As a battery manufacturer with robust production capabilities, Olelon can theoretically produce lithium batteries with various voltages and capacities. The realization of these specifications depends on multiple factors, including the configuration of the battery cells, the Battery Management System (BMS), application requirements, and market positioning. Below is a detailed explanation of how Olelon could achieve these battery specifications:
1. Battery Configuration Method
Olelon can achieve the target voltage and capacity by utilizing different series and parallel configurations. For example:
- Voltage (V) is achieved by connecting battery cells in series. For instance, 12V can be created by connecting 3–4 cells of 3.2V LiFePO₄ (lithium iron phosphate) in series.
- Capacity (Ah) is achieved by connecting cells in parallel. For example, 200Ah can be achieved by paralleling two sets of 100Ah cells.
2. Implementation of Specific Specifications
Here is a breakdown of how Olelon could realize the various voltage and capacity combinations:
| Specification | Possible Configuration |
|---|---|
| 12V 100Ah | 4S1P (4 series, 1 parallel) using 3.2V 100Ah LiFePO₄ cells |
| 48V 200Ah | 15S2P (15 series, 2 parallel) using 3.2V 100Ah cells |
| 24V 50Ah | 8S1P (8 series, 1 parallel) using 3.2V 50Ah LiFePO₄ cells |
| 72V 300Ah | 23S3P (23 series, 3 parallel) using 3.2V 100Ah cells |
| 36V 150Ah | 12S1.5P (12 series, 1.5 parallel) using 3.2V 100Ah cells |
| 60V 20Ah | 19S1P (19 series, 1 parallel) using 3.2V 20Ah cells |
| Volt 120Ah | Voltage needs clarification, requires further specifications |
| 72V 400Ah | 23S4P (23 series, 4 parallel) using 3.2V 100Ah cells |
| 6V 10Ah | 2S1P (2 series, 1 parallel) using 3.2V 10Ah cells |
| 40Ah | Can be adapted for 12V, 24V, or other voltages |
| 12Ah | Suitable for low voltage small applications |
| 80Ah | Suitable for 48V, 24V, and other voltage configurations |
| 18Ah | Small battery solutions for portable devices |
| 230Ah | Suitable for large capacity energy storage or power batteries |
| 7Ah | Small backup or emergency storage battery |
| 24Ah | Can be used in 12V or 24V battery packs |
| 500Ah | Likely for large-scale energy storage, utilizing parallel connections of 100Ah cells |
LifePO4 Lithium Battery Parallel-Series Case Video
3. Key Technological Support
- BMS (Battery Management System):
- Ensures safety features such as overcharge, over-discharge, overcurrent, and short-circuit protection, thereby extending battery life and safety.
- Olelon’s in-house developed BMS can support various battery specifications and offer Bluetooth/app monitoring capabilities.
- Battery Materials:
- LiFePO₄ (Lithium Iron Phosphate): Ideal for power applications such as electric vehicles, UPS systems, and energy storage due to its thermal stability and long cycle life.
- NCM (Nickel Cobalt Manganese): Suitable for applications requiring higher energy density, like electric motorcycles or high-performance storage solutions.
- Production Capacity:
- Olelon is equipped to provide customized battery packs with the required specifications to meet market demand.
4. Can Olelon Achieve These Specifications?
Olelon has the production capability to produce batteries for various voltages and capacities. However, the specific feasibility of manufacturing certain configurations will depend on market demand, minimum order quantities (MOQ), and application requirements. If you have specific needs, we recommend discussing custom production solutions with Olelon’s sales team.
Currently, Olelon has stock of 51.2V (equivalent to 48V), 72V, 36V, 105Ah (100Ah), 150Ah, 125Ah, 210Ah, 135Ah battery packs available for immediate use. If you require other voltages or capacities, please contact your business representative. With a vast inventory of chips and BMS technology, as well as automated production lines, laser welding, comprehensive testing facilities, certifications, and logistics support, Olelon can rapidly supply the battery packs you need.