国外天线书籍: 9780780310780.jpg

关于国外天线的一些书籍，

Microstrip Antenna Design


Microstrip and printed antenna




Microstrip Patch Antennas: A Designer's Guide
Microstrip Antennas: The Analysis and Design of Microstrip Antennas and Arrays
遗憾的没有找到下载的位置。如果哪位仁兄有，不知可否共享一下。谢谢

怎么回事，晕死，怎么看不到图片呀

再试一下.............................

终于上传上，晕死，这是怎么回事，版主帮忙看看，什么原因呀。

有这本书的上传一下啊！

这几本书的确很好啊，谁有，我大力奖励给他哈

这几本书可以说几乎没有
我找了很久了
Google上面有可以看的书
Microstrip Antenna Design
http://books.google.com/books?hl ... &q=&f=false
剩下的也可以尝试在Google图书里面找到

Microstrip and Printed Antenna Design, Second Edition
Randy Bancroft
Hardcover, 300 pages
ISBN: 9781891121739
Publisher: SciTech Publishing, Copyright 2009
Description

The approach in this book is historical and practical. It covers “basic designs” in more detail than other microstrip antenna books that tend to skip important electrical properties and implementation aspects of these types of antennas. Examples include: quarter-wave patch, quarter by quarter patch, detailed design method for rectangular circularly polarized patch, the use of the TM11 (linear and broadside CP), TM21 (monopole CP pattern) and TM02 (monopole linear) circular patch modes in designs, dual-band antenna designs which allow for independent dual-band frequencies. Limits on broadband matching are discussed. The appendix contains useful simple matching approaches, design details (gain, matching, sidelobes) of the little-studied omnidirectional microstrip antenna (OMA), limits and properties of common single and dual band Planar Inverted F Antenna (PIFA) antenna designs.

The second edition has numerous additions to the earlier text which will make the concepts presented clearer. New cavity model analysis equations of circular polarization bandwidth, axial ratio bandwidth and power fraction bandwidth have been included. The section on omnidirectional microstrip antennas is expanded with further design options and analysis. This also true of the section on Planar Inverted F (PIFA) antennas. The discovery and description of the “fictious resonance” mode of a microstrip slot antenna has been added to that section. Appendix A on microstrip antenna substrates has been expanded to provide more detail on the types of substrate and their composition. This is often neglected in other texts. An appendix on elementary impedance matching techniques has been added as these methods have proven useful in my industrial work.
Key Features

• Gives a complete introduction to useful elegant microstrip antenna designs that may be engineered unlike many other designs.

• Provides extensive section on the design of omni-directional microstrip antennas. De-mystifies basic PIFA designs and expands on their limitations. Discusses Electrically Small Antenna (ESA) limits, which are generally ignored by other books.

• Appendices provide instruction on ways to implement numerical methods for designs. The appendices also cover practical aspects of substrate materials, copper thickness, dielectric values, types of plastics (thermoset and thermoplastic) and the manufacturing process of Teflon fiberglass boards.

• Provides practical suggestions for solution of difficulties encountered in physical designs (e.g. shorting pin in center of patch for ESD, use of small strips on either side of feed pin to provide stress relief from shock and vibration).
Table of Contents

