EVE 3.2V 150Ah LF150 LFP Battery Cell: High-Capacity Power for Energy Storage & EVs
Product Introduction
The EVE 3.2V 150Ah LF150 LFP Battery Cell is a premium lithium iron phosphate (LFP) prismatic cell engineered by EVE for large-scale energy storage systems, electric vehicles (EVs), and critical backup power applications. Leveraging LFP’s inherent safety, exceptional cycle life, and EVE’s advanced manufacturing, this battery cell supplies a nominal 3.2V voltage, 150Ah capacity, and 483Wh of energy—all while supporting rapid charging (2C instantaneous) and enduring extreme temperatures. Whether powering commercial solar farms, heavy-duty EV fleets, or data center backups, the EVE 3.2V 150Ah LF150 LFP Battery Cell ensures reliable, efficient, and long-lasting energy for demanding use cases.
Technical Specifications
| Parameter | Details |
|---|---|
| Model Name | LF150 |
| Nominal Voltage | 3.2V |
| Nominal Capacity | 150Ah |
| End-of-Charge Voltage | 3.65V |
| Nominal Energy | 483Wh |
| Maximum Instantaneous Charging Current | 2C (30s, ≤80% SOC, 25℃±2℃) |
| Maximum Continuous Discharging Current | 1C (150A, 25℃±2℃) |
| Initial Internal Resistance | 0.40 mΩ±0.05 mΩ |
| Cycle Life | 4000 cycles (≥80% capacity retention) |
| Weight | 2830g±84g |
| Dimensions (L×W×H) | 200.7±0.5mm × 33.25±0.5mm × 207.0±0.5mm |
| Operating Temperature | Charging: 0~55℃; Discharging: -20~60℃ |
| Safety Certifications | UN38.3, IEC62619 (compliant) |
Core Features
1. LFP Safety & Longevity
The EVE 3.2V 150Ah LF150 LFP Battery Cell uses lithium iron phosphate (LFP) chemistry to deliver:
- Zero Thermal Runaway Risk: LFP’s stable cathode eliminates fire/explosion hazards, making this cell ideal for residential energy storage, school backup systems, or EV fleets where safety is critical.
- 4000+ Cycle Lifespan: Maintains ≥80% capacity after 4000 cycles, reducing total cost of ownership for long-term projects like utility-scale solar farms or multi-year EV deployments.
2. High Power & Energy Density
Engineered for performance:
- 150Ah Capacity + 483Wh Energy: Powers commercial energy storage (e.g., peak shaving for factories) or heavy-duty EVs (e.g., electric buses, trucks) with extended runtime.
- 2C Instantaneous Charging: Accepts 300A charge pulses for 30 seconds—perfect for fast-charging EV stations or grid stabilization during peak demand.
3. Prismatic Design for Modular Integration
With a prismatic form factor (200.7×33.25×207.0mm):
- Efficient System Assembly: Simplifies integration into large battery banks (e.g., containerized storage, EV chassis) with uniform sizing and easy wiring.
- Space Optimization: Maximizes energy density in tight spaces, ideal for urban energy storage facilities or EVs with compact battery compartments.
4. Low Resistance & Temperature Resilience
For reliable operation:
- 0.40mΩ Internal Resistance: Minimizes power loss during charging/discharging, boosting efficiency for high-current applications (e.g., EV acceleration, industrial motors).
- -20~60℃ Discharge Range: Operates in cold climates (-20℃) or hot industrial sites (60℃), suitable for outdoor renewable systems or heavy machinery in extreme environments.
Application Scenarios
The EVE 3.2V 150Ah LF150 LFP Battery Cell powers:
- Industrial Energy Storage: Grid-tied systems for peak shaving, microgrids for factories, or solar/wind integration requiring high capacity and safety.
- Electric Vehicles (EVs): Heavy-duty EVs (buses, trucks, construction equipment) needing long range, rapid charging, and durable power.
- Critical Infrastructure Backup: Data centers, hospitals, or telecom towers relying on reliable, long-duration backup during outages.
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