Coplanar Microwave Integrated Circuits (Hardcover)
暫譯: 共面微波集成電路 (精裝版)
Ingo Wolff
- 出版商: Wiley
- 出版日期: 2006-06-01
- 售價: $1,250
- 貴賓價: 9.8 折 $1,225
- 語言: 英文
- 頁數: 560
- 裝訂: Hardcover
- ISBN: 0471121010
- ISBN-13: 9780471121015
-
相關分類:
微波工程 Microwave
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商品描述
Description
The tools and techniques to fully leverage coplanar technology
Coplanar Microwave Integrated Circuits sets forth the theoretical underpinnings of coplanar waveguides and thoroughly examines the various coplanar components such as discontinuities, lumped elements, resonators, couplers, and filters, which are essential for microwave integrated circuit design. Based on the results of his own research findings, the author effectively demonstrates the many advantages of coplanar waveguide technology for modern circuit design.
Following a brief introductory chapter, the text thoroughly covers the material needed for successful design and realization of coplanar microwave circuits, including:
* Fundamental transmission properties of coplanar waveguides using a full wave analysis
* Detailed analysis of most discontinuities used in coplanar waveguide design
* Lumped elements in coplanar technology that are needed in circuit design
* Development of software for coplanar circuit design, including a CD-ROM containing a test version of the software for modeling coplanar circuit components and circuits
* Application of derived results to build more complex components such as lumped element filters, waveguide filters, millimeter wave filters, end-coupled waveguide structures, waveguide couplers, and Wilkinson couplers for different frequency ranges in coplanar technology
The final chapter focuses on special coplanar microwave integrated circuits that have been developed using the software presented in the text. The book concludes with a thought-provoking discussion of the advantages and disadvantages of the coplanar technique.
Extensive use of figures and tables helps readers easily digest and visualize complex concepts. A bibliography is included at the end of each chapter for further study and research.
Coplanar Microwave Integrated Circuits is recommended for graduate students and engineers in RF microwaves who want to reap all the advantages and possibilities of coplanar technology.
Table of Contents
Preface.
1. Introduction.
References.
2. Transmission Properties of Coplanar Waveguides.
2.1 Rigorous, Full-Wave Analysis of Transmission Properties.
2.1.1 The Coplanar Waveguide with a Single Center Strip and Finite Ground-Plane Width.
2.1.2 The Coplanar Waveguide with a Single Center Strip and Infinite Ground-Plane Width.
2.1.3 Coupled Coplanar Waveguides.
2.1.3.1 Scattering Matrix of Coupled Coplanar Waveguides.
2.1.3.2 Coupled Coplanar Waveguides and Microstrip Lines—A Comparison.
2.2 Quasi-Static Analysis of Coplanar Waveguides Using the Finite Difference Method.
2.2.1 Introduction.
2.2.2 The Finite Difference Method as Applied to the Analysis of Coplanar Waveguide Structures.
2.2.3 The Solution of Laplace’s Equation for Planar and Coplanar Line Structures Using the Finite Difference Method.
2.2.4 Application of the Quasi-Static Techniques to the Analysis of Coplanar Waveguides.
2.2.5 Characteristic Parameters of Coplanar Waveguides.
2.2.6 The Influence of the Metalization Thickness on the Line Parameters.
2.2.7 The Influence of the Ground Strip Width on the Line Parameters.
2.2.8 The Influence of the Shielding on the Line Parameters.
2.2.9 Special Forms of Coplanar Waveguides.
2.2.10 Coplanar-like Waveguides.
2.2.11 Coupled Coplanar Waveguide Structures.
2.2.11.1 Analysis of the Characteristic Parameter Matrices.
2.2.11.2 Determination of the Scattering Matrix of Coupled Coplanar Waveguides.
2.3 Closed Formula Static Analysis of Coplanar Waveguide Properties.
2.3.1 Analysis of a Generalized Coplanar Waveguide with Supporting Substrate Layers.
2.3.1.1 Structure SCPW1.
2.3.1.2 Structure SCPW2.
2.3.1.3 Structure SCPW3.
2.3.1.4 Numerical Results.
2.3.2 Static Formulas for Calculating the Parameters of General Broadside-Coupled Coplanar Waveguides.
2.3.2.1 Analytical Formulas and Results for the General Broadside-Coupled Coplanar Waveguide.
2.3.2.2 Analysis of an Asymmetric Supported BSC-CPW.
2.3.2.3 Application of the GBSC-CPW as Single CPW.
2.3.2.4 Criteria for the Coplanar Behavior of the Structure.
Bibliography and References.
