Eaton 9170+ UPS Brochure0 pages

Product Brochure

Eaton 9170+ UPS

Features
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N+X redundancy for both power and logic eliminates systemlevel single point-of-failure
•t asily scalable to adapt to changing IT environments by simply
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adding power and/or battery modules
•tTrue double-conversion design
•t niversal components fit in any order without affecting UPS
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operation
•t rovides protection against all nine power problems
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•t omplete offering of power management software included to
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ensure data integrity
•t rovides investment protection with a two-year limited warranty
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and a $250,000 load protection guarantee (U.S. and Canada)

Product Snapshot
Power Rating:t

3–18 kVA

Input Voltage:t

200–240 Vac

Output Voltage:t 200–240 Vac
Frequency:t

50/60 Hz (auto-sensing)

Configuration:t

Tower or rackmount

The Eaton® 9170+ UPS is uniquely designed to meet the
everchanging needs of customers with applications such as data
centers, networks and call centers. Built for global deployment,
the 9170+ is a scalable, modular, flexible solution that combines
the highest level of reliability with the lowest cost of ownership in
the 3–18 kVA range.
The 9170+ enables customers to build a power solution specific to
their needs, with an expandable level of redundancy and increases
runtimes through plug-and-play 3 kVA UPS and battery modules.
The 9170+ can be configured to fit three-, six-, nine- or twelve-slot
enclosures, and is available for tower and rackmount applications.
The 9170+ also features a Power Saver mode, a user-selectable
feature that increases unit efficiency from 88% in normal
operating mode to 97%. With its low initial investment, doubleconversion technology, ABM® battery management system and
high-efficiency. Power Saver mode, you never have to compromise
reliability for efficiency.
Unique to the 9170+ is its global deployment capability. By using
a high-frequency design, housing both logic and power in the
power module, and offering a single-cabinet design, distributors
and purchasing departments around the world have fewer system
components to contend with, regardless of where th