ebook ebooks e-book e-books downloaden bei MyEbooks.ch downloaden

Electromagnetic Performance Analysis of Graded Dielectric Inhomogeneous Radomes

:	P. Mahima, M. Suprava, S. Vandana, Mohammed P.S. Yazeen, Raveendranath U. Nair
:	Electromagnetic Performance Analysis of Graded Dielectric Inhomogeneous Radomes
:	Springer-Verlag
:	9789811078323
:	1
:	CHF 47.40
:

:	Elektronik, Elektrotechnik, Nachrichtentechnik
:	English

:	60
:	Wasserzeichen/DRM
:	PC/MAC/eReader/Tablet
:	PDF

This book reports on a new radome wall configuration based on an inhomogeneous planar layer, which overcomes current fabrication constraints in radome design and yields improved electromagnetic (EM) characteristics. The book also includes a detailed description of radomes and antenna-radome interaction studies for different radome wall configurations. The radome wall was designed using the equivalent transmission line method (EQTLM), since it requires less computational speed and provides accurate results. In order to substantiate the accuracy of the results obtained using EQTLM, the simulated results based on full wave methods like CST Microwave Studio Suite are also included. The EM performance analysis of the antenna-radome system for two radome shapes, tangent ogive (for airborne applications) and hemispherical (for ground-based applications), was performed using Geometric Optics Method in conjunction with the Aperture Integration Method. To show the efficacy of the new design, a comparison of performance characteristics between the novel radome and conventional wall configurations is also included. Lastly, it presents antenna-radome interaction studies for various aperture distributions. The book offers a unique resource for all researchers working in the area of microwave radomes.

Mahima P. has been working as a project scientist with the Centre for Electromagnetics (CEM) at CSIR-National Aerospace Laboratories (CSIR-NAL), Bangalore, India, since June 2016. She obtained her M.Tech. degree (Microwave and Radar Electronics) from Cochin University of Science and Technology (CUSAT) in 2016. Her research interests include the design and analysis of radomes, frequency selective surfaces (FSS) and antennas.

Suprava M. served as a project postgraduate trainee at the CSIR-NAL Centre for Electromagnetics (CEM) in Bangalore from August 2014 to November 2015. She obtained her B.Tech. degree in Electronics and Communication Engineering from Vignan Institute of Technology and Management Engineering, Berhampur, Odisha, India. Her primary research interest is the design and analysis of radomes.

Vandana S. served as a project postgraduate trainee at the CSIR-NAL Centre for Electromagnetics (CEM) in Bangalore from October 2014 to July 2015. She obtained her M.Tech. (Digital Electronics) from CUSAT, Cochin, India in 2013. Her research interests include the design and analysis of radomes, signal processing and EM material characterization techniques.

div>Mohammed Yazeen P.S. served as a project scientist at the CSIR-NAL Centre for Electromagnetics (CEM) in Bangalore from February 2015 to July 2016. He obtained his M.Tech. (Wireless Technology) from CUSAT, Cochin, India in 2014. His research interests range from the design and analysis of streamlined airborne radomes, wireless communication, and digital beamformers, to structurally integrated radiating structures and electromagnetic (EM) material characterization.

/div>

Dr Raveendranath U. Nair is currently Senior Principal Scientist and Head of the Centre for Electromagnetics (CEM) at CSIR-National Aerospace Laboratories (CSIR-NAL), Bangalore, India. Dr Nair has authored/co-authored over 260 research publications, including peer-reviewed journal papers, symposium papers and technical reports. He is also a Professor of the Academy of Scientific and Innovative Research (AcSIR), New Delhi.

< >

	Preface	6
	Acknowledgements	7
	About the Book	8
	Contents	9
	About the Authors	10
	Abbreviations and Symbols	12
	List of Figures	14
	Abstract	17
	1 Introduction	18
	2 Radome Wall Configurations	19
	3 EM Characteristics of Planar Slab Model of Graded Dielectric Inhomogeneous Planar Structure	22
	4 EM Design Aspects of Graded IPL	29
	4.1 Tangent Ogive Airborne Radome: EM Design Aspects	29
	4.2 Hemispherical Airborne Radome: EM Design Aspects	31
	5 EM Performance Analysis of Radomes	32
	5.1 Comparative Study on the EM Performance Analysis of Graded Dielectric Radome by Full-Wave Method and ETL Method	35
	5.2 Comparative Study on the EM Performance Analysis of Graded Dielectric Radome with Constant Thickness Radome (CTR) Designs	38
	5.3 Comparative Study on the EM Performance Analysis of Graded Dielectric Radome with Variable Thickness Radome (VTR) Designs	42
	5.4 Comparative Study on the EM Performance Analysis of Graded Dielectric Inhomogeneous Structure for Hemispherical Radome	46
	5.5 EM Performance Analysis of Graded Dielectric Streamlined Radome for Different Distributions	48
	5.6 EM Performance Characteristics of Graded Dielectric Inhomogeneous Streamlined Radome in the Entire Antenna Scan Region	50
	6 Summary	55
	References	56
	Author Index	58
	Subject Index	59