The results of this set up is yet to be worked out as i get ac rf over 1600 volts and dc of 306 volts on top of it the output can be varied slow pulses or faster using my slide in slide out core to tune it its output feels hot and the output can charge a high voltage photo flash capacitor up , its still in the experimental stages . but the results i got are a bit baffling so far . And I’m not that good at explaining it so i try to.
Heres the latest the 3 section circuits used to charge hv photo flash capacitors the bottom one is the single wire powered double relay oscillator booster or rf amp section thats powered from one of 2 outputs from the 6 series coil sec exciter the box on to of it ios the capacitor charge neon indicator circuit box and the last one on the right is the hv photo flash capacitor charger plug in thats where you plug your hv photo flash capacitor to charge it up, and like always if you have your finger on the top metal part of the capacitor and touch the 2 legs to you finger you will feel a 3 way charge from both electrodes and the top as if its a hv captret .
More Updates from Mr.Steven:
Ive run some tests, now before i get to the led load test from sec exciters positive output to the drivers input ill let you know first now its a long story so bear with me my friend and ill explain as best as i can.
Now the first test was linking a lead from one of the 2 sec exciter 6 series coil to a neon leg , now like always if the lead attached to the neon leg is run strait out and in parallel to the core pipe pulled out, the other neon leg then gets its return feedback energy from the core pipe, to test that you just hold a neon by one leg and bring the other up to the core pipe and it will still light up . But if i run the lead outwards away from the energy emitting core pipe and then link the other neon leg to another lead then run it to the positive input to the driver, the neon gets only a little more power and you can see it getting slightly brighter, but on the other hand if i disconnect that lead to the driver input and then stick the metal clip at the end of that lead directly to the triple row rare earth magnets around one of the 2 power coils, i get the most feedback as the neon then gets very bright and if i take that clip off the magnets and just touch it to the other coil sections i get nothing so the magnets seem to be holding the rf power output otherwise id get the neon glowing to every double insulated coil section i touch the alligator clip to, that runs to that neon while the other end is still linked to the positive rf output , now the next test attached to one leg of the neon i have a 1m resister and if i link that to the positive rf output and the other lead from the other neon leg to the magnets i get the neon glowing very bright, so from the positive output to the magnets i get the most power output in this type of feedback method via the coupling effect with the magnets . the same applies with the core removed /air core. and the results get even confusing as the neon at times pending on how i got the core responds but it can be dim and if i run a lead to the drivers input it can go out and i have the switch set to 9 volts dc 500 milliamps if i set it to 9 volts dc 400 milliamps i get nothing,
now the led load test well the led doesn’t have a gas like the neon so no worries about it glowing in the presents of an rf field or energy from the core . now i run the positive output to an led negative leg and then the positive led leg lead runs to the drivers positive input , the led gets bright but if i run the positive towers output to the led positive led leg and the other led negative leg to the drivers negative input i get nothing the led is then barely dim but with the negative towers output to led positive and leds negative leg run to the drivers positive and to the drivers negative the led lights both ways,
and get bright to so its as if the neg and positive input to driver had both negative and positive in it yes swagatam, its a really confusing one but very strange and i cant believe it myself led positive runs to sec exciters negative output and the leds negative to either of the drivers pos and neg inputs still lights the led bright. im really confused now, im going nuts here with confusion ive written the details down as i got them . i think im getting such weird results i just cant believe it im really scratching my head now and the positive to negative and negative to positive thing sounds like a series battery set-up. But its the fact that i got an led bright using neg and pos inputs to one led leg while the other was linked to one of the towers outputs is weird , well what do you think now i didnt video these tests as it was to long and would take ages to upload this ive got a drawing it shows some of the test results.
I have a power transistor circuit set up as a Darlington pair and its powered from a 9 volts dc battery and uses an ignition coil it puts out hv ac but when i ran the ac outputs to a bridge rectifier then a capacitor charge indicator circuit to see if it to can charge the capacitor up it didnt work but i have another idea to try yet , a brilliant circuit i once put together to use the ac output of the ignition coil to charge a hv photo flash capacitor up with i just have to find the schematics for it then try it on that as it was originally used at the ac output of an ignition coil driven by an ignition coil driver circuit.
The first design is one i come up with years ago when i built a few hv photo flash capacitor chargers this is based on another circuit which i had to make some changes to suit my hv cap charger the next circuit is what mine was based on you can see how different they look now they are photo flash cap charger indicator circuits. the 3rd circuit is a design i come up with to turn the hv output of an ignition coil powered by a 2n3055 driver circuit, into a hv photo flash capacitor charger i built this years ago and just dug it out of my papers here this same circuit i used to charge hv photo flash capacitors using the old disc shaped fly-back transformer which doesnt have the inbuilt hv trippler that puts out hv dc like the newer ones do and the disc shaped fly-back transformers put out only hv ac when powered by a driver circuit which was originally the simple vortex cannon driver circuit . so ill be experimenting with these again and try to come up with some newer sec exciter powered hv cap chargers or just a normal hv photo flash capacitor charger.
