You initial posts seems to be aware of the conservation of energy aspect, you have e.g. 300V/0.4 A (120 W) and intend to convert it to 20V/5A (100 W). 83 % efficiency should be feasible.
Is "increasing the current" another word for over-unity efficiency?
I'm not sure I know what you mean by over-unity efficiency.
Let explain what I'm trying to do:
I want to conduct an experiment: " "transforming" a dc power source"...
Say you have a DC source-- 5v/0.5, 5v/1.5A, a 9v/1A battery, 1.5v/1A battery etc....any DC source . How do you "transform" it? The idea is to transform that source to about a 100 watts-- the 20, 5A I talked about earlier.
Now, here are my propositions to achieving this:
1) Step up the, say, 9v source to 300v ( I'm at least 50٪ sure this is possible because I've been able to step up 5v to to about 60 without any more than 100mA "lost"!), then step it down to 20v at 5A-- like my first post asked.
2) Convert the DC source to AC, then back to Dc. Based on the premise of the content of the above "ehow" page, and say we have, 4.9v converted AC voltage (according to Bradtherad's snapshot help), using I(t) = Vs/R*(e-t/RC), we can calculate the value of I with time to be approximately the value of the input 4.9v-- if R and C are assumed 1 ohm and 2000uF respectively.
I also observed that I with time cannot get past the value of the input voltage....positively, that is!
(well, based on the above assumptions). It in fact starts dropping with time....significantly from about 300us!
So, say we get 4.9v AC at 4.9A, this can be fed to a multiplier and eventually rectified to give the desired 100watts (hopefully the amperage isn't reduced drastically!)
Those are my ideas, guys. What do you think? Possible? The first one more feasible that the second?