Microwave multipath resolution in microcellular channels /

Landron, Orlando,

January 1992

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 171-176). Also available via the Internet.

Coplanar waveguide phase shifter on silicon at LMCS frequencies /

Picard, Stephan D.,

January 1900

Thesis (M. Eng.)--Carleton University, 2001. / Includes bibliographical references (p. 171-174). Also available in electronic format on the Internet.

The injection wave generator /

Mayes, Jonathan Robert,

January 1998

Thesis (Ph. D.)--University of Missouri-Columbia, 1998. / Wanting leaves 220-226 Conclusions and recommendations. Typescript. Vita. Includes bibliographical references (leaves [339]-342). Also available on the Internet.

The injection wave generator

Mayes, Jonathan Robert,

January 1998

Thesis (Ph. D.)--University of Missouri-Columbia, 1998. / Wanting leaves 220-226 Conclusions and recommendations. Typescript. Vita. Includes bibliographical references (leaves [339]-342). Also available on the Internet.

Low temperature cofired ceramics for LMCS/LMDS applications /

Panther, Alex,

January 1900

Thesis (M. Eng.)--Carleton University, 2001. / Includes bibliographical references (p. 189-193). Also available in electronic format on the Internet.

Wave propagation in lossy waveguide structures

Bucca, Steven E.

01 August 2012

In this thesis a numerical technique is developed determining the propagation constant in waveguides and transmission lines. The technique accounts for both dielectric and conductor losses in a guide having an arbitrary cross section and uses a full-wave solution process. A set of coupled, vector integral equations which characterize the system are derived. The equations enforce the necessary boundary conditions on the tangential electric and magnetic fields at the boundaries separating the conductors and dielectrics. The method of moments (MOM) technique is used to cast the equations into a numerically solvable form. Computed results for various waveguide structures are compared to known or perturbed results for three well-known structures. However, the program is more general and may be applied to other cross-sections. Finally, possible future extensions of the work is presented. / Master of Science

LD5655.V855 1989.B822

Wave guides -- Mathematical models

Microwave multipath resolution in microcellular channels

Landron, Orlando

03 March 2009

The objective of this research is to compare radio channel impulse response measurements with site-specific radio wave propagation prediction techniques. A wide band spread spectrum measurement system was developed, and desirable measurement locations were selected on the Virginia Tech campus. These measurements are designed togo beyond statistical characterizations of the channel and will aid in determining how the propagation environment is influencing the multi path propagation. The objective is to not only measure the delays and relative powers of multi path components, but to carefully document their angles of arrival and resolve the overall paths that these multipaths had to take to reach the receiver. This information will be used to compare with propagation prediction simulations using the modeled environment, and therefore, provide new insight into the nature of reflection and scattering of radio propagation in typical microcellular environments. As a first step in this endeavor, building surface characterizations are made in order to determine empirical reflection coefficients of common building materials. Propagation experiments have been designed to determine applicability of Fresnel reflection formulas to non-ideal conditions, such as waves that are not perfect plane waves, rough surfaces, etc. This information allows propagation prediction techniques to further quantify the site-specific mobile radio environment and yield more accurate propagation estimates. For this endeavor, Whittemore Hall and Squires Student Center were Chosen to provide reflection measurements from rough stone, glass, and brick surfaces. Detailed descriptions of measurement techniques, analysis and results are included. / Master of Science

Cellular telephones

LD5655.V855 1992.L359

Cell phones

Microwave transmission lines

Biological pattern simulation using transmission line modeling

Vorachart, Varunyu

01 October 2003

No description available.

Electrical and Computer Engineering

Engineering

Síntese de filtros rejeita-faixa de micro-ondas de banda-larga e dupla-banda empregando estruturas periódicas EBG. / Synthesis methodology for standband filters in microwave for wide stopband and dual stop band using EBG structures.

