Learn the Secrets of Microwave Engineering By Annapurna Das Sisir K Dasrar
Microwave Engineering By Annapurna Das Sisir K Dasrar: A Comprehensive and Practical Guide
Microwave engineering is the study of microwave frequencies and their interactions with circuits, components and systems. It is an important and rapidly evolving field that has applications in various domains such as communication, radar, industrial, medical and scientific. Microwave engineering requires a solid understanding of the basic principles, analysis, design and measurement techniques of microwave devices and systems.
Microwave Engineering By Annapurna Das Sisir K Dasrar
If you are looking for a book that covers all these aspects of microwave engineering in a clear, concise and comprehensive manner, then you should read Microwave Engineering By Annapurna Das Sisir K Dasrar. This book is written by two eminent professors and researchers in the field of microwave engineering, who have more than three decades of teaching and industrial experience. The book is part of the McGraw-Hill Core Concepts Series, which offers textbooks for the global electrical engineering curriculum that are reasonably priced, innovative, dynamic and cover fundamental subject areas studied by Electrical and Computer Engineering students .
What You Will Learn From This Book
This book is divided into 15 chapters that cover the following topics:
Chapter 1: Introduction to Microwave Engineering - This chapter gives an overview of the history, applications and advantages of microwave engineering. It also introduces some basic concepts such as frequency bands, wavelength, wave propagation, transmission lines and waveguides.
Chapter 2: Microwave Transmission Lines - This chapter discusses the theory and analysis of different types of microwave transmission lines such as coaxial lines, microstrip lines, striplines, slotlines and coplanar waveguides. It also covers the concepts of impedance matching, reflection coefficient, standing wave ratio, power flow and attenuation.
Chapter 3: Microwave Network Analysis - This chapter explains the methods and tools for analyzing microwave networks such as scattering parameters, Smith chart, impedance transformation and admittance transformation. It also introduces some network theorems such as reciprocity, symmetry and losslessness.
Chapter 4: Impedance Matching and Tuning - This chapter describes the techniques for designing impedance matching networks such as stub matching, quarter-wave transformer matching, single-stub tuning and double-stub tuning. It also covers some practical aspects such as bandwidth, quality factor and insertion loss.
Chapter 5: Microwave Resonators - This chapter deals with the theory and design of microwave resonators such as cavity resonators, dielectric resonators and microstrip resonators. It also discusses the concepts of resonance frequency, quality factor, loaded Q, unloaded Q and coupling coefficient.
Chapter 6: Power Dividers and Directional Couplers - This chapter presents the principles and applications of power dividers and directional couplers such as T-junction power divider, Wilkinson power divider, branch-line coupler, rat-race coupler and hybrid coupler. It also explains the performance parameters such as isolation, insertion loss, return loss and directivity.
Chapter 7: Microwave Filters - This chapter covers the theory and design of microwave filters such as low-pass filters, high-pass filters, band-pass filters and band-stop filters. It also introduces some filter synthesis methods such as image parameter method, insertion loss method and Richards' transformation.
Chapter 8: Theory and Design of Ferrimagnetic Components - This chapter explores the properties and applications of ferrimagnetic materials such as ferrites and garnets. It also discusses the theory and design of ferrimagnetic components such as isolators, circulators, phase shifters and gyrators.
Chapter 9: Active Microwave Devices - This chapter reviews the operation and characteristics of active microwave devices such as diodes (PIN diode, varactor diode, Schottky diode), transistors (BJT, FET) and tubes (klystron,
What You Will Learn From This Book (Continued)
Chapter 10: Microwave Amplifiers - This chapter explains the principles and design of microwave amplifiers such as small-signal amplifiers, large-signal amplifiers, power amplifiers and distributed amplifiers. It also covers the concepts of gain, stability, noise figure and distortion.
Chapter 11: Microwave Oscillators - This chapter describes the theory and design of microwave oscillators such as negative-resistance oscillators, feedback oscillators and injection-locked oscillators. It also discusses the concepts of oscillation frequency, output power, phase noise and frequency stability.
Chapter 12: Microwave Mixers - This chapter explores the operation and characteristics of microwave mixers such as diode mixers, transistor mixers and balanced mixers. It also explains the concepts of conversion loss, noise figure, intermodulation distortion and image rejection.
Chapter 13: Microwave Antennas - This chapter introduces the fundamentals and applications of microwave antennas such as dipole antennas, horn antennas, parabolic antennas and microstrip antennas. It also covers the concepts of radiation pattern, directivity, gain, polarization and impedance.
Chapter 14: Microwave Measurements - This chapter presents the methods and instruments for performing microwave measurements such as power measurement, impedance measurement, frequency measurement and network analysis. It also covers some calibration techniques such as short-open-load-thru (SOLT) and thru-reflect-line (TRL).
