Lasted edited by Andrew Munsey, updated on June 15, 2016 at 1:59 am.
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> Directory:Bedini SG:Replications > Monsieur Bonheur
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'Monsieur Bonheur 's Replication of John Bedini's Flux Gate G-Field Energizer, Second Attempt.'
Monsieur Bonheur 's replication employs four coils.
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Aluminium disk, 4 holes to accept magnets.diameter = 4 inches
thickeness = 3/8 inch weight = 276g
Common ceramic magnets
diameter: 1 inch
thickness: 1/4 inch
stack of three magnets per pole(may change)
Aluminium disk with plastic disk with 4 notches
Diameter = 2 inches
weight= 44g
Aluminium rod
lenght = 7 inches
weight= 40g
#Plastic spools from RadioShack's magnetic wire set.
#lenght = 1 3/4 inches
#cores diameter = 3/4 inch
#Coils resistance(average) = 7.5ohms
#6 strands wound.
#Impedance = Not yet measured
#Cores material = Concatenated soldering wire pieces
100% aluminium plates
Dry bearings (no oil,less friction)
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# The disks holding the magnets are set to the ideal spacing allowing a maximum Vac output for the lowest input cost (best compromise for highest RPM, lowest power consuming, best Vac output!)
# The disks are covered with steel caps to concentrate magnetism inside the dynamo and preventing the magnetic field from the dynamo from being influenced by outside's fields.
# I connected a diode bridge on the G-Field output.
# 3 X Giant capacitors (Capacitor Bank), 2200uF-200Volts, always connected to Diode Bridge
# 2 Relays from developper board, switching in alternance the MOTOR ON/OFF
# 2 Relays from developper board, switching in alternance 1 X Giant Capaticor, 2200uF-200Volts, from the Capacitor Bank to Charging Battery.
I'm running the Motor to it's ideal speed, which gives me an ouput of about 15.5Vac @ 116Hz perfect sine wave. The capacitors can charge to a maximum of about 20Vdc within a second or two. This is a fast charge, considering they are BIG CAPACITANCES! The motor is drawing an average of 5.5Watts from a 12V battery charger.
I used a developper board equipped with 4 Relays. One big capacitor is switched for a short time from the Capacitor BANK to the Charging Battery terminals - ON BOTH CONNECTORS! - and + ! From start, the battery gets slowly to charging state. Once the charging inertia is going on the pulses maintain the battery in charging state, constantly pulse-discharging with capacitive discharges. Using the developper board to control the variable delay discharges, I can hear the acceleration/deceleration modulation of the machine. I try to get the machine to run on constant RPM, smoothly, by tuning the "capacitor charge"/"battery discharges" and "switching Motor ON/OFF" in cycles. When getting to the right value, the motor keeps a constant RPM ands spend less energy for it's operation.
=CONTACT ME!= I like to hear comments, questions are also welcome! write to dude_buggy , in the wonderful world of Hotmail!
Directory:Bedini SG:Replications:Monsieur Bonheur-SG (the above is an advanced version of the Bedini concept)
Directory:Bedini SG:Replications:Monsieur Bonheur
Directory:Bedini SG:Replications:Monsieur Bonheur-BediniBasedGenerator (July2005)
Directory:Leedskalnin Magnetic Currents:Monsieur Bonheur
Directory:Bedini SG:Replications:Monsieur Bonheur FluxGate (April 2006)
Directory:Bedini SG:Replications
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