Description
Features Highlight
- 12 N·m of Torque from a Direct Drive Servo Motor
- Lightweight Design
- New Generation FFB Filtering Algorithm
- Aviation-grade Aluminum
- Industrial Conductive Slip Ring
- Ultra-low FFB Latency & Steering Response
- Intelligent Temperature Control System
- Hand-off Protection
- MOZA Pit House Control Software
- Cloud-based Mobile App Control
12Nm DD Power
The 12 Nm servo direct drive system is tailor-made for simulating race cars, delivering a stable and realistic torque output of 12 Nm. It flawlessly replicates the steering force found in road and race cars, providing detailed and immersive feedback from the virtual vehicle and track surface directly to your hands.
Slanted-pole Design
The R12 motor incorporates cutting-edge technology derived from the R21 base, utilizing a unique slanted-pole design. The rotor is intelligently segmented into three sections with precisely calculated angles, resulting in a revolutionary motor design that significantly reduces cogging torque, torque ripple, electromagnetic vibration, and noise levels compared to conventional motors. With its innovative design, the R12 motor runs seamlessly and quietly, offering unparalleled smoothness and minimal noise and vibration during operation.
The Maximum & Minimum Design Philosophy
The R12 DD base is designed with a high-slot fill rate, utilizing high-permeability magnetic cores and high-strength neodymium iron boron magnets to achieve high energy and low current density characteristics. With its compact body and low power consumption, it delivers maximum torque output, significantly enhancing convenience and temperature control performance.
Ultra-low Torque Ripple
The motor in the R12 DD base utilizes a 18-slot, 16-pole high-slot design, which features the highest number of poles in its class. This design results in ultra-low torque ripple and exceptional shock absorption performance, delivering a smooth and seamless steering experience.
Wide High-torque Speed Range
The R12 DD base utilizes a low back-electromotive force design, which allows for a broad speed range even during high-torque operation. This feature enables high torque output at high speeds and eliminates torque dropouts when quickly correcting direction, ensuring a smooth and consistent steering experience.
Ultra-low FFB Latency & Steering Response
Enjoy ultra-low force feedback latency and steering response with our system’s 280MHz processor chip and optimized algorithms. This advanced technology makes it easy for drivers to control their vehicles with precision and ease, delivering an immersive and responsive driving experience.
New Generation FFB Filtering Algorithm
The R12 DD base is powered by MOZA’s latest force feedback filtering algorithm, providing enhanced dynamic feedback that renders oversteer and understeer with greater clarity and richness.
Aviation-grade Aluminum
Experience unrivaled quality and durability with the MOZA R12. Its entire housing is constructed from aviation-grade aluminum alloy utilizing automotive-grade painting and laser etching, providing a long-lasting and extremely durable finish.
Intelligent Temperature Control System
Our advanced system continuously monitors the temperature of the motor and electronic components in real-time, employing intelligent temperature control strategies to deliver stable and reliable performance in all circumstances.
Industrial Conductive Slip Ring
The base and the steering wheel are connected through a automotive-grade conductive slip ring with a life span of over 5 million revolutions. The unique patented design has extremely high stability and durability while achieving infinite high-speed rotation.
Compact Design
The integrated motor design results in a compact size that still retains a standard 4 hole bottom mount pattern. It can be easily installed onto the vast majority of dedicated rigs and floorstands. In smaller spaces the base can be assembled with a desktop clamp, saving space whilst providing a convenient and enjoyable driving experience anytime, anywhere.
Hand-off Protection
This function can effectively avoid the risk of injury and quickly help restore control by detecting that hands are off the wheel. Once activated, it will quickly stop any oscillation and safely center the wheel.