10KW Transformer-Based Low-Frequency Split-Phase Inverter for Canadian Villa
Transforming Solar Power Solutions: A Case Study of a 10KW Transformer-Based Low-Frequency Split-Phase Inverter for Canadian Villa
Introduction
In the realm of renewable energy, effective and reliable power solutions are crucial for harnessing the full potential of solar energy. This case study delves into the successful deployment of a 10KW transformer-based low-frequency split-phase inverter in a Canadian villa, demonstrating the effectiveness and reliability of our products in real-world applications. With 15 years of experience in ODM and OEM inverter production, our expertise ensures that customers receive top-quality solutions tailored to their needs.
Project Overview
Customer Profile:
l Location: Canadian Villa
l Power Requirements: Reliable, high-capacity solar power system
l Equipment Used:
l 24 x 600W Solar Panels
l 2 x 48V 150A Controllers
l 1 x 48VDC 10KW Inverter
l 4 x 51.2V 200AH Lithium Batteries
System Components
1. 10KW240VAC Input, 120VAC/240VAC Dual Output Transformer-Based Low-Frequency Split-Phase Inverter
l Key Features:
l Transformer-based design for high reliability and durability
l Low-frequency operation ensuring stable power supply
l Dual output for versatile applications
l Ideal for split-phase systems, providing both 120VAC and 240VAC outputs
2. Solar Panels
l Specification:
l 24 panels, each rated at 600W
l Total capacity: 14,400W
l Benefits:
l High-efficiency solar panels maximize energy capture
l Robust design suitable for the Canadian climate
3. Controllers
l Specification:
l 2 controllers, each 48V 150A
l Role:
l Regulate and optimize the charging of batteries
l Protect the system from overcharging and overloading
4. Lithium Batteries
l Specification:
l 4 batteries, each 51.2V 200AH
l Total capacity: 40,960Wh
l Advantages:
l High energy density for extended power supply
l Long lifecycle and stability
Installation and Setup
The installation process was meticulously planned and executed to ensure optimal performance and longevity of the system. Key steps included:
1. Site Assessment:
l Evaluation of the villa's energy needs and available space for solar panel installation.
l Analysis of sunlight exposure to determine the best positioning for the panels.
2. System Design:
l Customization of the inverter setup to match the villa's power consumption patterns.
l Integration of the controllers and batteries to create a seamless energy storage and supply system.
3. Installation:
l Secure mounting of the solar panels on the roof, ensuring maximum sun exposure.
l Wiring and connection of the panels to the controllers, and subsequently to the inverter.
l Configuration of the inverter to manage the split-phase output effectively.
4. Testing and Commissioning:
l Comprehensive testing of the system to ensure all components function harmoniously.
l Fine-tuning of the inverter settings to optimize performance.
Performance and Benefits
Since installation, the system has delivered outstanding performance, providing the villa with a reliable and consistent power supply. The benefits observed include:
1. Enhanced Energy Independence:
l The villa can now generate and store its own power, reducing dependence on the grid.
l Significant reduction in electricity bills due to self-sufficiency in power production.
2. Environmental Impact:
l The use of renewable solar energy reduces the carbon footprint of the villa.
l Contribution to the global effort in combating climate change by utilizing clean energy.
3. System Reliability:
l The low-frequency inverter ensures a stable power supply, crucial for sensitive electronic devices.
l The robust design of the inverter and solar panels guarantees long-term reliability and minimal maintenance.
4. Cost-Effectiveness:
l Initial investment in the solar power system is offset by long-term savings on electricity bills.
l The durability and longevity of the system components ensure a high return on investment.
Technical Insights
The technical aspects of this installation highlight the advanced features and capabilities of our products:
1. Inverter Efficiency:
l The transformer-based low-frequency inverter operates with high efficiency, minimizing energy loss.
l Dual output capability provides flexibility for different power needs within the villa.
2. Battery Management:
l The 48VDC system is designed to efficiently manage the charge and discharge cycles of the lithium batteries.
l The controllers play a critical role in maintaining battery health and extending their lifecycle.
3. Scalability:
l The system is designed with scalability in mind, allowing for future expansion if the villa's power needs increase.
l Additional solar panels and batteries can be easily integrated into the existing setup.
Customer Feedback
The customer has expressed immense satisfaction with the performance and reliability of the system. Key highlights from their feedback include:
1. Seamless Operation:
l The system operates seamlessly, providing uninterrupted power supply even during peak consumption periods.
2. User-Friendly Interface:
l The inverter's user interface is intuitive and easy to manage, allowing the customer to monitor system performance effortlessly.
3. Support and Service:
l Our team provided exceptional support throughout the installation process, ensuring the customer's queries were promptly addressed.
l The after-sales service has been commendable, with regular check-ins and maintenance support.
Conclusion
This case study underscores the efficiency, reliability, and adaptability of our 10KW transformer-based low-frequency split-phase inverter system. The successful implementation in the Canadian villa is a testament to our commitment to providing top-quality renewable energy solutions. As we continue to innovate and expand our product range, we remain dedicated to helping our customers achieve energy independence and sustainability.
For more information about our products and services, visit https://swnpower.com/products/67/3kw5kw6kw8kw10kw12kw-110vac-220vac-or-120v-240v-dual-output-split-phase-inverter.