Asymmetric Regauging Overunity Generator

Exploits asymmetric regauging of the vacuum potential — energy gain via broken symmetry

$490 plan

Get build plan →

// Blueprint rendering available after purchase

Technical Specifications

Classification Scalar EM — Energy

Mechanism Asymmetric gauge symmetry breaking

Topology Non-reciprocal ferrite + timed MOSFET gating

Status Full plans coming soon

Difficulty 3 / 5

Est. Build Cost TBD (full plans in development)

Est. Build Time TBD

Overview

Bearden's asymmetric regauging theory holds that conventional electrical circuits are engineered to restore gauge symmetry after every energy cycle — meaning the circuit "fights" the vacuum energy it momentarily couples into. By using asymmetric switching topologies (non-reciprocal ferrite elements + timed MOSFET gating), the circuit can be arranged to accept vacuum energy input without restoring the original potential — achieving a coefficient of performance >1. The Asymmetric Regauging Overunity Generator implements this topology in a bench-scale testbed with precision COP measurement instrumentation. **Full BOM and assembly steps are currently in development.** Plans and prototype kit available at pre-release pricing.

Intended Research Use

Asymmetric regauging experiments, broken symmetry COP measurement, vacuum energy coupling topology research, Bearden MEG theory validation.

Bill of Materials (0 components)

          // Full BOM in development — available with complete plan release.
        

Get Build Plan

Complete plan PDF including all specs, winding geometry, drive circuit schematics, measurement protocols, and Gerber files where applicable.

$490 one-time

Purchase plan — Stripe

Also available: Component kit $3,800 — members get 10% off

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Complete build documentation (PDF)

Winding specs + circuit schematics

Measurement + verification protocols

Sourcing guide for all BOM items

Lifetime access, no subscription

Build Difficulty

Intermediate — requires basic RF electronics experience.

Est. cost: TBD
Est. time: TBD