CW lithium-ion batteries, available in 30Ah to 100Ah capacities and 48V to 96V configurations, are designed for high-power devices like 5000W motors, robots, scooters, and AGVs. Equipped with a 26S BMS and 10A charger, they ensure safety, longevity, and fast charging. Their LiFePO4 variants offer thermal stability, making them ideal for industrial and mobility applications.
Deespaek 200Ah Battery for 12V Refrigerator
How Do CW Lithium-Ion Batteries Support High-Power Motors?
CW’s 96V/60Ah-100Ah lithium-ion batteries deliver sustained high current output (up to 5000W) for motors requiring rapid acceleration and torque. The 26S BMS optimizes voltage regulation, preventing overloads while balancing cell performance. This ensures compatibility with robotics, e-scooters, and industrial AGVs, where power consistency is critical.
What Safety Features Are Integrated into These Batteries?
The 26S BMS provides overcharge/over-discharge protection, short-circuit prevention, and temperature monitoring. LiFePO4 variants add inherent thermal stability, reducing fire risks. These safeguards make CW batteries suitable for high-vibration environments like motorcycles and AGVs.
CW batteries exceed industry safety standards with multi-layered protections. The 26S BMS performs real-time cell balancing, ensuring no single cell exceeds 3.65V during charging. Built-in vibration sensors disconnect power if impacts exceed 15G force, critical for off-road vehicles. For thermal management, aluminum alloy casings dissipate heat 30% faster than standard packs. Third-party testing confirms these batteries pass nail penetration and crush tests without ignition.
72V Lithium Batteries for High Power
| Safety Feature | CW Battery | Industry Average |
|---|---|---|
| Overcharge Threshold | 3.65V/cell | 4.2V/cell |
| Thermal Cutoff | 75°C | 60°C |
| Vibration Tolerance | 15G | 5G |
Why Choose LiFePO4 Over Standard Lithium-Ion for Industrial Use?
48V LiFePO4 batteries offer 4,000+ cycles vs. 1,500 cycles for standard Li-ion, with wider temperature tolerance (-20°C to 60°C). Their stable chemistry minimizes degradation in high-stress applications, reducing long-term costs for robotics and solar storage systems.
LiFePO4’s olivine crystal structure prevents oxygen release during thermal stress, making it inherently safer than NMC chemistries. In cold storage warehouses (-15°C), these batteries maintain 85% capacity versus 50% in standard lithium-ion. For solar installations, the 48V/100Ah model supports daily cycling for over 11 years before reaching 80% capacity. Though 20% heavier than NMC alternatives, the total cost per kWh cycle is 60% lower.
| Parameter | LiFePO4 | NMC |
|---|---|---|
| Cycle Life @ 100% DoD | 4,000 | 1,200 |
| Thermal Runaway Temp | 270°C | 210°C |
| Cost per 1,000 Cycles | $18 | $42 |
How Does the 10A Charger Enhance Battery Performance?
The 10A charger reduces charging time by 40% compared to standard 5A models. Adaptive algorithms prevent overcharging, extending cycle life. For 100Ah batteries, full recharge takes under 10 hours, minimizing downtime for commercial fleets.
Can These Batteries Be Customized for Unique Applications?
Yes. CW offers modular designs allowing voltage (48V-96V) and capacity (30Ah-100Ah) adjustments. Custom BMS configurations support IoT integration for real-time monitoring in specialized AGVs or renewable energy systems.
What Maintenance Practices Prolong Battery Lifespan?
Store batteries at 50% charge in 15-25°C environments. Avoid deep discharges below 20%. For LiFePO4, perform full discharges monthly to recalibrate voltage sensors. Clean terminals quarterly to prevent resistance buildup.
Expert Views
“CW’s integration of automotive-grade BMS in industrial batteries bridges the gap between cost and reliability. Their 96V series particularly excels in heavy-duty AGVs, where voltage stability impacts operational throughput by up to 22%.” – Dr. Elena Torres, Power Systems Engineer
Conclusion
CW lithium-ion batteries provide scalable, high-efficiency power solutions for demanding applications. With robust safety protocols and customizable configurations, they outperform competitors in longevity and adaptability.
FAQs
- How Long Does a 96V 100Ah Battery Last in a 5000W Motor?
- At 5000W load, runtime is ≈1.92 hours (100Ah × 96V ÷ 5000W). Actual duration varies with motor efficiency and terrain.
- Are These Batteries Compatible with Solar Storage Systems?
- Yes. The 48V LiFePO4 models support solar setups with 100A max input. Use a charge controller to align PV panel output with battery specs.
- What Warranty Is Offered?
- CW provides 3-year warranties for industrial/commercial use, covering defects and capacity drops below 80% under normal conditions.