Arun kumar K
Electrical and Electronics Engineer
Focused Electrical Engineer with background in power systems, automation and controls. In-depth understanding of control and power- delivery systems. Experienced in developing technical studies and investigations.
18, Gopal street, 2nd lane,
Area of Interests
Power System Transients
Battery Management system
Playing cricket, carrom, chess.
Photoshop, Video editing.
2016 – 2020 Bachelor of Engineering : Electrical and Electronics Engineering (CGPA: 6.88)
Government college of Engineering-Bargur, Tamilnadu. 2014 – 2016 Higher Secondary Course (82%)
Subramania Sasthriyar Higher Secondary school-Arni. 2013 - 2014 SSLC (81%)
Subramania Sasthriyar Higher Secondary school-Arni. Trainings
Embedded C Programming (Online course)
Title: Microcontroller Embedded C Programming
In-Plant Training @ BHEL Ranipet
Title: An Introduction to Boiler Auxiliaries Plant 24
Workshop on MATLAB
Title: Modelling and simulation of Electrical networks Skill set
Softwares : MATLAB, AutoCAD, MS-Office
Languages : C, C++, Java(Beginner), Python(Beginner) Academic Projects
Title : Two Wheeled Self Balancing Robot using Arduino Uno Role : Designing the controller, filter & Testing the model Tools &
: Arduino Uno, MPU6050, L298n motor driver
Cognitive skill Qualifications
National Qualifier Test(NQT) conducted by TCS ion scores are 1241.73 out of 1800 (68.99%) on October 2020 Summary on Academic Project:
Two Wheel Self Balancing Robot
Self-balancing robot is based on the principle of Inverted pendulum, which is a two-wheel vehicle balances itself up in the vertical position with reference to the ground.
It consists both hardware and software implementation.
To find its stable inverted position, I used a PID controller.
According to the situation we have to control both angel of pendulum and position of cart. Mechanical design consists of two dc gear motor with encoder, one Arduino microcontroller, IMU (inertial mass unit) sensor and motor driver as a basic need.
IMU sensor which consists of accelerometer and gyroscope gives the reference acceleration and angle with respect to ground (vertical), When encoder which is attached with the motor gives the speed of the motor.
These parameters are taken as the system parameter and determine the external force needed to balance the robot up.
IoT based Automated Solar Panel Tracking system
This system monitors the solar panel parameters like voltage, current and power generated.
This will update in the web server. So, we can monitor anywhere through internet.
Web server keeps track of the daily power production of solar panel and stores it on a daily basis.
The solar panel is rotated and aligned to a position where it receives maximum sunlight so that it can operate at its maximum efficiency
Power System Transients
Micro Electro Mechanical Systems
Professional Ethics in Engineering
I hereby declare that all the particulars given above are true to the best of my knowledge and belief.
(ARUN KUMAR K)