Marvo Scorpion G943 RGB Black USB Gaming Mouse
**Online Order Only – Stock Ships From The UK – Our Prices Include All Duty and Taxes. Delivery Time is approximately 3-5 working days.**
- Connection: USB
- Style: Standard Gaming
- Mouse Sensor: Optical
- Colour: Black
- LED Colour: RGB
- Packaging: Retail
Out of stock
PERFORMANT AND NONCONFORMIST
The G943 is a mouse for avid gamers, who at the same time appreciate a nonconformist design. Powered by a high-performance optical sensor (Pixart 3325), the G943 offers a maximum adjustable resolution of 5000 DPI for top accuracy, coupled with a reporting rate of 1000 Hz that guarantees ultra-fast response time and fluent gameplay. The sensitivity can be selected dynamically in 5 steps by simply pressing the button conveniently placed just below the scroll wheel. In addition, thanks to the buttons coupled to contacts validated for 20 million clicks, all commands are recorded and transmitted instantly, each button press being confirmed by a subtle tactile feedback.
DESIGN AND ERGONOMICS
Based on a form appreciated in the world of electronic sports, G943 offers optimal ergonomics for the right hand and guarantees a stable grip even in the hottest moments of the game. The 40 mm high profile ensures optimal support for the palm bridge and improved control regardless of the socket used (palm or claw). The discreet side buttons are optimally placed for quick thumb operation. Of course, the set is animated by a configurable RGB lighting system, with the possibility of selecting a distinct color for each DPI stage.
The dedicated software allows the configuration and programming of the mouse to correspond to personal preferences. Thus you can set the sensitivity up to 5000 DPI and you can easily program macro commands for the 6 buttons. You can also choose from the RGB palette, distinct lighting colors for each DPI step, so that the active value is permanently known.
5000 DPI Adjustable (1000-1600-2400-3200-5000)
125, 250, 500, 1000 Hz
Windows (7 or newer)
high profile (43 mm) with optimal support for the palm bridge