AUTOR DO BLOG ENG.ARMANDO CAVERO MIRANDA SÃO PAULO BRASIL

"OBRIGADO DEUS PELA VIDA,PELA MINHA FAMILIA,PELO TRABALHO,PELO PÃO DE CADA DIA,PROTEGENOS DO MAL"

"OBRIGADO DEUS PELA VIDA,PELA MINHA FAMILIA,PELO TRABALHO,PELO PÃO DE CADA DIA,PROTEGENOS  DO MAL"

“SE SEUS PROJETOS FOREM PARA UM ANO,SEMEIE O GRÂO.SE FOREM PARA DEZ ANOS,PLANTE UMA ÁRVORE.SE FOREM PARA CEM ANOS,EDUQUE O POVO.”

“Sixty years ago I knew everything; now I know nothing; education is a progressive discovery of our own ignorance. Will Durant”

sábado, 30 de abril de 2016

CONFIGURAÇÃO DE CONTROLADOR DIGITAL DE SINAIS APLICADO A CONVERSORES CHAVEADOS UTILIZANDO A FERRAMENTA PSIM/SIMCODER FILIPE KANEAKI IJUIM -Área: Eletrônica e Microprocessadores) – Universidade do Estado de Santa Catarina, Joinville, 2014-BRASIL




CONFIGURAÇÃO DE CONTROLADOR DIGITAL DE SINAIS APLICADO A CONVERSORES CHAVEADOS UTILIZANDO A FERRAMENTA PSIM/SIMCODER

FILIPE KANEAKI IJUIM

JOINVILLE – SC-SANTA CATARINA-BRASIL
2014

Trabalho de Conclusão apresentado ao curso de Engenharia Elétrica do Centro de Ciências Tecnológicas, da Universidade do Estado de Santa Catarina, como requisito parcial para a obtenção do grau de Bacharel em Engenharia Elétrica. Orientador: Dr. Joselito Anastácio Heerdt
JOINVILLE – SC-2014


RESUMO
IJUIM, Filipe K. Configuração de Controlador Digital de Sinais Aplicado a Conversores Chaveados Utilizando a Ferramenta PSIM/SimCoder. 2014. TCC (Bacharelado em Engenharia Elétrica – Área: Eletrônica e Microprocessadores) – Universidade do Estado de Santa Catarina, Joinville, 2014.

Este trabalho de conclusão de curso apresenta o estudo de elementos do software de simulação PSIM®, utilizados para geração de códigos em linguagem C. Os blocos do SimCoder podem ser configurados e utilizados em simulações de conversores chaveados. O código gerado pode ser importado para o programa Code Composer Studio v5.1, sem que sejam feitas modificações ou adequações no código. O SimCoder apresenta estes blocos para implementação de controle digital para um Controlador Digital de Sinais (DSC) da Texas Instruments, o TMS320F28335, um controlador de ponto flutuante. Utilizando os blocos do SimCoder podem ser configuradas as saídas de PWM, as entradas analógicas, a entradas e saídas digitais, entre outras opções encontradas no DSC. Após o estudo de conversores chaveados, são realizadas simulações com os blocos mencionados, gerados os códigos e realizados testes com o DSC e com o NPCm, um conversor bidirecional de três níveis. Por fim são apresentados os resultados obtidos experimentalmente, apresentando as formas de ondas do DSC e do conversor utilizado, verificando o funcionamento dos códigos gerados.
 LINK ORIGINAL EN LA WEB
http://www.lepo.joinville.udesc.br/_publicacoes/arquivo274.pdf

quinta-feira, 28 de abril de 2016

FACULTY OF ELECTRICAL ENGINEERING UNIVERSITY OF BANJA LUKA VOLUME 8, NUMBER 11, JUNE 2014 ELECTRONICS




About Journal Aims and Scope In the review ”Electronics”, we publish the scientific works from different fields of electronics in the broadest sense like: automatics, telecommunications, computer techniques, power engineering, nuclear and medical electronics, analysis and synthesis of electronic circuits and systems, new technologies and materials in electronics etc. Abstracting and Indexing The articles published in Electronics journal are abstracted and indexed in the following international databases: Scopus, Compendex, Index Copernicus, DOAJ IC Value 2013: 7.68 Previous IC Values: 6.40 (2012), 5.09 (2011) License Terms and Conditions This journal provides immediate open access to its content on the principle that making research freely available to the public supports a greater global exchange of knowledge as defined by CC BY-NC 4.0 license. Article Processing Charges Electronics journal does not request authors to pay any charges (neither article nor submission processing charges) for each article accepted for publication.

LINK FULL PAPERS ORIGINAL EN LA WEB
http://www.electronics.etfbl.net/journal/Vol18No1/EL_2014_1_Complete.pdf

IMPLEMENTATION OF COMPACT SWITCHING POWER SUPPLY WITH HIGH POWER FACTOR Marko Dimitrijević, Vančo Litovski Faculty of Electronic Engineering Niš






IMPLEMENTATION OF COMPACT SWITCHING POWER SUPPLY WITH HIGH POWER FACTOR Marko Dimitrijević, Vančo Litovski Faculty of Electronic Engineering Niš 

