There are five reasons why you should choose our batteries.
Long Service Life, Maintaining over 80% Capacity after 500-600 Charge and Discharge Cycles
We use top-tier battery cells from reputable brands known for their high consistency. Each batch of battery cells undergoes rigorous inspection to ensure minimal deviation in battery capacity (≤50mAh), voltage (≤0.04V), and internal resistance (≤35mΩ).
Every shipment of battery cells undergoes stringent testing for capacitance, internal resistance, edge voltage, and static performance.
Extended Standby Time
We employ a pure lithium cobalt oxide material system, achieving an impressive energy density of up to 350Wh/Kg. This material system outperforms ternary and lithium manganate in terms of capacity retention.
The key components of our battery core and protection board undergo strict quality control. The battery core’s K-value is maintained at 0.08mV/h. The protection board is subjected to comprehensive self-consumption power testing, ensuring static power consumption remains under 100μA.
Suitable for Extreme Temperatures, Operational from -20°C to 60°C
Our batteries feature a low-temperature-resistant electrolyte, ensuring consistent conductivity even in extreme cold without rapid capacity decay. Additionally, our positive and negative electrode materials employ high-temperature-resistant coating technology for stability in high-temperature conditions.
To minimize temperature rise during high-power operation, our protection board uses low-internal-resistance MOS devices and gold plating technology for connector connections.
Robust Stability, Accurate Power Display with No Unexpected Shutdowns
We employ high-precision fuel gauge IC and high-current MOS IC, backed by multi-level filtering and ESD protection measures.
TI’s impedance tracking adaptive algorithm allows accurate prediction of battery characteristics’ aging over time. High-precision connectors are manufactured using a 3μ gold plating process.
Our cell tabs utilize 8-welding point laser spot welding technology, which ensures reliability, low internal resistance, and stable power supply compared to alternative resistance welding and 4-point welding methods.
High Safety Performance, Minimal Bulge Risk even in Puncture or Scratch Incidents
Our battery cores have ceramic separators, while the positive and negative electrode materials incorporate coating technology. The electrolyte supports original fast-charging functionality, guaranteeing safe and reliable use.
The protection board includes multiple safety mechanisms, such as overcharge protection, over-discharge protection, over-current protection, short-circuit protection, high and low-temperature protection, anti-reverse connection protection, and electrostatic protection.