Watch Discovery Channel’s Documentary on How Su-Kam is Solarizing India

Watch Discovery Channel’s Documentary on How Su-Kam is Solarizing India Watch the best ever documentary made on how solar is bringing development in rural India. The movie has been shot by Discovery Channel in Uttar Pradesh, Tripura, Delhi and Punjab Su-Kam Awarded ‘Best Solar Rural Electrification Company’

Su-Kam’s solar power systems are lighting up lacs of houses in remote villages of India and Africa. Indian rooftop Solar Summit, organized by Solar Quarter, lauded our efforts and presented us this prestigious award.

LINK
http://sukam-solar.com/

Control Method of 3-Phase AC/DC PWM Converter for DC distribution using SECOND ORDER GENERALIZED INTEGRATOR (SOGI)- FREQUENCY LOCKED LOOP ( FLL )-SHIN KI WRONG

Control Method of 3-Phase AC/DC PWM Converter for DC distribution using SECOND ORDER GENERALIZED INTEGRATOR (SOGI)- FREQUENCY LOCKED LOOP ( FLL )-SHIN KI WRONG

DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING
SUNGKYUNKWAN UNIVERSITY

Zero dead-time PWM method for reducing THD in offshore wind power 3-level inverter - KAN YONG -PROGRAM ENERGY SYSTEM ENGINEERING - SUNGKYUNKWAN UNIVERSITY

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ABSTRACT
 To prevent the short circuit dead time is required because it can happen the short circuit due to a difference between rising time and falling time ocurred in power semiconductor swith. However dead time cause the distortion and THD increase of output current,it is major cause of malfunction by distorted output current and high THD.
 In this paper,circuit of 3-level NPC inverter and characteristic of operation is analyzed.Also switching methods wich make the switching pattern of Zero Dead-time PWM for decreasing THD and optimization method is proposed. Proposed Zero Dead -time PWM method is explained on the basis of theoretic analysis,hardware is set for applying the proposed method.
LINK
http://www.mediafire.com/file/5k85lybur3tzl9o/PWM_DEAD_TIME_2017.pdf

Engenharia Elétrica e a Pós-graduação na Universidade Federal do Ceará - PROFESSOR PAULO PRAÇA ( CHEFE DO DEPARTAMENTO DE ENGENHARIA ELÉTRICA DA UNIVERSIDADE FEDERAL DE CEARÁ)-BRASIL

Neste vídeo, o Professor Paulo Praça expõe o que é a pós-graduação em Engenharia Elétrica, em particular, o programa da Universidade Federal do Ceará.
 PESSOALMENTE EU TRABALHEI DE 2006 A 2012 NA EMPRESA MICROSOL HOJE APC-SCHNEIDER,A EMPRESA MICROSOL TINHA UMA ESTREITA PARCERIA COM O PROGRAMA DE ENGENHARIA ELÉTRICA DA UNIVERSIDADE FEDERAL DE CEARÁ,ESPECIALMENTE COM O PROGRAMA DE MESTRADO E DOUTORADO,O NÍVEL ACADÊMICO DOS ALUNOS,PROFESSORES E LABORATÓRIOS SÃO EXCELENTES,EXISTE AMBIENTE PARA A PESQUISA E DESENVOLVIMENTO.

Design and Testing of Voltage Source Inverter and Motor Control System for Electric Vehicle - Lars Helge Oplopisal - Norwegian University of Science and Technology - Department of Electric Power Engineering

Design and Testing of Voltage Source
Inverter and Motor Control System for
Electric Vehicle
Lars Helge Opsahl
Master of Energy and Environmental Engineering
Supervisor: Lars Einar Norum, ELKRAFT
JULY 2015
Submission date: July 2015
Norwegian University of Science and Technology
Department of Electric Power Engineering

Abstract

With fast rotating permanent-magnet motors and compact battery storage units, the high performance motorsport community has, in recent years, started to utilize the quick response and high torque of electrical drivetrain solutions. By recovering energy, braking into a corner, for then to utilize the same energy, boosting out again, the electrical machine gives increased performance even for the fastest racing cars. The purpose of the work presented in this Master’s thesis is to develop and produce the power electronics and motor control system needed to control such an electric machine, where the final product is used to drive a fully electric prototype racing car. The thesis presents the conceptual work, design choices, prototyping, testing and development of a 2-level voltage source inverter and motor control system. The voltage source is a battery accumulator energy storage unit, while the machine is a three-phase permanent-magnet motor. The voltage source inverter is based on insulated-gate bipolar transistors (IGBTs), controlled by a motor control system called field oriented control. On command from the driver’s throttle, the motor control system generates the required stator currents, giving the wanted output torque, supplied from the voltage source of the battery accumulator. The inverter is the connecting interface between the power source, and the rotating machinery. With the amount of energy and power needed to drive a racing car, safe and reliable operation is important. To ensure the safety of the driver and operating personnel, the system and its safety features have been through extensive testing in a laboratory setup and on the race tracks. In the system development process, simulation and modelling tools have been applied to investigate different solutions and technologies. These tools have also been used to design the electric circuits, program code and mechanical design needed for the system. The final product is installed in a racing car and shows great performance.
LINK ORIGINAL COMPLETE THESIS
https://brage.bibsys.no/xmlui/handle/11250/2368215
DIRECT LINK
https://brage.bibsys.no/xmlui/bitstream/handle/11250/2368215/13287_FULLTEXT.pdf?sequence=1&isAllowed=y