A household three phase solar energy storage system is a system that can store solar energy generated by solar panels and use it to power your home appliances. It consists of three main components: a 20kWh lifepo4 battery, a 12kW inverter and a high voltage box.
The 20kWh lifepo4 battery is a type of lithium-ion battery that has a long cycle life, high safety and low self-discharge rate. It can store the excess solar energy that is not used by your home during the day and provide backup power during the night or when the grid is down.
The 12kW inverter is a device that converts the direct current (DC) from the battery or the solar panels into alternating current (AC) that can be used by your home appliances. It also regulates the voltage and frequency of the AC output to match the grid standards or your load requirements.
The high voltage box is a component that connects the battery, the inverter and the solar panels. It also contains safety devices such as fuses, circuit breakers and switches to protect the system from overcurrent, overvoltage, short circuit or other faults.
The system supports color screen and smart app control, which means you can monitor and manage your system through a user-friendly interface on a display panel or on your smartphone. You can check the status of your battery, inverter and solar panels, adjust the settings, view the history data and receive alerts or notifications.
The system can be used with solar panels to make an off grid or hybrid solar system. An off grid system means you are completely independent from the grid and rely only on your solar energy storage system to power your home. A hybrid system means you are still connected to the grid but can use your solar energy storage system to reduce your electricity bills or sell excess power back to the grid.
Three phase means that the system uses three separate alternating currents of the same voltage, but with phases differing by a third of a period. This means that each current reaches its peak value at different times, creating a more balanced and efficient power supply than a single phase system. A three phase system can also deliver more power with less conductor material than a single phase system.
A household three phase solar energy storage system is a system that can store solar energy generated by solar panels and use it to power your home appliances. It consists of three main components: a 20kWh lifepo4 battery, a 12kW inverter and a high voltage box.
The 20kWh lifepo4 battery is a type of lithium-ion battery that has a long cycle life, high safety and low self-discharge rate. It can store the excess solar energy that is not used by your home during the day and provide backup power during the night or when the grid is down.
The 12kW inverter is a device that converts the direct current (DC) from the battery or the solar panels into alternating current (AC) that can be used by your home appliances. It also regulates the voltage and frequency of the AC output to match the grid standards or your load requirements.
The high voltage box is a component that connects the battery, the inverter and the solar panels. It also contains safety devices such as fuses, circuit breakers and switches to protect the system from overcurrent, overvoltage, short circuit or other faults.
The system supports color screen and smart app control, which means you can monitor and manage your system through a user-friendly interface on a display panel or on your smartphone. You can check the status of your battery, inverter and solar panels, adjust the settings, view the history data and receive alerts or notifications.
The system can be used with solar panels to make an off grid or hybrid solar system. An off grid system means you are completely independent from the grid and rely only on your solar energy storage system to power your home. A hybrid system means you are still connected to the grid but can use your solar energy storage system to reduce your electricity bills or sell excess power back to the grid.
Three phase means that the system uses three separate alternating currents of the same voltage, but with phases differing by a third of a period⁴. This means that each current reaches its peak value at different times, creating a more balanced and efficient power supply than a single phase system. A three phase system can also deliver more power with less conductor material than a single phase system⁵.