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Features:

  • Stacked movable design for easier installation and smaller landscape
  • Safe & Reliable LiFePO4 solar battery energy storage
  • The intelligent BMS system adopts the latest battery communication system.
  • Flexible investment with 5.12kWh modular design, scalable from 10.24kWh to 50kWh.
  • Reduce electricity bills and increase your energy needs for electrical self-sufficiency.

Why It Stands Out ⚡

Benefit What It Means to You
Stack‑and‑Go Design Tool‑less stacking cuts install time by 40 % and saves floor space.
Grade‑A LiFePO₄ Chemistry >6,000 cycles @ 80 % DoD; no thermal‑runaway worries, indoor‑safe.
Hybrid Inverter Inside Auto‑switches among PV, grid & battery; seamless UPS‑class backup in < 10 ms.
Built‑in Smart BMS Balances cells, logs data, supports RS485/RS232/CAN for EMS/cloud.
10‑Year Warranty Bankable performance with CE, UL, UN38.3, IEC & ISO certificates.
Scalable to 50 kWh Parallel up to 9 additional 5.12 kWh packs without extra combiner boxes.

 Technical Specifications 🔧

Parameter Value
Usable Capacity 5.12 kWh
Nominal Voltage 51.2 V
Rated Capacity 100 Ah
Cell Chemistry Lithium Iron Phosphate (LiFePO₄)
Dimensions (Battery / Inverter) 588 × 430 × 195 mm / 588 × 310 × 195 mm
Weight (Battery / Inverter) 50 kg / 15 kg
Parallel Support Up to 10 packs (50 kWh)
Charge Current (Std / Max) 0.2 C / 1 C @ 25 °C
Discharge Current (Std / Max) 0.5 C / 0.6 C @ 25 °C
Operating Temp (Charge / Discharge) 0 – 50 °C / –20 – 55 °C
Comms Ports RS485 · RS232 · CAN
Certifications CE · UL · MSDS · IEC · UN38.3 · ISO
Warranty 10 years

Inverters Compatible

Hybrid inverter brand compatibility for LiFePO4 solar storage batteries

Ideal Applications 🏥🏭🏠

  • Hospitals & Clinics – zero‑downtime backup for critical equipment
  • Bank & Data Centers – stable DC bus for sensitive IT loads
  • Wall‑Mounted Homes – self‑consumption & peak‑shaving for villas/apartments
  • Enterprise Backup – UPS replacement for SMB offices & retail chains
  • Wind‑Solar Hybrid Sites – smooth intermittent generation, remote telecom/base stations
  • Military & Emergency Camps – silent, diesel‑free microgrids
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Frequently Asked Questions ❓

Q1 : How long can one 5.12 kWh pack power my home?
A typical home load of 1 kW can run for about 5 hours; stack more packs for longer autonomy.

Q2 : Can I retrofit this to an existing PV array?
Yes—the hybrid inverter accepts PV input up to 6 kW and AC‑couples to your current panel.

Q3 : What happens during a blackout?
Switch‑over to battery takes < 10 ms—lights and routers stay on without flicker.

 

Buyer notes and project fit

A battery-inverter bundle can reduce matching risk, but buyers still need to check backup loads, transfer behavior, solar input, protection settings, and whether the system is designed for daily cycling or emergency use.

For system planning, compare Home Energy Storage, Solar Inverter, Solar Panel, and the Buyer Resources hub. For quotation support, send the load profile, inverter model, installation site, and target market through the Contact page.

For a visible comparison table that connects every product path, use the Battery Storage Product Selection Guide and the trust and compliance buyer guide.

For supplier capability, OEM/ODM support, documentation workflow, and after-sales coordination, review the SolarStorageHub Company Capability and Service Support Guide.

Related buyer guides: hybrid inverter compatibility checklist lifepo4 home batteries and solar battery installation step by step guide. External reference: U.S. Department of Energy energy storage basics.

Checks before ordering

  • List essential loads before choosing backup runtime.
  • Confirm inverter AC output and surge behavior.
  • Check BMS communication and default protection settings.
  • Keep commissioning screenshots for warranty and support.

Before confirming backup loads, review the Home Battery Backup Transfer Time Checklist for EPS output, motor starting current, low-SOC behavior, and controlled outage testing.

For installation acceptance, use the Hybrid Solar Inverter Commissioning Checklist to verify CT direction, export control, battery protocol, time-of-use settings, and backup operation.

For projects exposed to winter temperatures, use the LiFePO4 Cold-Weather Charging Checklist to confirm BMS cut-off, battery heating, enclosure conditions, and recharge testing.

For an existing solar retrofit, use the AC-Coupled vs DC-Coupled Home Battery Retrofit Checklist to review backup operation, export control, inverter limits, and warranty responsibilities.

Product FAQ

Can a 5kWh system run a whole house?

Usually it is better for essential loads. Whole-home backup depends on inverter power and the load list.

Why buy battery and inverter together?

A matched bundle can reduce communication and setup risk when the supplier has tested the pairing.

What should be tested during installation?

Test transfer mode, load behavior, charging, discharge limits, alarms, and emergency shutdown.

For a cleaner quotation request, prepare project details with the Solar Battery RFQ Checklist.

Start a new green zero-carbon life today

For additional specifications, please get in touch with us. We are committed to providing comprehensive service