Lithium-ion rack batteries are an excellent choice for servers. The advantages of lithium-ion rack batteries include longer service life and easy installation. This article will discuss these benefits and how they can benefit your business. Here are a few of them:
Server rack batteries
The rise of AI is building around the use of large-scale, rack-based servers that contain multiple CPUs and GPUs with hundreds of cores, terabytes of memory, and 100G+ Ethernet ports. As these systems grow in size and complexity, they require increasing power to keep up with their demands. Cloud businesses, particularly hyperscale companies, have begun opting for power infrastructures that incorporate server rack batteries as part of their power supply. These data centers have more than 500 hyperscale data centers, and they increasingly use battery backup in the racks of servers.
Unlike a DIY LiFePO4 battery pack, server rack batteries are ready-to-use commodities. They can be moved to another location and started working immediately with certain tools. These advantages are far outweighed by the cost of a server rack battery pack. Furthermore, server rack batteries are much more mobile and convenient than a typical deep-cycle battery, which may not be portable and can’t be installed in the desired location.
Lithium-ion batteries
While valve-regulated lead acid batteries have been the standard in UPSs, Lithium-ion batteries in racks offer additional benefits, including a longer life and higher recharge rate. While these new technologies have not been around as long as their valve-regulated counterparts, the battery types are safe and reliable, making them a great option for your power infrastructure. If you are wondering what Lithium-ion battery packs are, read on to learn more about the benefits of these batteries for your business.
One of the primary benefits of Lithium-ion batteries in racks is that they can be used for all types of stationary energy applications. These batteries feature high-capacity Lithium-ion cells that boast a long life span. In addition, these batteries have consistent performances and a 2000-cycle lifespan. A unique Battery Management System used in Rack-Mount Lithium-ion batteries extends their life and ensures safety.
Longer service life
The longer the life of a rack battery, the higher its end value. The overall benefits of a battery are determined by how many cycles it can complete. Two major factors determine the cycle life of a battery: time and depth of discharge. A high-quality battery will last for several years before it needs to be replaced. However, this timeframe may be insufficient if the batteries are used in a heavy-duty industrial setting.
Temperature also plays a role in the battery’s service life. Batteries perform best when their temperature is at a stable, room-temperature range. Even a slight deviation from this standard can shorten a battery’s life. A higher temperature will cause the battery to degrade faster and result in decreased capacity. The higher the temperature, the shorter its service life. Therefore, batteries should be stored at a cool, dry place.
Easy installation
When it comes to installing a battery rack, it’s important to choose a unit that’s designed for easy maintenance and installation. SIEYUBATTERY lithium batteries, for example, are designed to work in a wide variety of indoor applications, including UPSs, solar, and telecommunications. They also feature anti-vibration, corrosion, and acid resistance features, making them perfect for any situation.
The design of a battery rack is important for its stability. An open rack battery is generally easier to install and work on. But if the battery rack requires a floor, you may need to add extra support to the battery room. This design can also be stepped or tiers, which can help reduce the footprint of the battery rack but take up more floor space. Rack batteries are easy to install and can be reconfigured as needed with minimal disruption to the surrounding area.
Built-in battery management system
The Built-in Battery Management System (BMS) controls charging and discharging for rack batteries. The system calculates the State of Charge (SOC) of the battery pack, which can be considered a sort of fuel gauge. It continuously tracks energy flowing into and out of the battery pack, and constantly checks for problems such as weak or defective battery cells. Unlike lead-acid batteries, lithium-ion batteries do not display any warning signs.
This system works by monitoring battery voltages and temperatures from a central control unit. It also allows users to control charging and discharging of individual batteries. The BMU can handle up to 24 individual battery cells. It also has passive cell balancing circuitry and can be daisy-chained for a maximum voltage of 1000VDC. Its diagnostic capabilities provide system and cell-level information, error handling, master and slave firmware upgrades, signal logging, and other important information.