Design and Realizations of Miniaturized Fractal Microwave and RF Filters
| Author | : | |
| Rating | : | 4.31 (771 Votes) |
| Asin | : | 047048781X |
| Format Type | : | paperback |
| Number of Pages | : | 194 Pages |
| Publish Date | : | 2014-09-02 |
| Language | : | English |
DESCRIPTION:
About the AuthorPierre Jarry graduated from the University of Limoges. As a professor at University of Brest, he directed the Laboratory of Electronics and Telecommunication Systems (LEST), affiliated with the French National Center for Scientific Research (CNRS). Jacques Beneat received his PhD in electrical and computer engineering from Worcester Polytechnic Institute with a focus in advanced microwave structures for satellite communications, and a doctorate degree from the University of Bordeaux with Mention Très Honorable avec Félicitations du Jury. He later joined the University of Bordeau
Design and Realizations of Miniaturized Fractal RF and Microwave Filters provides RF and microwave engineers and researchers, advanced graduate students, and wireless and telecommunication engineers with the knowledge and skills to design and realize miniaturized fractal microwave and RF filters. An in-depth survey of the design and REALIZATIONS of miniaturized fractal microwave and RF filtersEngineers are continually searching for design methods that can satisfy the ever-increasing demand for miniaturization, accuracy, reliability, and fast development time. This book is an essential resource for the realization of portable and cellular phones, WiFi, 3G and 4G, and satellite networks.The text focuses on the synthesis and fabrication of miniaturized fractal filters with symmetrical and asymmetrical frequency characteristics in the C, X and Ku bands, though applications to other frequency bands are considered. Readers will find helpful guidance on:Miniaturized filters in bilevel fashionSimplified methods for the synthesis of pseudo-elliptic electrical networksMethods for extracting coupling coefficients and external quality factors from simulations of the RF/microwave structureMethods for matching theoretical couplings to couplings of structureIncluding studies of the real-world performance of fractal resona
He has published 300 technical papers in microwave and RF circuit synthesis, and is a senior member of the IEEE. He later joined the University of Bordeaux and the CNRS laboratory IMS. As a professor at University of Brest, he directed the Laboratory of Electronics and Telecommunication Systems (LEST), affiliated with the French National Center for Scientific Research (CNRS). Jacques Beneat received his PhD in electrical and computer engineering from Worcester Polyt
Roger Bagula said the technology of the "the technology of the 21st century" according to Roger Bagula. This technological area is still in its infancy.The work of Nathan Cohen on fractal antennas is further ahead thanthese fellows, but making a science out of this experimental engineering approachseems a while off. The idea of using a Zipf law word frequencyas a censor based on a filtering of specific work frequenciesor of using fractal compression to remove or edit features from photosas a filter are applications of the future for this kind of field.As it stands the fractals used here are really not yet fractals:something over three levels of L-system recursion seems necessaryfor real fractal properties to sho. 1st century. This technological area is still in its infancy.The work of Nathan Cohen on fractal antennas is further ahead thanthese fellows, but making a science out of this experimental engineering approachseems a while off. The idea of using a Zipf law word frequencyas a censor based on a filtering of specific work frequenciesor of using fractal compression to remove or edit features from photosas a filter are applications of the future for this kind of field.As it stands the fractals used here are really not yet fractals:something over three levels of L-system recursion seems necessaryfor real fractal properties to sho