In a computing world of new video and audio cards, add-ons, higher-powered chips and more, the search for power goes ever on. Rosewill's RBR1000-M satisfies your power-hungry virtual instincts, and keeps you running at your best. Clad in a sleek black shell, lit within with a cool blue light, the impression is one of cool, secret power, ready to do your bidding!
The PSU is ready for your SLI or CrossFire configuration with both 6Pin and 8Pin PCIe connectors. There are also 12 SATA, 6 Molex and 2 Floppy connectors, so you load your system to fill any need. A four rail configuration balances the power output for consistent performance.
Keeping it cool is a 135mm Blue LED Dual-ball-bearing fan and an openwork grille on the back panel. With its 80 PLUS BRONZE certification, less energy is wasted as heat or interference, delivering more power to your hungry system!
ATX12V AND EPS12V COMPATIBLE
Compatible with the ATX12V (ATX 2.3) and EPS12V standards, the Rosewill RBR1000-M provides maximum power stability to drive the processors as well as other components for desktop and server computer systems.
1000W CONTINUOUS POWER
A continuous power of 1000W @ 40°C delivers safe, reliable output for even the most extreme computer systems. Four industry-leading independent +12v rails are provided for more stable and safer power output.
80 PLUS BRONZE CERTIFIED
The 80 PLUS BRONZE certified power supply provides high power efficiency of at least 82% at any load between 20% and 100%, saving your money on your electrical bill, reducing heat in your computer's system and prolonging its life.
MULTIPLE PCI-E CONNECTORS
With both 6-pin and 8-pin PCI-E connectors, the Rosewill RBR1000-M is ideal for building up a SLI or CrossFire gaming system.
MODULAR CABLE DESIGN
The modular cable design allows use of only the cables you need resulting in improved internal airflow and reduced system clutter.
QUIET OPERATION
The silent 135mm 2-ball-bearing blue LED fan delivers high efficient cooling and ensures quiet operation through fan speed adjustments in response to loading conditions.