Just wanted to show some numbers others here may not have looked into.
Stan Meyer's Alternator-tube setup.
INPUT POWER TO EACH TUBE: 12V @ 4.4A = 53 WATTS PER TUBE!
(Ref international independent test-eval report p 60)
JON ABEL (youtube)
30V @ 680mA = 18 WATTS!
Thewaterenergy1 (youtube)
75V @ 900mA = 68 WATTS PER TUBE!
RAVI'S REPLICATION (youtube)
12V @ 500mA = 6 WATTS PER TUBE!
Also, irondmax is not posting any of his input power stats. If you watch his vids you can see several indications that he is also using a lot of power to run his tubes, just like the others. I'm not saying any of these replications are wrong, just trying to point out the fact that they are using more current than most people think.
I look at it this way, if you were to try to fill a water jug that had a hole in the bottom of it, how do you do that?
You have to have more water flowing into the jug than what flows out of the hole.
In these replications the capacitor is being charged by forcing more current into it than it wants.
JUST SOMETHING TO THINK ABOUT!
Stan Meyer's Alternator-tube setup.
INPUT POWER TO EACH TUBE: 12V @ 4.4A = 53 WATTS PER TUBE!
(Ref international independent test-eval report p 60)
JON ABEL (youtube)
30V @ 680mA = 18 WATTS!
Thewaterenergy1 (youtube)
75V @ 900mA = 68 WATTS PER TUBE!
RAVI'S REPLICATION (youtube)
12V @ 500mA = 6 WATTS PER TUBE!
Also, irondmax is not posting any of his input power stats. If you watch his vids you can see several indications that he is also using a lot of power to run his tubes, just like the others. I'm not saying any of these replications are wrong, just trying to point out the fact that they are using more current than most people think.
I look at it this way, if you were to try to fill a water jug that had a hole in the bottom of it, how do you do that?
You have to have more water flowing into the jug than what flows out of the hole.
In these replications the capacitor is being charged by forcing more current into it than it wants.
JUST SOMETHING TO THINK ABOUT!