A 240 degree F heat release is made on a laser light measurement of the 3/8 wide block. From notes a 1DCA field current from a 9.2 DCV source enabled three stator phases of 13.8 volts. Each phase recorded the following inputs 1) 26 volts (resonant voltage rise) enabling .35 A across 2.3 ohm delivery lines. Likewise for the other phases... 2) 27 volts yields .34 A 3) 31 volts yields .39 A
Now two full wave rectifiers are placed between the relative voltages between the resonant voltage rises on phases (1-2) and the next combination of (2-3) The fact that no full wave rectification is placed across (1-3) mdpt voltage rises is irrevalent, becauses it makes no further delivery to the DC load; but a very special application of this third possible rectification can be shown with self powered field models obtained from this source. The load from the three phase rectifications of voltage rises shows 65.7 volts enabling a DC conduction of .24 A causing a heat rise to 240 degree F on the block. The internal loads of procurred DC currents across the midpoints of the external delta series resonances are left intact from the beginning of the observations; but in BOTH circumstances, whether a load was present or not, the interphasal voltage measurements showed an excess of 360 degrees toal in the time circle. On this case here with the interphasal DC ferrite load present upon startup of rotation, the following interphasal voltages exist. Between the ph.s 1 & 2 consisting of 26 and 27 volts exists 56 volts, slightly over 180 degrees. Between phases 2 & 3 consisting of 27 and 31 volts exists 51 volts about 123.1 degrees Between the ph.s 1 & 3 consisting of 26 and 31 volts exists 50 volts, about a 122.6 degree phase angle. These are the preliminary measurements. HDN Pioneering the Applications of Interphasal Resonances http://tech.groups.yahoo.com/group/teslafy/
