (MICs), monolithic microwave integrated circuits (MMICs), and microwave system-on-chip (SoC) technologies. Grigoriev, Ivanov, and Molokovsky discuss examples of microwave electronic systems, including microwave transceivers, radar systems, and wireless communication networks, illustrating how microwave technology enables high-speed data transmission and signal processing in modern electronic systems.
Throughout the text, Grigoriev, Ivanov, and Molokovsky emphasize the interdisciplinary nature of microwave electronics, highlighting the connections between electromagnetics, circuit theory, semiconductor physics, and communication theory. The book also includes case studies, examples, and references to recent research and industry developments, providing readers with opportunities for further exploration and study.
With its comprehensive coverage, theoretical insights, and practical applications, “Microwave Electronics” serves as an invaluable resource for students, researchers, and practitioners in the field of microwave engineering. Whether used as a textbook for academic study or as a reference for industry professionals, this book provides a comprehensive overview of the principles, methodologies, and technologies in microwave electronic circuits, devices, and systems.