Electromagnetics, Microwave Circuit and Antenna Design...part13.rar

Electromagnetics, Microwave Circuit, And Antenna Design for Communications Engineering, Second Edition (Artech House Antennas and Propagation Library) (Hardcover)by Peter Russer (Author)

Hardcover: 729 pages
Publisher: Artech House Publishers; 2 edition (February 28, 2006)
Language: English
ISBN-10: 1580539076
ISBN-13: 978-1580539074
Product Dimensions: 9.3 x 6.4 x 1.7 inches

Product Description
This newly revised, authoritative resource is essential reading for professionals looking for a clear, complete overview of basic electromagnetics principles and applications to antenna and microwave circuit design for communications. Among the numerous updates, the second edition features a brand new chapter on the increasingly important topic of filters, an expanded treatment of antennas, and problem sets that help reinforce the understanding of key concepts in each chapter. Presenting examples in both exterior differential form calculus and conventional vector notation, the book includes concise explanations of all required mathematical concepts needed to fully comprehend the material. This unique volume is an ideal reference for engineers in the communications engineering field and also serves as an excellent text for related graduate-level courses. There is no other book currently available that explains electromagnetics in such an easy-to-understand manner.

About the Author
Peter Russer is a Professor and Head of the Institute for High Frequency Engineering at Technische Universität München in Germany. He is a Fellow of the IEEE. He received his Dipl.-Ing. and Dr. techn. degrees in Electrical Engineering from the Vienna University of Technology.

[ 本帖最后由 drjiachen 于 2008-12-15 10:48 编辑 ]

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谢谢楼主辛苦劳动!

