DingusMcGee said:
Most likely the 80v cap rating means the capacitor can handle up to that voltage day & night all the time [when satisfying ambient temp max] -- the working maximum voltage rating. The ultimate rating is likely not double what is written on the shell as the caps characteristics. Most engineered parts have a safety factor above the working rating unless they tell you the rating is ultimate voltage/strength. I once misconnected a 24v charger which had 35v caps to a battery at 66v and heard a minor explosion inside the charger. I replaced the 35v cap with the top blown off and the charger works to this day.
Capacitors are quite cheap. One could get some 80v ones and test them at say 90 v? 100v? Of course such a test means nothing about how much the particular ones in the controller can handle as capacitors of the same rating are not all manufactured the same -- and from China.
My two C-3000 bikes have battery strings of 19s and 20s and are charged to 4.2 v/ per cell. The 20s battery is charged to 84.0 v as measured by a calibrated Fluke meter. You could say I am betting that the controller's 80 v caps can handle a load 5% over the working cap rating? When is the bet over? And obviously the 80v rating is not the ultimate voltage the cap can handle. Nor is 84.
And better yet solder a couple leads on that 80 v cap and see whether with an 84v charged battery the cap ever sees 80 volts -- you know PWM duty cycle et al.
Dingus, dear, good for you. I always hear the same lame arguments from you; you're just looking to pick up a fight, like you did with Lantice13 at the beginning of this thread... and then others; but like they say, ignorance is bliss... so, why don't you just solder the leads and find out, huh? Like the "tangential" caliper? or is that a good enough buzzword?
"Capacitors are dirt cheap", wow, really? I would've never guessed that, phew... I don't know if anyone else here would've ever guessed that either... and that you can even replace them with new caps, too? ha ha ha.
I made my decision and I am explaining here the reasons as to why I stuck with 18S. That is the logic behind my action. You can say whatever you want, I am not going to change my mind. But there maybe others here who are not interested in risking their controllers either so I am posting this information here to help others... like I've been doing since page 3 of this thread. You can't say the same thing, can't you? Just getting people pissed and threats...
I simply won't try my luck with the controller for a puny 360 watts power increase over 18S; and definitively not when I've seen the inside capacitors rated at 80V, see pic. And like le15otl stated, he has blow two of those caps not even over-volting. You might not depend on your eBikes much for transportation, but for me reliability is #1 and that comes ahead of anything else.
Oh, and FYI, 19S is still UNDER 80V, it is 79 volts fully charged. Regardless of this, given the caps are rated 80V we should all technically be running this controller at 12S LiPo to keep the operating voltage at half of the electrolytic caps on the ESC.
Electrolytic caps have a limited life span, and the closer they are run to their rated voltage the faster they go puff; and if you've ever restored an old arcade game you will know...
Done with this matter, whoever wants to run their controller at 20S, like I said, run at your own peril. And 19S is still under 80V, just like I stated a few pages ago.
G.