3. Coplanar Waveguide Discontinuities.
3.1 The Three-Dimensional Finite Difference Analysis.
3.2 Computation of the Electric Field Strength.
3.3 Computation of the Magnetic Field Strength.
3.3.1 Convergence and Error Discussion for the Analysis Technique.
3.4 Coplanar Waveguide Discontinuities.
3.4.1 Modeling the Discontinuities.
3.4.2 Extraction of the Model Parameters.
3.5 Description of Coplanar Waveguide Discontinuities.
3.5.1 The Coplanar Open End.
3.5.2 The Coplanar Waveguide Short-Circuited End.
3.5.3 The Gap in a Coplanar Waveguide.
3.5.4 The Coplanar Waveguide Step.
3.5.5 Air Bridges in Coplanar Waveguides.
3.5.6 The Coplanar Waveguide Bend.
3.5.7 The Coplanar Waveguide T-Junction.
3.5.7.1 Analysis of the Odd-Mode Excitation.
3.5.8 The Coplanar T-Junction as a Mode Converter.
3.5.9 The Coplanar Waveguide Crossing.
Bibliography and References.
4. Coplanar Lumped Elements.
4.1 Introduction.
4.2 The Coplanar Interdigital Capacitor.
4.2.1 The Lumped Element Modeling Approach.
4.2.2 Enhancement of the Interdigital Capacitor Model for Application at Millimeter-Wave Frequencies.
4.3 The Coplanar Metal–Insulator–Metal (MIM) Capacitor.
4.4 The Coplanar Spiral Inductor.
4.4.1 Enhancement of the Inductor Model for Millimeter-Wave Frequencies.
4.4.2 Coupled Coplanar Rectangular Inductors.
4.5 The Coplanar Rectangular Spiral Transformer.
4.6 The Coplanar Thin-Film Resistor.
Bibliography and References.
5. Coplanar Element Library and Circuit Design Program.
5.1 Introduction.
5.2 Modeling, Convergence, and Accuracy.
5.3 Overview on Coplan for ADSTM.
5.3.1 Data Items.
5.3.2 Library Elements.
5.4 Cache Management.
5.5 Layout.
5.6 Coplanar Data Items.
5.6.1 Overview.
5.6.2 Description of the Data Items.
5.6.2.1 Coplanar Substrate Data Definition C_SUB.
5.6.2.2 Coplanar Line-Type Data Definition C_LINTYP.
5.6.2.3 Coplanar Coupled Lines Data Definition C_NL_TYP.
5.6.2.4 Coplanar Bridge-Type Data Definition C_AIRTYP.
5.6.2.5 Coplanar Grid Data Definition C_GRID.
5.6.2.6 Process (Foundry) Used for Fabrication C_PROCES.
5.6.2.7 Technological Data Definition (Default Foundry) C_TECH.
5.6.2.8 Layer Data Definition (Default Foundry) C_LAYER.
5.7 The Coplanar Components and Their Models.
5.7.1 Coplanar Waveguide RF-Port C_PORT.
5.7.2 Coplanar Transmission Line C_LIN.
5.7.3 Coplanar Inter-Metal via (No Step) Connection C_METIA.
5.7.4 Coplanar Resistively Loaded Transmission Line C_TFG.
5.7.5 Coplanar MIM-Capacitor to Ground C_CAPLIN.
5.7.6 Coplanar Open-Ended Transmission Line C_OPEN.
5.7.7 Coplanar Short-Circuited Transmission Line C_SHORT.
5.7.8 Gap in a Coplanar Transmission Line C_GAP.
5.7.9 Step in a Coplanar Transmission Line C_STEP.
5.7.10 Coplanar Waveguide Taper C_TAPER.
5.7.11 Coplanar Air Bridges C_AIR.
5.7.12 Bend in a Coplanar Transmission Line C_BEND.
5.7.13 T-Junction in Coplanar Transmission Lines C_TEE.
5.7.14 Crossing of Coplanar Transmission Lines C_CROSS.
5.7.15 Coplanar Interdigital Capacitor C_IDC.
5.7.16 Coplanar Rectangular Inductor C_RIND.
5.7.17 Coplanar Thin-Film Resistor C_TFR.
5.7.18 Coplanar Metal–Insulator–Metal Capacitor C_MIM.
Bibliography.