Preface  xvii  
Chapter 1 Introduction  1  
References
  6  
Chapter 2 Basic Electromagnetics  9  
2.1 The Electromagnetic Field Concept
  9  
2.2 Field Intensities
  12  
2.3 Current and Flux Densities
  16  
2.4 Constitutive Relations
  18  
2.5 The Charge Density
  23  
2.6 The Maxwell Puzzle
  24  
2.7 The Integral Form of Maxwell's Equations
  26  
2.8 The Electromagnetic Wave
  29  
2.8.1 The Wave Equation
  35  
2.8.2 The Polarization of Electromagnetic Waves
  36  
2.9 Kirchhoff's Laws
  38  
2.10 Maxwell's Equations in Local Form
  41  
2.11 Time-Harmonic Electromagnetic Fields
  43  
2.12 Maxwell's Equations in the Frequency Domain
  44  
2.13 Curvilinear Coordinates
  46  
2.14 Boundary Conditions
  47  
2.15 Problems
  56  
References
  59  
Chapter 3 Potentials and Waves  61  
3.1 The Electromagnetic Potentials
  61  
3.2 The Helmholtz Equation
  65  
3.3 Time-Harmonic Plane Waves
  67  
3.3.1 Time-Harmonic Plane Waves in Lossless Medium
  69  
3.3.2 Complex Waves
  72  
3.4 TM and TE Fields and Waves
  74  
3.5 Reflection and Transmission of Plane Waves
  77  
3.5.1 Reflection and Diffraction of a TE Wave at a Plane Boundary
  80  
3.5.2 Reflection and Diffraction of a TM Wave at a Plane Boundary
  83  
3.5.3 Total Reflection
  86  
3.6 Waves in Planar Layered Media
  89  
3.7 Thin Conducting Sheets
  93  
3.8 The Vector Wave Equation
  94  
3.9 Circular Cylindrical Waves
  98  
3.9.1 Excitation of a Cylindric Wave by a Uniform Current Filament
  101  
3.10 Spherical Waves
  102  
3.11 Problems
  106  
References
  107  
Chapter 4 Concepts, Methods, and Theorems  109  
4.1 Energy and Power
  109  
4.2 Field Theoretic Formulation of Tellegen's Theorem
  116  
4.3 Sources of the Electromagnetic Field
  118  
4.4 The Uniqueness Theorem
  120  
4.5 The Equivalence Principle
  121  
4.6 Babinet's Principle
  123  
4.7 Reciprocity
  125  
4.7.1 The Lorentz Reciprocity Theorem
  125  
4.7.2 The Reciprocity Theorem for Impressed Sources
  126  
4.8 Green's Function
  128  
4.9 The Integral Equation Method
  133  
4.10 The Free-Space Green's Dyadic Form
  136  
4.11 Green's Theorems
  136  
4.11.1 The Scalar Green's Theorems
  136  
4.11.2 Green's Theorems in Two Dimensions
  138  
4.11.3 The Vector Green's Theorems
  140  
4.12 Integral Formulation of the Equivalence Principle
  141  
4.13 The Sturm-Liouville Equation
  143  
4.14 Spectral Representation of Green's Functions
  146  
4.15 Problems
  148  
References
  148  
Chapter 5 Static and Quasistatic Fields  151  
5.1 Conditions for Static and Quasistatic Fields
  151  
5.2 Static and Quasistatic Electric Fields
  153  
5.2.1 Green's Function for the Static Electric Field
  153  
5.2.2 Capacitance
  155  
5.3 Static and Quasistatic Magnetic Fields
  161  
5.3.1 Green's Function for the Static Magnetic Field
  161  
5.3.2 Inductance
  163  
5.4 The Laplace Equation
  169  
5.4.1 Potential Separation Planes
  170  
5.4.2 Three-Dimensional Laplace Equation in Cartesian Coordinates
  171  
5.5 Conformal Mapping
  174  
5.5.1 Field of an Elliptic Cylindric Line
  181  
5.5.2 Field of a Coaxial Line
  183  
5.5.3 Parallel Wire Line
  186  
5.6 The Schwarz-Christoffel Transformation
  191  
5.6.1 The Coplanar Line
  193  
5.6.2 The Coplanar Stripline
  196  
5.6.3 The Stripline
  197  
5.7 Problems
  201  
References
  204  
Chapter 6 Waves at the Surface of Conducting Media  207  
6.1 Transverse Magnetic Surface Waves
  208  
6.2 Surface Currents
  216  
6.3 Surface Current Losses
  221  
6.4 Induced Surface Currents
  224  
6.5 Problems
  227  
References
  228  
Chapter 7 Transmission-Lines and Waveguides  229  
7.1 Introduction
  229  
7.2 Phase and Group Velocity
  232  
7.3 The Field Components
  233  
7.4 Waveguides for Transverse Electromagnetic Waves
  235  
7.5 Multiconductor Transmission-Lines
  249  
7.6 Quasi-TEm Modes of Transmission-Lines
  254  
7.6.1 Quasi-TEM Modes of Two-Conductor Transmission-Lines
  254  
7.6.2 Quasi-TEM Modes of Multiconductor Transmission-Lines
  259  
7.7 Planar Transmission-Lines
  260  
7.7.1 The Microstrip Line
  260  
