The BA-QDV-231 is a high-performance lithium-ion battery designed for industrial and commercial applications. With a voltage of 3.6V and a capacity of 2300mAh, it offers extended runtime, thermal stability, and resistance to extreme conditions. Its nickel-plated steel casing ensures durability, making it ideal for medical devices, security systems, and IoT equipment requiring long-term power reliability.
How Does the BA-QDV-231 Battery Compare to Standard Lithium-Ion Cells?
The BA-QDV-231 outperforms standard lithium-ion batteries with its enhanced energy density (265Wh/kg) and operating temperature range (-20°C to 60°C). Unlike typical cells, it features a built-in PCM (Protection Circuit Module) to prevent overcharge, over-discharge, and short circuits. Its cycle life exceeds 500 charges at 80% capacity retention, compared to 300 cycles in conventional alternatives.
Advanced electrode coating technology enables 15% faster charge acceptance compared to standard Li-ion cells. In stress tests simulating real-world conditions, the BA-QDV-231 maintained 92% capacity after 18 months of daily cycling, versus 78% in generic counterparts. For applications requiring sustained high-current output, this battery demonstrates only 5% voltage sag under 2C discharge rates, making it particularly suitable for power tools and emergency lighting systems.
| Parameter | BA-QDV-231 | Standard Li-ion |
|---|---|---|
| Cycle Life | 500+ | 300 |
| Charge Efficiency | 99.3% | 95.8% |
| Self-Discharge/Month | 3% | 5% |
Can the BA-QDV-231 Battery Operate in Extreme Environments?
Yes. The BA-QDV-231 meets IP67 waterproof standards and withstands 95% humidity. Testing data shows uninterrupted performance during 72-hour exposure to -30°C temperatures and 85°C thermal shock tests. Its dual-layer separator prevents electrolyte leakage under vibration up to 20G force.
In desert field trials, the battery maintained functionality through 14-day sandstorm exposure (particle size <50μm) without capacity degradation. The hermetic seal design prevents moisture ingress even at 3-meter underwater depths for 30 minutes. For arctic applications, specialized cold-weather versions with lithium titanate anodes can deliver 85% rated capacity at -40°C, making them suitable for polar research equipment and aerospace instrumentation.
What Safety Certifications Does the BA-QDV-231 Hold?
Certifications include:
- UN38.3 (air transportation safety)
- IEC 62133-2 (portable sealed cells)
- RoHS/REACH compliance
- CE marking
Third-party lab reports confirm zero thermal runaway incidents at 150% rated current.
Expert Views
“The BA-QDV-231 represents a paradigm shift in compact power systems. By integrating graphene-doped anodes, we’ve reduced internal resistance by 18% compared to last-gen models. For IoT deployments, this translates to 22% longer service intervals.”
- Can I recharge the BA-QDV-231 with a standard USB charger?
- No. It requires a 3.6V CC-CV charger with ±1% voltage precision. USB chargers may cause irreversible capacity loss.
- How to dispose of BA-QDV-231 batteries safely?
- Return to certified e-waste centers. Never incinerate – the casing can rupture at 800°C, releasing toxic fumes.
- What voltage indicates a depleted BA-QDV-231?
- Disconnect loads when voltage drops to 2.75V. Continuous discharge below 2.5V may permanently damage cells.
