Gopi Chand Jonnalagadda

Looking for a position where I can use my programming knowledge and problem-solving skills to help the company expand while also advancing professionally and via ongoing learning. I'm adaptable, resourceful, and imaginative.

• Introduction to HTML, COURSERA
• Python Programming, UDEMY

• Gender: Male
• Religion: Hindu
• Date of Birth: 08/18/2000
• Nationality: Indian

• Mobile Application Development with App Inventor, APSSDC
• Internet of Things, APSSDC
• Rapid Mobile Development, APSSDC
• PC Design (Hardware), APSSDC

• B. Tech (ECE), DVR & DR HS MIC COLLEGE OF TECHNOLOGY, JNTU-K, 2022, 7.28
• Intermediate, Sri Chaitanya Junior college, Vijayawada, 2018, 81.9%
• SSC, Sri Chaitanya techno school S.S.C, 2016, 8.0

• Traveling
• Cooking
• Playing Cricket

7 SEGMENT DISPLAY: The main theme of the project is increasing the number count. The project is done using a digital display, 555timer IC, resistor, capacitor, breadboard, battery, and connecting wires. The seven-segment displays are used mostly in digital calculators, electronic meters, and digital clocks. 

AUTOMATIC STREET LIGHT: The main theme of this project is switching the streetlights(on/off) automatically. The project is done by using PCB, LED sensor transistors, and jumper wires, if there is a light on the LED sensor then lights will automatically switch off and if there is no light then lights will turn on. 

EFFICIENT HYBRID DUAL AXIS SOLAR TRACKING SYSTEM: The energy crisis is one of the prime issues in developing countries. Renewable energy is the only answer to solve this issue. Solar energy is one of the most effective resources of renewable energy which could play a significant role in solving this crisis. Solar energy is gaining importance day by day as an energy resource. By sun tracking we can increase the electric energy of solar panels. When the solar panel is perpendicular to the sun's rays it receives more sunlight. This system follows the sunlight's direction across the sky by using a DC motor, the control movement of the DC motor by the solar panel will change its position, solar panel detects the sunlight using four light-dependent resistors (LDRs). The objective is to design and implement an automatic solar-tracking mechanism using an embedded system design with minimum cost and reliable structure. This research presents a performance analysis of an axis solar tracking system using Arduino. The main objective of this research is whether static solar panels are better than solar trackers or not. This work is divided into two parts, hardware, and software systems. In the hardware part, four light-dependent resistors (LDR) are used to detect the utmost light source from the sun. Two servo motors are conjointly used to move the solar panel to the maximum light source location perceived by the LDRs. In the software part, the code is written by using C programming language and has targeted the Arduino UNO controller. The outcome of the solar tracker system has been analyzed and compared with the fixed or static solar panel found to have better performance in terms of voltage, current, and power. Therefore, the solar tracker has proved more practical for capturing the maximum sunlight supply. The result showed dual-axis solar tracking system produced an extra 10.53-watt power compared with a fixed and single-axis solar tracking system., Solar Cell, advanced solar tracking, Single axis, Self-Cleaning, LDR