51.2V200AH 10.24kWh Powerwall /floor standing Lithium battery Home enegy storage battery 48V LiFePo4 battery
Product Description
CBB 51.2V 200Ah Lithium Battery is a high-capacity energy storage solution, typically using Lithium Iron Phosphate (LiFePO4) chemistry. It delivers approximately 10.24 kWh of total energy (51.2V × 200Ah). These batteries are commonly used as "Powerwalls" or server rack modules for residential solar storage, off-grid power, and telecommunications backup.
Core Features
• Intelligent BMS: Built-in Battery Management System protects against overcharging, deep discharge, short circuits, and overheating.
• Scalability: Most models allow parallel connection of up to 15 or 32 units, enabling total capacities exceeding 300kWh for larger residential or light industrial needs.
• Inverter Compatibility: Designed to communicate with popular hybrid inverters like Deye, Victron Energy, Growatt, and Solis via RS485 or CAN protocols.
• Monitoring: Often includes an integrated LCD touchscreen or Wi-Fi module for real-time tracking of State of Charge (SOC), voltage, and health.
Key Technical Specifications
Most units with these specs share the following baseline characteristics:
Nominal Energy: 10.24 kWh (calculated as).
Chemistry: LiFePO4 (LFP), known for its safety, thermal stability, and long cycle life compared to standard lithium-ion.
Common Applications
• Residential Backup: Powering a 3–5 bedroom home's essential loads (fridge, lights, AC) during a grid failure.
• Solar Self-Consumption: Storing excess solar energy generated during the day for use at night to reduce electricity bills.
• Off-Grid Systems: Serving as the primary energy source for remote cabins or kiosks.
Cycle Life: typically 6,000 to 8,000+ cycles at 80% Depth of Discharge (DOD), translating to a 10–15 year lifespan.
Mounting: Wall-mounted or floor-standing designs to save space.
Weight: approximately 87kg (191 lbs)
Common Applications
• Residential Backup: Powering a 3–5 bedroom home's essential loads (fridge, lights, AC) during a grid failure.
• Solar Self-Consumption: Storing excess solar energy generated during the day for use at night to reduce electricity bills.
• Off-Grid Systems: Serving as the primary energy source for remote cabins or kiosks.