FAQ

Frequenty asked questions

Lithium-ion

How safe are Lithium-Ion Batteries?

Our LiFePO4 batteries 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.

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What is a BMS? What does it do and where is it located?
BMS, short for Battery Management System, serves as a critical link between batteries and users, acting as a guardian for battery cells. Its core function is to shield cells from damage caused by common risks such as over-voltage, under-voltage, over-current, high temperatures, or external short circuits. When detecting unsafe operating conditions, the BMS promptly shuts off the battery to prevent harm to the cells. At RoyPow, all our batteries come equipped with a built-in BMS, ensuring comprehensive management and protection against these potential issues.

 

Our forklift batteries take BMS technology a step further with a cutting-edge, innovative design tailored to safeguard lithium cells. This advanced BMS boasts a range of standout features:

 

  • Remote Monitoring via OTA (Over-the-Air): Enables real-time tracking and data analysis of battery status from a distance, facilitating proactive maintenance and troubleshooting.
  • Intelligent Thermal Management: Regulates battery temperature to optimize performance and prevent overheating, ensuring stable operation even in demanding environments.
  • Multi-Layered Protection Mechanisms: Includes dedicated protection switches for low voltage, over voltage, and short circuits, among other safeguards, creating a robust defense system against diverse operational risks.
What is the life expectancy of the battery?

Nacci batteries 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 RoyPow LiFePO4 Battery, the upgrade saves you up to 70% battery cost over 5 years.

Use tips

What can I use a Lithium Battery for?
Our lithium batteries find versatile applications across a wide range of scenarios, making them a reliable power solution for diverse needs. They are widely used in material handling and mobility equipment such as golf carts, forklifts, aerial work platforms, and floor cleaning machines, delivering consistent performance to keep operations running smoothly.

With over 10 years of dedicated expertise in lithium battery technology, we have honed our professionalism in the critical field of replacing traditional lead-acid batteries with advanced lithium-ion alternatives. This experience ensures that our solutions are optimized for seamless integration, enhanced efficiency, and long-term reliability—addressing the limitations of lead-acid batteries while elevating overall performance.

Beyond industrial and mobility uses, our batteries extend their utility to everyday and specialized needs: they serve as robust energy storage solutions for residential settings, helping households manage power supply efficiently, and can also reliably power truck air-conditioning systems, ensuring comfort during long hauls without draining the vehicle’s main battery. Whether for industrial operations, daily convenience, or energy management, our lithium batteries stand ready to deliver consistent, high-quality power.
 
 
 
Can you provide more details about the specific features and advantages of your lithium batteries?
How does your company ensure the quality and reliability of its lithium batteries?
Are there any safety certifications or standards that your lithium batteries meet?
 
I want to convert to lithium iron phosphate batteries. What do I need to know?
When it comes to battery replacement, several key factors demand careful consideration to ensure optimal performance and compatibility. First and foremost, you’ll need to evaluate capacity, power output, and physical size requirements to match your equipment’s specifications. Equally important is ensuring you have the correct charger—using RoyPow’s dedicated chargers, for instance, can unlock enhanced battery performance, maximizing efficiency and longevity.

 

A notable advantage when upgrading from lead-acid to LiFePO4 batteries is the potential for significant downsizing: in many cases, you can reduce the battery size by up to 50% while maintaining the same runtime. This not only saves space but also simplifies installation. Additionally, weight considerations are crucial, especially for industrial equipment like forklifts. LiFePO4 batteries are substantially lighter than their lead-acid counterparts, which can improve equipment maneuverability, reduce wear on components, and even enhance operational safety.

 

If you’re planning an upgrade and need guidance on selecting the perfect battery, our RoyPow technical support team is here to help. They’ll work with you to assess your needs, address any questions, and ensure you choose a solution that aligns seamlessly with your equipment and operational goals. Don’t hesitate to reach out—we’re committed to making your transition smooth and successful.
Can it be used in cold weather?

Our batteries can work down to -4°F(-20°C). With the self-heating function(optional), they can be recharged at low temperatures.

Charging

How do I charge a lithium battery?

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 RoyPow, so you can maximize your batteries safely.

Can lithium ion batteries be charged anytime?
Absolutely—one of the standout advantages of lithium-ion batteries is their flexibility in charging: they can be recharged at any time, without the risk of damage. This is a game-changing contrast to lead-acid batteries, which are prone to reduced lifespan or performance issues if subjected to frequent partial charges (often called “opportunity charging”).

