Torque shaped
by geometry.

The Magnetic Bias Repeater (MBR) is a passive torque-conditioning architecture designed to shape torque-angle behavior in rotating systems. Independent university evaluation shows measurable, repeatable positive torque-profile changes under controlled conditions.

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Third-party tested

Patent pending

Technical diligence package available

Dynamic validation underway

Architecture

Rotor-Coupled

A rotor-mounted magnet arm assembly passes a stationary magnetic tower array, creating position-dependent magnetic interaction through the engagement region.

Geometry-Driven

Torque response is governed by magnetic geometry, including radial spacing, phase relationships, polarity distribution, and domain alignment.

Fully Passive

MBR shapes torque-angle behavior through passive field interaction, without active electrical input, software control, or powered actuation within the assembly.

Non-Contact

The rotor-mounted assembly and stationary tower array operate without mechanical contact, allowing the mechanism to function while preserving mechanical separation.

Position-Dependent

Torque response is governed by angular position and magnetic geometry rather than active timing, software control, or electronic actuation.

Phase-Locked

Testing observed a stable primary interaction region, demonstrating repeatable phase-locked torque-angle behavior.

Applications

Where torque becomes
a controllable
design variable.

MBR targets rotating machinery where torque ripple, load stability, and phase-dependent torque response affect performance, reliability, and control.

Wind Generation

Passive torque-profile conditioning for variable-speed drivetrain architectures where loading, mechanical stability, and drivetrain response matter.

Industrial Motors

External torque-conditioning potential for continuous-duty motor systems where vibration, wear, and operating stability are primary design concerns.

Power Generation

Torque-profile conditioning for turbine and generator drivetrains where load transfer, mechanical stability, and control response are critical design parameters.

Precision Drivetrains

Torque-profile control for motion systems where torque quality can affect accuracy, acoustic signature, and component life.

Independent Evaluation

Measured under
controlled conditions.

Independent university evaluation measured a positive integrated torque-angle response and repeatable torque-profile modulation under controlled conditions. The results confirm a repeatable, position-dependent torque-profile response and support application-specific dynamic validation.

Primary Result Positive integrated torque-angle response

Observed Behavior Repeatable torque-profile modulation

Evaluation Basis University-led engineering review

Next Stage Dynamic validation underway

Technical Access Available under NDA

Engage

For qualified
technical and
strategic partners.

Ember Innovations is pursuing strategic licensing, application-specific integration, and joint development discussions with qualified industrial and institutional partners. A technical diligence package, including independent evaluation materials, torque-mapping data, and configuration results, is available under executed NDA.

For inquiries, please contact Ember Innovations.

info@mbr.energy

Technical diligence package available under NDA · Qualified inquiries only

Torque shaped by geometry.

Where torque becomesa controllabledesign variable.

Measured undercontrolled conditions.

For qualifiedtechnical andstrategic partners.

Torque shaped
by geometry.

Where torque becomes
a controllable
design variable.

Measured under
controlled conditions.

For qualified
technical and
strategic partners.