Overview
The Vertiv Liebert GXT5-EBC192VRT3UE is an external hot-swappable, lead-acid UPS battery cabinet designed for use with these UPS models: Liebert GXT5-5000IRT5UXLE, Liebert GXT5-6000IRT5UXLE, Liebert GXT5-8000IRT5UXLE, and Liebert GXT5-10KIRT5UXLE. Its new auto detection feature makes installation easy and fast ensuring the UPS configuration is complete and accurate. Users can connect to up to 10 external battery cabinets to a single UPS for extended runtime.
  • Ready to connect solution, offers quick and easy installation with the UPS
  • It can be used in proximity to the people, thanks to its sealed characteristics
  • In terms of cost per watt hours, it is an inexpensive choice providing efficient power
  • Auto detection connectivity ensures proper set-up and configuration of available run time
  • Hot-swappable, lead-acid UPS battery cabinet designed for use with these UPS models: Liebert GXT5-5000IRT5UXLE, Liebert GXT5-6000IRT5UXLE, Liebert GXT5-8000IRT5UXLE, and Liebert GXT5-10KIRT5UXLE
Spill-proof design The Liebert GXT5 features a spill-proof battery design, ensuring safety and reliability for your critical equipment. This design minimizes the risk of leaks, making it an ideal solution for maintaining uptime in your data center. Efficient power management Equipped with a 192 V valve-regulated lead acid battery, the Liebert GXT5 delivers efficient power management. This technology ensures a stable power supply, reducing the risk of downtime and enhancing the performance of your connected equipment. Optimized for versatility With its rack-mountable and external form factor, the Liebert GXT5 offers flexibility in deployment. The inclusion of a Rail Kit further simplifies installation, making it a versatile choice for various IT environments. Robust environmental tolerance Designed to operate within a wide range of temperatures (0°C to 40°C) and humidity (0 - 95% non-condensing), the Liebert GXT5 is built to withstand challenging environmental conditions, ensuring reliable performance under various operating scenarios.