 

With lithium-ion batteries, opportunity charging becomes a practical and safe routine. For example, users can plug in the battery during a lunch break, a quick shift pause, or even short downtime to top up the charge—ensuring the battery stays sufficiently powered to finish the workday without dropping to critically low levels. This eliminates the need for strict, time-consuming full-charge cycles and minimizes downtime, making lithium-ion batteries ideal for busy, high-demand operations where consistent power availability is key. Whether it’s a forklift on a warehouse floor or a golf cart on the course, this flexibility keeps equipment running smoothly and efficiently.
If convert to lithium batteries, is the charger changing needed?

Please notice that our original lithium battery with our original charger can be more effective. Keep it in mind: If you still use your original lead-acid battery charger, it can’t charge our lithium battery. And with other chargers we can ‘t promise that the lithium battery can fully perform and whether it’s safe or not. Our technicians recommend you to use our original charger.

Should I turn off the pack after each use?

No. Only when You left the carts with several weeks or months, and we recommend keepping more than 5 bars when you turn off the "MAIN SWITCH" on the battery, it can be stored for up to 8 months.

 

Supporting

What are lithium ion battery energy storage systems?
Battery energy storage systems (BESS) are advanced rechargeable battery solutions designed to capture, store, and deploy electrical energy on demand, serving as a versatile bridge between energy sources and end users.

 

At their core, these systems collect surplus energy from renewable sources like solar arrays—capturing sunlight-generated power during peak daylight hours when production may exceed immediate needs—or draw from the electric grid during off-peak periods (when energy costs are often lower or grid demand is reduced). This stored energy is then readily available to power homes, businesses, or even critical equipment when needed most: for example, during evening hours when solar generation dips, during grid outages to ensure uninterrupted power, or to offset high energy usage during peak demand times, helping reduce utility costs.

 

By enabling efficient energy storage and distribution, BESS not only enhances energy independence for homes and businesses but also supports grid stability, promotes the integration of renewable energy, and provides a reliable backup power solution—making them a key component of modern, sustainable energy ecosystems.
Is a battery an energy storage device?
everyday devices to large-scale industrial systems. Among them, lithium-ion batteries have emerged as a game-changer, boasting significantly superior energy density compared to traditional lead-acid batteries. This means they can store more energy in a smaller, lighter package—critical for applications where space and weight matter, from portable electronics to electric vehicles and renewable energy setups.

Efficiency is another key strength of modern battery storage technology, particularly with newer lithium-ion systems, which achieve impressive efficiency rates ranging from 80% to over 90%. This high efficiency ensures minimal energy loss during the charging and discharging process, maximizing the usable energy extracted from stored power and making them far more cost-effective over time.

Beyond individual or commercial use, battery systems play an increasingly vital role in stabilizing large-scale power grids. When integrated with robust solid-state converters, these battery systems act as dynamic energy buffers: they absorb excess electricity during periods of low demand, release stored energy during peak usage to prevent grid strain, and quickly respond to fluctuations in supply (such as those from variable renewable sources like wind or solar). This capability enhances grid reliability, reduces the risk of blackouts, and supports the seamless integration of clean energy into existing power networks—solidifying batteries as a cornerstone of the transition to more sustainable, resilient energy systems.
 
 
 
Can you provide more details about the charging time of lithium-ion batteries?
How does the lifespan of lithium-ion batteries compare to other types of batteries?
Are there any environmental concerns associated with battery storage technology?
 
Why do we need battery storage?
Batteries play a pivotal role in unlocking the full potential of renewable energy by acting as reliable storage hubs, ensuring that clean power isn’t wasted and remains accessible when needed most. Here’s how they enhance the stability and predictability of energy systems:

First, they capture surplus energy generated by renewable sources like solar or wind—energy that might otherwise go unused during periods of high generation (e.g., sunny afternoons or windy nights). When demand rises or renewable output dips (such as after sunset or during calm weather), these batteries can rapidly release stored energy back into the grid, bridging gaps between supply and demand. This ability to “time-shift” energy ensures a steady, predictable power supply, even as renewable generation fluctuates naturally.

Beyond balancing variable renewables, stored battery energy is invaluable during peak demand periods—times of day when households, businesses, or industries consume the most electricity (e.g., weekday evenings). By injecting stored energy into the grid during these peaks, batteries reduce strain on power plants, minimize the need for expensive “peaker” plants (which are often less efficient and more polluting), and help keep electricity costs stable.

In essence, battery storage transforms renewable energy from an intermittent resource into a dependable, on-demand power source, making the grid more resilient, efficient, and aligned with sustainable energy goals.

Household energy storage solutions

Delivery charges for orders from the Online Shop?

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How long will delivery take?

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What exactly happens after ordering?

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