An excellent investigation and description, thank you for taking the time.
@StuartPittaway Жыл бұрын
Thank you
@gilrand62245 ай бұрын
That is an excellent explanation of how this balancer works. Thank you very much for taking the time to explain it. I was hoping that the board had some means by which it would shut itself off when the balance was within specification, but that may be wishful thinking. I would like to leave the balancer connected with the BMS, but I was hoping it go to sleep when not needed.
@pete3897Ай бұрын
That simulation and explanation was really helpful. Thanks for posting
@tigiewig Жыл бұрын
got here from off grid garage . thanks for excellent explanation of how these work . 👍
@StuartPittaway Жыл бұрын
Welcome!
@Krmpfpks8 ай бұрын
That’s a great video! Thank you so much, I am currently learning about batteries to refurbish a used powerwall and I bought such an inverter. How fast are these pulses switching between charging the capacitors and charging the batteries?
@artypete Жыл бұрын
Very interesting! Didn’t know active balancers worked quite like that. Well done 😊
@StuartPittaway Жыл бұрын
There are several types, this one is capacitive balancer.
@GarethJones-dk9yp Жыл бұрын
Great video. I use this active balancer in conjunction with the Diybms on my 7s lithium ion pack and does a great job keeping them in balance. However, I do only recommend using these for top balancing. I switch the enable contact on at 3.9V and only charge to 4V/cell. You must admit a diybms V5 with active balance BMS would be awesome 😉
@StuartPittaway Жыл бұрын
Great tip!
@ConorFenlon Жыл бұрын
Is your battery bank 7s1p? Or more than 1p?
@GarethJones-dk9yp Жыл бұрын
7S40P. LG MH1. Around 120Ah.
@ConorFenlon Жыл бұрын
@@GarethJones-dk9yp Oh sweet!!
@anilnaar Жыл бұрын
Hello Stuart. Thanks, you explain complex circuits in a very easy way. May I know which PCB design simulation software you are using in this video?
@jozefmitosinka76119 ай бұрын
very good work, you put a lot of effort into explaining the active balancer, thank you
@StuartPittaway9 ай бұрын
Glad it was helpful!
@areejaslam330126 күн бұрын
its pretty interesting, can you make a detailed video on how you simulated this circuit? It would be really helpful
@Cptnbond Жыл бұрын
The green unknown ("U") components are as you said very likely thermal fuses. I have a similar, albeit larger bough from LCSC. Cheers.
@StuartPittaway Жыл бұрын
Thanks for the info!
@ktcustom7789 ай бұрын
These are PTC resettable fuses. From my testing, they look to be +/- 6A rating. @@StuartPittaway
@jbuszkie Жыл бұрын
Thanks for this! I always wondered how they worked but was too lazy to try and figure it out!!👏
@StuartPittaway Жыл бұрын
Happy to help!
@jedong3185Ай бұрын
Hi Stuart can I know what software you use for the simulation?
@somebody1869 Жыл бұрын
I’ve got a 16S to use with my 16S pack. It’s mostly only to be turned on during charging, using the “run” solder pads through a switch.
@OffGridGarageAustralia Жыл бұрын
And I think this is actually more efficient and effective than having it running all the time.
@Krmpfpks8 ай бұрын
I heard its even better to only have it on right after charging when the battery is full. But that‘s hard to do without a micro controller tapping into the charger state.
@dwikey_987 күн бұрын
actually it is on all the time, but the module only consume around microampere.. it is active, like overdischarge (undervoltage protection), overcurrent (short-circuit protection), and overcharge (overvoltage protection).. it is active, because if not active, there are no monitoring the batteries cells from the BMS and nothing can be protected..
@somebody18697 күн бұрын
@@dwikey_98the idea is to not have it in all the time. If this balancer is active when the battery pack voltage is at or below resting voltage (~3.3v/cell), it will unbalance the pack long term. Best to only turn the balancer once a cell rises above 3.35v/cell or so.
