The Lithium Iron Phosphate Battery 10kWh stacked energy storage system is a modern residential power solution designed to support stable electricity use in homes and small facilities. It captures and stores energy from solar systems or the grid, releasing it when demand increases or during outages. The modular stacked structure allows users to build flexible capacity without changing the entire setup. Built with durable LiFePO4 chemistry, it delivers strong safety performance and long service life. This system is suitable for daily household use, emergency backup, and renewable energy integration, helping users improve energy control and reduce dependence on unstable power supply.
DC Side Parameters:
| Project / Parameter | Main Parameter / Specification |
|---|---|
| Cell Type | LiFePO4 |
| Reference Voltage | 51.2V |
| Nominal Capacity | 100 Ah × 2 |
| Rated Energy | 10240 Wh |
| Housing Material | Metal Plate |
AC side parameters:
| Project / Parameter | Main Parameter / Specification |
|---|---|
| Rated Power | 5500 VA / 5500 W |
| Surge Power | 11000 W |
| Wave Form | Pure Sine Wave |
| AC Output Voltage | 220–240 VAC |
| Inverter Efficiency (Peak) | 90% |
| Input Voltage | 230 VAC ±5% |
| Frequency Range | 50/60 Hz (Automatic Sensing) |
| MPPT Open Circuit Voltage | 450 VDC |
| Maximum Input Current of MPPT | 28 A |
| MPPT Power | 6000 W |
| MPPT Voltage Range | 60–360 VDC |
System Parameters:
| Project / Parameter | Main Parameter / Specification |
|---|---|
| Size (L × W × H) | 600 × 500 × 660 mm |
| Weight | 120 kg ±1 kg |
If you would like to learn more about the capabilities of our Lithium Iron Phosphate Battery 10kWh stacked energy storage system, explore how it can improve energy reliability, or discuss a tailored configuration for your specific requirements, please feel free to contact our team for detailed information and professional support.
In modern residential and small commercial energy applications, having a stable and scalable power storage solution is becoming increasingly important. The Lithium Iron Phosphate Battery 10kWh stacked energy storage system is designed to deliver reliable electricity storage from solar panels or the utility grid, ensuring continuous power supply during outages, peak demand periods, or unstable grid conditions. Its modular stacked architecture allows users to expand capacity easily while maintaining efficient energy utilization, making it an ideal solution for homes seeking energy independence, cost savings, and long-term power security.
A key advantage of the stacked energy storage system is its ability to maintain uninterrupted electricity for essential applications. It ensures that household and small business operations remain stable even during power interruptions. Key capabilities include:
This ensures users experience reliable energy availability in both daily use and emergency situations.
Unlike traditional fixed-capacity systems, this 10kWh solution adopts a stacked modular structure that supports flexible configuration and future expansion. Key advantages include:
This flexibility makes it suitable for both small households and expanding energy storage needs.
Safety is a core design principle of the Lithium Iron Phosphate Battery system. It is built with high-stability materials and advanced protection technologies, including:
These features ensure long-term reliable operation under residential conditions.
The system is designed for user convenience and minimal maintenance requirements. Key highlights include:
By combining solar compatibility, efficient storage performance, and scalable capacity, the system supports long-term energy independence for households and small businesses. It reduces reliance on the grid, helps lower electricity costs, and promotes the use of renewable energy. The Lithium Iron Phosphate Battery 10kWh stacked energy storage system is a practical solution for users seeking reliability, safety, and future-ready energy management.
The system uses high-purity LiFePO4 cells with stable chemical structure and low thermal risk. The outer housing is constructed from reinforced metal materials with anti-corrosion coating for long-term durability. Internal copper busbars and industrial-grade connectors ensure low resistance and efficient energy transfer, reducing heat loss and improving system stability under continuous operation.
Each battery module is produced using automated cell sorting, laser welding, and precision assembly techniques. Every unit undergoes strict testing including voltage calibration, capacity verification, insulation resistance testing, and thermal performance evaluation. The integrated BMS monitors real-time cell status, ensuring protection against overcharge, over-discharge, overcurrent, and temperature abnormalities. Smart balancing technology improves overall battery consistency and extends operational lifespan.
The 10kWh stacked LiFePO4 battery system is widely used in residential solar energy storage, home backup power systems, and off-grid living solutions. It is suitable for powering household appliances during outages, supporting solar self-consumption systems, and stabilizing energy supply in areas with unstable grid power. Its modular stacking design also makes it ideal for small commercial backup systems, remote cabins, and energy-independent homes.
This energy storage system is designed in accordance with international safety and quality requirements, including UL, CE, and RoHS standards. It meets electrical safety, thermal stability, and mechanical durability requirements for residential energy storage systems. The battery is engineered for stable performance under varying environmental conditions, ensuring long-term safe operation and reliable energy output.
Q1: Is this system wall-mounted?
A: No, it is a stacked floor-standing modular system, not wall-mounted.
Q2: Can the capacity be expanded?
A: Yes, multiple modules can be stacked or connected in parallel to increase total storage capacity.
Q3: Is it compatible with solar systems?
A: Yes, it works with most solar inverters and PV systems.
Q4: How long is the cycle life?
A: Typically over 6000 charge-discharge cycles depending on usage conditions.
Q5: Does it support remote monitoring?
A: Yes, optional communication interfaces support real-time monitoring via BMS.
Designed with a layered structure that allows units to be arranged upward for efficient space utilization in residential environments.
Each battery module is carefully matched to ensure uniform performance and stable energy output across the system.
Supports high usable capacity depth, allowing more stored energy to be accessed when needed.
Built to maintain steady performance under varying indoor temperature conditions without efficiency loss.
Simplified structural connection system reduces installation complexity between stacked units.
Maintains low self-discharge rate, ensuring stored energy remains available even after extended idle periods.
The Home Lithium Iron Phosphate Battery 10kWh stacked energy storage system is widely used in residential energy backup scenarios, seasonal properties, and mobile living setups where stable electricity access is required. It is also suitable for supporting distributed energy nodes, small-scale power buffering for workshops, and temporary power supply setups during renovation or relocation. In addition, it can be applied in energy-sharing environments and auxiliary storage for renewable installations, helping users maintain consistent electricity availability in flexible and space-limited situations.
The Home Lithium Iron Phosphate Battery 10kWh stacked energy storage system is suitable for vacation houses and seasonal residences, ensuring stable electricity when the property is not occupied regularly.
It can be used in mobile housing setups, temporary accommodation, or relocation periods where a reliable and independent power source is required.
The system supports light-duty workshops, garages, and utility rooms by providing backup energy for tools, lighting, and essential equipment.
It can function as a localized energy storage unit in small distributed systems, helping balance power usage in limited-scale setups.
The system is also applicable in solar-assisted environments and shared energy configurations, improving energy availability in compact or adaptable installations.
We're committed to providing prompt, professional support to ensure your energy needs are always met with the highest level of service.
Reply within 24 hours
24 hours telephone supportCopyright © 2025 voltalinkbattery Co., Ltd.
Please input the email
submission successfully
Recently, a severe infringement and fraud issue has caught our attention. A FAKE application with a FAKE logo, a FAKE website https://www.voltalinkbatteryinvest.com/ and even FAKE videos under the name of voltalinkbatteryare now spreading all over India, attempting to seduce people to invest money in energy storage systems by using a FAKEvoltalinkbattery logo and real voltalinkbattery products photos.
It's obvious that they are looting money by using a FAKEvoltalinkbattery brand and have seriously violated the intellectual property rights of voltalinkbattery.
voltalinkbattery shall spare no efforts and no costs to go against the violation by all means legally before more people get deceived.
Got it
