PPMT · PROPULSION · MOTOR ARCHITECTURE
Parallel flux paths. A different operating envelope.
PPMT — Parallel Path Magnetic Technology — is one of two motor architectures within Reinventy's AeroMag electric motor platform. The architecture is configured around a parallel magnetic flux circuit that delivers an operational envelope conventional radial- flux topologies do not characteristically reach: high torque density and zero-energy holding behaviour from a single electromagnetic design. Built on the proprietary SMC-Core soft magnetic composite material foundation. Native control via Mag-FOC. Patent priority window 2026-2027.
THE THESIS
Magnetic flux topology is the design choice.
Conventional electric motor design routes magnetic flux through a radial circuit between rotor and stator. The topology is mature, supported by extensive supply chain infrastructure, and well characterised across the commodity power-density envelope. It also fundamentally limits the relationship between torque output and electrical input current — there is one continuous flux circuit, and torque scales with current within the magnetic saturation envelope of the laminated core.
PPMT is engineered around a different magnetic topology. Multiple flux paths are configured in parallel within the magnetic circuit, allowing the architecture to deliver elevated torque density and zero-energy holding behaviour from the same electromagnetic design — characteristics that conventional radial-flux topologies do not characteristically support without additional mechanical brake systems or sustained electrical input. The architecture leverages the geometric freedom and magnetic properties of the proprietary SMC-Core soft magnetic composite material foundation, which supports magnetic circuit configurations not realisable with stamped silicon-steel lamination.
ARCHITECTURAL PRINCIPLES
Four principles. One coherent architecture.
PPMT is engineered around four architectural principles, each addressing an institutional- operations requirement at the motor design layer:
- PARALLEL FLUX CIRCUIT
Multiple magnetic flux paths configured in parallel within the magnetic circuit. The topology supports torque output characteristics distinct from conventional radial-flux topologies.
- HIGH TORQUE DENSITY
Torque-density envelope characteristically beyond commodity radial-flux configurations of comparable integration volume.
- ZERO-ENERGY HOLDING
Static holding behaviour without sustained electrical input. Operational benefit in applications requiring extended hold phases where continuous current draw is unacceptable.
- MATERIAL FOUNDATION
Built on the proprietary SMC-Core soft magnetic composite material substrate. The material's geometric freedom enables magnetic circuit configurations not realisable with conventional silicon-steel lamination.
MATERIAL FOUNDATION
Built on the SMC-Core substrate.
PPMT is built on Reinventy's proprietary SMC-Core soft magnetic composite material foundation. The material's tuneable magnetic permeability characteristics and additive- manufacturing-compatible formulation support the parallel-path magnetic geometries on which the architecture depends — geometries that conventional stamped silicon-steel lamination cannot economically realise. The same material substrate supports the sister AFPM architecture within the AeroMag family; the choice between architectures is configured at the integration design phase per the operational envelope of the deploying platform.
- SMC-CORE
Soft magnetic composite material foundation. The proprietary material family that enables both PPMT and AFPM architectures within the AeroMag platform.
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PLATFORM INTEGRATION
Where PPMT deploys.
PPMT integrates as one of two architecture options within the AeroMag motor platform, with native control via Mag-FOC, and deploys within Reinventy's cognitive autonomy platform when the operational envelope calls for the PPMT performance characteristics:
- AEROMAG
Parent motor platform. PPMT is one of two architecture families within the AeroMag electric motor platform; the sister architecture is AFPM (Axial Flux Permanent Magnet). Configuration is selected at the integration design phase per the operational envelope.
View → - MAG-FOC
Native controller. PPMT motors are piloted by Mag-FOC controllers with variant-class matching driven by the voltage class of the motor configuration.
View → - PHANTOM-CORE
Deployment context. PPMT-architected motors deploy within Reinventy's cognitive autonomous platform when the operational envelope requires the architecture-specific performance characteristics.
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IP POSTURE
Filed within the motor-architecture family.
PPMT sits within Reinventy's motor-architecture patent family alongside AFPM and Mag-FOC. The patent filing priority window is 2026-2027 per the company's IP roadmap; coverage is engineered to span the parallel magnetic flux circuit configuration, the architectural integration with the SMC-Core material foundation, and the operational behaviours that emerge from the topology (torque density envelope and static holding characteristic). Specific application metadata, claim language, and jurisdictional extension scope are released under non-disclosure agreement. For the broader IP posture disclosure regime, see /ip-posture.
ENGAGE
Architecture brief released under partnership.
The PPMT capability brief — including specific torque-density envelopes, holding-behaviour specifications, operational envelope per configuration class, material qualification data, and integration interface specifications — is released under non-disclosure agreement. Engage directly to begin the partnership conversation.
Direct: engage@reinventy-solutions.ca