Selecting the Correct Rack Mount Battery
Rack mount batteries are essential for every data center when it comes to keeping them up during power outages. In this UXI post, we are going to get into the basics that I think someone should focus on when selecting a server rack battery rack mount battery for their needs.
Capacity: One of the most crucial aspects to figure out before investing in a rack mount battery is its capacity. The battery racks amount of electrical energy stored in a battery is called its capacity. In fact, the bigger a battery pack is in watt-hours, the longer it can keep your vital systems running during prolonged outages. The UXI most important aspect to consider before choosing a battery is how much runtime the devices that this will replace run on and whether it aligns with what capacity you need for your use.
One other important spec you have to remember is the BATTERY VOLTAGE. Battery voltage is the electrical potential difference between a pair of terminals on a battery. The UXI rack mount battery must have a voltage that will accommodate the specific power requirements of the devices being powered. This means that devices which have a rating of 12 volts need to be connected to a rack battery 12-volt battery in order for them to work the way they were designed.
Battery Size and Form Factor
As with Impendence, you should take your time to decide on the form factor of the battery. Rack mount batteries are intended to be housed in standard server racks, which are usually 19 inches wide. The height of the battery can be different, since width is universal. Choosing a battery that matches the best size in your rack space wouldn't do you any good if it's simply going to hang out instead of being integrated into proper use.
Another important thing to remember is the kind of battery chemistry. Lead-acid or lithium-ion technology is used in most server rack mount batteries. The established reputation for reliability and economy the lead-acid battery has squeezed its use into countless applications over a number of years. However, lithium-ion batteries have benefits including higher energy density and greater longevity. But they also come at greater expense and require more expensive charging, control systems.
Optimizing data center efficiency
Data centers are some of the energy hungriest facilities on earth, requiring copious amounts of power to do things like keep servers from overheating. At a high level, combining rack mount batteries as backup power for data centers overall increases efficiency by not having to rely on standard UPS solutions powered up 24/7.
Combining rack mount batteries with other energy-saving technologies like virtualization and automation is one of the ways to improve efficiency. When combined with the same workloads assigned to fewer servers, data centers consume less power and require minimal use of backup power.
Alternatively, a more aggressive approach could be to develop smart battery management systems that enhance the control of both charging and discharging batteries. These lifepo4 battery rack systems make certain batteries are charged when it makes the most economic sense to do so, and discharged in a way that has minimal impact on total energy use for the data center.
What's New with Battery Technology
The realm of rack mount battery technology is an ever-evolving one, full of shiny new advancements. One significant trend in the past years has been the utilization of lithium-ion batteries for data center use cases. Such batteries provide a better energy density and longer service life than conventional lead-acid batteries.
Other newer innovations include the development of smart battery management systems in rack mount batteries. The systems both optimize charging of the battery and its utilization, while constantly monitoring and reporting on condition.
In addition, rack mount batteries are evolving to also be modular meaning that the data center can add and remove sufficient backup power as needed. A modular design makes for easier maintenance and replacement because single battery modules can be exchanged without having to interrupt the entire system.
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