Supply-chain resilience
Reduce exposure to constrained rare-earth magnet supply chains and geopolitical volatility.
Vimag Labs is building a new class of electric motor that replaces permanent magnets with real-time digital field control—combining motor architecture, power electronics and proprietary software in one scalable platform.
Built for next-generation electrification
The fifth Indian patent protects the core architecture behind Vimag Labs’ proprietary VMSM platform.
Patents granted
Patents in the pipeline
Trademarks filed
Engineering hours invested
Conventional PMSMs embed fixed rare-earth magnets in the rotor. VMSM replaces that dependency with a tightly integrated hardware-and-software stack.
Brushless, slip-ring-free architecture designed to operate without permanent magnets.
Controlled excitation creates the required rotor magnetic field dynamically.
Software adapts field strength and motor behaviour to operating conditions.
Motor, controller and software are engineered as one motion system for the OEM platform.
A software-defined approach creates new options for cost, control, localisation and product evolution.
Reduce exposure to constrained rare-earth magnet supply chains and geopolitical volatility.
Tune magnetic field behaviour through controls rather than fixed magnet characteristics.
Replace high-cost permanent magnet content with scalable electronics and common materials.
Designed to match or exceed permanent-magnet solutions across targeted duty cycles.
Extend the architecture across mobility, industrial, robotics, defence and cooling applications.
Support indigenous critical motor technology and globally distributed manufacturing.
Vimag Labs is working with established two-wheeler and passenger-car manufacturers, with expansion planned across commercial mobility and high-power industrial systems.
View application roadmapCompact, cost-sensitive propulsion systems for high-volume electrification.
Integrated traction systems designed for range, efficiency and controllability.
LCV and CV platforms with demanding torque and duty-cycle requirements.
High-power systems for industrial equipment and energy-intensive operations.
The fifth granted patent protects the foundational architecture of the Virtual Magnet Synchronous Motor platform and strengthens the company’s commercial roadmap.
Start with application requirements, duty cycle and integration constraints.