| Model | 4820KN |
| Capacity | 20Ah |
| Voltage | 48V |
| Energy | 960Wh |
| Cell Type | LiMn2O4 |
| Configuration | 1P13S |
| Charge Method | CC/CV |
| Charge Voltage | 54.5±0.2V |
| Standard Charge Current | 4A |
| Max. Charge Current | 10A |
| Max. Continuous Discharge Current | 18A |
| Dimensions(L*W*H) | 302*202*99mm |
| Weight | 7.5±0.5Kg |
| Cycle Life | 600 times |
| Monthly Self-discharge Rate | ≤2% |
| Charge Temperature | 0℃~45℃ |
| Discharge Temperature | -20℃~45℃ |
| Storage Temperature | -10℃~40℃ |
High Energy Density: Manganese-lithium battery packs have a higher energy density, allowing them to store more power in a compact space. Therefore, EVs equipped with these battery packs can enjoy greater range.
Long Lifespan: Lithium manganese batteries are known for their impressive durability as they can withstand numerous charge and discharge cycles without any loss of performance. This feature effectively reduces the need for frequent battery replacements, saving users time and money.
Fast Charging: The manganese-lithium battery module adopts fast charging technology, which can be charged quickly, so as to quickly replenish the power. This feature significantly increases the convenience of using an electric vehicle.
Lightweight Design: Manganese-lithium batteries help reduce the overall weight of electric vehicles, improving suspension performance, enhancing handling and increasing efficiency.
High-Temperature Stability: Manganese-lithium batteries have excellent heat resistance, reducing the possibility of safety issues due to overheating. This quality makes them suitable for use in different climatic conditions.
Low Self-Discharge Rate: Due to the low self-discharge rate, manganese-lithium battery packs retain their charge even when they are not used for long periods of time. This feature significantly extends battery availability.
Eco-Friendly Characteristics: Manganese-lithium batteries are known for their environmental friendliness and role in minimizing the environmental impact of electric vehicles. These batteries have fewer harmful substances in their components, helping to reduce the ecological footprint associated with electric transportation.