@dwikey_987 күн бұрын
@@somebody1869 yes, i mean all the chips has consumes a small amount to remains active even do nothing (that is why i said it is only consuming around microamps.. you can see more details in the datasheet, or you just measuring them with multimeter.. like the overcharge/overdischarge protection IC, it is active.. and while charging, the balanced charger IC also active while the voltage of the battery near maximum voltage, it will activate the mosfet to discharge battery to the resistor (passive balanced charger).. so the chip also active from very beginning.. since the battery is hooked up to the bms, all the chips of the bms is active.. the different is, it is passive or active balanced BMS the principle is the same.. all the chips will activated since the battery had hooked to them.. even only consumes microamps.. consuming microamps from the battery if standby for long time, it will took forever to draining them until 0 volt (even though they are hooked up to the bms), .. and the lithium battery itself has self discharge characteristic, so if the battery has been drained because not be used for very long time, it is not from bms consuming microamps from the battery.. but the battery itself has draining itself because of chemical reaction..
@AnupamVipul Жыл бұрын
Great work I just have one question what is the reason for small caps ? why cant big cap with small value of resistor 4 inrush current limiting be used for quicker balancing ? Is it cost cutting measure ?
@StuartPittaway Жыл бұрын
Good question, I'm not really sure. They are "solid polymer capacitors" - which have better capability with ripple, so should last longer. They are expensive though, so expect this is a cost cutting limitation. You would potentially also get much larger current spikes across the PCB which again would need to be factored into a larger board or higher quality parts etc.
@akaigx910 ай бұрын
The current consumption of 4S of such a balancer is 5 mA, that is, 2.7 W per day - this is so as not to think about turning it off.
@samueldavies6465 ай бұрын
Wdym per day? Watt is energy per second
@akaigx95 ай бұрын
@@samueldavies646 2.7Wh- for 24 hours, it will be right
@zupciaaa228811 ай бұрын
How he set the values of the Schmitt flip-flop in the usual ones
@kiwiscanwifi Жыл бұрын
would be great to see a purpose built unit plug in to work with the new all in one controller..
@StuartPittaway Жыл бұрын
Nice idea
@ScottElliott8885 ай бұрын
A lot of mis-information on the net about active balancers & this puts it all to rest. Great program you have there on your PC too👍 Thanks heaps.
@StuartPittaway4 ай бұрын
Glad it was helpful!
@xTatshx2 ай бұрын
thank you, this video answered my questions in mind!
@jamesward572110 ай бұрын
A multimeter, bulb as discharge load & any old power supply/charger kinda does the job too, if you're not into complexity. Test each cell, discharge the over-spec ones using the bulb till they matchish, charge the lazy sod ones till they match the median. Or not, each to their own, there's always more than one way to skin a cat.
@CasaMaryParadise3 ай бұрын
Very time consuming or not?
@jamesward57213 ай бұрын
@@CasaMaryParadise Not really.
@alexandralex55533 ай бұрын
Brother, but what controls the trigger? Is it switched by a timer?
@romanmartynenko35758 күн бұрын
Great analysis! thank you!
@namenotshown9277 Жыл бұрын
I occasionally have to balance some 7s/1p packs which I do manually. I'm wondering why balancers dont use this method which is fairly straight forward. My method is as follows: 1. measure all cell voltages 2. charge the low cell voltages, and discharge the higher cell voltages I use icharger in 1s mode to charge a cell, and to discharge i use a 12v automotive blinker globe ( 5watts) globe. It doesn't take all that long to get the cells to pretty close voltages, so my brain is doing the work judging when to stop charging/discharging, which I guess might be the tricky bit to design into a circuit to do same. There are things like voltage sag to consider, but it becomes quite intuitive quickly. Its top balancing also when cells are close to full. I've often wondered how those balancers worked..........thanks so much , its a clever design indeed.
