AEROMAG · PROPULSION · ELECTRIC MOTOR PLATFORM
The motor is the platform. The material is the motor.
AeroMag is Reinventy's proprietary electric motor platform. The portfolio is built on Reinventy-produced soft magnetic composite materials, eliminating dependence on commercial silicon-steel laminate supply chains and enabling motor geometries that are not realisable with conventional lamination. Configured through a dual-architecture family — Axial Flux Permanent Magnet (AFPM) and Parallel Path Magnetic Technology (PPMT) — addressing distinct propulsion classes. Native control via Mag-FOC. Patent priority window 2026.
THE THESIS
Power density is decided at the material.
Conventional electric motor design is constrained by the magnetic properties of commodity silicon-steel laminations and the geometric limits of stamped-and-stacked stator assembly. Power density above the commercial envelope requires either rare-earth-heavy designs at component cost, or compromises on thermal and electromagnetic performance. The constraint is upstream of the motor — it sits in the magnetic material supply chain.
AeroMag is engineered to bypass that constraint. The platform is built on Reinventy-produced soft magnetic composite materials, formulated and shaped in-house. The material supports motor geometries that conventional lamination cannot realise, and characterises a performance envelope that does not require commodity silicon-steel as the foundation. The platform architecture is configured across two complementary families — Axial Flux Permanent Magnet for compact high-torque applications, and Parallel Path Magnetic Technology for applications requiring elevated magnetic force per unit electrical input.
ARCHITECTURE FAMILY
Two architectures. One material foundation.
AeroMag is configured around two complementary electromagnetic architectures, each addressing a distinct propulsion-class need. Both share the proprietary soft magnetic composite material foundation; topology and magnetic flux configuration diverge per architecture.
- AFPM
Axial Flux Permanent Magnet architecture.
Dual-rotor / single-stator topology with magnetic flux configured axially through the stator plane. Engineered for compact integration envelopes with high specific torque, optimized for applications where envelope volume is a primary constraint. Natural skin-air cooling integrated within the rotor design.
- PPMT
Parallel Path Magnetic Technology architecture.
Parallel magnetic flux circuit configuration that achieves elevated magnetic force per unit electrical input. Engineered for applications requiring high torque density and zero-energy holding behaviours, where conventional radial-flux topologies do not characteristically deliver the required performance envelope.
MOTOR CLASSES
Two classes. Both architectures.
Within each architecture, AeroMag is configured into two motor classes addressing distinct power envelopes. Both classes are available across the AFPM and PPMT architectures, with configuration selection driven by the specific propulsion-class requirements of the integrating platform.
- R-CLASS
Moderate-power configuration.
Engineered for compact integration envelopes including auxiliary propulsion, ducted-fan applications, and integrated mobility actuation. Native controller pairing: Mag-FOC R-Series.
- A-CLASS
High-power-density configuration.
Engineered for high-power-density applications and integrated propulsion at scale. Native controller pairing: Mag-FOC A-Series.
MATERIAL FOUNDATION
Soft magnetic composites, produced in-house.
The AeroMag motor platform is built on Reinventy's proprietary soft magnetic composite materials. The material family supports magnetic permeability characteristics tuned for distinct stator configurations, enabling motor geometries — and therefore performance envelopes — that are not realisable with conventional silicon-steel lamination. Material formulation and additive manufacturing process are within the company's foundational IP roadmap (filing priority 2026).
PLATFORM INTEGRATION
Where AeroMag deploys.
AeroMag is the foundational propulsion layer composed into Reinventy's autonomous platforms:
- MAG-FOC
Native control pairing. AeroMag motors are piloted by Mag-FOC controllers with variant-class matching (R-class motors with R-Series controllers; A-class motors with A-Series controllers).
View → - PHANTOM-CORE
Propulsion layer of the cognitive autonomy platform. The composition of AeroMag motors + Mag-FOC control + thermal protection from XHT constitutes the integrated propulsion envelope of the platform.
View →
IP POSTURE
Filed across material and motor architecture.
AeroMag IP coverage spans two filing streams: the soft magnetic composite material formulation and additive manufacturing routes (foundational platform), and the motor architectures enabled by those materials (downstream embodiment). Both are within the 2026 high-priority filing window per the company's IP roadmap. Specific application metadata and claim language are released under non-disclosure agreement. For the broader IP posture disclosure regime, see /ip-posture.
ENGAGE
Specifications under partnership.
The AeroMag capability brief — including architecture-specific operational envelopes, performance specifications, material qualification data, and integration interfaces — is released under non-disclosure agreement. Engage directly to begin the partnership conversation.
Direct: engage@reinventy-solutions.ca