Career Objective :
To be associated with a company and get a deeper insight into the present education, utilize my skills and abilities in the industry that offers professional growth while being innovative and flexible.
Educational Qualifications :
** M. Tech in Power Electronics Systems & Control, Manipal Institute of Technology, with CGPA-7.80 in 2011
** B. Tech in Electrical & Electronics Engineering with first class (65.05%) from Achraya Nagarjuna University in 2009.
** Intermediate (10+2) with distinction (89.20%) from Board of Intermediate in 2005.
** SSC with distinction (82.50%) from Sri Kakatiya High School, in 2003.
Work Experience :
** Worked as a project based training in Visakhapatnam Steel Plant, Visakhapatnam
** Teaching assistantship from the year 2009-10
Areas of Interest :
** Power electronics
** Power systems
Technical Knowledge :
** Simulation Tools : MATLAB, P-Spice, Mi-Power, PSCAD, RELUX.
** Operating Systems : Windows 7, VISTA, XP, 2000, 9X, DOS
** Languages : C
** Labs : Power Electronics, VHDL, Modeling of Converters Using P-Spice & Induction Motor Using MATLAB.
Academic Project (M. Tech) :
Project : Development of Vibro-feeder circuit for conveyor belts
Tool used : MATLAB/SIMULINK
Industry : Visakhapatnam Steel Plant, Visakhapatnam.
Description : Electro Magnetic Vibratory Feeders is the most effective method of conveying bulk materials at desired flow or feed. This is generally erected below the storage hopper. It is preferred to suspend the whole unit, so that the trough stays exactly under the hopper opening. It is easy to install and operate. The equipment is used to feed free flowing materials with pre-determined flow rate, at process units, material handling/conveying units of all types.
The feed rate of the materials is varied by different techniques. The simple control technique is used with low economic cost. In this type of the design there is no need to change the entire existing system. We can also use the existing core armature for this system. The design of the firing circuit is enough. By this the installation cost is less.
Academic Project (B. Tech) :
Project : Parallel Power Flow AC/DC Converter with High Input Power Factor &
Tight Output Voltage Regulation for Universal Voltage Application.
Tool used : MATLAB/SIMULINK
Description : A new parallel-connected power flow topology is proposed to improve the input power factor with simultaneous output voltage regulation. Paralleling of converter modules is a well-known technique that is often used in medium-power applications to achieve the desired output power by using smaller size of high frequency transformers and inductors. The proposed approach offers efficient AC-DC converter by the use of parallel power processing.
Projects :
** Stability Improvement by FACTS Devices : A Comparison between STATCOM and SSSC
** A case study on load flow analysis of MIT campus.
Papers Presented at National Level :
** A Vibro-Feeder Circuit for Controlled Feed Rate Applications
Major Achievements :
** Represented the college cricket team during the academic years 2005-2009.
** Captain for Kho-Kho team at school level and won first prize
** Captain for Volley Ball team at school level and won second prize
Extra Curricular Activities :
** Volunteer for First International Conference on Advances in Energy Conversion Technologies, in MIT, in January 2010.
** Organizer for Industrial tour in the third year of engineering.
Personal strengths :
** Positive attitude
** Self motivation