@eriton680614 күн бұрын
Passive balancers work more or less that way. Here we have an active balancer, instead.
@metinozturk199 ай бұрын
Hello, can you give the link to the falstad you made? I need it very much, thank you in advance.
@CannonballCircuit10 ай бұрын
Is it fair to say this active balancer works best at low and high SOC ranges, and there's a range in the middle where the cells can't be effectively balanced with this method?
@StuartPittaway10 ай бұрын
With LFP cells yes - they only balance when over 3.4V
@loucinci3922 Жыл бұрын
Andy from off-grid garage sent me over to check out this video. Hope it will be a good one - LOL. Thanks for sharing
@StuartPittaway Жыл бұрын
Thanks for coming
@cantor030515 күн бұрын
thanks for this great explanation. they said it's 4s-6s balancer but can it work on a 3s battery ? Another example, i have bought a 9s-14s balancer for a 13s 48v ebike battery, can i use it on 5s 18v makita or bosch tool battery pack ? have a good day. ps 2:24 arf.. that drawing explain why he will not works on a 3s isn't it ?
@StuartPittaway5 күн бұрын
You do need the correct balance board for the number of cells in use
@jamest.50016 ай бұрын
What if a boost converter or jewl thief is used to charge the capacitor or the low cell? If the capacitor is charged to 4.5-5v or even a capacitor doubler, charge two capacitors then put them in series to charge a cell. Its going to cost space and components, maybe it is worth it if it can work Soo much better, having a boost converter or jewel thief making noise may not be so acceptable. However a fet switching caps in series should be much more welcome.. possibly use a small micro controller to discharge the cap before connecting the call to charge it , so the high cell charges it faster. Then going in series as it connects to the low cell. I wish i had more knowledge about electronics, i could have started learning 30-35 years ago and know a ton more! Thank you soo much for all the effort , and for sharing this awesome project!
@ScottElliott8885 ай бұрын
These active balancers are dirt cheap hence kept to an absolute minimum, yes, the cct could be improved 10x fold. 😁 Mine cost 62peso (Philippines) online from China. ($1US) 😉
@alexandralex55533 ай бұрын
What the purpose of the lowest set of capacitors?
@alexandralex55533 ай бұрын
Why we can't just off the charged accumulator from circuit with adjusting the output voltage of a charger at the same time?
@phuang39 ай бұрын
Big thanks to you. This is exactly what I am looking for. BTW, what if the charging voltage is too high? how does it lower the volatge? Let's say I got 5S1P SCiB battery. It's max input is 13.5V, but I'm charging it at 14.0V. All cells are over voltage of 0.1V. How does it get rid of 0.1V? The passive balancer uses resistor though.
@StuartPittaway8 ай бұрын
If all the cells are over voltage, then it can't get rid of the energy - there is some waste, but ideally you don't allow any cell to exceed its maximum safe voltage (which is where the BMS should stop charging)
@phuang38 ай бұрын
I use it on my motorcycle. The generator's output is higher than 13.5V when RPM is high. I already got the passive balancer, and it works perfectly under my situation.
@martinjaure13107 ай бұрын
Which kind of JST connector does it have?
@tobimai4843 Жыл бұрын
Actually a pretty smart and cost-efficient design. Most Active balancing ICs from Linear etc. usually use boost converters to boost the cell voltage to the battery voltage
@ricolauersdorf687 Жыл бұрын
Yep, but boost converters are much more efficient.
@user-rs8zg8ey2b Жыл бұрын
Got a part number? I am not buying your boost statement.
