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OEM (Original Equipment Manufacturer) is a process in which a company produces products that are sold under the brand name of another company. Haisic can be customized lithium iron phosphate (LiFePO4) batteries to meet the specific needs of the customer.
Choosing the right OEM (Original Equipment Manufacturer) for your LiFePO4 lithium-ion battery can be a critical decision, as it can impact the quality and reliability of your product.
Here are some advantages to choosing Haisic as an OEM LiFePO4 lithium-ion battery manufacturer:
Experience and expertise: Haisic with extensive experience and expertise in producing LiFePO4 lithium-ion batteries. And have a deep understanding of battery chemistry, design, and production processes.
Quality control: Haisic has a robust quality control system in place to ensure that each battery meets the required specifications and is safe and reliable.
Certifications: Haisic has relevant certifications, such as ISO 9001, ISO 14001, or UL certification. These certifications demonstrate that Haisic has established processes and systems to ensure quality and safety.
Customization capabilities: Haisic can customize the battery to meet your specific requirements. This includes factors such as voltage, capacity, discharge rate, and size.
Cost: The cost of the battery is also an important factor to consider. We ensure the cost is reasonable and competitive.
Communication and support: Haisic provides excellent communication and support throughout the process. This includes timely responses to inquiries, regular updates on production and delivery schedules, and prompt resolution of any issues that may arise.
By considering these factors, you can choose Haisic which will provide high-quality, reliable, and cost-effective batteries that meet your specific requirements.
While B-grade LiFePO4 batteries may have dings, dents, and other small flaws, C-grade LiFePO4 batteries exhibit clear evidence of use and do not appear to be brand new. A-grade LiFePO4 batteries often do not appear to be defective.
A-grade battery batteries are generally used by the battery factory to place orders directly to the LiFePO4 battery factory, which arranges production according to the factory's production capacity and technical capability, and finally makes the battery and delivers it to the customer after a series of battery manufacturing processes.
The amount of energy stored in a given space is described by energy density. This appears to be a disadvantage when compared to Lithium batteries, as it implies that LiFePO4 batteries must be slightly larger to hold the same amount of energy as standard Lithium-ion batteries. However, in most cases, the extra storage space is well worth it. The lower the cell density, the less volatile the cell.
In the field of solar lighting and energy storage, lithium batteries have gradually replaced traditional batteries to become the market's new mainstream in the last two years. In comparison to traditional lead-acid and gel batteries, lithium batteries have a higher working voltage, a higher energy density, a lower self-discharge rate, and no memory effect. The lithium battery that we developed independently is primarily used to complement solar energy storage systems, whether the LiFePo4 battery for solar storage is a household power supply system or a commercial power supply system.
LiFePO4 batteries are also significantly lighter. They are typically one-third to one-half the weight of a lead-acid battery. Because two or three LiFePO4 batteries equal the weight of one lead-acid battery, you can scale up your battery bank. They also have a higher usable capacity, which improves their weight-to-power ratio.
The energy storage system is equipped with the most recent Home Energy Storage System (HESS) battery system. It features a fashionable design, high energy, high power density, long service life, and easy installation and expansion, all of which reflect the real needs of end users and the most advanced technical capability.
The lithium iron phosphate (LiFePO4) battery, also known as the LFP battery, is a type of rechargeable battery. It is the most secure Lithium battery type currently on the market. It is designed to be small and light in weight, with a high energy density. It has a cycle life of thousands of cycles. Our LiFePo4 batteries provide high-powered cell performance that is compatible with a wide range of Lithium-ion applications and capable of delivering more power and lasting longer.
Solar LiFePo4 battery applications are undoubtedly primarily in the direction of energy storage, as evidenced by the various advantages demonstrated in the preceding comparison; if the energy density, discharge multiplier, and other aspects are improved, lithium iron solar phosphate will become the family energy storage choice!
Lithium iron phosphate batteries have a lifecycle that is two to four times that of lithium-ion batteries. This is due in part to the fact that lithium iron phosphate is more stable at high temperatures, making it resistant to overcharging. Furthermore, lithium iron phosphate batteries can be stored for extended periods of time without degrading.
The lithium solar battery used in the energy storage field typically requires more than 3,500 cycles, implying that the lithium battery for energy storage has a life span of more than ten years. The cycle number of a LiFePo4 solar battery is much higher than that of a lead-acid battery or a ternary battery, and it can exceed 7000 times.