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Registered Member #2063
Joined: Sat Apr 04 2009, 03:16PM
Location: Toronto
Posts: 352
I currently working 100W LED flash light project right now, its almost done. what I basically have is a DC-DC step up module to drive my LED array in CC mode
Im currently using five 18650 lithium-ion cells in series to power up the whole setup, which works quite nicely. Is it safe to charge five lithium-ion cells connected in series? or am i better off charging each cell individually?
I usually charge my 18650 cells by using my CC CV power supply, first I set the current limit to 1A and set the output voltage to 4.2v then charge the cell until its pulling less than 100mA from my power supply. Can I do the same to charge 5 cells in series if I change the output voltage to 21v?
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
charging in parallel and discharging in series is always best, fires and explosions are a possibilty with batteries. (though the explosions arent as bad as RDX, torpex or ammonium nitrate, there still scary and dangerous. just believe me)
the use of a balance connector is best IMO, even when it isnt absolutely required. (on my batteries its a must), on your system id recommend it. then your charging/monitoring cells in parallel but discharging in series. for a prototype system, as many of us 4hv'ers build it shouldnt be an overwhelming burden, though it could be easier to charge them one at a time by means of diassasembly. And watch for smells, bulging, heat and unexplained sudden differences from previous performance.
i would strongly advise making sure the cells are balanced in terms of SofC one way or another, simple series charging definately doesnt do that, even with CC and or CV.
Boeing is seeing the consequences of a poorly implemented battery system as we speak. (yet again!)
Registered Member #509
Joined: Sat Feb 10 2007, 07:02AM
Location:
Posts: 329
Either parallel charge, or have a tap-per-cell hooked up to a hobby charger.
If you have nice matched cells, you might be able to get away with just a protection circuit that monitors each cell voltage and no balancing. My packs built with legit sanyo cells pulled from a laptop pack all stay very well balanced, always at the same voltage, to 0.01v after discharge could get away without balancing (like laptops do) However the previous pack I build using deal extreme cells always took an a lot of balancing to keep them even. (Ebay cells dont count as nice cells either as there is no guarantee of cell age, or matching)
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
ConKbot of Doom wrote ...
If you have nice matched cells, you might be able to get away with just a protection circuit that monitors each cell voltage and no balancing. My packs built with legit sanyo cells pulled from a laptop pack all stay very well balanced, always at the same voltage, to 0.01v after discharge could get away without balancing (like laptops do)
I thought about making a similar explanation, but the whole "matched cell" thing still scares me when applied to Lithium chemistry.
Registered Member #30
Joined: Fri Feb 03 2006, 10:52AM
Location: Glasgow, Scotland
Posts: 6706
Most Li-ion battery packs for consumer electronics don't have balancing. The protection circuit just monitors the voltages of the series cells and disables the pack if they get out of balance. I save the protection circuit boards from dead packs and reuse them with new cells.
The batteries used with cordless tools and RC models are an exception. The cells are charged in series, but with active balancing through the tap points.
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
Steve Conner wrote ...
Most Li-ion battery packs for consumer electronics don't have balancing. The protection circuit just monitors the voltages of the series cells and disables the pack if they get out of balance. I save the protection circuit boards from dead packs and reuse them with new cells.
The batteries used with cordless tools and RC models are an exception. The cells are charged in series, but with active balancing through the tap points.
my instruments indicate that my (RC drone charger) the series charge is rapid up to 70-80% then the taps are bringing the SOC to 100%.
Quick question while on the topic of li-ion i'm currently building a charger for 18650 cells using Arduino and I have a fairly good system for charging single cells but multi-cell charging is next on my list. Dos anyone have any idea how I might achieve active balancing?
Registered Member #1565
Joined: Wed Jun 25 2008, 09:08PM
Location: Norway
Posts: 159
Destroyer of mosfets: The usual way is to have a resistor that can be connected over the cell for each cell. (via a FET) You can do coils and active energy moving, but do you plan to have midpoint outputs that discharge parts of the pack? If not.. it's probably no big loss by just resistors.
Still, it doesn't cover how to protect against faults.
How do you plan to do the safety? if you don't have a fail-safe way, go for a pre-made SPI/other controlled solution with protection built in.
I was thinking something along those lines thanks. I have a lot of safety built in to the charger program to prevent any problems when charging including temp monitoring but I don't really have any protection for discharging although I am considering low voltage cut off to prevent draining them to low.
I will mostly be using it to charge my DIY high power tourch (cree MC-E led) which runs on 4 cells but once I have a good multi purpose charger I will be using li-ion in a lot more of my projects.
Edit: so just to make shore I understand you correctly your suggesting a resistor across each cell that will apply a load if that cells voltage rises above the rest? I was thinking a resistor that would apply extra current two any calls that fall behind but that would over charge all of the cells before it.
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18650 lithium battery pack charging