Cardoso, Marcos Vaz

28 November 2011

Esta dissertação de mestrado apresenta um estudo da aplicação de estruturas Electromagnetic Bandgap (EBG) em circuitos planares de micro-ondas, com a proposição de topologias originais de filtros rejeita-faixa de banda ultra-larga e dupla-banda e de uma metodologia de síntese desses filtros. Foi proposta uma metodologia de projeto de filtros EBG, que foi aplicada a um filtro em microlinha de transmissão utilizando duas estruturas EBG simultâneas, com a finalidade de se obter um filtro com banda de rejeição ultra-larga. Esse filtro foi construído em tecnologia planar, tendo demonstrado uma banda de rejeição ultra-larga de 11 GHz centrada em 11,5 GHz, com nível de rejeição superior a 34 dB, apresentando excelente concordância com os resultados de simulação computacional. Paralelamente, foi desenvolvida uma metodologia de síntese que permite a geração automática de novas topologias de filtros rejeita-faixa empregando estruturas EBG que resultem em uma banda larga de rejeição ou com duplas bandas de rejeição. A metodologia de síntese proposta envolve procedimentos computacionais de otimização da geometria das estruturas EBG aplicadas em microlinha de transmissão, visando a obtenção da resposta em frequência de um filtro definida por meio de uma Função Objetivo. Para esse fim empregou-se a ferramenta computacional MATLAB com o toolbox de algoritmos genéticos para desenvolver um programa de otimização, que interage com o simulador eletromagnético tridimensional EM-3D Microwave Suite da CST. O procedimento de síntese desenvolvido foi aplicado ao projeto de um filtro com dupla-banda de rejeição centradas em 3,3 GHz e 7,8 GHz e de três filtros com característica de rejeição em banda ultra-larga, capazes de rejeitar até uma banda de 9 GHz a 20 GHz com rejeição maior que 10 dB. Os filtros projetados foram construídos em tecnologia planar e caracterizados em frequências de micro-ondas. Os resultados experimentais comprovaram a eficácia e flexibilidade da metodologia de síntese proposta, que possibilitou contribuições originais na área de filtros rejeita-faixa usando estruturas EBG, com topologias inéditas. / This dissertation for a Master degree in Engineering, presents a survey of the application of Electromagnetic Bandgap (EBG) structures on microwave planar circuits, with the conception of original topologies for wide stopband and dual stopband filters, and the proposition of a synthesis methodology for these filters. A filter design methodology was proposed and applied to the design of a transmission line filter using two simultaneous EBG structures, aiming at the achievement of a filter with a wide stop-band. This filter was built in planar circuit technology, with the demonstration of an 11 GHz ultra-wide stopband centered in 11.5 GHz, with high degree of rejection superior than 34 dB, presenting excellent agreement with the computational simulation. In parallel, a synthesis methodology was developed to automatically generate new topologies of stopband filters using EBG structures, that results in filters with wide stopband or dual stop-bands. The proposed synthesis methodology involves computational processes for the optimization of the EBG structure geometry applied to microwave transmission line, aiming at achieving the filter response defined by an objective function. For that, the software MATLAB with the genetic algorithm toolbox was used to develop an optimization program, which interacts with the tridimensional electromagnetic simulator EM-3D Microwave Suite from CST. The synthesis procedure was applied to the project of one filter with dual stopband centered in 3.3 GHz and 7.8 GHz and to the project of three filters with an wide stopband feature capable of rejecting a frequency band from 9 GHz to 20 GHz with magnitude of rejection greater than 10 dB. The designed filters were built in planar technology and measured at microwave frequencies. The experimental results demonstrated the effectiveness and the flexibility of the proposed synthesis methodology, which allowed original contributions in the field of stopband filters using EBG structures, with novel topologies.

Banda-larga

Electromagnetic Bandgap

Electromagnetic Bandgap

Filtros rejeita-faixa

Microlinha de transmissão

Microwave transmission line

Stopband filter

Wideband

Síntese de filtros rejeita-faixa de micro-ondas de banda-larga e dupla-banda empregando estruturas periódicas EBG. / Synthesis methodology for standband filters in microwave for wide stopband and dual stop band using EBG structures.

