22 Years' Battery Customization

Which Embedded computer UPS battery manufacturer is good?

May 29, 2023   Pageview:352

What is an embedded computer?

An embedded computer system is any specialized computer system implemented as a larger device, intelligent system, or installation component. Embedded computer systems go by various names, including Box PC, Gateway, Controller, Industrial PC, etc. From tiny ARM-based devices that stealthily collect and relay data to all-in-one solutions that power enormous earth movers and military machinery, embedded computers come in an infinite variety of sizes and configurations. As the Internet of Things develops, embedded computers facilitate connectivity between devices, people, locations, things, and the cloud.

Why does the embedded computer UPS use high-rate lithium iron phosphate batteries?

Let's examine the high-rate lithium iron phosphate batteries the integrated computer UPS uses.

Safety:

Due to its excellent electrochemical properties, high energy densities, and reductions in weight and size, lithium-ion batteries are growing in popularity. However, they experience chemical, thermal, and mechanical stressors, which can speed up cell aging. For example, high end-of-charge voltages or overcharging can result in heat generation, expansion, and stress, while high currents and low temperatures can produce lithium plating on the anode.

Longevity:

Compared to NMC/LCO Li-Ion cells, LiFePO4 cells have a lower energy density and higher cycle stability. Using a BMS and optimized charge and discharge profiles for the energy storage device protects the materials and guarantees a long service life. However, regular recharging is required to prevent deep discharge and chemical destabilization.

3.2V 20Ah Low Temperature Square LiFePO4 Battery Cell
3.2V 20A Low Temp LiFePO4 Battery Cell -40℃ 3C discharge capacity≥70% Charging temperature:-20~45℃ Discharging temperature: -40~+55℃ pass acupuncture test -40℃ maximum discharge rate:3C

Efficiency:

Our DC emergency power supplies with LiFePO4 energy storage can, depending on the load supplied, bridge longer downtimes because of the high energy density. Furthermore, the LiFePO4 battery pack permanently utilizes 100% of its nominal capacity. On the other hand, there are severe restrictions on the number of cycles and depth of discharge for lead-acid batteries. In addition, compared to other lithium-ion battery systems, the electrochemical structure of LiFePO4 high-performance cells enables high charging and discharging currents and improved pulse load capacity.

Sustainability:

Last but not least, by avoiding hazardous heavy metals like nickel, cadmium, or the rare raw element cobalt, LiFePO4 battery technology actively contributes to protecting people and the environment. Moreover, lithium iron phosphate cells are also impressive in recycling. Unlike other battery methods, almost all the metals this technology uses can be recycled.

Cost

Cost is a major concern for both consumers and manufacturers. Fortunately, lithium iron phosphate batteries also have the advantage of being the more affordable option in addition to all their beneficial features, including usage in embedded computers.

This is due to a few factors. Compared to cobalt in lithium-ion batteries, the raw ingredients used to make lithium-iron phosphate batteries are less expensive and rarer. Second, because the materials used to make lithium iron phosphate batteries are safer, their production is simpler and less expensive. Finally, since LiFePO4 batteries need to be replaced less frequently, consumers can save money thanks to the extended life cycle of these batteries.

Low Temperature High Energy Density Rugged Laptop Polymer Battery 11.1V 7800mAh
Low Temperature High Energy Density Rugged Laptop Polymer Battery Battery specification: 11.1V 7800mAh -40℃ 0.2C discharge capacity ≥80% Dustproof, resistance to dropping, anti - corrosion, anti - electromagnetic interference

Discharge Rate

An additional benefit of lithium-iron phosphate batteries is a constant discharge rate. They can also drain more quickly than lithium-ion batteries when necessary. This means that lithium iron phosphate backup batteries will manage the load without any issues when the power goes out in a grid-tied solar application, and several appliances turn on at once.

Battery Service Life

Batteries made of lithium iron phosphate have a two to four-times longer life cycle than batteries made of lithium-ion. This is partially due to the lithium iron phosphate option's higher thermal stability, which makes them more resistant to overcharging. lithium iron phosphate batteries also have a longer shelf life without deteriorating.

As is common knowledge, the lifespan of solar panels and energy management systems can reach 20 or 30 years. A battery's lifespan will be more closely matched to the lifespan of the entire solar power system if it is more efficient after more cycles.

Choosing the best UPS battery: Important factors

Analyze the size of the load that requires UPS battery protection to determine the UPS battery's capacity.

To determine the required UPS capacity, evaluate the magnitude of the load that requires UPS protection and the power consumption of each device. Equipment nameplates or manufacturer literature can provide information on power consumption. The total power consumption of the devices that must be linked to the UPS determines the necessary UPS battery capacity.

Examine the UPS runtime requirements for important devices and applications.

To ensure uninterrupted operation during a power outage, determine the required UPS runtime for key equipment and applications. A single UPS's total runtime will decrease the number of connected devices. However, certain situations may require a separate UPS.

Calculate the necessary number of outlets.

Ensure the UPS battery has enough outlets to accommodate your current needs and future expansion or add more outlets with a power distribution unit (PDU).

Think about your UPS installation needs.

There are many different sizes and form factors for UPSs. Tower models are independent devices that rest on the ground, a desk, or a shelf. They frequently serve as backups for desktop computers, servers, and routers in an office setting.

Most rack-mount UPS products are made to fit inside a normal 19-inch IT rack with other IT hardware. The height of a rack-mount UPS varies depending on how many vertical slots it takes up in the rack. The "U"-shaped spaces are each 1.75 inches wide. You can accommodate more backup power capacity in the same space—or the same capacity in a smaller space—with UPSs made to use lithium-ion batteries since they are often lighter and smaller than comparable models that use traditional lead-acid batteries.

FAQs:

What is the ideal UPS for my computer?

1.Identify the load size that requires UPS protection and, consequently, the UPS's capacity.

2.Determine the necessary UPS runtime for necessary hardware and software.

3.Establish the necessary number of outlets.

4.Consider the prerequisites for installing a UPS.

5.Remote management and monitoring.

How long does a UPS battery last in a computer?

 The lifespan of a UPS battery might depend on several different factors. A battery will typically last between three and five years. However, some batteries have a significantly longer lifespan than others, and some may quickly run out of power.

How do I make a UPS battery decision?

Then, you should pick a UPS system with enough expansion space to handle your maximum current load. To do this, you must consider the power rating in volt-amperes (VA). The power factor, too. A UPS system can only deliver 80% of its rated capacity if its power factor is less than 0.8.

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