|Place of Origin:||China|
|Minimum Order Quantity:||10|
|Packaging Details:||wooder for outside package|
|Delivery Time:||sample within 7-10days ,mass production around 20-25days|
|Supply Ability:||300 PCS / day|
|Charge Ending Voltage:||4.4V|
50ah 3.7v Capacity Rechargeable Li - Polymer Battery For Electric Vehicle
|1||Nominal Capacity||50Ah, 0.5C discharging|
|2||Typical Capacity||51.2Ah, 0.5C discharging|
|3||Minimum Capacity||50Ah, 0.5C discharging|
|5||Charge Ending Voltage||4.4V|
|25±2℃, 0.5C constant current charge to 4.4V, then constant voltage
4.4V charge till charged current declines to ≤ 0.05C
1.We’ve build a complete lithium industry chain, including lithium battery material, battery cell, BMS, battery pack to battery recycling.
2.The vertical setting enables our cost more competitive, production more stable, will not affected by out sourcing pressure.
3.Soundon also extend to industry to EV application, producing motor, controller,and owing the e-car sale company.
4. It’s cloud platform can on time track the battery status and some ESS system status which ensure good monitor of sold product.
Lithium Battery cells Manufacturing Process
Lithium battery requires highly strict and complex manufacturing techniques and technologies that mainly comprise the following steps.
1. Paste Mixing:
This process involves mix of battery paste additives to produce active positive and negative electrode materials under high-speed stirring in a mixing machine.
2. Electrode Coating
The active electrode materials are evenly applied to both sides of metallic foils. The coated foils are then dried and baked before proceeding to the cutting machine .
The assembly process mainly consists of casting anode and cathode plates and placing a separator between the anode and the cathode. There are two different electrode structures used depending on the types of casing, a stacked structure for prismatic cells and a spiral wound structure for cylindrical cells.
4. Prismatic Cells
If a slim pack is desired, prismatic cells are often used to optimize the use of space for high capacity battery applications.
Once the assembly is completed, each cell has to be put through at least one precisely controlled charge/discharge cycle to activate the materials, transforming them into their useable form.