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天線理論與微帶天線(英文版普通高等教育十五國(guó)家級(jí)規(guī)劃教材)
| 定價(jià): | ¥ 39 | ||
| 作者: | 方大綱 編 | ||
| 出版: | 未知 | ||
| 書號(hào): | 科學(xué)出版社 | ||
| 語(yǔ)言: | 簡(jiǎn)體中文 | ||
| 日期: | 2006-01-01 | ||
| 版次: | 1 | 頁(yè)數(shù): | 0 |
| 開本: | 16開 | 查看: | 0次 |
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 | 400-711-6699 | 滿29至69元,免運(yùn)費(fèi)! | ¥27.3 |  |
內(nèi)容推薦
本書天線基礎(chǔ)理論部分從線、面基本輻射單元特性出發(fā),介紹由此組成的離散和連續(xù)陣的分析綜合。對(duì)天線的幾個(gè)主要參數(shù),系統(tǒng)給出了多種表示法及其相互聯(lián)系;極化的表示和傳輸線理論相對(duì)應(yīng);收發(fā)互易由計(jì)算接收天線的方向圖引入。同時(shí)也介紹了數(shù)字波束形成和智能天線等近代進(jìn)展。優(yōu)化設(shè)計(jì)部分著重介紹商用軟件的有效使用,其中包括空域映射、內(nèi)插和外推、自適應(yīng)采樣等技術(shù)。微帶天線部分力求與天線基本理論緊密結(jié)合并形成系統(tǒng),其中包括規(guī)則和非規(guī)則貼片的設(shè)計(jì)、方向圖計(jì)算、陣列設(shè)計(jì)和有限陣陣中互耦分析、陣列近場(chǎng)診斷。結(jié)合介紹高頻方法介紹了微帶反射陣、Fresnel區(qū)板天線和有限尺寸對(duì)方向圖的影響。分析方法涉及腔模和全波。在全波分析部分深入淺出介紹了譜域方法的精髓。
本書為普通高等教育“十五”國(guó)家級(jí)規(guī)劃教材,可作為相關(guān)專業(yè)本科生和研究生教材,也可作為工程技術(shù)人員的參考書。
目錄
1 Basic Concepts of Antennas
1.1 Introduction
1.2 Radiation Mechanism
1.3 Two Kinds of Elementary Linear Sources and Huygens'Planar Element
1.4 Fundamental Parameters of Antennars
Bibliography
Problems
2 Arrays and Array Synthesis
2.1 Introduction
2.2 N-Element Linear Array:Uniform Amplitude and Spacing
2.3 Phased Array,Grating Lobe and Sub array
2.4 N-Element Linear Array:Uniform Spacing ,Nonuniform Amplitude
2.5 N-Element Linear Array:Uniform Amplitude,Nonuniform
2.6 Signal Processign Antenna Array
2.7 Planar Arrays 1 Basic Concepts of Antennas
1.1 Introduction
1.2 Radiation Mechanism
1.3 Two Kinds of Elementary Linear Sources and Huygens'Planar Element
1.4 Fundamental Parameters of Antennars
Bibliography
Problems
2 Arrays and Array Synthesis
2.1 Introduction
2.2 N-Element Linear Array:Uniform Amplitude and Spacing
2.3 Phased Array,Grating Lobe and Sub array
2.4 N-Element Linear Array:Uniform Spacing ,Nonuniform Amplitude
2.5 N-Element Linear Array:Uniform Amplitude,Nonuniform
2.6 Signal Processign Antenna Array
2.7 Planar Arrays
2.8 Array Synthesis Through Genetic Algorithm (GA)
Bibliography
Problems
3 Microstrip Patch Antennas
3.1 Introduction
3.2 Cavity Model and Transmission Line Model
3.4 Design Procedure of a Single Rectangular Microstrip Patch Antenna
3.5 Exammple of LTCC Microstrip Patch Antenna
Bibliography
Problems
4 Spectal Domain Approach and Its Application to Microstrip Antennas
4.1 Introduction
4.2 Basic Concept of Spectral Domain Approach
4.3 Some Useful Transform Relations
4.4 Scalarization of Maxwell'sEquations
4.5 Dyadic Green's Function
4.6 Mixed Potential Representations
4.7 Transmission-Line Green's Functions
4.8 Introduction to Complex Integration Techniques
4.9 Full Wave Discrete Image and Full Wave Analysis of Microstrip Antennas
4.10 Asymptotic Integration Techniques and Its Applications
Bibliography
Problems
5 Effective Methods in Using Commercial Softwares for Antenna Design
5.1 Introduction
5.2 Space Mapping Technique
5.3 Extrapolation and Interpolation Methods
5.4 Using Model From Physical Insight to Create Formual
5.5 Using Model From the Artificial Neural Network to Train Formula
5.6 Summary
Bibliography
Problems
6 Design of Conventional and DBF Microstrip Antenna Array
6.1 Introduction
6.2 Feeding Architecture
6.3 Desing of Power Divider and Trannsmission on the Transformer
6.4 Design Examples of Microstrip Antenna Arrays
6.5 Mutral Coupling in Finite Microstrip Antenna Arrays
6.6 Introduction to a Digital Beamforming Receiving Microstrip Antenna Array
Bibliography
Problems
7 High Frequency Methods and Their AppHcatioIlS To Antennas
7.1 IntrodUCtion
7.2 Geometrical Optics
7.3 Physical Optics
