شحن بطاريات الليثيوم بشكل صحيح (LiFePO4) |موقع قفشات

You should of had two demonstration rigs, which you show adding the 'bank-manager' device & its Bluetooth or control system. Holding the kit up doesn't do if justice imho

Sorry Clark – I can't stand hearing that bell. Could you maybe change it to a wave on the beach or something? I really can't watch your videos any more. sorry sorry. and the music is fine because I can skip it, but it's very annoying to hear it every time, too. Good luck and it's a shame because I would otherwise watch them all!

Nice video, with the information very well presented (as usual). If I may add on a bit, the "Charge to 80%" thing for electric vehicles is specifically because of the use of NMC (and related) Lithium battery chemistries that really don't like to sit at full charge. They also don't like sitting at low SoC either. "Keep them between 20% and 80%" is the rule for maximum life in most EVs. My own EV is from 2010, and the original LCO-based battery still has 80% of its capacity after nearly 15 years / 62,000 miles on the road; that rule is ingrained in the car's battery management strategy, and it appears to have worked.

The LiFePO4 chemistry doesn't suffer from this, so if you buy a car with LiFePO4-based battery cells you can charge them all the way up and drain them down pretty far on a daily basis without worrying about damage. That can substantially make up for the lower energy density of the LiFePO4 cells in the EV environment.

So what that means for LiFePO4 batteries in RVs and boats is that we don't need to worry quite so much about battery stress due to high SoC. It's still very important not to overcharge them, as you point out, but bringing them up to a proper 100% and leaving them there should be fine.

If I wanted to learn about 'lead', I would have watched THAT video..

Hi Clark, will the Bank Manger plus take the place of a BMS in a home built battery? Thanks

Midnite solar, the kid , charge controller, ,is designed so you can charge all the batteries. It is infinitely controllable and every metric is user adjustable

Great presentation Clark. I just got an email from Redodo announcing that they have created a 140ah dual purpose battery with ~900 CCA that can start engines. Sounds like a great idea for your next video. Thanks for the great videos.

This guy is wasting your time….making things more complex then they are. He do not physically understand what is happening, reason he can't put the simple logic of a LiFePo4 into words.into words

Of course you charge to a voltage for LifePo4. Absolute Max is 3.65 volts per cell. For maximum life the 3.45 volts per cell(if the battery’s balance function works that low) the difference in capacity between these two voltages is negligible. The lowest you can take a cell is 2.5 volt per cell but most people stop at 3 volts. A good BMS (battery management system) won’t allow the battery outside of these ranges. There are only two points where capacity on a lithium battery is true, full and empty voltage with little to no load. Anything in between is a rough guess and only a coulomb meter is accurate and that is initially set at the full voltage. A good charge control will not abuse the battery and keep the BMS from stepping in(the last line of defense). The charge control will have settings like bulk or absorb (3.45 volts per cell) tail current, the amount of power as it reaches full or bulk and absorb time. The better your cells are balanced and the better quality of the BMS’s balancer(active type) the less time is required at the higher voltage. The less time at the higher voltage the better. There may be a setting called float. Lithiums don’t really need float, so I disable it or set it to 3.35 or less. All voltages I gave are per cell. A 12 volt has 4 cells, 24V has 8, a 48V has 16. Heat is indeed a killer of lithium so under hood temperatures should be reserved for lead acid batteries. Always use the recommended voltage printed on the battery if you can’t change the settings like balance start voltage via Bluetooth (3.4 Volts per cell). Lastly if you need a 48 volt battery, buy a 48 volt battery. Do not put 12 volt batteries in series because they will become unbalanced. There are too many variables to be answered here so ask questions on forums like DIYSolar

Thank you. Excellent. I am still going to watch it a second time because my system is strange: No solar (for charging batteries). Daytime production is high enough to run an 120VAC charger powered by inverter to recharge LiFePO4 and AGM mix.

Some of us don't have solar because we live in apartment, so the grid is the only way to charge!

Lookin' good, Clark! Keep it coming…

Oh, I got another question… I watched another video where you said that your bank manager won't connect the bank to the lead batteries if there's a significant voltage difference. Suppose you're in the condition that they're disconnected and the lead batteries are supplying a small load. Then some big load occurs (microwave, air conditioning). Is the bank manager fast enough to connect the managed battery bank to the lead batteries as the lead battery voltage drops suddenly? I suppose the answer to this must be "yes"…???

I like Clark's LiFePo4 videos. A lot. But they always end up as a Bank Manager sales pitch…. puts me off a little.

LiFePO4 will develop a memory? Never heard this before. Source?

I'm an engineer: NASA retired. I listened very closely and critically looking for any errors. I found none. Well done!

Thanks for the great information. Just purchased a used van conversion with lithium batteries so trying to learn all I can.

Can I use two bank Managers on the same lead battery (want to add new lithium to my existing set up).

Biggest consumer screw up with 12v self-contained LFP battery is not fully charging often enough to balance the SoC on the four series connected cells.

The more the cells get out of SoC balance the lower the available capacity of battery and the greater the likelihood the BMS will prematurely shut down charging due to a single cell reaching full charge before other cells causing it to exceed 3.7vdc maximum allowed cell voltage.