Chapter 15: Microwave Radiation Hazards and Safety Measures - This chapter discusses the effects and risks of microwave radiation on human health and environment. It also suggests some safety measures and standards for preventing and minimizing microwave exposure.
Why You Should Read This Book
This book is not just a textbook, but also a valuable reference for anyone who is interested or involved in microwave engineering. It offers the following benefits:
It covers the entire spectrum of microwave engineering, from basic concepts to advanced topics, with a balanced emphasis on theory and practice.
It provides numerous examples, problems and exercises to enhance the understanding and application of the concepts and techniques.
It includes a wealth of illustrations, diagrams and tables to clarify and summarize the key points and data.
It incorporates the latest developments and technologies in microwave engineering, such as MESFET, HMT, Gunn diode, IMPATT diode, etc.
It discusses the practical aspects and applications of microwave engineering, such as antennae, radar, communication systems and industrial applications.
It addresses the issues and challenges of microwave radiation hazards and safety measures, with relevant standards and guidelines.
Microwave Engineering By Annapurna Das Sisir K Dasrar is a comprehensive and practical guide that will help you master the fundamentals and explore the frontiers of microwave engineering. Whether you are a student, a teacher, a researcher or a professional, this book will equip you with the knowledge and skills you need to excel in this exciting and dynamic field.
How to Use This Book
This book is designed to be used as a textbook for an introductory or intermediate course in microwave engineering, as well as a reference for practicing engineers and researchers. The book is organized into 15 chapters, each of which covers a specific topic or aspect of microwave engineering. Each chapter begins with an introduction that outlines the objectives and scope of the chapter, followed by the main text that explains the concepts and techniques in detail, with examples and illustrations. Each chapter ends with a summary that highlights the key points and a set of problems that test the understanding and application of the concepts and techniques. The book also includes appendices that provide some useful information and data on microwave engineering, such as mathematical formulas, physical constants, unit conversions, etc.
The book can be used in different ways, depending on the level and interest of the reader. For a beginner or a student who wants to learn the basics of microwave engineering, it is recommended to read the book sequentially from Chapter 1 to Chapter 15, skipping some advanced topics or sections that are marked with asterisks (*). For an intermediate or an advanced reader who wants to deepen their knowledge or explore some specific topics or applications of microwave engineering, it is possible to read the book selectively or randomly, depending on their preference and need. The book is written in a modular and self-contained manner, so that each chapter can be read independently without much reference to other chapters. However, some cross-references are provided within the text to help the reader navigate through the book and find related information.
How to Buy This Book
If you are interested in buying this book, you have several options to choose from. You can buy the book online from various websites such as Amazon.com, Barnes&Noble.com, Books-A-Million.com or IndieBound.org. You can also find the book in a library near you by using the Google Books service. Alternatively, you can order the book directly from the publisher, McGraw-Hill Higher Education, by visiting their website or contacting their customer service.
The book is available in both print and digital formats. The print version has a hardcover binding and a full-color layout. The digital version is compatible with various devices and platforms such as Kindle, Nook, iPad, Android, etc. The digital version also offers some interactive features such as hyperlinks, bookmarks, highlights and notes.
The price of the book may vary depending on the seller and the format. The average price of the print version is around $100 USD, while the average price of the digital version is around $80 USD. However, you may find some discounts or offers from time to time that can lower the price significantly.
Conclusion
Microwave Engineering By Annapurna Das Sisir K Dasrar is a comprehensive and practical guide that covers the entire spectrum of microwave engineering, from basic concepts to advanced topics, with a balanced emphasis on theory and practice. The book is suitable for both students and professionals who want to learn or enhance their knowledge and skills in microwave engineering. The book is written in a clear, concise and comprehensive manner, with numerous examples, problems, exercises, illustrations, diagrams and tables. The book also incorporates the latest developments and technologies in microwave engineering, as well as the practical aspects and applications of microwave engineering. The book also addresses the issues and challenges of microwave radiation hazards and safety measures, with relevant standards and guidelines.
Microwave Engineering By Annapurna Das Sisir K Dasrar is a valuable resource for anyone who is interested or involved in microwave engineering. It is not just a textbook, but also a reference for practicing engineers and researchers. It is part of the McGraw-Hill Core Concepts Series, which offers textbooks for the global electrical engineering curriculum that are reasonably priced, innovative, dynamic and cover fundamental subject areas studied by Electrical and Computer Engineering students. The book is available in both print and digital formats, with different prices and features. You can buy the book online from various websites, find it in a library near you or order it directly from the publisher.
If you want to master the fundamentals and explore the frontiers of microwave engineering, then you should read Microwave Engineering By Annapurna Das Sisir K Dasrar today. b99f773239