The battery boasts a sulfide-based solid electrolyte, high temperature resistance, a long lifetime, high safety characteristics, and a voltage-boosting DC-DC converter IC. 

For decades, lead acid was the only option to provide backup power for data centers. The rise of lithium-ion technology in recent years improved upon the limitations of lead acid, but lithium-ion isn’t a miracle solution and comes with significant risk.

Sodium-ion technology delivers tremendous power density with rapid discharge and recharge, is sustainably and ethically sourced, and is safe and completely nonflammable. 

The market's expansion can be attributed to rising demand for grid energy storage systems due to ongoing grid modernization, increasing penetration of lithium-ion batteries in the renewable energy sector, and the rising trend of adopting a low-carbon, fossil-fuel-free economy, as well as the ongoing renewable energy revolution.

In addition to overvoltage protection, these electronic fuses protect against overcurrent, short circuit, inrush current, reverse current, and overheating events with real-time diagnostics.

The innovative design incorporates an embedded fuse and heater elements that provide fast response and reliable performance to interrupt the battery pack’s charging or discharging circuit before an overcharge or overheating condition occurs.

A team of scientists from the U.S., Canada, and Germany are tackling one of the largest challenges of our generation: reliable energy storage.

Ever rushed to the doctor’s office just to wait forever before they call you back? Most batteries live their entire life in this perpetual purgatory just waiting for their moment to shine.

Lithium-ion batteries typically last eight to10 years — roughly the life span of the UPS itself —and can run at high temperatures, reducing the expenses and energy required for rack cooling. 

How 5G Micro Sites, Edge Data Centers, Server Rooms, Data Closets, and Other Remote Deployments Can Take Advantage of Lithium-Ion Batteries.