Despite the claim that a shorter duty cycle results in greater overunity, I discovered this is not true for higher voltages feeding the 555 timer chip. A 50/50 duty cycle gives greater overunity over a wider range of voltages by comparison to a shorter duty cycle.
Yet, I still had a problem with giga amps appearing at the output of the 555 timer and climbing to apparent infinity without limit! So, I put a 4 nano Ohm resistor between the 555 timer's output and the switch separating it from the LMD circuit. {LMD - Longitudinal Magneto-Dielectric of Eric Dollard's analog computer. See, his Borderland video.} This froze the over-amperage at a steady state and at a maximal value for the two central lamps of the LMD module to light up - and remain lit - at a minimum temperature for white brilliance. By raising the resistance of this little resistor ever so slightly can effectively
snub the magical appearance of giga, or mega, amperage at the 555 timer's output.
I removed one lamp (that I had been using for dumping excess buildup of energy from within the LMD whenever the switch is opened after running the circuit for any length of time), because it wasn't doing much good (where it was positioned) while the switch is closed (or, at least this seemed to me). So, I added two more lamps in a different position in parallel flanking the overall design (where the spark gaps - neon bulbs - used to be in prior designs; see earlier posts).
BTW, the ten volt lamps and power source is arbitrary. It can be anything; yet, the outcome will remain the same! Just be sure and match the lamp's Nominal Voltage with the voltage of the power source to prevent irregularities from arising (which I have been steadfastly trying my best to prevent!).
Including the two central capacitors within the LMD loop (what would have been the Electric Keeper of B&L) makes the grounding rods and neon bulb (GDT: gas discharge tube) of Barbosa and Leal obsolete. But it introduces a new problem of regulating this device's abundant overunity.
BTW, the ten volt lamps and power source is arbitrary. It can be anything; yet, the outcome will remain the same! Just be sure and match the lamp's Nominal Voltage with the voltage of the power source to prevent irregularities from arising (which I have been steadfastly trying my best to prevent!).
Including the two central capacitors within the LMD loop (what would have been the Electric Keeper of B&L) makes the grounding rods and neon bulb (GDT: gas discharge tube) of Barbosa and Leal obsolete. But it introduces a new problem of regulating this device's abundant overunity.
Download this binary text file and save it onto your computer, or other device (Android, iPhone, et cetera)...
Then load it into this JavaScript Simulator for designing and bench testing electronic circuits...
No comments:
Post a Comment