Antenna Analysis and Design Using FEKO Electromagnetic Simulation Software

Cloth: 978 1 61353 205 8 / $89.00
 
Published: May 2014  

Publisher: SciTech Publishing
264 pp., 7 1/2" x 9 2/5"
four-color throughout

Series: ACES Series on Computational Electromagnetics and Engineering
The objective of this book is to introduce students and interested design-engineers to antenna design and analysis using the popular commercial electromagnetic software FEKO. This book is primarily intended for students working in the field of antenna analysis and design; however the wealth of hands-on design examples presented in this book—along with simulation details—also makes it a valuable reference for practicing engineers. The requirement for the readers of this book is to be familiar with the basics of antenna theory; however electrical engineering students taking an introductory course in antenna engineering can also benefit from this book as a supplementary text.

The key strengths of this book are as follows
* First, the basics of antenna simulation will be presented in a detailed, understandable, and easy-to-follow procedure through study of the simplest types of radiators, i.e. dipole and loop antennas, in chapters 2 and 3. This will build the fundamental knowledge a student would need in order to utilize antenna simulation software in general.
* Second, comparison between theoretical analysis and full-wave simulation results of FEKO are given for a variety of antenna types, which will aid the readers with a better understanding of the theory, approximations and limitations in the theoretical analysis, and solution accuracy.
* Third, and of paramount importance, is the visualization of the antenna current distribution, radiation patterns, and other radiation characteristics that are made available through full-wave simulations using FEKO. A proper analysis of the radiation characteristics through these visualizations serves as a powerful educational tool to fully understand the radiation behavior of antennas.

The commercial electromagnetic software FEKO is selected for the simulations due to its numerous advantages and popularity. In particular, this software provides multiple solvers that can be chosen for a fast and efficient analysis depending on the type of antenna. Moreover, FEKO provides free classroom licenses to universities which can be used to simulate most of the antenna configurations presented in this book.

FEKO simulation files are available to instructors who adopt the book for their course or professionals who have purchased the book. Please contact The IET for more information.

Table of Contents:
1. Introduction

2. Wire Dipole and Monopole Antennas
2.1 Introduction
2.2 Infinitesimal, Small, and Finite Length Dipole Antennas
2.3 Full-Wave Simulation of Dipole Antennas
2.3.1 Problem Setup
2.3.2 Parametric Studies
2.4 Monopole Antennas and Full-Wave Simulations
2.4.1 Infinite Ground Model
2.4.2 Finite Ground Model
2.5 Dipole Antennas and Wireless Power Transfer
2.6 Dipole Antenna Above a PEC Ground Plane
2.7 Dipole Antenna near a PEC cylinder
2.8 Dipole Antenna near a PEC sphere
2.9 Quasi Log-Periodic Dipole Antennas

3. Wire Loop Antennas
3.1 Introduction
3.2 Small and Large Loop Antennas
3.3 Circular Loop Antennas
3.3.1 Problem Setup
3.3.2 Parametric Studies
3.4 Square Loop Antennas
3.4.1 Problem Setup
3.4.2 Parametric Studies
3.5 Triangular Loop Antennas
3.5.1 Problem Setup
3.5.2 Parametric Studies
3.6 Loop Antennas near a PEC Scatterer

4. Microstrip Patch Antennas
4.1 Introduction
4.2 Design and Analysis of Patch Antennas
4.3 Full-Wave Simulation of Patch Antennas in FEKO
4.3.1 Probe-Fed Excitation
4.3.2 Microstrip-Fed Excitation
4.3.3 Rectangular Patch Antennas
4.3.4 Circular Patch Antennas
4.3.5 Parametric Studies
4.3.6 Discussions on Different Excitation Methods
4.4 Wide-band Patch Antennas
4.4.1 U-slot Patch Antenna
4.4.2 E-shape Patch Antenna
4.5 Circularly-Polarized Patch Antennas
4.5.1 Dual-Feed Circularly Polarized Patch Antennas
4.5.2 Single-Feed Circularly Polarized Patch Antennas
4.5.2.1 Diagonally Fed Patch
4.5.2.2 Truncated Corner Patch
4.5.2.3 Asymmetric U-slot Patch
4.5.2.4 Asymmetric E-shape Patch

5. Microstrip Based Filters and Feed Networks
5. 1 Microstrip line and quarter wavelength transformers
5. 2 The T-junction power divider
5. 3 The Wilkinson power divider
5. 4 The Quadrature (90°) hybrid

6. Broadband Dipole Antennas
6.1 Introduction
6.2 Cylindrical Dipole Antennas
6.3 Biconical Antennas
6.4 Folded Dipole Antennas

7. Traveling Wave and Broadband Antennas
7.1 Introduction
7.2 Yagi-Uda Antennas
Basics of the Yagi-Uda Antenna and Design Guidelines
Designing a 3-Element Yagi-Uda Antenna
Designing High-Directivity Yagi-Uda Antennas
Optimized Yagi-Uda Antennas
7.3 Helical Antennas
Basic Theory and Operating Modes of Helical Antennas
Normal Mode Helix
Axial Mode Helix
Various Ground Shapes for Helical Antennas

8. Frequency Independent Antennas
8.1 Introduction
8.2 Log-Periodic Dipole Antennas
8.3 Spiral Antennas

9. Horn Antennas
9.1 Introduction
9.2 Sectoral Horn Antennas
9.3 Pyramidal Horn Antennas
9.4 Conical Horn Antennas
9.5 Design of Multi-Mode Horn Antennas: The Potter Horn Antenna
9.6 Design of Corrugated Conical Horn Antennas

10. Reflector Antennas
10.1 Introduction
10.2 Corner Reflector Antennas
10.3 Design and Analysis of Parabolic Reflector Antennas
Axisymmetric Design
Offset Design
10.4 Design and Analysis of Spherical Reflector Antennas