BUSSMANN (EATON)为数据中心实现高度可靠性,且高效,灵活,安全地支持现代配电架构-2015-04-16

密苏里州圣路易斯市 - 电力管理公司伊顿Bussmann正在帮助数据中心客户提高关键电力系统可靠性,同时应对现代电力效率、安全性和运行灵活性的挑战。密苏里州路易斯市 - 电力管理公司伊顿Bussmann正在帮助数据中心客户提高关键电力系统可靠性,同时应对电气效率、安全性和运营灵活性等现代挑战。伊顿Bussmann广泛的电路保护解决方案组合,包括其Bussmann系列熔断器电路保护,将于4月19日至23日在拉斯维加斯举行的2015 AFCOM数据中心世界全球大会的431号展位上展出。

"伊顿Bussmann的电路保护解决方案旨在支持当今的高配电电压设计,并在不影响能效的情况下帮助满足规范要求,"伊顿Bussmann部门的Nick Stone说。"我们为数据中心客户提供的产品还有助于减少设备占地面积、最大限度地减少维护和卓越的电流限制,同时超越对操作安全性的期望。"

数据中心配电设计在不断提高功率密度、能效、灵活性以及在保持可靠性的同时最大限度减少维护等需求的推动下迅速发展。其中许多设计进步都带来了过流保护方面的挑战,包括:更高的配电电压、更高的可用故障电流和更大的潜在弧闪危险。伊顿的 Bussmann 系列解决方案可为几乎所有数据中心环境提供可靠的解决方案,专门设计用于支持可扩展架构和高配电电压的需求,以提高能效。

ST. LOUIS, MO — Power management company Eaton is helping data center customers enhance critical power system reliability while addressing the modern challenges of electrical efficiency, safety and operational flexibility. Eaton's portfolio of expansive circuit protection solutions, including its Bussmann series fusible circuit protection, will be on display in booth #431 at the 2015 AFCOM Data Center World Global Conference from April 19 through 23 in Las Vegas.

"Eaton's circuit protection solutions are designed to support today's high distribution voltage designs and help meet code compliance without compromising energy efficiency," said Nick Stone, Eaton's Bussmann Division. "Our products for data center customers also contribute to reduced equipment footprint, minimized maintenance and superior current limitation while exceeding expectations for operational safety."

Data center electrical distribution designs are rapidly evolving, driven by needs such as increasing power densities, energy efficiency, flexibility, and the benefits of minimizing maintenance while retaining reliability. Many of these design advances result in overcurrent protection challenges including: higher distribution voltages, high available fault currents and greater potential arc flash hazard. Providing a reliable solution for nearly any data center environment, Eaton's Bussmann series solutions are specifically engineered to support the needs of scalable architectures and high distribution voltages for enhanced energy efficiency.