7.7.2 Quasistatic Approximation for the Microstrip Line
  262  
7.7.3 Coplanar Waveguide and Coplanar Stripline
  265  
7.8 Hollow Waveguides
  266  
7.8.1 TE Modes
  266  
7.8.2 TM Modes
  270  
7.8.3 Modal Expansions in Waveguides
  272  
7.9 Rectangular Waveguides
  276  
7.9.1 Transverse Electric Modes
  276  
7.9.2 Transverse Magnetic Modes
  282  
7.9.3 Power Flow in the Waveguide
  284  
7.9.4 Orthogonality of the Waveguide Modes
  285  
7.9.5 Generalized Currents and Voltages in Waveguides
  286  
7.9.6 Attenuation Due to Conductor Losses
  289  
7.9.7 Attenuation Due to Dielectric Losses
  291  
7.10 Circular Cylindric Waveguides
  292  
7.10.1 The Circular Waveguide Modes
  292  
7.10.2 Power Flow and Attenuation in the TE01 Mode
  298  
7.11 Radial Waveguides
  300  
7.11.1 Radial Parallel Plate Waveguide
  300  
7.11.2 Wedged Radial Parallel Plate Waveguide
  307  
7.12 Spherical Waveguides
  309  
7.12.1 Conical Waveguide
  311  
7.12.2 Biconical Waveguide
  313  
7.13 Dielectric Waveguides and Optical Fibers
  316  
7.13.1 Homogeneous Planar Dielectric Waveguides
  316  
7.13.2 Dielectric Slab with Single-Sided Metallization
  320  
7.13.3 Circular Dielectric Waveguides with Step Index Profile
  322  
7.14 Problems
  329  
References
  333  
Chapter 8 The Transmission-Line Equations  335  
8.1 The Transmission-Line Concept
  335  
8.2 Generalized Voltages and Currents
  337  
8.3 Solution of the Transmission-Line Equations
  341  
8.4 Wave Amplitudes
  344  
8.5 Reflection Coefficient and Smith Chart
  346  
8.5.1 Impedance Matching with Lumped Elements
  353  
8.5.2 Impedance Matching with Stubs
  355  
8.6 Solution of the Multiconductor Transmission-Line Equations
  356  
8.7 Multimode Excitation of Uniform Hollow Waveguides
  363  
8.7.1 The Transverse Field Equations
  363  
8.7.2 Modal Field Representation
  366  
8.7.3 Multimode Transmission-Line Equations for Hollow Waveguides
  368  
8.7.4 Multimode Transmission-Line Equations of Lossless Waveguides without Internal Sources
  374  
8.8 Green's Functions for Transmission-Lines
  375  
8.8.1 Green's Function for the Transmission-Line with Matched Terminations
  378  
8.8.2 Green's Function for the Transmission-Line with Arbitrary Linear Passive Terminations
  379  
8.9 Problems
  381  
References
  384  
Chapter 9 Resonant Circuits and Resonators  385  
9.1 The Linear Passive One-Port
  385  
9.2 The Reactance Theorem
  387  
9.3 Resonant Circuits
  389  
9.4 The Transmission-Line Resonator
  392  
9.5 Cavity Resonators
  395  
9.5.1 The Rectangular Cavity Resonator
  395  
9.5.2 The Circular Cylindric Cavity Resonator
  399  
9.6 Coupling of Resonant Circuits and Resonators
  402  
9.6.1 The Loaded Quality Factor
  402  
9.6.2 Termination of a Transmission-Line with a Resonant Circuit
  403  
9.6.3 Inductive Coupling of Cavity Resonators
  405  
9.7 Orthogonality of the Resonator Modes
  407  
9.8 Excitation of Resonators by Internal Sources
  409  
9.9 Problems
  411  
References
  412  
Chapter 10 Passive Microwave Circuits  413  
10.1 Linear Multiports
  413  
10.2 Source-Free Linear Multiports
  414  
10.2.1 Impedance and Admittance Representations
  414  
10.2.2 The Chain Matrix
  415  
10.2.3 The Scattering Matrix
  419  
10.2.4 The Transmission Matrix
  424  
10.3 Tellegen's Theorem
  425  
10.3.1 Connection Networks
  428  
10.3.2 Tellegen's Theorem for Discretized Fields
  429  
10.4 The Power Properties
  430  
10.5 Reciprocal Multiports
  431  
10.6 Elementary Two-Ports
  433  
10.7 Signal Flow Graphs
  436  
10.8 Lumped Element Equivalent Circuits
  439  
10.8.1 Foster Representation of Reactance Multiports
  439  
10.8.2 Cauer Representation of Radiating Structures
  445  
10.9 Obstacles in Waveguides
  450  
10.10 The Symmetry Properties of Waveguide Junctions
  456  
10.10.1 Symmetric Three-Port Waveguide Junctions
  457  
10.10.2 Symmetric Four-Port Waveguide Junctions
  460  
10.11 Problems
  463  
References
  466  
Chapter 11 Periodic Structures and Filters  467  
11.1 Periodic Electromagnetic Structures
  467  
11.1.1 TE Modes in Rectangular Periodic Waveguides
