Introduction to Microwave Circuits: Radio Frequency and Design Applications (Hardcover)

"Do you want to design a wireless transmitter or receiver for hand-held telephones? Have you wondered why the printed circuit wires on high-frequency circuits dont always run in a straight line? This valuable text will answer all of your questions regarding component parasitics and circuit characterization for rf/microwave amplifier, oscillator, and filter circuit design and analysis. You will understand why capacitors act as inductors and vice versa and why amplifiers work like oscillators, while oscillators for local area networks work more like local area heaters.

Application of the information in Introduction to Microwave Circuits will reduce design-cycle time and costs, markedly increasing the probability of first-time success in printed circuit or monolithic microwave integrated circuit (MMIC) design. Several approaches are taken into consideration, such as the effects of currents on the ground plane, bypass and coupling capacitors, and nonlinear effects in linear circuits. Featured topics include:

• Incorporation of component parasitics in the design cycle
• Closed form solution to oscillator design
• Odd mode stability analysis
• PIN diode analysis for high-power switching applications

An integrated design example of a 1.25 GHz amplifier, oscillator, and filter printed circuit is also included, which could be useful in printed circuit board designs from tens of megahertz to tens of gigahertz.

Introduction to Microwave Circuits provides the tools necessary to analyze or synthesize microwave circuits. This text is an essential reference for undergraduate students, microwave engineers, and administrators. Also, it will assist experienced designers in other fields to meet the current rapid expansion of communication system applications and work effectively in microwave circuit design.

Table of Contents

Preface.

Acknowledgments.

Microwave Circuits.

Models, Modeling, and Characterization.

S-Parameter Measurement Methods.

Multiport and Differential-Mode Scattering Parameters.

Stability, Stabilization, and Gain.

Matching Networks, Attenuators, and Phase Shifters.

RF/Microwave Power Generation Considerations.

Resonators and Oscillators.

Microwave Filter Design.

Noise Considerations for Microwave Circuits.

Detection and Mixing.

Microwave Components.

Pulsed Microwave Circuit Analysis.

Nonlinear Effects in Microwave Circuits.

Amplifier, Oscillator, and Filter Circuit Design Examples.

Appendix A: An Approximate Formula for the Characteristic Impedance of a Microstrip Line.

Appendix B: Some Complex Variable Facts.

Appendix C: Matric Multiplication.

Appendix D: Resistor, Capacitor, and Inductor Component Modeling.

Appendix E: Chip Resistor Sizes—Nominal Sizes Only.

Appendix F: S Parameters (Scattering Parameters—Current Referenced).

Appendix G: Modeling Using an Equivalent Mechanical Model.

Bibliography.

Index.

About the Author.

 

你想設計一個手持電話的無線發射器或接收器嗎？你是否想知道為什麼高頻電路上的印刷電路線不總是直線運行？這本寶貴的書籍將回答你關於元件寄生效應和射頻/微波放大器、振盪器和濾波器電路設計和分析的所有問題。你將了解為什麼電容器表現得像電感器，反之亦然，以及為什麼放大器的工作方式像振盪器，而用於局域網的振盪器更像局域加熱器。

應用《導論到微波電路》中的信息將減少設計週期和成本，顯著提高印刷電路或單片微波集成電路（MMIC）設計的首次成功的概率。考慮了幾種方法，如地面平面上電流的影響、旁路和耦合電容器以及線性電路中的非線性效應。特色主題包括：

• 在設計週期中納入元件寄生效應
  


• 振盪器設計的閉式解
  


• 奇數模態穩定性分析
  


• 高功率開關應用的PIN二極管分析

書中還包括一個1.25 GHz放大器、振盪器和濾波器印刷電路的集成設計示例，這對於從幾十兆赫茲到幾十吉赫茲的印刷電路板設計可能很有用。

《導論到微波電路》提供了分析或合成微波電路所需的工具。這本書是本科生、微波工程師和管理人員的必備參考資料。同時，它將幫助其他領域的經驗豐富的設計師應對當前通信系統應用的快速擴展，並在微波電路設計中有效地工作。

目錄

前言。

致謝。

微波電路。

模型、建模和特性。

S-參數測量方法。

多端口和差動模式散射參數。

穩定性、穩定和增益。

匹配網絡、衰減器和相移器。

射頻/微波功率生成考慮。

諧振器和振盪器。

微波濾波器設計。

微波電路的噪聲考慮。

檢測和混頻。

微波元件。

脈沖微波電路分析。

微波電路中的非線性效應。

放大器、振盪器和濾波器電路設計示例。

附錄A：微帶線特性阻抗的近似公式。

附錄B：一些複變數事實。

附錄C：矩陣乘法。

附錄D：電阻器、電容器和電感器元件建模。

附錄E：芯片電阻器尺寸-僅名義尺寸。

附錄F：S參數（散射參數-電流參考）。

附錄G：使用等效機械模型進行建模。

參考文獻。

索引。

關於作者。