mini_project_pperyey4tu341rr4rr12344t.pptx
Mrnotorious24
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May 18, 2025
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“Design and Development of Solar Inverter for Domestic Application” Name of the Candidates: Poornima Hakari (R22EM060) N Ganga Yamuna (R22EM050) Vanishree S B (R22EM089) Pavan N (R22EM059) School:Electrical and Electronics Engineering REVA UNIVERSITY Guide: Dr. Adithya Ballaji Asst. Professor
“Design and Development of Solar Inverter for Domestic Application” Electrical and Electronics Engineering
Abstract 3 This project focuses on designing a 12V DC to 220V AC inverter circuit for small-scale domestic applications. It aims to achieve .
Introduction 4
Objectives 5 12V DC to 220V AC for home use. Cost-effective for households. Works with common home appliances. Reduce dependency on non-renewable sources.
circuit diagram 6
Components 7 +12V Battery 47KΩ Resistor 1000µF Capacitor 4700µF Capacitor 10k Potentiometer 1k Resistor 10k Resistor IN5408 Diodes CD4047 IC 4.7µF Capacitor Step-Down Transformer (220V to 12V-0-12V, 10A) IRF540N MOSFET Wires
Working Principle of solar Inverter 8 A solar inverter converts low-voltage DC (Direct Current) power from a solar panel or a battery into high-voltage AC (Alternating Current) power for domestic use. The circuit provides a square wave inverter that works in the following stages:
Advantages And Disadvantages Of Solar Inverter 9 Advantages Disadvantages
Applications of Solar Inverters Homes: Powering lights, fans, and small appliances. Off-Grid Areas: Provides electricity in remote locations. Businesses: Reduces energy costs for small and medium enterprises. Backup Power: Acts as an alternative during power outages. Renewable Energy Systems: Converts solar energy for domestic and industrial use. 10
PROJECT PROPOSAL DETAILS (If submitted) 11
CONCLUSION Cost-effective and reliable solar inverter solution. Converts 12V DC to 220V AC for household appliance compatibility. Simple and affordable design, ideal for small-scale domestic use. Promotes easy adoption of solar energy. Robust and durable, minimizing the risk of failure. Practical for transitioning to renewable energy at home. 12
Future SCOPE 13 Higher Power: Support larger appliances and households. Smart Integration: Work with smart grids for better energy use. Better Batteries: Add advanced storage for reliable backups. Remote Control: Use IoT for easy monitoring and management. More Efficient: Improve design to reduce energy loss. Hybrid Use: Combine with wind or other renewable sources. Eco-Friendly: Use sustainable materials.
References "Design of Efficient PWM Inverters," Journal of Renewable Energy, 2020. "Solar Energy Applications in Domestic Systems," IEEE Transactions, 2019. "Advances in Solar Inverter Technologies," GreenTech Journal, 2021. "A Comprehensive Review of Renewable Energy Inverters," International Journal of Energy Research, 2022. "Emerging Trends in Solar Power Systems," Renewable and Sustainable Energy Reviews, 2023. 14
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