This is Janardhan pursued Master of Engineering in Power Electronics. Currently working as a part time project engineer in Maxine Tec Research and Development Institute with having industry experience in Bharat Heavy Plate and Vessels Ltd. Published and Presented an IEEE paper on control of DFIG connected to variable speed wind turbine. (Actively Seeking for Job Opportunity in Core Domain)

1. B Janardhan Reddy Email: bugganajanardhan@gmail.com
Mobile: +91 8867806468
Career Objective
Expecting a platform where i can work sincerely and put myself completely for the development of the company
and learn more about the process.
Educational Qualifications
 Have Industry Experience in Bharat Heavy Plate and Vessels Ltd (subsidiary of BHEL).
 Certification course work done in electrical design engineering from Smart Brains Institute of Engineering
Design and Research, Hyderabad in the period (Aug-Nov 2015).
 Master’s degree with specialization in Power Electronics and Electrical Drives at Amrita University, Bangalore
secured with 6.85 CGPA in the period (2013-2015).
 Published an IEEE paper on "Control of Doubly Fed Induction Generator Connected to Variable
Speed Wind Turbine" in Technological Advancements of Power and Energy at Amritapuri, Kerala.
 Worked on Hardware Implementation of Digital Controllers using TMS C2000, Arduino Uno & Duo, and
DSPIC Microcontrollers.
 Bachelor’s degree in Electrical and Electronics Engineering with specialization in Energy Systems at
KL University, Vijayawada secured with 6.86 CGPA in the period (2009-2013).
 Finished my project on "Utilization of Electrical Energy and Maintenance of Fabrication Machinery and its
applications in Bharat Heavy Plate and Vessels Ltd at Vishakhapatnam.
 Pursued Class XII from Board of Intermediate Education secured with 88.2 Percentage.
 Pursued Class X from Board of Secondary Education at secured with 62.3 Percentage.
Technical Skills
 Knowledge on Power Electronics Fundamentals, including basic power conversion topologies.
 Modelling of power electronics, Photo Voltaic and Wind circuits and systems.
 Matlab Simulink (equivalent software) expertise for simulating power electronics in various
applications.
 Implementation of Maximum Power Point Techniques using Incremental Conductance, Perturb Observe
Methods.
 Knowledge on HVDC control and PCB.
 Significant work done on AC-DC, DC-DC (Buck, Boost, Buck-Boost, Cuk, Sepic, fly back, Push Pull),
DC-AC power converters
 Awareness about EMI/EMC Issues.
 Knowledge on Hardware Design of Power Electronics circuits and systems.
 Development of control algorithms for complex electromechanical systems.
 Good understanding behavior of Power Mosfets, IGBT’s, Machine and Inverter selection criteria for
different applications.
Software Skills
 Matlab Simulink, Psim, MP Lab
 TMS Code Composer Studio, Arduino Uno & Duo, DSPIC Microcontrollers
 ETAP used for system studies (load flow analysis, case study and also using for short circuit analysis)
 AutoCAD (2D Design)
 MS Office, C, Multisim
Work Experience
Maxine Tec, Research and Development Institute April’16-present
Role: Project Engineer
Work Profession: Part Time Projects doing on Power electronics, Electrical Machines, Drives and Renewable
technology especially for wind and solar projects using PSIM and Simulink tool.
Bharat Heavy Plate and Vessels Ltd Dec’12 – May’13
Role: Electrical Engineer Intern
Title: Utilization of Electrical Energy and Maintenance of Fabrication Machinery and its Applications

2. Project Description:
In Switchyard the Power Distribution at 33kv voltage level is brought down to 440v in two stages.
Stage 1: Power at 33kv is step down to 11kv and supplied to Main Receiving Station which is step down to
440v.
Stage 2: In case of Power Failure Generator produces power 6.3kv is step up to 11kv and supplied to MRS to
440v. Power at 440v is supplied to fabrication machinery called roller positioners, cranes, induction motors,
welding generators and hydraulic bending machines etc..,
Key Responsibilities:
 To identify the electrical energy can be utilized effectively and the technologies needed to be adopted
for cost effectiveness.
 To check the layout of Power Distribution system specifies the 33kv power which is brought down to
440v in two stages.
 Maintenance and protection of Transformers, Circuit breakers, Isolators, Surge Arrestors, Relays and
cables.
 Breakdowns of Fabrication Machinery to get Repaired and Reused as well.
 To design and analyze Power and Control circuits of Fabrication Machinery.
Projects and Publications
Project#1
Title: Control of Doubly Fed Induction Generator connected to Variable Speed Wind Turbine
Project Description:
The term Doubly Fed Induction Generator refers the power from both stator and rotor paths can generate large
amounts of electricity. The objective of the project is to control voltage and frequency should be constant and
to maintain the slip/rotor power as negative in super synchronous mode of operation and as positive in sub
synchronous mode of operation using back-back Pulse Width Modulated Converters.
Project#2
Title: Hardware Implementation of Digital Controllers
Project Description:
Matlab Simulink integrated with Embedded IDE link 4.2 makes it easy to verify automatically generated and
executing code within the Microcontrollers (TMS C2000, Arduino Duo and DSPIC) using a model in Simulink
software.
Project#3
Title: Dynamic Modelling of Induction Motor and DC Shunt Motor using Matlab Simulink Tool.
Project Description:
Using Reference Frame Theory, Transformation Matrix, Park and Linear Transformation we will form the
equations for modelling the Induction Motor and DC Shunt Motor. After taking the ratings and parameters of
practical induction motor and dc shunt motor by using No load test, Blocked Rotor Test, Retardation Test and
Turns Ratio Test we can form the equations using Matlab Simulink.
Project#4
Title: Design Guidelines of a Multilevel Inverter for Aerospace Applications
Project Description:
For Aerospace Applications the radio frequency immunity effect on other systems is very high if we are going to
design with two level inverters due to high frequency the power electronic system will damage in order to avoid
the problem we are going with Multilevel Inverters in particular, have advantages including like reduced system
harmonics, reduced passive filter volumes and increased system power density based on higher operating
voltages.
Publication & Presentation:
“Control of Doubly Fed Induction Generator Connected to Variable Speed Wind Turbine” title paper is published
and presented in Technological Advancements of Power and Energy (TAP ENERGY) IEEE international
conference held at Amrita School of Engineering College, Amritapuri in 26th June 2015.
Personal Information
Date of Birth : 01-08-1992.
Father’s Name : B Srinivasa Reddy
Marital Status : single
Languages Known : English, Hindi and Telugu.
I hereby declare that all the information given above by me is true to the best of my knowledge.

3. Place: Bangalore
Date: B Janardhan Reddy