Front End Circuit Module Designs for A Digitally Controlled Channelized SDR Receiver Architecture

Gong, Fei

19 December 2011

No description available.

Electrical Engineering

Software Defined Radio (SDR)

Channelization

Ultra-Wideband (UWB)

Link-Budget

Low Noise Amplifier (LNA)

Mixer

Quadrature Coupler

Aplica??es de Dispositivos de Microondas utilizando Substrato EBG/PBG para Comunica??es M?veis

Silva, Anderson Max Cirilo da

26 July 2011

Made available in DSpace on 2014-12-17T14:55:50Z (GMT). No. of bitstreams: 1 AndersonMCS_DISSERT.pdf: 542550 bytes, checksum: cf969edd5c8c6cd5c0f0dcbf4f8113e0 (MD5) Previous issue date: 2011-07-26 / The modern society depends on an efficient communications system able to of transmitting and receiving information with a higher speed and reliability every time. The need for ever more efficient devices raises optimization techniques of microstrip devices, such as techniques to increase bandwidth: thicker substrates and substrate structures with EBG (Electromagnetic Band Gap) and PBG (Photonic Band Gap). This work has how aims the study of the application of PBG materials on substrates of planar structures in microstrip, more precisely in directional quadrature couplers and in rat-race and impedance of transformers. A study of the planar structures in microstrip and substrates EBG is presented. The PBG substrates can be used to optimize the radiation through the air, thus reducing the occurrence of surface waves and the resulting diffraction edge responsible for degradation of radiation pattern. Through specific programs in FORTRAN Power Station obtained the frequencies and couplings for each structure. Are used the program PACMO - Computer Aided Design in Microwave. Results are obtained of the frequency and coupling devices, ranging the frequency band used (cellular communication and Wimax systems) and the permittivity of the substrate, comparing the results of conventional material and PBG materials in the s and p polarizations. / A sociedade moderna depende de um eficiente sistema de comunica??es, capaz de transmitir e receber informa??es com uma velocidade e confiabilidade maiores a cada momento. A necessidade de dispositivos cada vez mais eficientes faz surgir t?cnicas de otimiza??o dos dispositivos em microfita, como por exemplo, t?cnicas para aumentar a largura de banda: substratos mais espessos e estruturas com substratos de Banda Eletromagn?tica Proibida - EBG (Electromagnetic Band Gap) e Banda Fot?nica Proibida - PBG (Photonic Band Gap). Este trabalho tem como objetivo o estudo da aplica??o de materiais EBG/PBG em substratos de estruturas planares em microfita, mais precisamente em acopladores direcionais em quadratura e em anel e em transformadores de imped?ncias. ? apresentado um estudo das estruturas planares em microfita e dos substratos EBG/PBG. Substratos PBG podem ser usados para otimizar a irradia??o pelo ar, reduzindo assim a ocorr?ncia de ondas superficiais e a conseq?ente difra??o de borda respons?vel pela degrada??o do diagrama de radia??o. Atrav?s de programas espec?ficos em FORTRAN obtiveram-se as freq??ncias e acoplamentos para cada estrutura. Foi utilizado o programa PACMO Projeto Auxiliado por Computador para Microondas. S?o obtidos resultados da freq??ncia e acoplamentos dos dispositivos, variando-se banda de freq??ncia utilizada (sistemas de comunica??o celular e Wimax) e a permissividade do substrato, comparando-se os resultados de materiais convencionais e materiais PBG nas polariza??es s e p.

Acoplador-quadratura

Acoplador-anel

Transformador de Imped?ncias

EBG

PBG

Wimax.

Quadrature Coupler

Rat-race Coupler

Impedance Transformer

EBG

PBG

Wimax.

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Highly efficient linear CMOS power amplifiers for wireless communications

Jeon, Ham Hee

20 February 2012

The rapidly expanding wireless market requires low cost, high integration and high performance of wireless communication systems. CMOS technology provides benefits of cost effectiveness and higher levels of integration. However, the design of highly efficient linear CMOS power amplifier that meets the requirement of advanced communication standards is a challenging task because of the inherent difficulties in CMOS technology. The objective of this research is to realize PAs for wireless communication systems that overcoming the drawbacks of CMOS process, and to develop design approaches that satisfying the demands of the industry. In this dissertation, a cascode bias technique is proposed for improving linearity and reliability of the multi-stage cascode CMOS PA. In addition, to achieve load variation immunity characteristic and to enhance matching and stability, a fully-integrated balanced PA is implemented in a 0.18-m CMOS process. A triple-mode balanced PA using switched quadrature coupler is also proposed, and this work saved a large amount of quiescent current and further improved the efficiency in the back-off power. For the low losses and a high quality factor of passive output combining, a transformer-based quadrature coupler was implemented using integrated passive device (IPD) process. Various practical approaches for linear CMOS PA are suggested with the verified results, and they demonstrate the potential PA design approach for WCDMA applications using a standard CMOS technology.

Power amplifier

Quadrature coupler

Switch

Efficiency

Load immunity

IPD

CMOS

Cascode

Balanced topology

AM-PM

Reliability

Linearity

Multi-mode

Feedback

WCDMA

Amplifiers (Electronics)

Power amplifiers

Wireless communication systems

Semiconductors