  467  
11.1.2 Sinusoidal Variation of the Permittivity
  472  
11.2 Wave Parameter Theory of Two-Ports
  474  
11.3 Lumped Low-Pass Filter Prototypes
  481  
11.3.1 The Butterworth Prototype
  482  
11.3.2 The Chebyshev Prototype
  485  
11.4 Ladder Filter Networks
  488  
11.4.1 Butterworth Ladder Networks
  489  
11.4.2 Chebyshev Ladder Networks
  490  
11.5 Frequency Transformation
  492  
11.5.1 Low-Pass to High-Pass Transformation
  492  
11.5.2 Low-Pass to Band-Pass Transformation
  493  
11.5.3 Low-Pass to Band-Stop Transformation
  495  
11.6 Transmission-Line with Periodic Load
  497  
11.7 Plane Wave Scattering by Periodic Structures
  501  
11.7.1 Scattering of TE Waves by Periodic Structures
  501  
11.7.2 Scattering of TM Waves by Periodic Structures
  505  
11.8 Metamaterials
  507  
11.9 Problems
  515  
References
  517  
Chapter 12 Radiation from Dipoles  519  
12.1 The Hertzian Dipole
  519  
12.2 Aperiodic Spherical Waves
  524  
12.3 Vertically Oriented Electric Dipole over Lossy Half-Space
  528  
12.3.1 The Far-Field of the Vertical Dipole over Ground
  538  
12.3.2 The Surface Wave
  539  
12.4 Horizontally Oriented Electric Dipole over Lossy Half-Space
  540  
12.5 Problems
  544  
References
  545  
Chapter 13 Antennas  547  
13.1 Introduction
  547  
13.2 Linear Antennas
  549  
13.3 The Integral Equation for the Linear Antenna
  555  
13.4 The Impedance of the Linear Antenna
  558  
13.5 The Loop Antenna
  560  
13.6 Receiving Antennas
  563  
13.6.1 The Hertzian Dipole as Receiving Antenna
  563  
13.6.2 The Loop Antenna as Receiving Antenna
  564  
13.6.3 The Linear Dipole Antenna as Receiving Antenna
  565  
13.7 Gain and Effective Antenna Aperture
  569  
13.8 Antenna Arrays
  575  
13.8.1 Linear Antenna Arrays
  575  
13.8.2 Circular Antenna Arrays
  577  
13.9 Aperture Antennas
  578  
13.9.1 Radiating Apertures
  578  
13.9.2 Horn Antennas
  582  
13.9.3 Gain and Effective Area of Aperture Antennas
  585  
13.9.4 Mirror and Lens Antennas
  587  
13.9.5 Slot Antennas
  589  
13.10 Microstrip Antennas
  591  
13.10.1 Planar Rectangular Patch Antenna
  593  
13.11 Broadband Antennas
  595  
13.12 Problems
  597  
References
  601  
Chapter 14 Numerical Electromagnetics  603  
14.1 Introduction
  603  
14.2 The Method of Moments
  605  
14.3 The Transmission-Line Matrix Method
  611  
14.4 The Mode Matching Method
  617  
References
  623  
Appendix A Vectors and Differential Forms  627  
A.1 Vectors
  627  
A.2 Differential Forms
  631  
A.2.1 Products of Exterior Differential Forms
  632  
A.2.2 The Contraction
  633  
A.2.3 The Exterior Derivative
  634  
A.2.4 The Laplace Operator
  635  
A.3 Stokes' Theorem
  636  
A.4 Curvilinear Coordinates
  640  
A.4.1 General Cylindrical Coordinates
  646  
A.4.2 Circular Cylindric Coordinates
  647  
A.4.3 Spherical Coordinates
  650  
A.4.4 Twisted Forms
  653  
A.4.5 Integration of Differential Forms by Pullback
  653  
A.5 Double Differential Forms
  654  
A.6 Relations between Exterior Calculus and Conventional Vector Notation
  656  
A.6.1 Differential Operators
  656  
A.6.2 Maxwell's Equations
  656  
References
  657  
Appendix B Special Functions  659  
B.1 Ordinary Bessel Functions
  659  
B.2 Modified Bessel Functions
  662  
B.3 Spherical Bessel Functions
  665  
B.4 Legendre Polynomials
  667  
B.5 Spherical Harmonics
  670  
References
  672  
Appendix C Linear Algebra  673  
C.1 Unitary Vector Space
  673  
C.2 Diagonalization of a Matrix
  679  
C.3 Matrix Functions
  681  
C.4 The Hilbert Space
  683  
C.4.1 Linear Operators in Hilbert Space
  686  
C.4.2 Function Spaces
  691  
C.4.3 Function Spaces with Biorthogonal Basis
  693  
References
  696  
Appendix D Fourier Series and Fourier Transform  697  
D.1 The Fourier Series
  697  
D.2 The Fourier Integral
  699  
D.3 The Delta Distribution
  701  
References
  704  
Appendix E Complex Integration  705  
E.1 Analytic Functions
  705  
E.2 The Residue Theorem
  707  
E.3 The Saddle-Point Method
  708  
References
  710  
List of Symbols  711  
About the Author  717  
Index  719

