Electrical Engineer

Anagha Krishnan MR Electrical & Electronics Engineer

#**, *** ******,

Ramamurthy Nagar (post), Banglore-560016

Cellular: +91-916*******

Mail: ****************@*****.***

WORK EXPEREINCE

Fourth Master Designs September 2015- March 2016: Did design internship in Fourth Master Designs. Conceptualized and designed layout for

solar power mosquito repellent and SODIS based

water purifying system.

CORE SKILLS

Proficient in designing Power Systems,

Proficient in designing Motor and Generator.

Proficient in designing Power Transmission and Distribution Analysis. Possesses good knowledge in Power Electronics, Microcontroller dsPIC, Transformers and Alternators. COMPUTER SKILLS

AutoCAD ( 2D) PSIM

AutoCAD Electrical MATLAB

ORCAD-PSPICE MPLAB IDE

C language

EDUCATION

2013-2015: Masters in Power Electronics from Amrita School of Engineering, Bangalore with 78.9%. 2009-2013: Chartered Engineering (AMIE) in Electrical from IEI India, Kolkata with 81.4%. 2009: Higher Secondary Examination from Govt. Higher Secondary School Vellur, Kerala with 87.6% 2007: Matriculation Examination from Govt. Higher Secondary School Vellur, Kerala with 90% Projects

Solar Powered Mosquito Repellent

Details:

Listed out the requirements and design specifications for a solar powered mosquito repellent.

Made the design procedures involving battery, solar panel etc.

Selection of battery with minimum maintenance and higher life.

Selection of solar panel based on the energy rating and compatibility with the battery.

Did the research based on factors like quality, functionality of the solar technologies as well as the product.

Water Purifier based on the SODIS Method

Details:

The projects involved the design of low cost water purifier based on SODIS which could be used in night and in cloudy weather conditions.

Made a detailed analysis of the process and provided the guidelines to improve the efficiency of SODIS method.

Did the study on technical aspects and principles for the application of SODIS. Academic Projects

A Novel AC-AC converter using bridgeless flyback

rectifier and fly back CCM inverter

The main aim of the project was to present a new circuit model which can perform ac-ac conversion effectively. The bridgeless rectifier in the primary side of this combination reduces the primary side conduction loss and the CCM inverter in the secondary side has lower peak currents and higher efficiencies. This model can reduce the harmonic content in the output voltage using SPWM technique.

Voltage Source Converter based HVDC Transmission

The project aimed at introducing new technology for the installations of voltage source converter (VSC) based High Voltage Direct Current Transmission (HVDC).VSC-HVdc used Pulse Width Modulation (PWM) with relatively high switching frequency, which made it possible to generate an AC output voltage with any desired phase angle or amplitude instantly. VSC converter technology can rapidly control both active and reactive power independently of one another.

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