Capture Every Bump. Power Every Journey. Our Regenerative Suspension Converts Road Vibrations Into Clean Energy Maintaining A Smooth Ride While Extending Your Range.
Conventional vehicle suspensions dissipate energy as heat, while electric vehicles struggle with range limitations. This energy loss happens millions of times per mile.
Conventional dampers convert kinetic energy into thermal energy, which dissipates into the atmosphere — completely lost.
Limited battery capacity forces drivers to plan routes around charging stations, reducing the appeal of electric mobility.
Every bump, dip, and road irregularity represents recoverable energy — millions of joules per mile, currently going to waste.
3.28 trillion miles driven annually in the US alone
Imagine if even a fraction of that motion could be captured and converted to usable power.
Our electromechanical suspension system harvests energy from vehicle motion while maintaining superior damping performance and ride comfort.
Simultaneously harvests energy and provides active damping control without compromising ride quality.
Engineered for real-world conditions with proven structural integrity under extreme stress.
Seamlessly integrates with EV energy management systems for optimal power utilization.
Purpose-built FEA-optimized generator designed for maximum energy harvesting with minimal mechanical footprint.
FEA-validated design showing internal rotor components, mounting bracket, and electromagnetic flux paths through the cross-section view.
Complete assembly view displaying all major components including planetary gear set, sun gear, ring gear, and precision-machined housing.
Converts wasted vibrational energy from suspension motion into usable electrical power for vehicle systems.
Maintains superior vehicle stability and damping performance while harvesting energy simultaneously.
Extends electric vehicle range by intelligently recovering and storing energy that would otherwise be lost.
Advanced electromechanical architecture with real-time adaptive response to road conditions.
Designed for seamless integration across multiple vehicle platforms and future production models.
Extensive testing validates structural integrity and reliable performance under extreme conditions.
Our technology has been validated through rigorous real-world testing, demonstrating measurable voltage and current output with stable damping performance.
Initial baseline testing with standard excitation parameters
Modified parameters showing improved voltage output
Optimized configuration achieving peak performance
Controlled bump testing with multiple excitation conditions
Demonstrated voltage and current output under real driving conditions, with ability to power 12V vehicle loads.
Peak energy generation achieved at moderate excitation levels, validating real-world efficiency potential.
Proven integrity under extreme stress conditions, ensuring safety and reliability in all operating environments.
Primary application for extending EV range and improving efficiency.
High-energy applications with demanding terrain conditions.
Commercial fleets benefit from reduced energy costs and extended range.
Integration with future autonomous and connected vehicle systems.
Join automotive manufacturers, investors, and research institutions in bringing this breakthrough technology to market.