Affordable Home Self-Generating Power System
Parasol Elite Power’s innovative and affordable solution for sustainable energy right in your home. Our self-generating power system not only brings independence but is also made more affordable with incentives that put clean energy within your reach.
4 Key Components of Our FMG System
Our 6kW solar panel array efficiently harnesses sunlight, converting it into clean, renewable energy for your home.
This component efficiently transforms solar-generated DC electricity into usable AC power, ensuring a smooth and efficient electricity supply for your household appliances.
Store surplus solar energy using our high-capacity 19.2kW lithium-iron-phosphate (LFP) battery, ensuring reliable power supply during low solar production or grid outages.
Monitor and control your energy consumption and generation with ease through our cloud-based management and monitoring software, maximizing your system’s performance and savings.
Making Clean Energy Affordable
At Parasol Elite Power, we believe in making sustainable living affordable and accessible. That’s why we’ve curated a range of incentives and financial programs that help make our self-generating power system more cost-effective for you.
Incentives and Rebates
Take advantage of available incentives and rebates offered by federal, state, and local governments, significantly reducing the initial investment cost.
Tax Credits
Benefit from tax credits that can further lower the overall cost of installation, making clean energy an even more appealing investment.
Why Choose Our System
Energy Independence
- Reduce your dependence on the grid and take control of your energy consumption, potentially leading to eliminating electricity bills.
Environmentally Friendly
- Embrace a greener lifestyle by significantly reducing your carbon footprint through the use of clean, renewable energy.
Learn More About the Operation of Our FMG Components
6kW Solar System with
550W Bifacial Panels
Parasol Elite Power’s advanced 6kW solar system incorporates cutting-edge 550W bifacial panels, designed to elevate your home’s energy generation to new heights.
Harness the Power of Bifacial Solar Technology
Our 6kW solar system incorporates the latest in solar panel innovation—550W bifacial panels. Unlike conventional panels that only capture sunlight from the front, bifacial panels harness energy from both sides, significantly increasing overall energy production. By efficiently converting sunlight into electricity from both the front and rear, these panels maximize energy generation, making them ideal for various environmental conditions, such as rooftops with reflective surfaces or varying light angles.
Key Features and Benefits
Bifacial panels capture sunlight on both sides, allowing for increased energy production and efficiency compared to traditional solar panels.
Their ability to generate electricity from both sides allows for flexibility in installation and better performance under changing light conditions.
Built with high-quality materials, these panels offer excellent durability and a longer lifespan, ensuring consistent and reliable energy production for years to come.
Our system harnesses the power of state-of-the-art 550W bifacial panels, leveraging the latest advancements in solar technology.
Experience higher energy yields and better performance with panels designed to capture sunlight from both sides.
Reduce your carbon footprint and contribute to a more sustainable future by generating clean, renewable energy.
10kW Hybrid Inverter
Our hybrid inverter efficiently manages both solar power generation and energy storage from batteries in our FMG system. It plays a crucial role in optimizing energy usage and reducing electricity costs. This is an overview of how our hybrid inverter works with our solar panels and storage batteries.
The key advantages of a hybrid inverter system are its ability to maximize self-consumption of solar energy, reduce grid dependence, and provide backup power during grid outages. It also optimizes the use of energy storage to avoid peak electricity costs, making it an attractive option for homeowners and businesses looking to make the most of their renewable energy sources.
How it Works
Solar panels on your rooftop or at another location convert sunlight into direct current (DC) electricity. This DC electricity is generated whenever there is sufficient sunlight.
Solar panels produce DC electricity, which is not suitable for most household appliances and the electricity grid. The hybrid inverter’s first function is to convert this DC electricity into alternating current (AC), which is the standard form of electricity used in homes and sent back to the grid.
The inverter assesses your electricity demand at any given time. If your electricity demand is less than the power generated by your solar panels, the excess electricity is sent to your home’s electrical loads, such as lights, appliances, and HVAC systems.
If your solar panels produce more electricity than your household needs and your batteries are not fully charged, the surplus power is used to charge your energy storage batteries. If the batteries are already fully charged, the excess electricity can be exported back to the grid or – in some cases – sold for a feed-in tariff, depending on local regulations.
When your solar panels aren’t generating enough electricity to meet your home’s demand (e.g., during the night or on cloudy days), the hybrid inverter automatically switches to using the energy stored in the batteries to provide power to your home. This ensures uninterrupted power supply.
Our hybrid inverter manages the charging and discharging of the batteries to maximize their lifespan and efficiency. It ensures that the batteries are charged when excess solar power is available and discharged when needed.
In some cases, when both solar generation and battery storage are insufficient to meet your electricity demand, the hybrid inverter can draw power from the grid to supplement your needs. It can also feed excess power back to the grid for a credit or to offset your electricity bill.
Parasol Elite Power hybrid inverters often come with energy monitoring and control capabilities. These systems can be connected to a smartphone app or a web interface, allowing you to monitor your energy production and consumption in real-time and remotely control your system.
Advanced 19.2kW LFP Internal
Connect Battery Stack
State-of-the-art 19.2kW lithium-iron-phosphate (LFP) internal connect battery stack. This advanced solution is made up of four 4.8kW modules, each equipped with a built-in Battery Management System (BMS), providing reliable and efficient energy storage for a wide range of applications.
Key Features of Our Battery Stack
Our 19.2kW battery stack is composed of four individual 4.8kW modules, allowing scalability and flexibility in energy storage. Each module seamlessly integrates with others to provide a comprehensive energy solution tailored to your needs.
Featuring LFP technology, known for its high safety, longevity, and thermal stability, our battery stack offers a reliable and long-lasting energy storage solution.
Each 4.8kW module comes equipped with an integrated Battery Management System, ensuring optimal performance, balancing, and protection for your battery stack, maximizing its efficiency and lifespan.
Advantages of Our Battery Stack
Our LFP internal connect battery stack provides a dependable energy storage solution, suitable for various applications, from residential to commercial and industrial uses.
Customize your energy storage capacity by adding or combining modules, offering adaptable solutions to meet your specific power storage requirements.
Built-in BMS ensures efficient performance, cell balancing, and protection, promoting a safe and durable energy storage system.
Benefit from advanced LFP technology that offers a combination of high performance, safety, and reliability.
Adapt your energy storage to your exact needs by adding or modifying modules to achieve the desired power capacity.
The integrated BMS in each module provides continuous monitoring and control, optimizing the performance and lifespan of the entire battery stack.