@teardowndan5364 Жыл бұрын
@@user-rs8zg8ey2b What part of it? Switched capacitors aren't particularly efficient: if you want to equalize voltage between two identical capacitors where one is charged to 10V and the other at 0V by directly paralleling them, half of the coulombs get transferred and you end up with two capacitors charged to 5V. Q=CV^2/2, which means half of the energy was lost to I2R and EMI in the process. Do the same experiment by putting an inductor between the two capacitors to store the potential energy associated with the voltage difference instead of letting it turn into heat and RF radiation, now you get two capacitors charged to about 7V. If you want to efficiently transfer energy between cells, you definitely need something between capacitors. With a buck-boost/SEPIC/CUK converter, you can transfer energy between battery cells more effectively and efficiently than using switched capacitors. You could even use an isolated DC-DC converter to either divert current from the strongest cell back to pack voltage or directly charge the weakest cell from pack voltage.
@user-rs8zg8ey2b Жыл бұрын
@@teardowndan5364 as I said Got a part number? I am not buying your boost statement.
@teardowndan5364 Жыл бұрын
@@user-rs8zg8ey2b The part number is: conservation of energy. You need some sort of DC-DC conversion between things at different voltages if you want to avoid losing the energy embodied in the voltage difference, no ifs or buts about it. You can simulate it in LTSpice or any circuit simulator of your liking using any parts you want, the result will be the same.
@Ultronize3 ай бұрын
do youhave video about the other active balancer? i think the inductive type?
@StuartPittaway3 ай бұрын
I've not explored those, so no video at the moment
@wmatozinhos15 ай бұрын
shared for us this circuit archive, very good your apresetention
@asificam17 ай бұрын
What's the practical difference between the flying capacitor type (show in video) and the inductive type (the tiny type with inductors)? Is there any real reason to use one over then other? I know sort of the difference of using inductance vs capacitance, one uses capacitors, one uses the back EMF from inductors and changing currents like a buck or boost converter. But I don't know why you'd use one system over the other for an active balancer.
@CliveTrezona Жыл бұрын
Great simulation Stuart. There must be a way to adjust the balance turn on voltage by changing a few component values?
@StuartPittaway Жыл бұрын
Yes, think that 3 pin chip swappee out will do it
@Harani667 ай бұрын
these seem to come in different current ratings.. Should I be choosing one based on the overall size of battery or individual cell capacity or the max differential it could be shifting between cells (C rating ) ? or
@StuartPittaway7 ай бұрын
Generally, for any lithium battery 1amp balance is perfectly okay, unless they are really bad cells.
@tomxx8110 ай бұрын
Hi Stuart, any hint how to force balancing of LFP sooner? In my case, cells 6 & 12 are running away on top, but balancer doesn't balance because of cell 1 still at 3.36V while 3 & 6 at 3.5V. I'm controlling RUN solderpad with a relay (from HA, triggered by max_cell_voltage), so thinking about switching it to LTO - it should start balancing immediately. Any comments? Thanks!
@ktcustom7789 ай бұрын
Trigger a balance start at 3.45V for LiFeP04. with a 3.5V-3.55V 30min - 1 hr absorb, depending on overall pack health. ***Attempting any balance below the 3.45v upper knee serves only to imbalance the pack. My annual top balance usually takes over an hour at 3.5V for my well matched 280Ahr packs. My worst pack takes over 3 hrs twice per year. In your situation, switching to LTO should serve your intentions well so long as balancing on/off is relay triggered and voltage biased..
@tomxx819 ай бұрын
@@ktcustom778Thanks a lot, but there's an issue (by design) that balancer starts only when Cell 1 reaches mentioned voltage.
@scottpetersen20283 ай бұрын
What happens if you use a 3s pack on it and leave 1 input (B4) off? I want to buy an 8s balancer for my toolbox to periodically connect to different packs as a way to balance packs that have drifted too far for the resistive BMS to correct.But I have 3s,4s,and may come across 8s possibly.
@StuartPittaway3 ай бұрын
I've never tried. If you tie the unused input to the 3rd cell if wouldn't do anything, so may work
@scottpetersen20283 ай бұрын
@@StuartPittaway Thanks!