6. Coplanar Filters and Couplers.
6.1 Coplanar Lumped Element Filters.
6.1.1 The Coplanar Spiral Inductor as a Filter.
6.1.2 Design and Realization.
6.1.3 Results.
6.1.4 Phase-Shifting Filter Circuits.
6.2 Coplanar Passive Lumped-Element Band-Pass Filters.
6.2.1 Theoretical Background.
6.2.2 Properties of the Coplanar Hybrid Band-Pass Filters.
6.3 Special Coplanar Waveguide Filters.
6.3.1 The Coplanar Band-Reject Filter.
6.3.1.1 The Hybrid Band-Reject Filter.
6.3.1.2 The Monolithic Band-Reject Filter.
6.3.2 Coplanar Millimeter-Wave Filters.
6.4 Coplanar Edge-Coupled Line Structures.
6.4.1 Verification of Coupling Between Coupled Coplanar Waveguides.
6.4.2 End-Coupled Coplanar Line Structures.
6.4.3 Coplanar Waveguide End-Coupled to an Orthogonal Coplanar Waveguide.
6.5 Coupled Coplanar Waveguide Filters and Couplers.
6.5.1 Interdigital Filter Design.
6.5.2 Coplanar Waveguide Couplers.
6.6 Coplanar MMIC Wilkinson Couplers.
6.6.1 Conventional Wilkinson Couplers.
6.6.2 Wilkinson Couplers with Discrete Elements.
6.6.3 MMIC Applicable Wilkinson Couplers with Coplanar Lumped Elements.
6.6.4 Wilkinson Coupler in Coplanar Waveguide Technique for Millimeter-Wave Frequencies.
Bibliography and References.
7. Coplanar Microwave Integrated Circuits.
7.1 Introduction.
7.1.1 The Effect of the Shielding on Modeling.
7.1.2 The Waveguide Properties.
7.2 Coplanar Transistors and Coplanar Switches.
7.2.1 Active Power Dividers and Combiners and Switches.
7.2.1.1 Power Dividers and Combiners.
7.2.1.2 Fundamental Coplanar Switch Circuits.
7.2.1.3 Results and Measurements.
7.2.1.4 Device Scaling.
7.2.1.5 Design and Realization of Coplanar RF Switches.
7.3 Coplanar Microwave Active Filters.
7.3.1 Introduction.
7.3.2 The Coplanar Active Inductor.
7.3.3 The First-Order Active Coplanar Band-Pass Filter.
7.3.4 The Fixed Center Frequency Second-Order Active Filter.
7.3.5 The Coplanar Active Tunable Filter.
7.4 Coplanar Microwave Amplifiers.
7.4.1 Coplanar Microwave Amplifiers in Waveguide Design.
7.4.1.1 Introduction.
7.4.1.2 Circuit Design and Technological Aspects.
7.4.1.3 Results and Comparison with Measurements.
7.4.2 Coplanar Lumped-Element MMIC Amplifiers.
7.4.2.1 Introduction.
7.4.2.2 MMIC Design and Results.
7.4.3 Influence of the Backside Metalization on the Design of a Coplanar Low-Noise Amplifier.
7.4.3.1 Modeling the Transistor and Its Noise Properties.
7.4.3.2 The Coplanar LNA Design.
7.4.3.3 Simulation Results.
7.4.3.4 Measurement Results.
7.4.4 Miniaturized Ka-band MMIC High-Gain Medium-Power Amplifier in Coplanar Waveguide Technique.
7.4.4.1 Introduction.
7.4.4.2 MMIC Design and Results.
7.5 Coplanar Electronic Circulators.
7.6 Coplanar Frequency Doublers.
7.6.1 Different Realization Concepts of FET Frequency Doublers.
7.6.1.1 The Single-Device FET Frequency Doubler.
7.6.1.2 The Balanced (Push–Push) FET Frequency Doubler.
7.6.1.3 The Wideband FET Frequency Doubler.
7.6.2 Realization of Coplanar Frequency Doublers.
7.6.2.1 The Coplanar Balanced Hybrid MIC Frequency Doubler.
7.6.2.2 The Coplanar Balanced Monolithic MIC Frequency Doubler.
7.6.3 A Coplanar Times Five Frequency Multiplier.
7.7 Microwave and Millimeter-Wave Oscillators in Coplanar Technology.
7.7.1 Coplanar Microwave Oscillators.
7.7.2 A 5-GHz Coplanar Voltage-Controlled Oscillator.
Bibliography and References.
Index.
