High-density colocation at i/o- ThermoCabinet®

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High-Density Colocation

Our patent-pending ThermoCabinet® stands eight feet tall, four feet deep and three feet wide. With room for 45U, this high-density colocation cabinet allows more equipment to be stored in a space-efficient footprint. The ThermoCabinet has solid-steel locking front and rear doors, which provide an additional layer of protection for your mission critical IT equipment. Check out our latest colocation specials

Power
Capable of 2,500 watts per square foot, the ThermoCabinet defines high-density colocation. Available in 8kW increments power strips, the ThermoCabinet has capacity for up to 32kW. Each power strip has 7 diverse power receptacles, which can accommodate a wide range of manufacturers' power cords.

Energy Efficiency
The sealed cabinet design optimizes energy efficiency by reducing the volume of air that needs to be cooled. A supply duct at the front of the cabinet allows cold-air in and thermal separation panels prevent that cold air from mixing with the hot air at the rear of the cabinet. A negative pressure duct system quickly exhausts hot air from the cabinet and returns it to the computer room air handlers where the air is cooled and returned to the pressurized sub-floor plenum.

Remote Support
We provide a range of remote support services to keep your high-density colocation environment up and running including remote hands, smart hands, rack and stack and cabling. As an added cost savings, all of our high-density colocation customers receive complimentary remote hands support. So whether you need someone to toggle a switch or assemble and rack mount your equipment, our team of experienced IT professionals can help. Learn more about our remote support services.

Load Testing

Resistive load testing was done to demonstrate the power capacity of the high-density colocation ThermoCabinet®. Thermal imagery shows the temperature at the front (cold side) and rear (hot side) of the cabinet. Each load test began with each 4kW load bank being energized from the bottom to the top. The room conditions for these tests were 72 degrees Fahrenheit with 22% humidity. Intake temperature was 58 degrees Fahrenheit.