10-01-2023, 03:45 PM
I'm noticing many anomalies I yet can't explain with this device and is why i'm putting a general hold on a full disclosure until I can figure out what the hell is going on here.
The final 15 UF rectified DC cap charges instant to over 1KV, It looks like DC on multiple meters, It stores in the cap like DC, But does not behave like native DC. It won't power regular DC devices. It will power some AC devices such as LED lamps without a drop of voltage, The voltage increases under these types of loads.
*It's not that simple high voltage inductive kickback voltage just rectified into a charging cap. This would give us normal DC.
*It won't run fluorescent lamps for some reason as we all expected it should.
*It won't charge a bigger cap. For some reason the bigger cap also reads in the KV range but as soon as the trigger is turned off goes right to 0. not even 1mv storage, It like acts like a gate that won't allow this power to charge as "DC" But for some reason the reactive rectified cap not connected to any load will charge to 1kv or more and once the trigger is off, will still show a high voltage and gradually top down to 500-200 etc and within a few minutes down to maybe 20V. Acting more like a traditional power supply. This cap at 1kv can be shorted and this transforms this energy back into amps a second current that we can use. But as some have suggested, It won't dump on it's own into an inverter capacitor.
It looks like no matter what we need to build a switch to dump the final cap the 15uf cap needs to dump at 1kv.
Perhaps it will work for hydrogen production. Another experiment in the works.
The final 15 UF rectified DC cap charges instant to over 1KV, It looks like DC on multiple meters, It stores in the cap like DC, But does not behave like native DC. It won't power regular DC devices. It will power some AC devices such as LED lamps without a drop of voltage, The voltage increases under these types of loads.
*It's not that simple high voltage inductive kickback voltage just rectified into a charging cap. This would give us normal DC.
*It won't run fluorescent lamps for some reason as we all expected it should.
*It won't charge a bigger cap. For some reason the bigger cap also reads in the KV range but as soon as the trigger is turned off goes right to 0. not even 1mv storage, It like acts like a gate that won't allow this power to charge as "DC" But for some reason the reactive rectified cap not connected to any load will charge to 1kv or more and once the trigger is off, will still show a high voltage and gradually top down to 500-200 etc and within a few minutes down to maybe 20V. Acting more like a traditional power supply. This cap at 1kv can be shorted and this transforms this energy back into amps a second current that we can use. But as some have suggested, It won't dump on it's own into an inverter capacitor.
It looks like no matter what we need to build a switch to dump the final cap the 15uf cap needs to dump at 1kv.
Perhaps it will work for hydrogen production. Another experiment in the works.