This link from above is what I'm using as a guide:
http://unconventional-airsoft.com/2009/08/26/how-to-make-a-basic-mosfet-switch/And that's pretty much the mosfet I'm using other than it's likely a clone of it based on my reading, since I bought it on ebay. Knowing likely it would be a clone but it was cheap and I figured I'd give it a try on this application.
So heat wise, with an 11.1v lipo it was getting hot enough to melt solder connections so too hot. Fairly surprisingly it didn't seem to harm the mosfet itself. But I'm still waiting on 100ohm 1/4w resistors to test and see if that is somehow causing the heat issue. With 7.4v it seems to get hot but not hot enough to worry about, I didn't take time to hit it with the IR temp to see what it was actually but felt acceptable.
I admittedly don't understand how that mosfet works, IE I don't know the reason for the various values of resistors etc on which leg and why. I do know running a higher resistor on the leg in place of the 100ohm caused it to cycle very slow like it was running on around 5v or something around that range. So I'm not sure how the magic in the mosfet converts voltage etc, but since I don't have the correct part I'm sort of assuming that's the issue. Once I get the resistors(hopefully today), and see if that solves it or not. If not then my next guess would be the 3034's I got aren't any good. Though I might take and try each of them since from what I understand if they don't switch entirely then they can cause excess heat to be generated.
Luke
EDIT: Alright did a bunch more testing tonight and I think I've drawn some conclusions which may or maynot be correct.
So the 100ohm resistor from what I can tell just drops the voltage/amperage down for the gate on the mosfet to trigger. I found some guys who swear up and down that 3034 mosfet's don't fully open the gate until they hit 10v or so. So I pulled my resistor off the trigger line and redid my test. Same results mosfet still getting far too hot. And by too hot if I didn't mention above we're talking the solder started to melt at the joint. Without the IR temp gun handy I'm not sure what it was, but freaking way too hot.
Now testing wise, what I did was shoot around 20 times on semi auto. With the 11.1v that's enough to get the mosfet that hot which isn't right. With the 7.4v it seems happy, warm/hot but not dangerous levels about what I had expected. So my theory is that these are just garbage mosfet's that I got, the more I read the more I realized how crappy the knock off parts really were.
So I went ahead and ordered from digikey 4 IRLB3034's that I know are genuine and by then I'll have the 100ohm resistors since I'll start with the build as the spec lists on the site. Only if I find I'm getting hot then will I drop that from the circuit and try it the way it's wired now. I expect it's just bad mosfet's at this point, but it could also be wiring, but until I can test the new ones I'm just going to leave the wiring as is and try a new mosfet in the existing circuit.
So more info coming as I get more components etc. But right now despite the set backs I'm cautiously optimistic. And I know at this point I could have bought at least one decent mosfet for the money invested, but I'm still winning if I can make all this work. Since I've got a bunch of guns to install these in, and I've learned a boat load about how they work in the process which will make it much easier to diagnose and repair going forward.
