Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Optimization Of Solar -Powered Static wireless Charging Station for Electric Vehicles
View through CrossRef
The project specifically focuses on the design of a solar-powered electric vehicle charging system, offering a solution to the key issues of fuel dependency and environmental pollution. Electric vehicles have gained global traction and are progressively becoming more prevalent. Beyond their environmental advantages, electric vehicles contribute to cost reduction by substituting electricity for fuel, which is a more economical alternative. This project presents an innovative solution for EV charging, eliminating the need for wires, harnessing solar power to sustain the charging system, and operating without external power supply requirements. The system incorporates components such as a solar panel, battery, transformer, regulator circuitry, copper coils, AC to DC converter, Atmega controller, and LCD display. Through this integration, the system showcases the wireless charging capability for electric vehicles at charging stations. The LCD display provides real-time information on the total cost. In summary, the project demonstrates the viability of a solar-powered wireless charging system for electric vehicles, presenting a forward-looking approach to integration.
Key Words: Electric Vehicle, Wireless power transmission, static wireless charging, Atmega328p controller with LCD, Mutual induction.
Edtech Publishers (OPC) Private Limited
Title: Optimization Of Solar -Powered Static wireless Charging Station for Electric Vehicles
Description:
The project specifically focuses on the design of a solar-powered electric vehicle charging system, offering a solution to the key issues of fuel dependency and environmental pollution.
Electric vehicles have gained global traction and are progressively becoming more prevalent.
Beyond their environmental advantages, electric vehicles contribute to cost reduction by substituting electricity for fuel, which is a more economical alternative.
This project presents an innovative solution for EV charging, eliminating the need for wires, harnessing solar power to sustain the charging system, and operating without external power supply requirements.
The system incorporates components such as a solar panel, battery, transformer, regulator circuitry, copper coils, AC to DC converter, Atmega controller, and LCD display.
Through this integration, the system showcases the wireless charging capability for electric vehicles at charging stations.
The LCD display provides real-time information on the total cost.
In summary, the project demonstrates the viability of a solar-powered wireless charging system for electric vehicles, presenting a forward-looking approach to integration.
Key Words: Electric Vehicle, Wireless power transmission, static wireless charging, Atmega328p controller with LCD, Mutual induction.
Related Results
IoT-Based Intelligent Charging System for Kayoola EVs Buses at Kiira Motors Corporation in Uganda
IoT-Based Intelligent Charging System for Kayoola EVs Buses at Kiira Motors Corporation in Uganda
Abstract
The increasing popularity of Electric Vehicles (EVs) has led to a surge in the need for charging stations in Kayoola EV buses. Most of existing EV charging station...
Perspective Chapter: Advancements in Wireless Charging – A Comparative Study of Emerging Technologies
Perspective Chapter: Advancements in Wireless Charging – A Comparative Study of Emerging Technologies
This chapter delves into the profound impact of solar energy on the progression of wireless charging technology across various applications. It explores a wide array of innovations...
Solar Trackers Using Six-Bar Linkages
Solar Trackers Using Six-Bar Linkages
Abstract
A solar panel faces the sun or has the solar ray normal to its face to enhance power reaping. A fixed solar panel can only meet this condition at one moment...
GPS Data-Based Plug-in Hybrid Electric Vehicle Simulation
GPS Data-Based Plug-in Hybrid Electric Vehicle Simulation
The automotive sector, while being an example of a highly innovative industry driven by strong competitive pressure and constant technological progress, has never had to deal with ...
Wireless Charging Efficiency Optimization Method Based on Adaptive Robust Control
Wireless Charging Efficiency Optimization Method Based on Adaptive Robust Control
This paper designs, analyzes and optimizes the electric vehicle wireless charging system and its control method. Compared with the traditional plug-in conduction charging, wireless...
Quantum-Inspired Multi-Objective Optimization Framework for Dynamic Wireless Electric Vehicle Charging in Highway Networks Under Stochastic Traffic and Renewable Energy Variability
Quantum-Inspired Multi-Objective Optimization Framework for Dynamic Wireless Electric Vehicle Charging in Highway Networks Under Stochastic Traffic and Renewable Energy Variability
The rapid adoption of electric vehicles (EVs) and the increasing reliance on renewable energy sources necessitate innovative charging infrastructure solutions to address key challe...
Power System Impacts of Electric Vehicle Charging Strategies
Power System Impacts of Electric Vehicle Charging Strategies
This article explores the potential impacts of integrating electric vehicles (EVs) and variable renewable energy (VRE) on power system operation. EVs and VRE are integrated in a pr...
EcoCharge: Wireless Power Hub for Electric Vehicles
EcoCharge: Wireless Power Hub for Electric Vehicles
This research paper presents the creation of the "EcoCharge," a cutting-edge wireless charging station designed exclusively for electric cars (EVs). By offering a smooth and eco-fr...