Microwave Active Circuit Analysis And Design
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Microwave Active Circuit Analysis and Design
This book teaches the skills and knowledge required by today's RF and microwave engineer in a concise, structured and systematic way. Reflecting modern developments in the field, this book focuses on active circuit design covering the latest devices and design techniques. From electromagnetic and transmission line theory and S-parameters through to amplifier and oscillator design, techniques for low noise and broadband design; This book focuses on analysis and design including up to date material on MMIC design techniques. With this book you will: - Learn the basics of RF and microwave circuit analysis and design, with an emphasis on active circuits, and become familiar with the operating principles of the most common active system building blocks such as amplifiers, oscillators and mixers - Be able to design transistor-based amplifiers, oscillators and mixers by means of basic design methodologies - Be able to apply established graphical design tools, such as the Smith chart and feedback mappings, to the design RF and microwave active circuits - Acquire a set of basic design skills and useful tools that can be employed without recourse to complex computer aided design - Structured in the form of modular chapters, each covering a specific topic in a concise form suitable for delivery in a single lecture - Emphasis on clear explanation and a step-by-step approach that aims to help students to easily grasp complex concepts - Contains tutorial questions and problems allowing readers to test their knowledge - An accompanying website containing supporting material in the form of slides and software (MATLAB) listings - Unique material on negative resistance oscillator design, noise analysis and three-port design techniques - Covers the latest developments in microwave active circuit design with new approaches that are not covered elsewhere
Microwave Active Devices and Circuits for Communication
The book discusses active devices and circuits for microwave communications. It begins with the basics of device physics and then explores the design of microwave communication systems including analysis and the implementation of different circuits. In addition to classic topics in microwave active devices, such as p-i-n diodes, Schottky diodes, step recovery diodes, BJT, HBT, MESFET, HFET, and various microwave circuits like switch, phase shifter, attenuator, detector, amplifier, multiplier and mixer, the book also covers modern areas such as Class-F power amplifiers, direct frequency modulators, linearizers, and equalizers. Most of the examples are based on practical devices available in commercial markets and the circuits presented are operational. The book uses analytical methods to derive values of circuit components without the need for any circuit design tools, in order to explain the theory of the circuits. All the given analytical expressions are also cross verified using commercially available microwave circuit design tools, and each chapter includes relevant diagrams and solved problems. It is intended for scholars in the field of electronics and communication engineering.
Microwave Circuit Design
This is the first complete hands-on guide to microwave circuit design with the field's leading tool: Advanced Design System (ADS). Teaching through practical examples, it covers all essential concepts, helping students translate theory into realistic designs, and bridge the gap between academia and industry. The essential concepts of active microwave circuit designs are presented clearly and concisely, with practical design examples including low noise amplifiers (LNA), power amplifiers (PA), microwave oscillator, phase locked loop (PLL), and mixers. Students will master practical skills for creating schematics and EM simulations, drawing and generating layouts, and verifying circuit designs.