Roccat Kanga Mini Choice Cloth Gaming Mousepad

  • Part: 1416451
  • Model: ROC-13-011
$10.00
  • 35% OFF

Availability

In Stock
Stock is available and generally ships within 1 working day.

Bulk Pricing

Quantity Price
5 - 9 $10.00
10+ $10.00

ROCCAT® KANGA - CHOICE CLOTH GAMING MOUSEPAD Experience the greatest ally to your favourite mouse, with Kanga's wear-tested cloth build, put through its paces by ROCCAT's expert design team on over 80 gaming mice. Experience both comfort in contact and dimension, with a pleasant-to-the-touch feel. Available at 320 X 270mm, 265 X 210mm and 850 X 330mm sizes, all with a thickness of 2mm, every gamer is catered for. Enjoy heightened axis flow, with exact x-y balance, with precise mouse movement and control via the pad's quality coarse fiber surface. A rubberized backing ensures gamers will experience exceptional surface grip for secure, slip-free gameplay. The new Kanga mousepad is the one-two punch combo for your gaming mouse. WEAR TESTED Kanga's high-quality cloth build has been put through its paces by ROCCAT's expert design team with over 80 mice tested on its surface to date. The ROCCAT Kanga was built to compliment your favourite gaming mouse and increase its effectiveness when it matters most. GO WITH THE FLOW Experience heightened axis flow, with exact x-y balance and precise mouse movement and control via the pad's quality, optimised fiber surface. When you move your mouse, the Kanga's surface provides the movement and split-second reaction time you need to without and mouse drag or slowdown. NEVER SLIP GRIP A rubberised backing ensures gamers will experience exceptional surface grip for secure, slip-free gameplay. Never worry about mouse security during even the most intense gaming sessions. COMFORTABLE DIMENSIONS Comfort-minded in both contact and dimension, the Kanga provides a pleasant-to-the-touch feel, plus three ideal sizes in 320 X 270mm, 265 X 210mm and 850 X 330mm pad size. Each with 2mm thickness, you get the room to move without accidentally losing contact with the surface via edge-slippage.