 Abstract: 
In this paper we will present a power supply – three phase AC/DC converter – with special requirements for power factor and dimensions. Development of such compact devices – up to 8cm3 – provides possibility for mass production of electronic subsystems intended to be implemented within the low voltage grid, reducing emission of higher harmonics (up to 40th) in the power grid and achieving maximal efficiency. Indirectly, this concept enables control of electric energy consumption of small loads. Development of power supply following these characteristics is significant for all producers of electronic equipment compatible with IEC-1000-3 standard. Keywords: power supply, power factor
LINK FULL PAPER
http://www.mediafire.com/download/92wnbqe1yswwm0w/TYNA.pdf

terça-feira, 26 de abril de 2016

Performance Comparison of Nanocrystalline Material with Ferrite in a 40kW 20kHz Application Kapila Warnakulasuriya, Carroll & Meynell Transformers Ltd, UK,kapila@carroll-meynell.com Farhad Nabhani, Teesside University, United Kingdom,



Performance Comparison of Nanocrystalline Material with Ferrite in a 40kW 20kHz Application
 Kapila Warnakulasuriya, Carroll & Meynell Transformers Ltd, UK,kapila@carroll-meynell.com Farhad Nabhani, Teesside University, United Kingdom, F.Nabhani@tees.ac.uk Vahid Askari, Teesside University, United Kingdom, v.askari@tees.ac.uk
Abstract
 In this paper the performance of Nanocrystalline material in comparison with ferrite is evaluated for a high frequency high power transformer core application. The major advantage of Nanocrystalline material over ferrite is its ability to go for higher design flux densities. However, this is limited with increased losses occurring with the increase of operating frequency. The situation is studied for a 40kW, 20 kHz application. Samples of both versions are developed and a performance evaluation is made on the application. Based on the practical outcome a comparison is made in terms of power density per physical parameters such as weight and volume. The cost and manufacturability are also discussed.
LINK FULL PAPER
http://www.mediafire.com/download/h3zeuag0a3zzy2g/TRAFOS-MATERIALESNOVOS.pdf

NI Bulgakov CALCULATION TRANSFORMERS-Н.И. БУЛГАКОВ РАСЧЕТ ТРАРНСФОРМАТОРОВ-1950




LINK http://www.mediafire.com/download/ke390gb5mkkcb6n/Bulgakov.pdf

Research Issues for Energy Efficient Cellular Networks Prof. Vijay Bhargava-2013 제5회 정보전자융합공학부 국제심포지엄 포항공과대학교 Vijay Bhargava, Harri Siitari, Ajay Agarwal, Prasant Mohapatra, Mikio Aoyama, Dongman Lee, Ben Lee


The rising energy costs and carbon footprint of operating cellular networks have led to a trend in addressing energy-efficiency amongst the network operators and regulatory bodies such as 3GPP and ITU. "Greening" the wireless networks is a vast research discipline that needs to cover all the layers of the protocol stack and various system architectures and it is important to identify the fundamental trade-offs linked with energy efficiency and the overall performance. In this talk, we identify four important aspects of a green networking where we would like to focus: defining green metrics, bringing architectural changes in base stations, network planning, and efficient system design. We begin with a brief discussion on energy efficiency metrics. Since Base Stations (BSs) consume a major chunk of input energy, we discuss the energy efficiency of BSs. Next we discuss energy efficiency from a network planning perspective, based on smaller cells for heterogeneous networks. For system design, we put a special emphasis on cognitive and cooperative techniques in order to realize energy efficient cellular systems. Finally we discuss some broader perspectives and possible future trends in realizing a green cellular network technology.
 LINK ORIGINAL EN LA WEB
http://kocw.net/home/search/kemView.do?kemId=698269

Electronic Circuits -OPEN COURSEWARE -DAEGU UNIVERSITY


LINK
http://lms.daegu.ac.kr/ilos/ocw/opencourse_week_view_form.acl?OPENCOURSE_NUM=41&start=1&display=10&WRTSRC=&FIELD_NO=19

domingo, 24 de abril de 2016

DESIGN OF BIRECTIONAL PWM SEPIC/ZETA DC-DC CONVERTER -SUNJO LEE-2009




DESIGN OF BIDERECTIONAL PWM SEPIC/ZETA DC-DC CONVERTER -SUNJO LEE
DEPARTMENT OF ELECTRICAL ENGINEERING  THE GRADUATE SCHOOL PUKYONG NATIONAL UNIVERSITY

LINK
http://www.mediafire.com/download/0n0s26c1dl0ya42/PWMSEPICFULL2009.pdf

Current Programmed Control of Three Phase PWM AC-AC Converter Yulong Li - Department of Electrical Engineering Graduate School Yosu National University



Current Programmed Control of Three Phase PWM AC-AC Converter 
 A Thesis for the Degree of Master of Engineering Yulong Li 
Department of Electrical Engineering Graduate School Yosu National University February 2006

 Abstract
In this thesis, a new scheme of current programmed control for three phase PWM AC-AC converter is proposed. Compared to duty-ratio voltage control, current programmed control has several advantages such as reduction of system order, inherent current protection and robust output. By considering only the magnitude components, a similar scheme in the DC-DC converter can be extended to the three phase PWM AC-AC converter. The proposed current programmed control will be well adopted into various converter topologies and three phase PWM AC-AC buck, boost and buck-boost converter are treated. The converter analysis is carried out by applying the vector DQ transformation to obtain physical insight into the converter operation and to establish some important characteristic equations for control purpose. The experiment results show the validity of the proposed scheme.

LINK
http://www.mediafire.com/download/7326xlk38o98on6/AC-AC-TRIF.pdf

Electromagnetism Sejong University PROF. YONGHO SEO - 전자기학 세종대학교 서용호



Based on the concept of engineering mathematics, learn static electric field and static magnetic field, steady current, and related problems. Apply the basic knowledge of the electromagnetism to electronics, electric engineering and device material engineering.
LINK ORIGINAL
http://www.kocw.net/home/search/kemView.do?kemId=1074223&ar=relateCourse