i have been rolling this one around for awhile, here goes--
oscillating current principal( for use with "batt-capps")--
i suggest, that if a battery is veeeery rapidly oscillated, on-and-off, while connected to a draw, it looses its charge at a lesser rate, from the "off-time" adding-up, or compounding...i feel this concept can also be used when working with capacitors, thus solving an "electronic-riddle" that has puzzled a great may electricians, for as long as there has been power( how to instantly charge/recharge a battery??)--
the concept( "batt-capps")--
we all know if a capacitor is put to a load, it discharges instantly, but, i suggest, that if the capacitor had a veerryy rapid oscillation, of being connected, and then disconnected from the load, it would not have time to fully discharge, thus, the capacitor is now acting as a battery( due to the capacitor having a working "deep-cycle", like a battery does)--
the point--
providing a way for a capacitor to have a "deep-cycle", is important, as this is the main difference between a battery, and a capacitor...the other favorable thing about a capacitor( being instantly rechargeable), would remain...and the battery, or "batt-capp", if installed in a car, or other device, would be rechargeable in seconds( to full capacity)--
conclusion--
i feel this concept has promise, although heat may need to be "sinked" away from the "batt-capp", while recharging( at this rapid a rate)...also, the amount of "deep-cycle" gained from utilizing this "oscillating-current principal", is unknown to me( at present), and will require study to derive good results--
best wishes...john kruschke--
oscillating current principal( for use with "batt-capps")--
i suggest, that if a battery is veeeery rapidly oscillated, on-and-off, while connected to a draw, it looses its charge at a lesser rate, from the "off-time" adding-up, or compounding...i feel this concept can also be used when working with capacitors, thus solving an "electronic-riddle" that has puzzled a great may electricians, for as long as there has been power( how to instantly charge/recharge a battery??)--
the concept( "batt-capps")--
we all know if a capacitor is put to a load, it discharges instantly, but, i suggest, that if the capacitor had a veerryy rapid oscillation, of being connected, and then disconnected from the load, it would not have time to fully discharge, thus, the capacitor is now acting as a battery( due to the capacitor having a working "deep-cycle", like a battery does)--
the point--
providing a way for a capacitor to have a "deep-cycle", is important, as this is the main difference between a battery, and a capacitor...the other favorable thing about a capacitor( being instantly rechargeable), would remain...and the battery, or "batt-capp", if installed in a car, or other device, would be rechargeable in seconds( to full capacity)--
conclusion--
i feel this concept has promise, although heat may need to be "sinked" away from the "batt-capp", while recharging( at this rapid a rate)...also, the amount of "deep-cycle" gained from utilizing this "oscillating-current principal", is unknown to me( at present), and will require study to derive good results--
best wishes...john kruschke--
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