The system design can be customized according to the needs of different users and site conditions, with flexible installation locations.
System components (e.g., PV panels, inverters, etc.) are usually modularized for easy installation and maintenance.
Modern residential PV systems are usually equipped with an intelligent monitoring system that allows users to view real-time power generation and electricity consumption data.
Self-generated electricity significantly reduce the user's electricity bill, offering substantial long-term economic benefits.
Harnessing solar power reduces reliance on fossil fuels, cuts carbon emissions, and supports sustainable development.
Users can decrease dependence on the external grid, enhancing energy self-sufficiency.
Many regions offer subsidies, tax breaks, and policy support to reduce initial investment costs for residential PV systems.
Installing a PV system can boost home market value and appeal to eco-conscious buyers.
Analyze the user's electricity demand and determine the optimal PV system size.
Evaluate site conditions, including light exposure and available space.
Design the system layout, select PV panels and inverters based on assessment results.
Install all necessary components, including racking systems, PV panels, and inverters.
Commission the system and connect to the grid, configuring for optimal performance (e.g., grid-connected mode)
Conduct regular inspections and maintenance to ensure efficient and reliable operation.
