Projects that Shape the Future of Electrification
Our projects reflect a practical mix of academic innovation and industrial delivery. Each case study highlights technical challenges, our approach, and tangible results — including performance metrics and lessons learned. We present projects that span R&D prototypes, small-series products, and product launches.
Hybrid Technology for Sustainable Transportation: Efficient, Powerful, and Eco-Friendly
Our advanced hybrid systems combine electric and diesel power to deliver higher efficiency, lower emissions, and exceptional durability for heavy-duty applications. By optimizing fuel consumption, reducing CO₂ output, and capturing braking energy, our hybrid solutions significantly improve overall energy efficiency and environmental performance. Contact us to learn more about our sustainable hybrid propulsion technologies.
Hybrid Drive for Heavy-duty Construction Machinery - ALLQT
CLIENT: In-house project /patent pending
SCOPE: Concept design, electromagnetic optimization, prototyping, dynamometer testing and on-site integration.
OUTCOME: Our patent solution improves fuel efficiency, reduces emissions, and enables regenerative energy capture during deceleration. By operating the diesel engine only under optimal load conditions, overall CO₂ emissions are reduced and system efficiency is increased.
Compact, Efficient, and Quieter Solution
Complete development — from design and prototyping to testing — delivering lower noise levels, higher energy efficiency, and optimized dimensions for operation within restricted spaces.
SPM motor: 250W, 3000rpm
CLIENT: OEM (confidential)
SCOPE: Design, prototyping and testing of an SPM motor for high-precision positioning servo drive.
OUTCOME: Key improvements include reduced acoustic emissions, increased energy efficiency, and decreased overall dimensions. The motor architecture is optimized to operate within predefined size constraints.
Compact, Robust, and Precisely Engineered
Our SPM machines are fully designed, prototyped, and tested for constrained installations and harsh operating conditions — including high ambient temperatures and extreme accelerations.
High-speed SPM machine: 120W-1kW, 10-18krpm
CLIENT: OEM (confidential)
SCOPE: Design, prototyping, and testing for integration into a starter system
OUTCOME: The machine architecture is optimized for limited installation volume and operation in harsh environments characterized by elevated ambient temperatures and high acceleration loads.
Efficient, Compact, and Rare-Earth-Magnet Free solutions
By eliminating rare-earth magnets and leveraging alternative machine topologies, we maintain high efficiency and compactness while reducing environmental impact.
Switched reluctance motor drive: 250W, 3500rpm
CLIENT: OEM (confidential)
SCOPE: Design, prototyping, and testing of both the motor and the inverter for e-bike mid-drive applications.
OUTCOME: The product concept emphasizes environmental sustainability by eliminating rare-earth magnets and implementing alternative machine topologies without compromising efficiency or packaging volume. Further technical details are available upon request.
Wireless Power Harvesting Device: Reliable Energy Everywhere
Designed for locations without access to mains or solar power, our solution wirelessly captures stray magnetic fields from transformers and transmission lines and converts them into usable energy — enabling reliable, maintenance-free operation of small sensor devices.
Stray loss harvesting wireless power device
CLIENT: OEM (confidential)
SCOPE: Development of a wireless magnetic energy harvesting system for maintenance-free powering of off-grid sensor devices.
OUTCOME: Wireless power device designed for stray-loss energy harvesting. Intended for powering small electronic loads such as sensor modules deployed in locations without access to conventional energy sources (mains supply or solar exposure). Additional technical specifications are available upon request.
Advanced High-Speed Machines for Microturbines and Arospace Systems
Engineered for aerospace propulsion systems, microturbines, and residential energy solutions, it ensures maximum efficiency, safety, and reliability under the most demanding conditions.
High-speed SPM machine: 150kW, 40krpm
CLIENT: OEM (confidential)
SCOPE: Development and testing of a high-speed SPM generator for microturbine-based distributed energy generation.
OUTCOME: Designed for aerospace propulsion systems and microturbine energy solutions, the machine is optimized for electromagnetic efficiency, thermal management, and mechanical stability. This high-performance SPM machine ensures safe and reliable operation in demanding aerospace applications as well as residential microturbine energy systems. Currently in the prototyping phase.
Compact and Efficient Solution for Engine Cooling Fans
Designed for engine cooling fan applications, it features a simplified structure that reduces assembly complexity and lowers manufacturing costs.
Axial flux PM motor: 300W, 3000rpm
CLIENT: OEM (confidential)
SCOPE: Development scope included design, prototyping, and performance testing of a Double Rotor Axial Flux machine intended for engine cooling fan applications.
OUTCOME: The axial flux topology delivers higher efficiency and a more compact form factor than conventional radial motors, while its simplified mechanical structure reduces assembly complexity and manufacturing costs. The design employs ferrite permanent magnets as a cost-effective, thermally robust, and supply-chain-resilient alternative to rare-earth magnets. Additional technical details and integration support are available upon request.
