Ok, the main premise of Bedini's work is that pulsing a coil or else charging it to degree (preferably before saturation) and instantly taking out the power of it. The inductive collapse brings an high voltage kick that is captured by the battery.
Right so far? The magnets as admited by Bedini in various threads are for timing purpose only. (except if one is using a secondary passive LED operating coil)
So pulsing it, collecting the kick back.
.............
I suggest a method for intensifying the effects and have some fun also.
Instead of battery for charging the coil i suggest an high voltage cap bank. (say 5KV)
Instead of transistor for on-off the circuit lets make an spark gap.(quenched is better)
Pretty much like a Tesla coil. A HV HF (microwave oven?) diode could be used to ensure the collapse of the kick back is directed inside the battery(-ies)
Carefull adjustments of all parameters by those who know to match coil's saturation level, battery capacities or perhaps capacitors for absorbing the tremendous kick-back will boost efficiency.
But, will be OU? The current rise time by HV cap bank to a coil (cored or air core) will be fraction in relation to plain battery use(12volts). The inductive collapse due to spark gap and cap or battery absorbtion will be almost instant. (in comparison to transistor and losses via the trigger circuit) Whereas the overal stress to surround environment will be orders of magnitude greater than Simple SSG coil stresses.
Your suggestions and mayhaps replications pls.
Regards,
Baroutologos
Right so far? The magnets as admited by Bedini in various threads are for timing purpose only. (except if one is using a secondary passive LED operating coil)
So pulsing it, collecting the kick back.
.............
I suggest a method for intensifying the effects and have some fun also.
Instead of battery for charging the coil i suggest an high voltage cap bank. (say 5KV)
Instead of transistor for on-off the circuit lets make an spark gap.(quenched is better)
Pretty much like a Tesla coil. A HV HF (microwave oven?) diode could be used to ensure the collapse of the kick back is directed inside the battery(-ies)
Carefull adjustments of all parameters by those who know to match coil's saturation level, battery capacities or perhaps capacitors for absorbing the tremendous kick-back will boost efficiency.
But, will be OU? The current rise time by HV cap bank to a coil (cored or air core) will be fraction in relation to plain battery use(12volts). The inductive collapse due to spark gap and cap or battery absorbtion will be almost instant. (in comparison to transistor and losses via the trigger circuit) Whereas the overal stress to surround environment will be orders of magnitude greater than Simple SSG coil stresses.
Your suggestions and mayhaps replications pls.
Regards,
Baroutologos
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