7.4 Diffraction by a Conducting Half Plane With Normal Incidence
7.5 Difiraction by a Conducting Half Plane With Arbitrary Incidence
7.6 Applications of Geometrical Theory of Diffraction in Antennas
7.7 Fresnel Diffraction in Three Dimensions
Bibliography
Problems
8 Planar Near-Field Measurement and Array Diagnostics
8.1 IntrOdUCtion
8.2 Fundamental Transformations
8.3 Probe Compensation
8.4 Integral Equation Approach
8.5 Array Diagnostics
Bibliography
Problems
Index
1 Basic Concepts of Antennas
1.1 Introduction
1.2 Radiation Mechanism
1.3 Two Kinds of Elementary Linear Sources and Huygens'Planar Element
1.4 Fundamental Parameters of Antennars
Bibliography
Problems
2 Arrays and Array Synthesis
2.1 Introduction
2.2 N-Element Linear Array:Uniform Amplitude and Spacing
2.3 Phased Array,Grating Lobe and Sub array
2.4 N-Element Linear Array:Uniform Spacing ,Nonuniform Amplitude
2.5 N-Element Linear Array:Uniform Amplitude,Nonuniform
2.6 Signal Processign Antenna Array
2.7 Planar Arrays 1 Basic Concepts of Antennas
1.1 Introduction
1.2 Radiation Mechanism
1.3 Two Kinds of Elementary Linear Sources and Huygens'Planar Element
1.4 Fundamental Parameters of Antennars
Bibliography
Problems
2 Arrays and Array Synthesis
2.1 Introduction
2.2 N-Element Linear Array:Uniform Amplitude and Spacing
2.3 Phased Array,Grating Lobe and Sub array
2.4 N-Element Linear Array:Uniform Spacing ,Nonuniform Amplitude
2.5 N-Element Linear Array:Uniform Amplitude,Nonuniform
2.6 Signal Processign Antenna Array
2.7 Planar Arrays
2.8 Array Synthesis Through Genetic Algorithm (GA)
Bibliography
Problems
3 Microstrip Patch Antennas
3.1 Introduction
3.2 Cavity Model and Transmission Line Model
3.4 Design Procedure of a Single Rectangular Microstrip Patch Antenna
3.5 Exammple of LTCC Microstrip Patch Antenna
Bibliography
Problems
4 Spectal Domain Approach and Its Application to Microstrip Antennas
4.1 Introduction
4.2 Basic Concept of Spectral Domain Approach
4.3 Some Useful Transform Relations
4.4 Scalarization of Maxwell'sEquations
4.5 Dyadic Green's Function
4.6 Mixed Potential Representations
4.7 Transmission-Line Green's Functions
4.8 Introduction to Complex Integration Techniques
4.9 Full Wave Discrete Image and Full Wave Analysis of Microstrip Antennas
4.10 Asymptotic Integration Techniques and Its Applications
Bibliography
Problems
5 Effective Methods in Using Commercial Softwares for Antenna Design
5.1 Introduction
5.2 Space Mapping Technique
5.3 Extrapolation and Interpolation Methods
5.4 Using Model From Physical Insight to Create Formual
5.5 Using Model From the Artificial Neural Network to Train Formula
5.6 Summary
Bibliography
Problems
6 Design of Conventional and DBF Microstrip Antenna Array
6.1 Introduction
6.2 Feeding Architecture
6.3 Desing of Power Divider and Trannsmission on the Transformer
6.4 Design Examples of Microstrip Antenna Arrays
6.5 Mutral Coupling in Finite Microstrip Antenna Arrays
6.6 Introduction to a Digital Beamforming Receiving Microstrip Antenna Array
Bibliography
Problems
7 High Frequency Methods and Their AppHcatioIlS To Antennas
7.1 IntrodUCtion
7.2 Geometrical Optics
7.3 Physical Optics
7.4 Diffraction by a Conducting Half Plane With Normal Incidence
7.5 Difiraction by a Conducting Half Plane With Arbitrary Incidence
7.6 Applications of Geometrical Theory of Diffraction in Antennas
7.7 Fresnel Diffraction in Three Dimensions
Bibliography
Problems
8 Planar Near-Field Measurement and Array Diagnostics
8.1 IntrOdUCtion
8.2 Fundamental Transformations
8.3 Probe Compensation
8.4 Integral Equation Approach
8.5 Array Diagnostics
Bibliography
Problems
Index
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