Motionless Electromagnetic Generator (MEG)

Patented Bearden over-unity transducer — no moving parts

$680 plan

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// Blueprint rendering available after purchase

Technical Specifications

Classification Scalar EM — Energy

Core Material Metglas 2714A nanocrystalline alloy

Input Coils 2× bifilar-wound drive coils

Output Coils 2× harvest coils

Bias Element Neodymium N52 permanent magnet

Drive Frequency 50 kHz–1 MHz (resonance-dependent)

Difficulty 4 / 5

Est. Build Cost $1,200–$2,400

Est. Build Time 6–10 weeks

Overview

The Motionless Electromagnetic Generator (MEG), patented by T.E. Bearden, J.C. Hayes, et al. (US Patent 6,362,718), is a nanocrystalline-core transformer designed to extract usable electrical energy from the surrounding vacuum via a scalar EM asymmetric regauging mechanism. Unlike conventional transformers, the MEG uses a permanent magnet to establish a biasing flux gradient; two input coils modulate the core permeability while two output coils harvest energy from a non-equilibrium vacuum interaction. The design requires precise ferromagnetic resonance tuning, matched winding ratios, and careful shielding from stray EM fields. This build plan covers the full Bearden patent implementation including recommended core materials (Metglas 2714A or equivalent amorphous alloy), winding geometry, drive electronics (Class-D push-pull), and oscilloscope-based resonance verification procedures.

Intended Research Use

Vacuum energy extraction experiments, asymmetric regauging validation, over-unity coefficient-of-performance (COP) measurement under load, ferromagnetic resonance studies.

Bill of Materials (20 components)

#Component

01 Metglas 2714A amorphous core tape (500g roll)

02 N52 neodymium bar magnet (50×25×10 mm)

03 28 AWG magnet wire, 500m spool (×2)

04 Bobbins (custom CNC or 3D-printed, ×4)

05 IRFP460 MOSFET (×4)

06 UC3525 PWM controller IC

07 Ferrite gate drive transformers (×2)

08 470 nF MKP film capacitors (×8)

09 IRF640 fast-recovery diodes (×4)

10 Custom PCB — Class-D H-bridge driver

11 Oscilloscope probes (×2, 10:1)

12 Rogowski coil current clamp

13 Epoxy potting compound (low-shrink)

14 Faraday cage enclosure (aluminum)

15 Precision winding jig (DIY or commercial)

16 LCR meter (digital, 20Hz–1MHz)

17 UV-cure varnish for coil stabilization

18 24V DC lab power supply, 5A

19 BNC coax patch cables (×8)

20 Thermal imaging camera (or IR thermometer)

Get Build Plan

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

$680 one-time

Purchase plan — Stripe

Also available: Component kit $4,200 — 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

Advanced — precision fabrication + measurement equipment required.

Est. cost: $1,200–$2,400
Est. time: 6–10 weeks