As the demand for New Energy Vehicles (NEVs) continues to rise, manufacturers face the critical task of selecting the most suitable battery to power their vehicles. The battery plays a crucial role in determining the performance, efficiency, and overall driving experience of an NEV. In this blog, we will explore the key factors that NEV manufacturers should consider when selecting a battery, with a focus on the EVE LF32 battery. With its impressive specifications and suitability for NEVs, this prismatic lithium ion battery from EVE is a prime example of a battery that meets the demanding requirements of modern electric vehicles.
Energy Density and Weight
Energy density refers to the amount of energy stored in a battery per unit weight. NEV manufacturers value batteries with high energy density as they provide greater driving range without compromising on weight. The EVE LF32 battery, weighing 725±50g, offers an excellent balance between energy density and weight, allowing NEVs to achieve optimal performance and efficiency while maintaining a reasonable overall vehicle weight.
Low Internal Resistance
Internal resistance is a crucial parameter that affects the efficiency and power output of a battery. A low internal resistance ensures minimal energy loss during charging and discharging processes, allowing for efficient energy transfer and higher power delivery. The EVE LF32 battery boasts an impressively low internal resistance of ≤1.5mΩ, enabling it to deliver power efficiently and effectively, resulting in improved acceleration and performance for NEVs.
Capacity and Voltage
The capacity and voltage of a battery determine its energy storage capabilities and the power it can deliver. The EVE LF32 battery offers a nominal capacity of 32Ah and a nominal voltage of 3.2V. This combination provides ample energy storage to support the demanding energy requirements of NEVs, ensuring extended driving range and reliable performance.
