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Product Advantage
High Capacity and Flexibility: The 15kWh home energy storage system offers ample capacity to meet diverse energy needs. Its modular design allows for easy customization and expansion, ensuring flexibility to adapt to changing requirements.
Long-lasting Performance: Equipped with high-quality lithium iron phosphate batteries, the system delivers reliable and long-lasting performance. These batteries are known for their durability, providing stable energy storage and maximizing the lifespan of the system.
Intelligent Energy Management: With an integrated intelligent Battery Management System (BMS), the system optimizes energy usage and efficiency. The BMS ensures precise monitoring, control, and protection, enabling safe and intelligent management of stored energy.
Seamless Integration and Power Exchange: The system features a seamless design that enables smooth energy exchange between various sources. It efficiently transfers energy between solar panels, grid power, the battery, and connected devices. This integration allows for both solar and grid charging, providing flexibility and uninterrupted power supply.
Product Uses
The 15kWh home energy storage system is ideal for a range of applications. It offers reliable backup power during outages, optimizes solar energy usage, manages time-of-use pricing, reduces peak demand charges, and enhances overall energy efficiency and independence for homeowners.Energy Independence and Resilience: Energy storage systems increase homeowners' energy independence, reducing vulnerability to power outages and fluctuations in energy prices.
Technical Parameters
Model | SmartOne-O5 | SmartOne-O10 | SmartOne-O15 | SmartOne-O20 | ||
Qty.of Battery Modules | 1 | 2 | 3 | 4 | ||
System Energy | 5.12kWh | 10.24kWh | 15.36kWh | 20.48kWh | ||
IP Rating | IP20 | |||||
Operating Temperature | Charge:0 ~ 45 ℃ Discharge:-10 ~45 ℃ | |||||
Allowable relative humidity range | 5% to 95% | |||||
Max. operating altitude | <2000m | |||||
Weight | 63Kg | 108Kg | 152Kg | 198Kg | ||
Dimension | 660*730*180mm | 660*1070*180mm | 660*1410*180mm | 660*1750*180mm | ||
Display | LCD & APP | |||||
Communication | RS485 & WIFI | |||||
System Parallel | 2 | |||||
Inverter | Rated Output Power | 5000W | ||||
Maximum Peak Power | 10000VA | |||||
Load Capacity of Motor 4HP | 4HP | |||||
Wave Form | Pure Sine Wave | |||||
Output Mode | Hybrid Grid | |||||
Rated Output Voltage (Vac) | 220Vac | |||||
AC Charge | AC Charging Current Range | 60A | ||||
Rated Input Voltage | 220/230Vac | |||||
Bypass Overload Current 40A | 40A | |||||
Input Voltage Range | 90 ~280Vac | |||||
AC Output | Rated Output Power | 5000W | ||||
Maximum Output Current | 30A | |||||
Frequency | 50Hz | |||||
Overload Current | 40A | |||||
PV Charge | Solar Charge Type | MPPT | ||||
Maximum Output Power | 5500W | |||||
PV Charging Current Range | 100A | |||||
MPPT Voltage Range | 120 ~450V | |||||
Battery Module Data | Battery Type | LiFePO4 | ||||
Battery Energy | 5.12kWh | |||||
Battery Capacity | 100AH | |||||
Battery Rated Voltage | 51.2V | |||||
Designed Life-span | 6000 | |||||
FAQ
Q1: Can a residential energy storage system be used with solar panels?
Yes, residential energy storage systems can be used in conjunction with solar panels. They can store excess solar energy generated during the day and make it available for use during the evenings or when solar production is low, increasing self-consumption of clean energy.
Q2: How long can a residential energy storage system provide backup power during a grid outage?
The backup power duration of a residential energy storage system depends on various factors, including the capacity of the system and the amount of power being drawn from it. Smaller systems may provide backup power for a few hours, while larger systems with higher capacity can provide backup power for longer durations, potentially powering essential loads for several days.
Q3: Can a residential energy storage system save money on electricity bills?
Yes, a residential energy storage system can help save money on electricity bills through time-of-use optimization and load shifting. By storing excess energy during low-demand periods and using it during high-demand periods, homeowners can reduce their reliance on expensive grid electricity and minimize peak demand charges.
