Asymmetric Passive Components in Microwave Integrated Circuits (Hardcover)
Hee-Ran Ahn
- 出版商: Wiley
- 出版日期: 2006-09-01
- 售價: $1,140
- 語言: 英文
- 頁數: 291
- 裝訂: Hardcover
- ISBN: 0471737488
- ISBN-13: 9780471737483
-
相關分類:
微波工程 Microwave
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商品描述
This book examines the new and important technology of asymmetric passive components for miniaturized microwave passive circuits. The asymmetric design methods and ideas set forth by the author are groundbreaking and have not been treated in previous works. Readers discover how these design methods reduce the circuit size of microwave integrated circuits and are also critical to reducing the cost of equipment such as cellular phones, radars, antennas, automobiles, and robots.
An introductory chapter on the history of asymmetric passive components, which began with asymmetric ring hybrids first described by the author, sets the background for the book. It lays a solid foundation with a chapter examining microwave circuit parameters such as scattering, ABCD, impedance, admittance, and image. A valuable feature of this chapter is a conversion table between the various circuit matrices characterizing two-port networks terminated in arbitrary impedances. The correct conversion has also never been treated in previous works.
Next, the author sets forth a thorough treatment of asymmetric passive component design, which covers the basic and indispensable elements for integration with other active or passive devices, including:
- Asymmetric ring hybrids
- Asymmetric branch-line hybrids
- Asymmetric three-port power dividers and N-way power dividers
- Asymmetric ring hybrid phase shifters and attenuators
- Asymmetric ring filters and asymmetric impedance transformers
With its focus on the principles of circuit element design, this is a must-have graduate-level textbook for students in microwave engineering, as well as a reference for design engineers who want to learn the new and powerful design method for asymmetric passive components.
Table of Contents
Preface.
1 Introduction.
1.1 Asymmetric Passive Components.
1.2 Circuit Parameters.
1.3 Asymmetric Four-Port Hybrids.
1.4 Asymmetric Three-Port Power Dividers.
1.5 Asymmetric Two-Port Components.
References.
2 Circuit Parameters.
2.1 Scattering Matrix.
2.2 Scattering Parameters of Reduced Multiports.
2.3 Two-Port Network Analysis Using Scattering Parameters.
2.4 Other Circuit Parameters.
2.5 Analyses of Symmetric Networks.
2.6 Analyses with Image Parameters.
Exercises.
References.
3 Conventional Ring Hybrids.
3.1 Introduction.
3.2 Original Concept of the 3-dB Ring Hybrid.
3.3 Conventional Ring Hybrids.
3.4 Conventional 3-dB Uniplanar Ring Hybrids.
Exercises.
References.
4 Asymmetric Ring Hybrids.
4.1 Introduction.
4.2 Derivation of Design Equations of Asymmetric Ring Hybrids.
4.3 Small Asymmetric Ring Hybrids.
4.4 Wideband or Small Asymmetric Ring Hybrids.
4.5 Miniaturized Ring Hybrids Terminated in Arbitrary Impedances.
Exercises.
References.
5 Asymmetric Branch-Line Hybrids.
5.1 Introduction.
5.2 Origin of Branch-Line Hybrids.
5.3 Multisection Branch-Line Couplers.
5.4 Branch-Line Hybrids for Impedance Transforming.
5.5 Asymmetric Four-Port Hybrids.
Exercises.
References.
6 Conventional Three-Port Power Dividers.
6.1 Introduction.
6.2 Three-Port 3-dB Power Dividers.
6.3 Three-Port Power Dividers with Arbitrary Power Divisions.
6.4 Symmetric Analyses of Asymmetric Three-Port Power Dividers.
6.5 Three-Port 3-dB Power Dividers Terminated in Complex Frequency-Dependent Impedances.
6.6 Three-Port 45◦ Power Divider/Combiner.
Exercises.
References.
7 Three-Port 3-dB Power Dividers Terminated in Different Impedances.
7.1 Introduction.
7.2 Perfect Isolation Condition.
7.3 Analyses.
7.4 Scattering Parameters of Three-Port Power Dividers.
7.5 Lumped-Element Three-Port 3-dB Power Dividers.
7.6 Coplanar Three-Port 3-dB Power Dividers.
Exercises.
References.
