As the world moves toward digitization, our dependence on electricity is becoming increasingly profound. From powering basic appliances in households to maintaining online connections, continuous and reliable electricity is crucial for people.
With increasingly severe weather events and more frequent power outages, the emergence of home battery backup systems has greatly facilitated daily life.The price of a home battery backup system varies depending on the brand, capacity, and features. A simple backup system may cost a few hundred dollars, while a complete home energy management system may cost thousands of dollars.
In summary, home battery backup systems are a practical solution for providing power during power outages, allowing you to sleep soundly, be energy independent, and even save significantly on energy costs.
What are the parts of a home battery backup
Home battery backup is a system that can store energy generated by solar panels or the grid when there is electricity, so as to power the home with the stored energy during a power outage or during peak demand when electricity prices are high.
Home battery backup systems typically consists of three main components:
- Battery:Used to store energy generated by solar panels or the grid. The battery is the most important part of a home backup battery system.
- Inverter: Converts the DC power stored in the battery into AC power that can be used by household appliances, and regulates the current between the battery, solar panels, and grid.
- Monitoring System: Used to track energy usage and battery status. In addition, it provides information on the energy stored in the battery and how much energy is being used in real-time.
How it Works
- Solar Charging: If you have solar panels installed, the battery backup system charges the battery using the energy generated by the panels.
- From the Grid: When you don’t have the solar panels around, you could also charge the battery backup system from the grid.
Stored Energy: The battery backup system could store the energy. When the power goes out,the inverter converts the DC electricity stored in the battery to AC electricity, then you could use home appliances.
Monitoring Usage: Monitor system tracks energy usage and battery status. It also provides information on the stored energy and real-time energy usage in the battery.
Recharge Automatically: The battery backup system will automatically switches back to grid power, when the power is restored. Then the battery backup system begins to charge the battery again in order to store energy.
Benefits Of Home Battery Backups
- Enhancing power reliability: Home battery backup systems can provide backup power during power outages, allowing households to continue using electricity, thereby improving the reliability of power supply for households.
- Reducing dependence on the grid: Home battery backup systems can reduce dependence on the grid, as they can provide backup power during power outages, eliminating the need for households to rely solely on the grid for power.
- Lowering power costs: Home battery backup systems can be charged during periods when electricity prices are low and then used during periods when prices are high, thereby reducing household power costs.
- Protecting the environment and saving energy: Home battery backup systems can reduce dependence on traditional energy sources, lower Carbonemissions, and contribute to environmental protection.
- Improving home safety: Home battery backup systems can provide emergency power, which can help households better cope with sudden situations during emergencies.
How To Choose a Battery Backup System1. Power Output
The power output is the amount of electricity a battery can provide at any given time, measured in watts (W). You should choose a home battery backup system with a power output that matches your home's electricity needs.
For example, if you have many high-energy-consuming appliances, such as air conditioners or electric heaters, you will need a backup system with a higher power output to run.
2. Battery Capacity
The battery capacity is measured in kilowatt-hours (kWh), it could show the amount of energy that the battery can store. As we all know, a larger battery capacity can provide more backup power for emergency.
When you are choosing a home battery backup system, first you should consider energy needs and select a battery with the appropriate capacity. Then you can buy satisfactory products you want.
The lifespan of the battery refers to the period before it needs to be replaced. You should choose a home battery backup system with a long lifespan to ensure maximum benefits from the product.
We suggest that you could look at the OUKITEL BP2000 portable power station, which has a capacity of 2048Wh that can power up multi-devices simultaneously. Besides, if you need more power, the BP2000 could expand up to 16384Wh with 7*B2000 batteries.
BP2000 charges from 0-80% in 1.5 hours with 1800W Max. AC input, or PV1000W + AC1500W dual recharge to 80% in just 1 hour, allowing you to start using it again in a short time.
Anyways, BP2000 home battery backup could power almost all appliances, which could improve your life.
When blackouts occur, BP2000 can function as a 2000W Uninterruptible Power Supply (UPS), it will restore power for the connected devices in less than 10ms and not cause any potential electric shock incident.
How much battery do I need?
The electricity consumption of each household varies greatly, depending on various factors such as family needs. If you want the battery to fully meet the energy needs of the family during a power outage, you will need at least a 10 kWh home backup battery system.
For large families or those with higher daily power load requirements, you may need a home backup battery system of over 20 kWh.
You can choose the appropriate home backup battery system according to your family's electricity needs.
For power outage issues, home battery backup systems are indeed a promising solution. They can provide energy independence and resilience for households, reducing dependence on the grid.
At the same time, they can also bring potential savings, especially when using stored energy batteries during peak electricity demand to reduce electricity costs.
Home battery backup systems usually run on clean, reliable, and renewable energy sources, which helps achieve a world powered by sustainable energy.
Therefore, if you care about reliable, on-demand power and contributions to the environment, a home battery backup system might be suitable for you.