THIS IS MY LATEST CIRCUIT SEC EXCITER POWERED SCR PHOTOFLASH CAPACITOR CHARGER AND THE SCR S GATE APPEARS TO BE INITIATED BY TOUCHING YOUR FINGER TO A CONTACT POINT AND THE PARALLEL PHOTO FLASH CAPACITORS ALSO WHEN CHARGED WILL PUMP A CHARGE RIGHT FROM THE TOP CAN THROUGH YOUR FINGERS AND BAC K TO ONE OF THE TERMINALS SO ITS THEN A HIGH VOLTAGE CAPTRET THAT ACTS LIKE A HV CIRCULATION PUMP, THIS NEW IDEA WORKS LIKE THE REST WITH MY SPECIALLY DESIGNED SEC EXCITER COIL TOWERS AND DRIVER CIRCUITS AND OTHER ADDITIONS.
Any of your viewers intend on building the sec powered photoflash cap charger has to take into consideration , note that when i say Im powering it from the output of the sec exciters coil tower i failed to mention that its not the real actual coil output , i have the microwave capacitor circuit that links the actual sec exciter coil output first and the split outputs positive and negative is what Im using so to charge the hv photoflash capacitor up i have to link the charger circuit to either of the sec exciter coils microwave cap circuits outputs to do this so please mention it in your blog and if anyone followed that blog well they may of already picked it out that Im using a circuit between the output of the sec exciter coils and the cap charger which is part of the whole set up.
AS FOR THE FIRST SCR PHOTOFLASH CAPACITOR CHARGER AND THE SCR PHOTOFLASH DISCHARGE CIRCIUT LINKING IT, IVE SUCCESSFULLY BREWED BOTTLES OF COLLIODAL SILVER WITH IT USING THE CONTINUOUSLY GATE TRIGGERING OF THE SCR IN THE PHOTOFLASH CAPACITOR FIRING CIRCUIT WITH THE 1K RESISTOR USED AS ITS GATE RESISTOR, LATTER I USED MY ELECTRONICS ASSISTANT CALCULATORS OHMS LAW CALCULATOR TO WORK OUT THE CORRECT GATE RESISTOR FOR THE C106D SCR THE GATE CURRENT WAS 500UA MAX AND THERES NO GATE VOLTAGE LISTED IN THE DATA I USE 9 VOLTS ANYHOW BUT THERE WAS LISTED A MINIMUM GATE VOLTAGE 0.2 VOLTS AND I USED THE OHMS LAW CALCULATOR TO CALCULATE 18K FOR THE 9 VOLTS DC BATTERY I USED TO DELIVER 500UA , BUT I COULDNT FIND AN 18K RESISTOR IN ALL MY RESISTOR PACKED PARTS DRAWS, SO I USED 15K AND ITS OK.
THE CIRCUIT IS FIRING CHARGE FROM THE PHOTOFLASH CAP WHEN I RELEASE THE SWITCH BUT IT’S A TRICKY ONE I NEED TO GET THE OUTPUT NEON OUT THEN IT GOES OK OTHERWISE THE GATE STILL CAN TRIGGER CONTINUOUSLY , BUT IF IT DOSE ITS PERFECT FOR COLLIODAL SILVER MAKING ,AND THE SILVER IONS IS PRESENT SO WELL THE LASER USED TO TYNDAL TEST IT IS NICELY HIGHLIGHTED BUT THE COLLOIDAL SILVER TASTES LOVELY AND YOU CANT TASTE THE SILVER IONS IN IT BUT THEY ARE THERE OTHERWISE THE LASER WOULDNT BE HIGHLIGHTED , THIS IS STRANGE BUT OK AS YOU CAN SEE THE SILVER PARTICLES IN THE LASER BEAM..
SO MY NEWEST METHOD OF BREWING COLLOIDAL SILVER USING THE CONTINUOUS PULSE OUTPUTS OF THE CONTINUOUS SCR GATE TRIGGERING IS A NEW ONE AND WORKS WELL .
My latest project with scr single scr capacitor charger and parallel scr capacitor firring circuit failed to work for reasons unknown. so i removed one of the scr s so its a single scr and the second photoflash cap in parallel that i added latter and it conducted voltage ok and was as if both the scr gates were triggering continuously before i took out one of the 2 parallel scrs now its doesnt feel as strong pumping out electricity with one scr than with 2 so in parallel the output felt stronger but still the capacitors werent charging and there was no discharge from them when i pushed the button, and the scr s were new so i ended up dismantling the circuit and reused some parts to replicate my other hv cap charger which is easier , ive learnt one good thing from all this and thats 2 scr s in parallel seems to amplify the output alone when the gates are all acting like there iether latched on or triggering continuously. , when the capacitor didnt charge up enough to get a pulse. and maybe having the relay on the board with the 2 circuits is affecting its function as the reall 2 peace circiut of i, t i still have still function ok . so it may be better to stick to building this as a 2 section design and not integrating it all into one, as for the diodes they are mur types and not the 1n5408 types as used in the still working 2 section circuit hv cap charger
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