The resistors are in parallel with each other to create the resistance needed to limit current to about 25 amps or a bit more.
They are in series with the output of the PSU's. So that may be 2, 3, 4, 5, 6, 7 or 8 PSU's in series and in series with a bunch of parallel resistors. In any set of series PSU's the resistors are only in series with the total number of series PSU's.
When you take small snippets of something someone said you lose context. I'm pretty sure I already said all of this, but you'd never know it based on the snippets you have quoted.
Nope, you did not. I re-read your posts in their entirety before commenting to make sure I hadn't overlooked it. I hadn't. THAT is why I gave you the feedback regarding your explaining skills.
The resistors are in parallel. Some will be in parallel all the time and more will be added or taken away as needed to raise or lower the total overall resistance needed to limit current to 25 amps. […]
Dude, you suck at explaining things.
Your resistors are in parallel with each other, but the resistor bank is in series with the output. You didn’t bother mentioning this critical point at any time.
Assume that I know what I'm doing when it comes to charging. I've been using SE-600 Meanwell PSU's to charge for 5 years now. This is pretty well known territory for me...
Your questions, technical approach, and attitude suggest you don’t really know what you’re doing and don’t really appreciate all of the risks involved.
The fact that you’ve gotten away with a bad approach for 5 years doesn’t make it a good approach.
I think you can agree that current follows the path of least resistance.
No, because it does not.
Well, it does, in that the current always takes all available paths, which the path of least resistance is one of. The various resistances simply determine how the current is divided amongst all the paths.
But the statement “follows the path of least resistance” generally means “...to the exclusion of higher-resistance paths”, and as such is false.
OK...thanks for the feedback...negative as it may be...
Opinions and scathing comments won't sway anyone. I'm not sure why people bother.
Please present actual facts that show why i could be doing something wrong instead of slamming me as a person which is pointless and offensive.
Saying "someone sucks" is offensive. Saying "I don't understand what you said" is not. Consider being less offensive please.
I didn't say you suck as a person. I said you suck
at a particular skill, which is a different thing. (For example,
I absolutely suck at team sports. That isn't offensive, it's a statement of fact, and says nothing about me as a person.)
I categorically did not fail at understanding you, in that you omitted critical implementation details.
That's entirely on you. As stated above, I verified this omission before commenting.
I do have a couple questions for you.
Have you tried what I have tried so that you know for a fact that it's safe or unsafe?
Are you basing what you said on any factual information or is that just your opinion?
I haven't tried charging Li-Ion this way because it's not the correct way to charge them, and risks overcharging, which is a risk I am not willing to take.
Li-Ion requires CC/CV (that's
one thing, not two options) charging. I don't see anything in your setup that would enable it to detect the end of the CC phase and move to the CV phase, nor anything that would provide for the cutoff current detection at the end. Is there any automatic cut-off at all?? (Relying on the protection circuits does not count!!)
As I and others have told you, there's just the issue of risk, which we do not feel you have sufficient respect for. The amounts of energy involved here are
enormous. No big deal when everything is going right. But if something goes wrong, it can go very, very wrong. (The biggest risk is fire. Not only is your house burning down a bad thing as such, but lithium fires are damned near impossible to extinguish. Fire departments routinely have to stick around for
hours to watch crashed EVs because of how the battery packs can catch fire again spontaneously.)
Ive never claimed to be an electronics expert and there is more I don't know than I do know.
Yet you're stubbornly resistant to input from others.
I'm more of an experimenter...try it out see what happens. In this case, what happens is that it works and has been since 2015. I think the proof of time is evidence enough to say it's going to keep on working a good while longer.
No, absolutely not! Whenever you're dealing with anything that involves safety (which Li-Ion battery charging absolutely falls under, as do some of the voltages involved here), your design has to be designed to be safe for the worst-case scenario. You cannot design around the best-case scenario. And it's not something where "trying it out and seeing what happens" is a responsible thing to do.
You've gotten away with it for 5 years. But you've got no margin for error, and that makes it unsafe.
Sorry for coming off as harsh, but when it comes to safety, I (and this forum in general) err on the side of caution.
The other issue is caring for the cells. The CC/CV charging regimen also aims to maximize battery capacity. If you were to do only the CC phase, and ending charging altogether when the max voltage is reached, you forgo a substantial chunk of available capacity. OTOH, if you follow the CC phase with a CV phase but have no end current cutoff, you overcharge the cells, which damages them.
So far I have yet to see evidence to the contrary. This isn't even my idea! I read about it on Endless-Sphere being done with 12v server PSU's. The requirement of isolated outputs was easy to determine so I tried on sevaral of those 90W Lenovo PSU's and it worked! I then bought 4 Meanwell SE-600 PSU's as I knew they too had isolated outputs. This too worked flawlessly and that charger has seen continuous use for many years now. More recently I got around to this building the super charger with 8 PSU's potentially stacked in series. So far so good...seemed a good idea to me so far and is doing what I expected it would do...work. Whether this is the intended use that Meanwell had for the PSU's, well I don't worry about that too much!
Just because two or more people have the same bad idea doesn't make it a
good idea.
You should bear in mind that electrical engineers are trained in the safe use of electricity. Moreover, they are taught to abide by a professional code of ethics. Two stanzas of the IEEE Code of Ethics stand out in particular:
1. to hold paramount the safety, health, and welfare of the public, to strive to comply with ethical design and sustainable development practices, to protect the privacy of others, and to disclose promptly factors that might endanger the public or the environment;
...
5. to seek, accept, and offer honest criticism of technical work, to acknowledge and correct errors, to be honest and realistic in stating claims or estimates based on available data, and to credit properly the contributions of others;
...
You are dealing with high voltages, high current, high power and a whole lot of stored potential energy. You are using the power supplies in a very unconventional configuration. It is one thing to expose yourself to the risks of this setup, but it's another thing to expose others to that risk - especially if they are less knowledgeable about electronics and how the system works. Just because you've never gotten struck by lightning while standing under a tree during a thunderstorm doesn't mean it's safe to do so.
At the very least I would get separate supplies for your different charging needs (voltages & amps). Safety features that real battery chargers have include automatic current limiting, cut-off for over current and over-voltage events, automatic charge termination, battery temperature monitoring. Note the emphasis on "automatic". If the process requires human intervention that in itself dramatically increases the chance of something going wrong.
These are all good points...
High voltage...maybe. I'd say 380v is "high voltage DC". I've been working with 82v to 220v for many years. I don't really think of this as high voltage. It's pretty easy to manage and to stay away from situations where electrocution can occur.
And yet knowledgeable people manage to get electrocuted every day. Again, you have to design around when things go wrong, and not around people "managing" the situation.
High current...30 amps...not really no. My latest EV runs at 82v and I see 500 battery amps. That's far from the maximum I've ever seen which is 1000 amps when I used to service industrial 3 phase breakers.
For what it's worth, 30A may not be much to electricians, but in the context of electronics, where tiny currents are the norm, 30A is huge (other than the specialization of power electronics, of course).
I do agree that Meanwell did not intend their PSU's be used in this fashion, but then neither did Dell or anyone else whose PSU's are getting stacked in series. This is not new and I didn't do it first. Maybe it's a bad idea? Maybe if you don't want to try it for yourself you shouldn't? Does it work and have I ever seen even a hint of a problem? Never. This isn't dismissal, just acknowledgement that this is done by many people including me.
But it
is dismissal of the concerns. You've dismissed every concern anyone here has expressed, which is why we are worried that you do not have adequate respect for the risks involved.
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