• Preface to Second Edition
• Acknowledgment
• Chapter 1 Microstrip Antennas
  • 1.1 The Origin of Microstrip Radiators
  • 1.2 Microstrip Antenna Analysis Methods
  • 1.3 Microstrip Antenna Advantages and Disadvantages
  • 1.4 Microstrip Antenna Applications
  • References
• Chapter 2 Rectangular Microstrip Antennas
  • 2.1 The Transmission Line Model
  • 2.2 The Cavity Model
    • 2.2.1 The TM10 and TM01 Mode
  • 2.3 Radiation Pattern and Directivity of a Linear Rectangular Microstrip Patch Antenna
  • 2.4 Quarter-Wave Rectangular Microstrip Antenna
  • 2.5 λ/4 � λ/4 Rectangular Microstrip Antenna
  • 2.6 Circular Polarized Rectangular Microstrip Antenna Design
    • 2.6.1 Single-Feed Circularly Polarized Rectangular Microstrip Antenna Design
    • 2.6.2 Dual-Feed Circularly Polarized Rectangular Microstrip Antenna Design
    • 2.6.3 Quadrature (90�) Hybrid
  • 2.7 Impedance and Axial Ratio Bandwidth
  • 2.8 Efficiency
  • 2.9 Design of a Linearly Polarized Microstrip Antenna with Dielectric Cover
  • 2.10 Design Guidelines for a Linearly Polarized Rectangular Microstrip Antenna
  • 2.11 Design Guidelines for a Circularly Polarized Rectangular Microstrip Antenna
  • 2.12 Electromagnetically Coupled Rectangular Microstrip Antenna
  • 2.13 Ultrawide Rectangular Microstrip Antenna
  • References
• Chapter 3 Circular Microstrip Antennas
  • 3.1 Circular Microstrip Antenna Properties
  • 3.2 Directivity
  • 3.3 Input Resistance and Impedance Bandwidth
    • 3.3.1 Gain, Radiation Pattern, and Effi ciency
  • 3.4 Circular Microstrip Antenna Radiation Modes
    • 3.4.1 The TM11 Bipolar Mode
    • 3.4.2 The TM11 Bipolar Mode Circular Polarized Antenna Design
    • 3.4.3 The TM21 Quadrapolar Mode
    • 3.4.4 The TM02 Unipolar Mode
  • 3.5 Microstrip Antenna Cross Polarization
  • 3.6 Annular Microstrip Antenna
  • References
• Chapter 4 Broadband Microstrip Antennas
  • 4.0 Broadband Microstrip Antennas
  • 4.1 Microstrip Antenna Broadbanding
    • 4.2.1 Microstrip Antenna Matching with Capacitive Slot
    • 4.2.2 Microstrip Antenna Broadband Matching with Bandpass Filter
    • 4.2.3 Microstrip Antenna Broadband Matching Using Lumped Elements
    • 4.2.4 Lumped Elements to Transmission Line Section Conversion
    • 4.2.5 Real Frequency Technique Broadband Matching
    • 4.2.6 Matching Network Optimization Using Genetic Algorithms
  • 4.3 Patch Shape for Optimized Bandwidth
    • 4.3.1 Patch Shape Bandwidth Optimization Using Genetic Algorithms
  • References
• Chapter 5 Dual-Band Microstrip Antennas
  • 5.0 Dual-Band Microstrip Antennas
  • 5.1 Single-Resonator Rectangular Microstrip Dual-Band Antenna
  • 5.2 Multiple Resonator Dual-Band Antennas
    • 5.2.1 Coupled Microstrip Dipoles
    • 5.2.2 Stacked Rectangular Microstrip Antennas
  • 5.3 Dual-Band Microstrip Antenna Design Using a Diplexer
    • 5.3.1 Example Dual-Band Microstrip Antenna Design Using a Diplexer
  • 5.4 Multiband Microstrip Design Using Patch Shaping and a Genetic Algorithm
  • References
• Chapter 6 Microstrip Arrays
  • 6.0 Microstrip Arrays
  • 6.1 Planar Array Theory
  • 6.2 Rectangular Microstrip Antenna Array Modeled Using Slots
  • 6.3 Aperture Excitation Distribution
  • 6.4 Microstrip Array Feeding Methods
    • 6.4.1 Corporate Fed Array
    • 6.4.2 Series Fed Array
  • 6.5 Phase and Amplitude Error
  • 6.6 Mutual Coupling
  • 6.6.1 Mutual Coupling Between Square Microstrip Antennas
  • References
• Chapter 7 Printed Antennas
  • 7.0 Printed Antennas
  • 7.1 Omnidirectional Microstrip Antenna
    • 7.1.1 Low Sidelobe Omnidirectional Microstrip Antenna
    • 7.1.2 Element Shaping of Omnidirectional Microstrip Antenna
    • 7.1.3 Single-Short Omnidirectional Microstrip Antenna
  • 7.2 Stripline Fed Tapered Slot Antenna
    • 7.2.1 Stripline Fed Vivaldi Antenna
  • 7.3 Meanderline Antenna
    • 7.3.1 Electrically Small Antennas
    • 7.3.2 Meanderline Antenna Design
  • 7.4 Half-Patch with Reduced Short Circuit Plane
    • 7.4.1 Dual-Band PIFA
  • 7.5 Rectangular Microstrip Fed Slot Antenna
    • 7.5.1 Slot Antenna “Fictitious Resonance”
  • 7.6 Microstrip Fed Log Periodic Balun Printed Dipole
  • 7.7 Microstrip Fed Tapered Balun Printed Dipole
  • References
• Appendix A: Microstrip Antenna Substrates
• Appendix B: Numerical Methods
• Appendix C: Microstrip Transmission Line Design and Discontinuities
• Appendix D: Antenna Topics
• Appendix E: Impedance Matching Techniques
• Index

About the Author

Randy Bancroft, P.E., holds a BSEE from Iowa State University, and a MSEE from the University of Colorado at Boulder. The author of ten publications, including the 1996 book Understanding Electromagnetic Scattering Using the Moment Method, Bancroft is a Senior Member of the IEEE and is credited for six patents. During a diverse career in industry, he has worked for Lockheed, Martin Marietta, Thomson Consumer Electronics, Centurion Wireless, and Ball Aerospace among others.

thank you!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

1.Microstrip Patch Antennas: A Designer's Guide
这书是2003年出版的，价格一直比较昂贵，而且几乎不打什么折扣。

2.Microstrip Antennas: The Analysis and Design of Microstrip Antennas and Arrays
这书是一本论文集，Pozar只是其中的一位编者，而且这书有点年代了，是1995年出版的。

3.Microstrip Antenna Design
这本书也是一本论文集，年代更远，是1988年出版的书。

4.Microstrip and printed antenna
这本书已经有第二版了，你给出的封面是第一版的。Randy Bancroft是一位经验丰富工程师，从事天线行业已经几十年了，供职过很多知名企业。

上面这些书，都没找到有电子档或扫描档。

10# magicsissy
我有微带天线设计手册，我的邮箱hg198172@163.com
50M往网上传太慢了，请原谅！

还是传上来分享吧
或者穿给我，我给你发上来
68870544@qq.com

微带天线设计手册？莫非是《Microstrip Antenna Design Handbook》，作者：P. Bhartia ，Inder Bahl，R. Garg，A. Ittipiboon

如果是这本书，微网已经有了，而且是58M的扫描版。

13# magicsissy

麻烦您帮忙看看这书是在哪个版块？！谢谢！！

要想看的话，去大学图书馆复印吧，应该都有
我们学校有10楼列的第2、3、4本

"天线书籍资料"版区，本站有搜索引擎的。

关注关注~~

什么时候上传，期待中！

这个书估计是很难找到的，除非谁买了扫描，呵呵

16# magicsissy
找到了，谢谢！！

Microstrip Patch Antennas A Designer's Guide
目录见附件

谢谢分享，，，，

谢谢分享，楼主好人