Electric vehicles are changing the way we move, but traditional EV architectures are often heavy, complex, and inefficient. With centralized motors, gearboxes, and differential systems, conventional EVs face limitations in performance, efficiency, and design flexibility.
Enter s-DRIVE a next-generation hub-less in-wheel drivetrain designed to maximize power, reduce weight, and simplify vehicle architecture.
The s-DRIVE Difference
Unlike conventional EV platforms, s-DRIVE integrates propulsion, braking, and cooling directly into the wheel. This approach provides:
- Significant weight reduction
- Higher power-to-weight ratio
- Improved modularity for multiple vehicle types
By eliminating heavy components like gearboxes and differentials, s-DRIVE achieves 3× lighter weight while delivering 300% more power density compared to traditional EV drivetrains.
Peak Efficiency Meets Performance
s-DRIVE’s in-wheel motors achieve a peak efficiency of 95%, enabling EVs to travel farther without increasing battery size. Other benefits include:
- Continuous power up to 120 kW
- Peak torque of 800 Nm
- Speed range up to 3,500 RPM
This combination ensures smooth, responsive driving across road, track, and off-road conditions.
Integrated Braking & Safety
Safety and braking performance are critical for EVs. s-DRIVE features:
- Hub-less braking system engineered to integrate seamlessly with the wheel
- 2–3× lighter than traditional brakes
- Optimized cooling for high-performance driving
The result is safer, lighter, and more efficient braking without compromising vehicle handling.
Platform Agnostic Architecture
Whether building a track car, SUV, off-road vehicle, or camper, s-DRIVE adapts easily. Its modular design allows manufacturers to innovate without being constrained by drivetrain size or layout.
- Simplifies vehicle design
- Reduces production costs
- Enhances performance across all platforms
Sustainability & Manufacturing Benefits
s-DRIVE isn’t just about performance — it’s also eco-friendly and production-friendly:
- Uses standard materials like aluminum, steel, and iron
- Compatible with high-volume manufacturing
- Reduces material waste and drivetrain complexity
Conclusion
s-DRIVE is more than just a drivetrain it’s a paradigm shift in electric vehicle design. By combining lightweight construction, integrated braking, and modular flexibility, s-DRIVE enables EVs that are faster, safer, and more efficient.
The future of EV performance is in the wheel itself, and s-DRIVE is leading the way.
