Popular Questions

Below are LiFePO4 battery cell FAQs that will cover many questions related to your home or business LiFePO4 battery, Li-ion battery, and DIY battery projects.

Yes. We provide customers with OEM/ODM solutions. The OEM minimum order quantity is 10 pieces.

We pack by United Nations regulations, and we can also provide special packaging according to customer requirements.

We have ISO9001, CB, CE, UL, BIS, UN38.3, KC, PSE.

We provide battery with a power not exceeding 10WH as free samples.

1200-1500 pieces per day, each product has a different production capacity, you can discuss detailed information according to email.

About 10 days. The specific time can be coordinated by email.

General Questions

we have summarized some common problems

This is usually unable to provide accurate logistics prices for your country. If you have any demand, please feel free to contact us.

You will receive a tracking number by email when your order ships.

Yes. For large wholesale orders you can Contact Us for custom pricing.

Yes, Individual pricing for large-scale projects and wholesale demands is available. Long-term cooperation is always welcome.

PayPal allows payment through credit cards, bank accounts, buyer credit, or PayPal account balances.

Typical estimated lifetimes for LiFePO4 battery are 5-15 years or 4000 to 8000 charge cycles. A charge cycle is a cycle of use from full charge to full discharge to full charge.

  • Grade A: Cells perform to manufacturer specifications.
  • Grade B: Cells under-perform or have other defects.
  • Grade C: Cells are used, repackaged, salvaged, or damaged.

Our LiFePO4 battery are considered to be safe, non-flammable and non-hazardous for superior chemical and mechanical structure.

They can also withstand harsh conditions, be it freezing cold, scorching heat or rough terrain. When subjected to hazardous events, such as collision or short-circuiting, they won’t explode or catch fire, significantly reducing any chance of harm. If you’re selecting a lithium battery and anticipate use in hazardous or unstable environments, LiFePO4 battery is likely be your best choice. It’s also worth mentioning that they are non-toxic, non-contaminating and contain no rare earth metals, making them environmentally conscious.

BMS is short for Battery Management System. It’s like a bridge between battery and users. The BMS protects the cells from getting damaged — most commonly from over or under-voltage, over current, high temperature or external short-circuiting. The BMS will shut off the battery to protect the cells from unsafe operating conditions. All Flykol battery have built-in BMS to manage and protect them against these types of issues.

The BMS of our forklift battery is a high-tech innovative design made to protect the lithium cells. Features Include: Remote monitoring with OTA (over the air), Thermal management, and multiple protections, such as Low Voltage Protection Switch, Over Voltage Protection Switch, Short Circuit Protection Switch, etc.

Flykol battery can be used around 3,500 life cycles. Battery design life is around 10 years, and we offer you 5 years warranty. Therefore, even though there is more upfront cost with a LiFePO4 Battery, the upgrade saves you up to 70% battery cost over 5 years.

Our lithium ion technology uses the most advanced built-in battery protection system to prevent damage to the battery. It is kindly for you to choose the charger developed by Flykol, so you can maximize your battery safely.

Our battery come with a five-year warranty to bring you into peace of mind. The forklift battery with our high reliable BMS and 4G module provide remote monitoring, remote diagnosing and software updating, so it can resolve application problems quickly. If you have any problem, you can contact our sales team.

Battery energy storage systems are rechargeable battery systems that store energy from solar arrays or the electric grid and provide that energy to home or business.

battery are the most commonly form of energy storage. Lithium-ion battery have superior energy density compared to lead-acid battery. Battery storage technology is typically around 80% to more than 90% efficient for newer lithium-ion devices. Battery systems connected to large solid-state converters have been used to stabilize power distribution networks.

The battery store renewable energy, and when it’s needed, they can quickly release the energy into the grid. This makes the power supply more accessible and predictable. The energy stored in the battery can also be used in times of peak demand, when more electricity is required.