What Makes the 36V 50Ah OEM LiFePO4 Battery a Powerhouse Choice?
The 36V 50Ah OEM LiFePO4 battery is a lithium iron phosphate (LiFePO4) battery designed for high-performance applications. With a 36-volt output and 50Ah capacity, it delivers 1.8 kWh of energy, making it ideal for electric vehicles, solar storage, and industrial equipment. Its OEM design ensures customizable integration, while LiFePO4 chemistry offers safety, longevity (2,000–5,000 cycles), and thermal stability.
72V 200Ah LiFePO4 Golf Cart Battery
What Are the Key Specifications of the 36V 50Ah LiFePO4 Battery?
The 36V 50Ah LiFePO4 battery operates at a nominal voltage of 36V with a 50Ah capacity, providing 1.8 kWh of energy. It typically weighs 12–15 kg, making it lighter than lead-acid alternatives. Charging voltage ranges between 42–44V, and it supports continuous discharge currents up to 100A. Operating temperatures span -20°C to 60°C, ensuring reliability in extreme conditions.
| Parameter | Value |
|---|---|
| Energy Capacity | 1.8 kWh |
| Peak Discharge | 150A (5-sec pulse) |
| Cell Configuration | 12S1P (12 cells in series) |
How Does LiFePO4 Chemistry Enhance Battery Performance?
LiFePO4 chemistry provides superior thermal stability, reducing fire risks. It offers a flat discharge curve, maintaining consistent voltage until 90% depletion. With a cycle life of 2,000–5,000 charges, it outperforms NMC and lead-acid batteries. Its low self-discharge rate (3% monthly) and high round-trip efficiency (95–98%) make it ideal for long-term energy storage and frequent cycling.
72V 100Ah Golf Cart Lithium Battery
Which Applications Benefit Most from This Battery?
This battery excels in electric mobility (e-bikes, scooters), renewable energy storage (solar/Wind), marine systems, and industrial equipment like AGVs. Its high discharge rate suits power tools, while OEM flexibility allows integration into medical devices, telecom backup, and UAVs. Lightweight design and durability also make it popular for RV and off-grid power solutions.
What Safety Features Are Built into OEM LiFePO4 Batteries?
Built-in protections include Battery Management Systems (BMS) for overcharge/over-discharge prevention, temperature monitoring, and short-circuit protection. LiFePO4’s inherent resistance to thermal runaway minimizes explosion risks. OEM designs often add IP65 waterproofing, shock-resistant casings, and cell balancing to ensure stable performance in harsh environments.
Advanced safety architectures include multi-layer redundancy in BMS programming. For example, dual MOSFETs isolate the battery during voltage spikes, while distributed temperature sensors prevent localized overheating. Some OEM versions integrate flame-retardant separators between cells and self-sealing terminals to contain internal faults. These features are critical for mission-critical applications like emergency medical equipment or underwater robotics, where failure isn’t an option.
How Does Customization Enhance OEM Battery Integration?
OEM customization allows tailoring dimensions, terminal types, and communication protocols (CAN, RS485) to fit specific devices. Manufacturers adjust BMS settings, voltage thresholds, and discharge profiles to match application needs. Custom branding, wiring harnesses, and mounting brackets ensure seamless compatibility with existing systems, reducing retrofitting costs.
For instance, an electric forklift manufacturer might request a low-profile battery with M8 bolt terminals and a CANbus interface to sync with their vehicle’s dashboard. Custom firmware could prioritize rapid charging during lunch breaks while limiting discharge rates to 80A for motor longevity. Another example is solar storage systems, where OEMs optimize charge algorithms for local weather patterns, extending lifespan in humid or arid climates. Such tailored solutions accelerate product development cycles by 30–50% compared to off-the-shelf alternatives.
“The 36V 50Ah LiFePO4 battery is a game-changer for OEM applications. Its energy density and cycle life outperform traditional options, while the modular design allows scalability. At Redway, we’ve seen a 40% surge in demand from solar integrators and EV manufacturers—proof that reliability and customization drive industry adoption.” — Redway Power Engineer
Why Is This Battery More Eco-Friendly Than Alternatives?
LiFePO4 batteries contain no toxic lead or cobalt, reducing environmental hazards. Their 10+ year lifespan minimizes waste, and 99% recyclability ensures materials like lithium, iron, and phosphate are reclaimed. Energy-efficient production and zero emissions during use further lower their carbon footprint compared to lead-acid or NMC batteries.
FAQs
- Can This Battery Be Used in Parallel or Series Configurations?
- Yes, OEM LiFePO4 batteries support parallel (for increased capacity) and series (for higher voltage) connections, provided the BMS is configured to handle balancing.
- What Is the Average Lifespan in High-Drain Applications?
- In high-drain uses like EVs, expect 2,000–3,000 cycles (80% capacity retention). For solar storage with moderate cycling, lifespan extends to 5,000+ cycles.
- Does Temperature Affect Charging Efficiency?
- Charging below 0°C requires low-temperature protection to prevent lithium plating. Optimal charging occurs at 10°C–45°C, where efficiency exceeds 95%.