@johnnymac197611 ай бұрын
Question: Would it be possible to swap out the LTO voltage detector chip to one that switches on at say 1.7V?
@StuartPittaway11 ай бұрын
Yes it would
@ArthurEdang Жыл бұрын
Great explanation! What simulator did you use?
@StuartPittaway Жыл бұрын
www.falstad.com/circuit/
@swastikdas42516 ай бұрын
Hi like to connect with you sir , I am also trying to make same circuit my question is that if you turns the gate on how can it charge the battery ? every mosfets gate is turned on at same time how it is possible ?
@merieginvandyk7687 ай бұрын
what program is used for the simulation? I am building a 48V battery pack that has 14 battery modules in series.
@StuartPittaway4 ай бұрын
www.falstad.com/circuit/
@CrAzYDr1veR Жыл бұрын
would't it be fun to have a balancer like this as a addon for your new 16s module? Be able to remove all the extra wires...
@StuartPittaway Жыл бұрын
Yes, maybe one day!
@turkcanatilir3943 Жыл бұрын
Stuart, thanks for this post. Have you ever thought about keeping some extra cells for using while decharging the battery pack and switching some of the cells on or off (Using MCU and some Mosfets) according to their SOCs ? Your answer is important for me. Thx again. Good work.
@StuartPittaway Жыл бұрын
No, I've not considered that. The SOC across all the cells is generally the same, unless you have very poor quality cells to begin with. The battery is only as good as its weakest cell, so swapping others in/out wouldn't be an improvement.
@lequocminh2566 Жыл бұрын
I have a pack of super - capacitor 6s (16.2V, but in my car max charging voltage only 14.4v). I wonder that can I use LFP battery balancer 6s for my stuff?
@StuartPittaway Жыл бұрын
These boards seem to be compatible with most types of cells so I don't see a reason why is wouldn't work with a capacitor
@젹젹-h4j11 ай бұрын
Hello, Thank you for good video. I want to know the name of circuit simulation program.
@robertcollins46636 ай бұрын
It is the "Falstad Circuit Simulator" which is online only but someone made a standalone called "CircuitsJS1"
@hedleypepper18383 ай бұрын
I definately did not need to know this . Also glad i now do 😊. Great vdeo and explanation 🎉thank you
@StuartPittaway2 ай бұрын
Glad it was helpful!
@Andrea-ss7fy Жыл бұрын
Hello Stuart, really interesting!! Just a small question: how is the current supposed to flow back from capacitors to batteries if there’s a diode? Thank you :) Edit: I auto-reply myself: that on the schema is not a diode but a current probe :)
@StuartPittaway Жыл бұрын
Yeah - its a probe on the circuit simulator.
@Wo7f_Creek7 ай бұрын
name of this simulation program
@StuartPittaway4 ай бұрын
www.falstad.com/circuit/
@nelsoncruz7278 Жыл бұрын
Can I use 7s active balancer to balance 3s battery without damaging the balancer ?
@StuartPittaway Жыл бұрын
Sorry I don't know! So many variables
@bartklump Жыл бұрын
Can you shed bit more light on how the schmit trigger is able to send a signal to each of the mosfet gate driver ics ? Is the 10V going to each of the mosfet gate drivers ? or what does the 10v regulator do exactly besided powering the scmit trigger? are the mosfet drivers powered from the cells directly ? (1 or 2 cells) ? is there a decoupling capacitor inbetween the schmit trigger output and the gate driver input ?
@ming6842 Жыл бұрын
I have exact same question about this
@StuartPittaway Жыл бұрын
I've not gone into the detail, but I think its a schmitt trigger oscillator which fires pulses into the MOSFET driver chips.
