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120/240VAC / 24VACDual Primary / Single SecondaryWired for 240VAC - Using 120VAC Input*Kill-A-Watt Readings:60Hz - 0.00 Amp - 0.00 Watt - 1.0 Power Factor120VAC-+TO: Cockcroft-Walton voltage multiplier (Full or Split Wave*)13.5 VIC (Volts [DC] Impulse Current) Output*IF Split Wave Connect Ground/DC- to XFMR Secondary Split and separate/align Rectifier Diodes Properly. Diodes can be 1N914 to start then 1N4007 as voltage is increased and so on...370VAC 5uF (can be smaller V/varied uF)370VAC 5uF (can be smaller V/varied uF)GND MUST BE CONNECTED FOR ELECTRON SOURCE!

BRUBAKER HAIRPIN

BYRON BRUBAKER
mx6maximus@gmail.com

ytbe/FB mx6maximus

C*C* Play with Capacitor Farad Values Here Within Voltage Limits

Brubaker Hairpin
1.0 POWER FACTOR HAIRPIN VIC PUMP

[NO-LOAD ELECTRON "HYDRAULIC RAM WELL-PUMP"]

[WIRE TRANSFORMER PRIMARY IN SERIES TO REFRIGERATOR AC HOT LINE (BETWEEN OUTLET AND APPLIANCE) FOR 24/7 DUTY]

Build-up INTENSITY then ARC/discharge at FREQUENCY (INTENSITY (Volts) are converted into QUANTITY (Amps) at discharge!)

Safe skin-effect at 22kHz and keep a resistive LOAD in shunt!

1C=1As (One Coulomb = One Ampere 'in' a second) Keep Coulomb value constant, discharge starting at 22kHz for safe skin effect.

ATTENTION ATTENTION

Pretend that the transformer is a motor activating the capacitors as hydraulic pistons alternately, diodes as check valves and ground is a water well. NOTE that the transformer primary is wired for 240VAC input but is connected to 120VAC (This particular transformer was JUNK sitting around~there are better ones on the market) This transformer is rated to secondary output 24VAC if used 'properly.' With using 120VAC and the primary wired to accept 240VAC the actual voltmeter readings show 16.8VAC, then voltage drop across diodes (of course). I personally prefer the full wave multiplier thereafter. AVOID LOADING THE SOURCE! Charge banks of caps or cells THEN discharge those. Play safe & have fun! Byron


T1	Dual Primary / Single Secondary	120/240VAC / 24VAC	Wired for 240VAC - Using 120VAC Input*
DB1	DIODE BRIDGE	13.5 VIC (Volts [DC] Impulse Current) Output	TO: Cockcroft-Walton voltage multiplier (Full or Split Wave*)	*IF Split Wave Connect Ground/DC- to XFMR Secondary Split and separate/align Rectifier Diodes Properly. Diodes can be 1N914 to start then 1N4007 as voltage is increased and so on...
C1	NON POLARIZED	370VAC 5uF (can be smaller V/varied uF)
C2	NON POLARIZED	370VAC 5uF (can be smaller V/varied uF)
C3	C*	C* Play with Capacitor Farad Values Here Within Voltage Limits