Ember Innovations — Magnetic Torque-Conditioning Technology

Magnetic Bias Repeater

Torque shaped
by geometry.

The Magnetic Bias Repeater (MBR) is a passive magnetic torque-conditioning architecture designed to shape torque-angle behavior—managing torque ripple and load stability to support improved mechanical performance in rotating systems. Independent university testing demonstrated a reproducible, position-dependent torque-angle response under controlled conditions.

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Third-party tested
Patent pending
Technical Diligence package available
Dynamic characterization underway
Architecture
01
Rotor-Integrated
A rotor-mounted permanent-magnet assembly passes an adjacent stationary magnetic assembly, creating a position-dependent magnetic interaction as the system rotates.
02
Geometrically Defined
The interaction behavior is dictated entirely by magnetic geometry, including radial spacing, phase relationships, polarity distribution, and domain alignment.
03
Fully Passive
Torque-angle behavior arises solely from magnetic interaction, requiring no active electrical input, software, or powered actuation within the assembly.
04
Non-Contact
The rotating and static assemblies interact purely across an air gap, delivering mechanical conditioning without introducing friction or wear.
05
Phase-Locked
The architecture establishes a highly stable primary interaction region, delivering consistent torque behavior that does not drift over continuous operation.
06
Position-Dependent
Torque response is a strict function of relative rotor angular position, resulting in a structured torque profile that can be selectively influenced throughout the rotational cycle.
Applications

Where torque becomes
a controllable
design variable.

The MBR targets rotating machinery where torque quality, load distribution, and dynamic response are central to system performance.

Wind Energy
Passive torque-conditioning for variable-speed drivetrains where torque ripple, drivetrain loading, and dynamic response influence structural loading and operational behavior.
Industrial Motors
Torque shaping for continuous-duty motor systems where torque uniformity, rotational smoothness, and operating stability are important performance characteristics.
Pumps & Compressors
Load conditioning for rotating fluid machinery where pressure-driven torque variation, torsional response, and cyclical loading shape operating conditions and mechanical loading patterns.
Precision Drivetrains
Torque-profile control for motion systems where torque fidelity, positional accuracy, and acoustic signature influence motion quality and application performance.
Independent Validation

Measured under
controlled conditions.

Independent university evaluation demonstrated a statistically significant, reproducible, position-dependent torque-angle response under controlled test conditions. The results demonstrate a measurable torque response under controlled conditions and provide the basis for ongoing dynamic characterization.

Primary Finding Statistically significant torque-angle response
Validation Basis Independent university torque mapping and characterization
Observed Behavior Reproducible position-dependent torque response
Current Status Dynamic torque characterization
Technical Access Data, reports, and technical materials available to qualified partners under NDA
Engage

For qualified
technical and
strategic partners.

Ember Innovations is pursuing strategic licensing, application-specific integration, and joint development opportunities with qualified OEMs, industrial organizations, research institutions, and strategic partners.

A technical due-diligence package, including independent evaluation materials, torque-mapping data, configuration analyses, and supporting technical documentation, is available under executed NDA.

For partnership discussions, technical evaluation, or licensing inquiries, please contact Ember Innovations.

info@mbr.energy
Technical Due-Diligence Package Available Under NDA · Qualified Inquiries Only
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