Marcos Vaz Cardoso

28 November 2011

Esta dissertação de mestrado apresenta um estudo da aplicação de estruturas Electromagnetic Bandgap (EBG) em circuitos planares de micro-ondas, com a proposição de topologias originais de filtros rejeita-faixa de banda ultra-larga e dupla-banda e de uma metodologia de síntese desses filtros. Foi proposta uma metodologia de projeto de filtros EBG, que foi aplicada a um filtro em microlinha de transmissão utilizando duas estruturas EBG simultâneas, com a finalidade de se obter um filtro com banda de rejeição ultra-larga. Esse filtro foi construído em tecnologia planar, tendo demonstrado uma banda de rejeição ultra-larga de 11 GHz centrada em 11,5 GHz, com nível de rejeição superior a 34 dB, apresentando excelente concordância com os resultados de simulação computacional. Paralelamente, foi desenvolvida uma metodologia de síntese que permite a geração automática de novas topologias de filtros rejeita-faixa empregando estruturas EBG que resultem em uma banda larga de rejeição ou com duplas bandas de rejeição. A metodologia de síntese proposta envolve procedimentos computacionais de otimização da geometria das estruturas EBG aplicadas em microlinha de transmissão, visando a obtenção da resposta em frequência de um filtro definida por meio de uma Função Objetivo. Para esse fim empregou-se a ferramenta computacional MATLAB com o toolbox de algoritmos genéticos para desenvolver um programa de otimização, que interage com o simulador eletromagnético tridimensional EM-3D Microwave Suite da CST. O procedimento de síntese desenvolvido foi aplicado ao projeto de um filtro com dupla-banda de rejeição centradas em 3,3 GHz e 7,8 GHz e de três filtros com característica de rejeição em banda ultra-larga, capazes de rejeitar até uma banda de 9 GHz a 20 GHz com rejeição maior que 10 dB. Os filtros projetados foram construídos em tecnologia planar e caracterizados em frequências de micro-ondas. Os resultados experimentais comprovaram a eficácia e flexibilidade da metodologia de síntese proposta, que possibilitou contribuições originais na área de filtros rejeita-faixa usando estruturas EBG, com topologias inéditas. / This dissertation for a Master degree in Engineering, presents a survey of the application of Electromagnetic Bandgap (EBG) structures on microwave planar circuits, with the conception of original topologies for wide stopband and dual stopband filters, and the proposition of a synthesis methodology for these filters. A filter design methodology was proposed and applied to the design of a transmission line filter using two simultaneous EBG structures, aiming at the achievement of a filter with a wide stop-band. This filter was built in planar circuit technology, with the demonstration of an 11 GHz ultra-wide stopband centered in 11.5 GHz, with high degree of rejection superior than 34 dB, presenting excellent agreement with the computational simulation. In parallel, a synthesis methodology was developed to automatically generate new topologies of stopband filters using EBG structures, that results in filters with wide stopband or dual stop-bands. The proposed synthesis methodology involves computational processes for the optimization of the EBG structure geometry applied to microwave transmission line, aiming at achieving the filter response defined by an objective function. For that, the software MATLAB with the genetic algorithm toolbox was used to develop an optimization program, which interacts with the tridimensional electromagnetic simulator EM-3D Microwave Suite from CST. The synthesis procedure was applied to the project of one filter with dual stopband centered in 3.3 GHz and 7.8 GHz and to the project of three filters with an wide stopband feature capable of rejecting a frequency band from 9 GHz to 20 GHz with magnitude of rejection greater than 10 dB. The designed filters were built in planar technology and measured at microwave frequencies. The experimental results demonstrated the effectiveness and the flexibility of the proposed synthesis methodology, which allowed original contributions in the field of stopband filters using EBG structures, with novel topologies.

Banda-larga

Electromagnetic Bandgap

Filtros rejeita-faixa

Microlinha de transmissão

Electromagnetic Bandgap

Microwave transmission line

Stopband filter

Wideband