8 General Design Equations for N-Way Arbitrary Power Dividers.
8.1 Introduction.
8.2 General Design Equations for Three-Port Power Dividers.
8.3 General Design Equations for N-Way Power Dividers.
Exercises.
References.
9 Asymmetric Ring-Hybrid Phase Shifters and Attenuators.
9.1 Introduction.
9.2 Scattering Parameters of Asymmetric Ring Hybrids.
9.3 Asymmetric Ring-Hybrid Phase Shifters.
9.4 Asymmetric Ring-Hybrid Attenuator with Phase Shifts.
Exercises.
References.
10 Ring Filters and Their Use in a New Measurement Technique for Inherent Ring-Resonance Frequency.
10.1 Introduction.
10.2 Ring Filters.
10.3 New Measurement Technique for Inherent Ring-Resonance Frequency.
10.4 Conclusions.
Exercises.
References.
11 Small Impedance Transformers, CVTs and CCTs, and Their Applications to Small Power Dividers and Ring Filters.
11.1 Small Transmission-Line Impedance Transformers.
11.2 Mathematical Approach for CVTs and CCTs.
11.3 CVT3PDs and CCT3PDs.
11.4 Asymmetric Three-Port 45◦ Power Divider Terminated in Arbitrary Impedances.
11.5 CVT and CCT Ring Filters.
11.5.1 Analyses of Ring Filters.
Exercises.
References.
Appendix A: Symbols and Abbreviations.
Appendix B: Conversion Matrices.
Appendix C: Derivation of the Elements of a Small Asymmetric Ring Hybrid.
Appendix D: Trigonometric Relations.
Appendix E: Hyperbolic Relations.
Index.
商品描述(中文翻譯)
本書探討了微小化微波被動電路中的新興重要技術——非對稱被動元件。作者提出的非對稱設計方法和理念是開創性的,之前的著作中並未涉及。讀者將了解到這些設計方法如何減小微波集成電路的尺寸,同時對於降低手機、雷達、天線、汽車和機器人等設備的成本也至關重要。
本書首先介紹了非對稱被動元件的歷史,其中包括作者首次描述的非對稱環形混合器,為本書奠定了基礎。該章節通過檢視微波電路參數(如散射、ABCD、阻抗、導納和圖像)來提供扎實的基礎。該章節的一個有價值的特點是提供了一個在任意阻抗終端的二端口網絡之間的轉換表。這種正確的轉換在之前的著作中也未曾涉及。
接下來,作者詳細介紹了非對稱被動元件設計,包括與其他主動或被動器件集成所必需的基本元件,其中包括:
- 非對稱環形混合器
- 非對稱分支線混合器
- 非對稱三端口功率分配器和N路功率分配器
- 非對稱環形混合器相移器和衰減器
- 非對稱環形濾波器和非對稱阻抗變壓器
由於其專注於電路元件設計原則,這本書是必備的研究生級教材,適用於微波工程學專業的學生,同時也是設計工程師學習非對稱被動元件新且強大的設計方法的參考書。
目錄:
前言
1. 引言
1.1 非對稱被動元件
1.2 電路參數
1.3 非對稱四端口混合器
1.4 非對稱三端口功率分配器
1.5 非對稱二端口元件
參考文獻
2. 電路參數
2.1 散射矩陣
2.2 簡化多端口的散射參數
2.3 使用散射參數進行二端口網絡分析
2.4 其他電路參數
2.5 對稱網絡分析
2.6 使用圖像參數進行分析
練習題
參考文獻
3. 傳統環形混合器
3.1 引言
3.2 3 dB環形混合器的原始概念
3.3 傳統環形混合器
3.4 傳統3 dB單平面環形混合器
練習題
參考文獻
4. 非對稱環形混合器
4.1 引言
4.2 非對稱環形混合器設計方程的推導
4.3 小型非對稱環形混合器
4.4 寬頻或小型非對稱環形混合器
4.5 任意阻抗終端的微小化環形混合器
練習題
參考文獻
5. 非對稱分支線混合器
5.1 引言
5.2 分支線混合器的起源
5.3 多段分支線耦合器
5.4 用於阻抗變換的分支線混合器
5.5 非對稱四端口混合器
練習題
參考文獻
6. 傳統三端口功率分配器
6.1 引言
6.2 三端口3 dB功率分配器
6.3 具有任意功率分配的三端口功率分配器
6.4 對稱和非對稱三端口功率分配器的比較
練習題
參考文獻