@bartklump Жыл бұрын
So its sending the signals through a capacitor, which apparently can do magical things when connected to a mosfet. I don't really understand the principle, but its sort of like a charge pump, the way I understand it.@@StuartPittaway
@StuartPittaway Жыл бұрын
@@bartklump I believe so, ultimately it's a pulse generator to toggle the nosfets
@bartklump Жыл бұрын
yeah but thanks to the capacitors, its able to switch the higher voltage differential mosfets aswell. Since the driver sits at ground level.@@StuartPittaway
@CollinBaillie Жыл бұрын
Hey Stuart. Your simulation has resistors on each capacitor. Is this just to enable a slower charge/discharge in the simulator or does the actual balancer have these also?
@StuartPittaway Жыл бұрын
The balanceer doesn't have those resistors, these simulate the internal resistance of the capacitor (ESR). It's a very low resistance.
@jbehitech4 сағат бұрын
Good explanation, but I never see it balance the battery. So with 0.02A or less (5A Equalizer) it does a poor job
@lezbriddon Жыл бұрын
Thats pretty complicated so I hate to think how mine works as it only has 2 caps in parallel to make one big one, and only takes power from the highest cell to push into the lowest, the switching to achieve that on a 24s setup must be a lot of mosfets...
@sc0or2 ай бұрын
That’s interesting however 99% of all will take eta3000 (something..), connect a capacitor to it and that’s it ) But that ancient balancer is good for an education purpose.
@GrantasRusakevicius4 ай бұрын
hello, maybe someone has a schematic of this balancer it would really help me to understand how to connect transitors and the H bridge
@diylithiumguy Жыл бұрын
Great video!
@StuartPittaway Жыл бұрын
Glad you enjoyed it
@lmwlmw4468 Жыл бұрын
Great video.
@StuartPittaway Жыл бұрын
Thanks!
@chapulino1000 Жыл бұрын
excellent reverse engineering research, thank you very much for sharing it
@StuartPittaway Жыл бұрын
No problem
@jameshancock Жыл бұрын
Wish it was easy to change the turn on to 3.45V
@StuartPittaway Жыл бұрын
It might be possible, just swapping the 3 pin chip
@jameshancock Жыл бұрын
@@StuartPittaway once you get all of the conformal coating off and find a chip with a higher value… was thinking maybe put a resistor in series?
@michimichi7534 Жыл бұрын
Balancing LFP Cells below 3,4V cell voltage is not a good idea in general. As the voltage to SoC curve is that flat, t here is the high chance to destroy a former top balancing.
@StuartPittaway Жыл бұрын
Agreed, don't know why they didn't set the on voltage to a higher level
@wayne8113 Жыл бұрын
Thanks Stuart
@petrovich51887 ай бұрын
Thanks. Very helpful.
@444guns Жыл бұрын
thanks for the video
@StuartPittaway Жыл бұрын
You're welcome
@michalctakanych8 ай бұрын
Дорогой друг.Всем известно,что на переменной частоте ,емкость и индуктивность имеют разное результирующее сопротивление для протекающего через них тока.Неграмотные китайцы притулили на эту схемотехнику длинные провода мелкого сечения.Поэтому это работает в часть силы.Для обеспечения большого тока отдачи,выводы на самом аккумуляторе необходимо зашунтировать несколькими смд керамическими конденсаторами по 1 мкф.Обрати внимание,что аккумулятор может скушать большой ток,только при большой разнице напряжений.Гораздо правильнее ставить вместо аккумулятора резистор и смотреть на нем напряжение (ток) при тесте.
@CasaMaryParadise3 ай бұрын
Well said
@forrest2851 Жыл бұрын
thank you!!!
@StuartPittaway Жыл бұрын
You're welcome!
@IggyJackson Жыл бұрын
Which balancer are you using on your pack?
@StuartPittaway Жыл бұрын
Same as the one in this video, just 16S
@absolute___zero8 ай бұрын
I saw this video of yours and I was happy because I thought all my battery balancing problems will be solved with this circuit. Then I found another video of channel Off Grid Garage, video hash is yPmwrPOwC3g , titled "Automatic Active Balancer - The Evolution in Balancing. But..." and I became very unhappy. He is saying that using this equalizer circuit that you are showing will actually disbalance all the cells int he battery. How can he be right if the circuit actually is made for balancing??? It is like saying 2 + 2 = 5 in mathematics.
