| Electronics > Beginners |
| Series Capacitor Charge Regulation |
| (1/1) |
| TheDood:
Hey all, I'm trying to figure out where to attach the comparator inputs in this cct?? The 2 humps resemble a rectified sine wave. Goal is to compare cap V's and execute a procedure based on that comparison, in this instance I'm trying to regulate/bypass 1 cap if it happens to have a greater V than the comparison. OP-Amps would have separate PS. The idea is to use depletion NMOS between capacitors and use enhancement NMOS for bypassing and trigger them simultaneously. Trying to trigger the D-NMOS to turn off at the same time E-NMOS is turned on. I'm trying to initiate this action when there is a difference in V from 1 cap to the other. When they are equal I would want the D-NMOS to conduct and E-NMOS to turn off. I'm thinking that if I attach inputs to each Cap positive plate that ill have a difference in V regardless if the caps are equally charged or not. I can't think of any place to hook up the OP-Amp inputs that would give me the desired outcome, but I'm just learning and figured perhaps someone could help me see a way. Thanks |
| Ian.M:
WTF are you actually trying to do? Give an overview not how you think it should be implemented. *IF* what you have shown us represents the whole original problem, then we'd need to know: What is the signal on the left from, what are its characteristics, and what effect do you want your circuit to have on it? http://xyproblem.info/ |
| TheDood:
Lol, well, WTF I'm actually trying to do is charge each cap equally. Maybe there's variation in caps so they dont all charge at same rate? How would I compare capacitor charge levels in order to know whether to bypass or not? It's a rectified sine wave, and I don't think the value matters much, so just choose any arbitrary V that you'd like. Let's use 30V, if that works for you then it works for me. It's more or less a dummy cct to help me gain an understanding so don't read too much into it.. Use any capacitor rating or FETs you'd like, how would I compare 2 caps to each other to do step B... We could do a 30V DC source next, I just wanted to learn about a rectified signal as its something I'm not super familiar with though see quite often.. The jyst is.. Compare 2 caps, carry out a procedure accordingly...in this instance step B is bypassing the cap that has a higher V... |
| TheDood:
I'm actually starting to think I'd need (3) OP-Amps for (2) caps, 1 for each cap, and then 1 to compare between the 2? |
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