Most BMS's do not do any balancing until a cell gets above 3.4v. You should fully charge to at least 4x 3.5v = 14.0v and hold the 14v for one or two hours to give some time for BMS to do cell balancing. One or two hours held at 14.0v is not a damaging overcharge for LFP four cell battery.

If you do not fully charge LFP for many months, it can get so out of balance it will take many hours held at 14.0v to get battery cells back in balance. For a 100 AH battery, 1% cell SoC imbalance will cause premature BMS charging shut down when attempting a full charge due to an overvoltage cell. Most internal BMS's in 100 AH LFP battery only have a balance bleed current of about 50 mA. To balancing out 1% of 100 AH battery, 1 AH, with 50 mA balance bleed will take 1.0 AH / 0.05 A = 20 hours held at 14 vdc. You want to avoid getting into this situation by keeping up with cell balancing by fully charging at least every couple of months.

"you shouldn't put [different lithium ion batteries] in a parallel bank, but you can put them in separate banks that are in parallel controlled by their own bank manager." HUH?

Great Discussion Clark 👍 I do like AGM Batteries still, as I know for long Service Life, they need to be kept at a minimum State of Charge of 80 % – just adjust the Bank Size accordingly, which means with say an 800 ah bank, the Maximum you can use overnight before Solar kicks in again, is 160 amps from them which Flatlines the RechargeCyclesso they never reduce- which on a Sailbat, for me, is plenty. Then Bank 2 is Lithium Lifepo4 – likely 4 x 230 ah Plus type Batteries, in an overall management role of looking after the AGM Bank, plus engine Start, Generator Start, Windlass and Bowthruster Batteries. so 900 ah, but so the Recharge Cycles for those never fall – according to Ampere Time, which became Li Time – you never let the state of Charge drop below 50 % which means at least 400 amps is available to keep all the other Batteries on the Boat Happy . If sailing between places, then a pretty decent engine alternator, or the Generator, if it is cloudy or Raining, then the Bank Manager will assist in the Lifepo4 Bank Role, by looking after that Bank, by making sure it is looked after properly First, so from the Lifepo4 Bank, DC to DC Chargers look after every other Battery, or mix and match with other Battery managers as well – how best to low stress divide the Workload , is doing my head in at the moment. Top Solution for managing Lifepo4 Batteries is your Bank Manager right now Clark, but the new lightweight Victron DC to DC Chargers may be up to handling AGM Batteries ok for keeping them happy ? 😅 Sorry Clark, I'm not exactly with it right now, a Nurse put compression Socks on both feet, but the one on my Left Foot caused the Skin on my foot to fall off, and the pain killers are driving me a bit DooLally, but at least they are working, and so far so good – No infection. Best Wishes, and Keep Up The Great Work. Bob in Wales. 🤔🌟🌟🌟👍😄

excellent review, but i would point out a couple of oversimplification statements made. i have been off grid for past 2 years and have a lot of lifepo4. I do charge it essentially the same way Clark describes, but do not use a bank manager. How, and how do i know? My equipment is SolArk inverters, and SOK batteries, but i monitor with software (Solar Assistant) so i know the voltages and currents in real time. With sol ark at least, but i presume other good inverter/controllers, the chargers are not as simplistic as Clark describes, and have various modes and set points. For example, i use a voltage mode, but i know the voltages exactly because i can watch the hocky stick in real time. i have a large battery bank that keeps the loads low and relatively stable compared with capacity. I set the voltage cutoff at the begin of the ramp, and let it ramp higher once a month. So the small quibble's i have with statements made here are that 13.48 is where the ramps are. Not on mine. different batteries are all a bit different here. The battery mfg should be able to provide values for floats and absorption but a monitor can help you determine this. Also good charge controllers do seem to charge correctly, and i am pretty sure Victron has products that do this right.

Have an older motorhome. Would like to change house batteries to 48V lithium system and keep chassis batteries 12V. Will your bank manager device work with that setup?

Create an international school. (Choose the location very wisely). Then create a license for OFF-GRID LiFePO4 battery technician… installer. Something. Have a course or courses. Entry requires building a certain battery bank with certain capabilities. There could be a list of batteries capable of fulfilling the course requirement. They must purchase your current bank manager, other components such as a voltmeter, weather report and GPS raspberry. You have to write a textbook and sell it also. Add any other text or digital documents and a course logbook. Lead the installer through the setup of the bank, maintenance through varying conditions, heat and cold, add batteries, etc. Whether you pass or not is dependent on the state of the battery bank at the end. The license must be renewed every year with whatever new requirements the industry development create. The value of the license may greatly depend on the abilities of the technicians you produce. But being that each battery bank is like an individual, I think there should be a web base tracker of every battery bank they create also. And that could be used to monitor every battery bank. So a data download raspberry to shoot battery data to the web, when available, could be added. Add how big of a data memory should be added to be able to do this after maybe months being off grid. Be careful of the ability to data exchange though. No one wants a battery bank that could become a bomb or something by a hacker. But the people who can do this properly will be needed. I just do not know the size of that market yet.