Thrustmaster T248 Hybrid Racing Wheel for Xbox & PC

Thrustmaster T248 Hybrid Racing Wheel for Xbox & PC
Brand: THRUSTMASTER
299.99 GBP
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.rm__row { display: flex; justify-content: center; align-items: center; flex-direction: row; } @media (max-width: 800px) { .rm__row { flex-direction: column; } } Compatible with Xbox Series X|S, Xbox One and PC Designed for all gamers looking for performance and immersion and wanting to free themselves from their keyboard, mouse or gamepad, or improve their skills after starting out with a beginner’s wheel, T248 is a racing wheel officially licensed for Xbox Series X|S, Xbox One, and compatible with PC Real-time information onscreen T248 offers different displays for real-time racing information: speed, RPM, race position, best lap time, and much more. The list of compatible games on PC and Xbox console are available on the Thrustmaster technical support website, and regularly updated. THRUSTMASTER RACE DASHBOARD DISPLAY T248 features a selection of more than 20 different displays on its built-in screen: manual adjustment of a range of settings (selection of Force Feedback type, the wheel’s rotation angle, etc.), or the user’s choice of telemetry information (gear ratio, RPM, gamer’s best lap time, etc.). The list of compatible games on PC and Xbox console are available on the Thrustmaster technical support website, and regularly updated. DYNAMIC FORCE FEEDBACK T248 features 3 types of Force Feedback (presets included), compatible with all games and modifiable on the fly directly on the wheel: FFB 1: Force Feedback 100% proportional to the force requested by the game. FFB 2: enhanced Force Feedback, for better skid control. FFB 3: boosted Force Feedback, allowing users to clearly feel all racing effects from the track (curbs, skidding off-track, etc.). NEXT-GEN HYBRID DRIVE SYSTEM Providing gamers with extra power (up to 70% more than the previous Thrustmaster hybrid racing wheel, TMX), T248 dominates racetracks thanks to its intensity. The outstanding drivability made possible by this hybrid system avoids counterintuitive sensations and friction problems commonly f