还没传上来吧？？先谢了~~~~~~~~~~~~~

Electromagnetics, Microwave Circuit and Antenna Design for Communications Engineering.part01

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[ 本帖最后由 drjiachen 于 2008-12-15 20:16 编辑 ]

Electromagnetics, Microwave Circuit and Antenna Design for Communications Engineering.part02-13

[ 本帖最后由 drjiachen 于 2008-12-15 20:23 编辑 ]

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than very much!!!!!!!!!!!!!!!!!

也要下啊
没有办法:29bb
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Thanks for your sharing

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than very much!!!!!!!!!!!!!!!!!

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:29bb :29bb :29bb :29bb

谢谢分享，谢谢
:11bb :11bb :11bb :11bb :11bb

谢谢楼主分享..............................................

谢谢楼主分享..............................................

谢谢楼主分享..............................................

谢谢楼主分享..............................................

谢谢楼主分享..............................................

谢谢楼主啊 这么好的书  辛苦了:11bb

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谢谢楼主了:30bb

:11bb :27bb :29bb

Thanks for your sharing:11bb

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支持楼主 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

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看看

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thanks for u r sharing

[m:10] [m:10] [m:10] [m:10]

多谢搂住~~~~~~~~~~~~~~~~~~~~~~~~

收到！:27bb
版主就是有2下子的~~~~~~

向楼主学习，我先收下了           ：）

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:53bb :53bb :53bb

:31bb :27bb :27bb

：17de ：17de ：17de ：17de 过年好

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好书，谢谢楼主了，赶紧下载学习。。。

thanks...thanks.....

think you very much!

今年過年收穫良多,感謝樓主分享好書.

好书。一定要下载。谢谢楼主，非常感谢。

hao,have a look,thanks

這肯定是要下載來學習的囉
Thanks for your sharing

好大的一本书，不知道效果如何，最好不要是扫描的！

xian ding yi xia
:51bb

:53bb

:11bb :27bb :29bb :30bb

Thanks alot !!!  Have been looking for it.

感謝樓主無私分享！！學習學習

這肯定是要下載來學習的囉
Thanks for your sharing

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:31bb:14bb

谢谢楼主的分享。。。。。。。。。。

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:21bb

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:27bb 5# drjiachen

:31bb：9de：8de

这是什么呀：cacakiki16de

:27bb:21bb:22bb

好书，期待已久，多谢楼主分享

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谢谢慷慨的楼主

多谢分享 {:6_939:}

今天又要出血了……

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谢谢哥们提供的资料

谢谢楼主分享{:soso_e100:}

题目挺诱人的{:7_1256:}

谢谢分享

thank you{:soso_e100:}

來學習了!!

{:7_1234:}

好东西啊，辛苦版主了！！！！！！

Electromagnetics, MW Circuit, And Antenna Design for Communications Engineering

很全的书啊！谢谢了

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下载附件请自觉回复

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强烈支持的。

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谢谢楼主的分享·~~~

xie xie fen xiang

爱一个人，就是在拨通电话时，忽然不知道要说些什么。才知道，原来只是想听听那熟悉的声音。

啥也不说了，楼主就是给力！

还有一个啊

本帖隐藏内容请

Thank you for your sharing

下载了，谢谢分享

#在这里快速回复#thank youvery much!!!!!!!!!!!!!!!!

希望能静下心看看书谢谢

好资料，呵呵

天啊，好大的一本书啊，oh，my god

好人，好书！

学习一下

谢谢分享

支持一个。。。。

谢谢分享！

Thanks

惹他前台4条3τ4他