Search Tips»
Grouping and Logical OR: notebook (ibm or sony) Negation: laserjet printer not monochrome Negation: printer -laser -monochrome \tGrouping and Logical OR: printer (epson or canon) (inkjet or laser) not multifunction Group Operator: printer -(dot matrix)
Receptacle Detail: 2 x IEC 60320 C19, 2 x IEC Jumper, 6 x IEC 60320 C13
Number of Battery & Surge Outlets: 10
Cord Length: 8 ft
Load Capacity (VA): 3000 VA
Load Capacity (Watt): 2700 W
Input Voltage: 208 V, 230 V
Output Voltage: 208 V AC, 230 V AC
Waveform Type: Sine Wave
Surge Energy Rating: 340 J
Battery Chemistry: Lead Acid
Backup/Run Time (Full Load): 4 Minute
Typical Battery Recharge Time: 3 Hour
Product Color: Black
Height: 3.3"
Width: 17"
Depth: 25"
Rack Height: 2U
Form Factor: Rack-mountable
Weight (Approximate): 69 lb
Software Included: Powerchute Serial Edition
Environmentally Friendly: Yes
Limited Warranty: 3 Year
Additional Warranty Information: 3 years repair or replace (excluding battery) and 2 years for battery
Marketing InformationA versatile UPS developed for the harshest power conditions in the world. Smart-UPS On-Line provides high density, true double-conversion on-line power protection for servers, voice / data networks, medical labs, and light industrial applications. Capable of supporting loads from 1 to 20kVA in a rack/tower convertible form, the Smart-UPS On-Line is available from 2U to 12U. Recent family extensions at 15 and 20kVA enable support of power hungry blade servers or heavily loaded equipment racks. When business-critical systems require runtime in hours, not minutes, Smart-UPS On-Line can be configured with matching battery packs to comply with aggressive runtime demands. The included PowerChute management software provides unattended graceful shutdown of network operating systems. All models 5kVA and above include an integrated Network Management Card for remote management (optional on models below 5 kVA). The Smart-UPS On-Line family provides customers with a reliable source of uninterruptible power even in demanding power environments, including very wide input voltage window, extremely tight output voltage regulation, frequency regulation, internal bypass, and input power factor correction.