@StuartPittaway8 ай бұрын
The issue is if the balancer is running all the time - ideally you only want it to run when the cell voltages are high - particularly for LFP chemistry cells.
@absolute___zero8 ай бұрын
@@StuartPittaway hmm, then it looks like a broken "solution" why would one be using a "solution" that creates another problem? In that case we need a circuit that includes a "maximum voltage" parameter, to deactivate/activate itself. Or something like that.
@absolute___zero8 ай бұрын
@@StuartPittaway wouldn't it be better to connect each cell to a battery charger circuit for 50 cents, like the ones that are included in lithium batteries for cell phones? CC-CV charger it is called. If the battery isn't accepting charge, the circuit won't draw current, so you wire every cell with such circuit and connect it to MPPT device. Active balancer circuit costs about 12 bucks, but lithium ion chargers cost like 50 cents and you don't have a problem with discharging. It will be cheaper and you don't need to buy active balancer circuit and your hedaches are over.
@StuartPittaway8 ай бұрын
@@absolute___zeroThese balancers work well with "normal" lithium cells but for LFP, they need top balancing due to their charge curves. I agree, the balancers should have some voltage sensor on them - but they are built for low cost.
@StuartPittaway8 ай бұрын
Electrical isolation is the problem then - the circuit you describe wires all the cells together in one big parallel battery - there isn't any isolation between the cell chargers.
@sriramulamahesh8305 Жыл бұрын
Please design 24s lifepo4 active balancinsar.rar file
@StuartPittaway Жыл бұрын
I probably won't have the time or use for such a board sorry!
@josepeixoto33842 ай бұрын
Outstanding work, friend; my bad luck i am on my second board from china, aliexpress, the first, Neey, 35 euros, was bad, drawing 18 amps steady and trying to melt wires, got refunded after 2 short videos i had to send them, now the second one, from another vendor and each one took 1 week from china to portugal... ( where the courts' INjustice system sucks big time, incompetent and slow, truth be told, lol) ... this module also 16S, 27 euros, does NOTHING, just sits there and draws 1. 32 Amps steady from the battery, on the nr. 1, wire, the minus, black wire, and does NOTHING, even after 5 or 6 hours, all cells are the same, cell 2 at 2.98 and cell 12 at 3.29; now, i will have to open another dispute with aliexpress , likely get refunded again, and do WHAT? order a 3rd one, i guess, my cells are old and i need it; and another week wait; if i get lucky with the 3rd one.... i am a bit of a technician,i repair solar inverters,and yes, my wiring is perfect,1 cell voltage step from pin to pin; that is how it must be checked before connecting the 2 connectors,the 9 pin and the 8 pin ones.
@nicholashowell Жыл бұрын
My experience of these is that they don't really work well and are not worth the bother.
@StuartPittaway Жыл бұрын
Was the battery very unbalanced to start with?
@nicholashowell Жыл бұрын
@@StuartPittaway Not as such no. I had built 3, 48v battery packs using old 18650 cells and because all the cell blocks behaved differently they would get out of balance as they discharged. I tried to use active balancers to keep the cell blocks closer in voltage but it didn't work. Often the cell blocks could be different from the next one by 0.1V without the balancer doing anything. When you have a 14s the cell at negative end could be over a volt different from the one at the positive end and the balancer would do nothing. Perhaps it was just the balancers that I was using. I got them from Ali-Express but they were not the same as the one you are looking at.
@nicholashowell Жыл бұрын
@@StuartPittaway Perhaps I should send you one of the ones I was using for you to examine? I'm not using them anymore due to them being rubbish.
@StuartPittaway Жыл бұрын
@@nicholashowell do you have a link to the model you have?