商品描述(中文翻譯)
描述
充分利用共面技術的工具和技術
《共面微波集成電路》闡述了共面波導的理論基礎,並徹底檢視了各種共面元件,如不連續性、集中元件、諧振器、耦合器和濾波器,這些都是微波集成電路設計所必需的。根據作者自己的研究結果,有效地展示了共面波導技術在現代電路設計中的諸多優勢。
在簡短的介紹章節之後,文本全面涵蓋了成功設計和實現共面微波電路所需的材料,包括:
* 使用全波分析的共面波導的基本傳輸特性
* 共面波導設計中使用的大多數不連續性的詳細分析
* 在電路設計中所需的共面技術中的集中元件
* 用於共面電路設計的軟體開發,包括包含共面電路元件和電路建模的軟體測試版本的CD-ROM
* 將推導結果應用於構建更複雜的元件,如集中元件濾波器、波導濾波器、毫米波濾波器、端耦合波導結構、波導耦合器和Wilkinson耦合器,以適應共面技術中的不同頻率範圍
最後一章專注於使用文本中介紹的軟體開發的特殊共面微波集成電路。本書以對共面技術的優缺點的深思熟慮的討論作結。
大量使用圖形和表格幫助讀者輕鬆消化和可視化複雜概念。每章末尾都附有參考書目以供進一步學習和研究。
《共面微波集成電路》推薦給希望充分利用共面技術優勢和可能性的研究生和RF微波工程師。
目錄
前言。
1. 介紹。
參考文獻。
2. 共面波導的傳輸特性。
2.1 傳輸特性的嚴格全波分析。
2.1.1 單中心帶和有限接地平面寬度的共面波導。
2.1.2 單中心帶和無限接地平面寬度的共面波導。
2.1.3 耦合共面波導。
2.1.3.1 耦合共面波導的散射矩陣。
2.1.3.2 耦合共面波導和微帶線的比較。
2.2 使用有限差分法的共面波導的準靜態分析。
2.2.1 介紹。
2.2.2 應用於共面波導結構分析的有限差分法。
2.2.3 使用有限差分法解拉普拉斯方程的平面和共面線結構。
2.2.4 準靜態技術在共面波導分析中的應用。
2.2.5 共面波導的特徵參數。
2.2.6 金屬化厚度對線參數的影響。
2.2.7 接地帶寬度對線參數的影響。
2.2.8 屏蔽對線參數的影響。
2.2.9 共面波導的特殊形式。
2.2.10 類共面波導。
2.2.11 耦合共面波導結構。
2.2.11.1 特徵參數矩陣的分析。
2.2.11.2 確定耦合共面波導的散射矩陣。
2.3 共面波導特性的封閉公式靜態分析。
2.3.1 帶支撐基板層的廣義共面波導的分析。
2.3.1.1 結構SCPW1。
2.3.1.2 結構SCPW2。
2.3.1.3 結構SCPW3。
2.3.1.4 數值結果。
2.3.2 計算廣義側耦合共面波導參數的靜態公式。
2.3.2.1 廣義側耦合共面波導的解析公式和結果。
2.3.2.2 非對稱支撐BSC-CPW的分析。
2.3.2.3 將GBSC-CPW應用為單一CPW。
2.3.2.4 結構的共面行為標準。
參考書目和文獻。
3. 共面波導不連續性。
3.1 三維有限差分分析。
3.2 電場強度的計算。
3.3 磁場強度的計算。
3.3.1 分析技術的收斂性和誤差討論。
3.4 共面波導不連續性。
3.4.1 不連續性的建模。
3.4.2 模型參數的提取。
3.5 共面波導不連續性的描述。
3.5.1 共面開端。
3.5.2 短路的共面波導端。
3.5.3 共面波導中的間隙。
3.5.4 共面波導的階梯。
3.5.5 共面波導中的空氣橋。
3.5.6 共面波導的彎曲。
3.5.7 共面波導的T型接頭。
3.5.7.1 奇模激勵的分析。
3.5.8 共面T型接頭作為模式轉換器。
3.5.9 共面波導的交叉。
參考書目和文獻。
4. 共面集中元件。
4.1 介紹。
4.2 共面指間電容器。
4.2.1 集中元件建模方法。
4.2.2 增強毫米波頻率應用的指間電容器模型。
4.3 共面金屬-絕緣體-金屬(MIM)電容器。
4.4 共面螺旋電感器。
4.4.1 增強毫米波頻率的電感器模型。
4.4.2 耦合共面矩形電感器。
4.5 共面矩形螺旋變壓器。
4.6 共面薄膜電阻器。
參考書目和文獻。
5. 共面元件庫和電路設計程序。
5.1 介紹。
5.2 建模、收斂和準確性。
5.3 Coplan for ADSTM 概述。
5.3.1 數據項。
5.3.2 庫元件。
5.4 快取管理。
5.5 佈局。
5.6 共面數據項。
5.6.1 概述。
5.6.2 數據項的描述。
5.6.2.1 共面基板數據定義C_SUB。
5.6.2.2 共面線型數據定義C_LINTYP。
5.6.2.3 共面耦合線數據定義C_NL_TYP。
5.6.2.4 共面橋型數據定義C_AIRTYP。
5.6.2.5 共面網格數據定義C_GRID。
5.6.2.6 用於製造的工藝(鑄造)C_PROCES。
