Figure 1. Parasitic Capacitance across an Inductive Winding
Figure 2. Shows the Time Constant Rise Time in a Series Inductor Circuit
Figure 3. Rotating Magnetic Field Approaching a Stationary Stator Coil (A), TDC to the Coil (B) and Moving Past Said Coil (C).
Figure 4.Rotating Magnetic North Pole Approaching A ReGenX Stator Coil at a Specific Frequency F1
Figure 5. Oscilloscope Current Shots For a Conventional Generator Coil Current and ReGenX Generator Coil
Figure 6. Rotor Magnetic Field at TDC and Approach and Departure Frequencies of Rotor Magnet
Figure 7. Discharging Delayed Regenx Coil’s Induced Magnetic Field Accelerating Rotor’s North Pole Magnetic Field While Attracting The Approaching South Pole Magnetic Field
Figure 9. Stage 1 Conventional Generator Coil North Pole Magnetic Field Approaching Coil.
Figure 10. Stage 2 Conventional Generator Coil North Pole Magnet Receding From Coil.
Figure 11. Stage 1 ReGenX Generator Coil, North Pole Magnet Approaching Coil
Figure 12. Isolation Oscilloscope Shot Showing ReGenX Coil Current 45 Degree Delay
Figure 13. Stage 1 ReGenX Generator Coil, North Pole Magnet at TDC
Figure 14. ReGenX Coil (B) Current Sine Wave Peaking Post TDC at 135 Degrees
Figure 15. Stage 3 ReGenX Generator Coil, North Pole Rotor Magnetic Field Being Accelerated Away From Coil’s Core Post TDC and South Pole Rotor Magnet Being Accelerated Toward ReGenX Coil’s Core
Figure 16. Coil Position Required to Maximize Flux Harvesting
Figure 17. Flux Harvesting Between Two Coils
Figure 18. Flux Harvesting Between Four ReGenX Coils
FIG 19. Flux Harvesting Example of Flux Directions With Regard to Discharging Motor Flux and Rotor Flux Generator Direction and Regen-X Core Penetration Direction with Salient Coils
Figure 20. Flux Harvesting Employing A Concentric E Core on No Load
Figure 21. Flux Harvesting Employing A Concentric E Core On Load
Figure 22 . Bi-Coil Toriod Core ReGenX Generator on No Load
Figure 23. Bi-Coil Toriod Core ReGenX Generator Coils On Load
Figure 24. Bi-Filar Wound Coil
Figure 25. Bi-Filar Wound Parallel Connected Coil
Figure 26. Bi-Filar Wound Series Connected Coil
Addendum #1 Lenz’s Law
Figure 27. Lenz’s Law
Figure 28A. Faraday’s Law
Figure 28B. Faraday’s Law
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