To avoid confusion: *LiFePo are Li-ion batteries* . "Li-ion vs. LiFePo" is only a colloquial distinction, but won't help you when looking for technical or scientific information. It is pretty much the same as the other often used colloquial distinction between "Lipo and Li-ion", labels which were wrongly assigned to pouch cells vs. cylindrical cells (the contents are pretty much the same). Li-ion is the name of all cells that use Lithium to store energy, which LiFePo do as well. The difference is that the cathode material contains iron-phosphate instead of the usual cobalt/nickel/manganese oxides. The rest is pretty much the same.

@AndreasSpiess

2 жыл бұрын

What is then the right name for what I named Li-Ion and pretty much everybody understood? I am no Chemist ;-)

@superdau

2 жыл бұрын

@@AndreasSpiess That's the thing. There isn't one "other" type either. Have you ever seen something like IMR, INR, ICR, IFR, LMO, NMC, NCA, NCO, LCO or LFP written on cylindrical cells or in their datasheet? Those signify different chemistries (some of those shorthands are the same, just different by manufacturer). Some use aluminium (NCA) or no cobalt (LMO), but the most used chemistries are LCO (lithium cobalt oxide, also ICR) and NMC (nickel manganese cobalt oxide, also INR). LCO are those that gave li-ion batteries the bad rap for needing so much cobalt. This chemistry is what is used in phones, laptops and pouch cells (the latter colloquially being called "li-po"), but has peaked and is being replaced by NMC. NMC uses a mix of the 3 mentioned metals. Maybe you've seen "NMC 111" or "622" or 811? That's the ratio of the metals (yeah even within a chemistry there's further division). The cobalt content is reduced a lot in these. That's what is used in many car batteries. If you've seen a maximum voltage of 4.35V on a cell it was most likely this type (has to be built for it; no any NMC can do that). Of course there are no clear cut lines where which type will be used (everyone is trying to use less cobalt), and for low current use (

@AndreasSpiess

2 жыл бұрын

Thank you for your explanation! After your comment I also looked a little into it. My problem is: I do not want to use 50% of the video's time to correctly name two types of batteries. Most of the viewers understood what I was talking about. And this counts for me. And I fear that, if I would use the correct names, most people would not understand what I am talking about :-( One possibility for the future for me is that I talk about 4.2 and 3.6 volt batteries because this is what matters for an electronics guy. One thing a lot of people like on this channel is that complicated things are made easy. This one seems to be one of the tougher problems to solve for me.

@superdau

2 жыл бұрын

​@@AndreasSpiess Yes, I fully understand that. My comment wasn't so much about you changing your content, but more for those people that go to the comments to maybe find useful information. Video content ist mostly colloquial and calling them "li-ion" and "life" is fine. Maybe just a single sentence at some point that "life" are "li-ion" as well, just sufficiently different from the "usual li-ion" batteries to get their own name.

@Lvvcassss

2 жыл бұрын

@@superdau Thank goodness someone reacts to this LiPo/Li-ion miscalling. As a battery systems engineer, it always makes me wanna correct people :) Of course it's not only the anode/cathode composition in terms of what elements either, the ratio also important.

"when the student is ready the teacher appears"- Loa Tzu. I was looking for LifePO4 battery pack for electric bicycle project and your video appears magically. Thanks

@AndreasSpiess

2 жыл бұрын

I concentrate more on the low power applications. Bicycles are a bit higher power…

@jmr

2 жыл бұрын

@@AndreasSpiess Perhaps.. but we found the video "useful" and "interesting"!

@esenel92

2 жыл бұрын

I replaced my li-ion (Mn) pack on my bike with LiFePO4, and it works great, but the big downside, as mentioned in this video, is that you really need a BMS or other tool to track the amount of energy that goes in and out of the battery to get a reliable reading of how full the cells are. The bike itself has 4 bars, and it's usually stuck at the 3rd one for 85-90% of the pack's capacity, and then stays at 2 for a bit, and after that the voltage gets drained so quickly you'll only get like 2-3 minutes before the BMS cuts it off

Nice vid, I'd only capitalize the O for oxygen, it's phosphorus and oxygen, not polonium

@MuhammadHanif-bx4pb

2 жыл бұрын

hehe radioactive cathode!

@AndreasSpiess

2 жыл бұрын

You are right!

The chart at end Lifepo4 do burn if punched, but very slowly. You can get Lifepo4 which seals after punchering, they still work fine after to, how amazing is that type.

@nicholasthon973

2 жыл бұрын

They don’t have thermal runaway unless under very specific circumstances.

Great video again, Andreas! I have used an AAA size LiFePO4 cell in an outdoor project (temp/hum/pressure sensor), charged by a small solar panel. I'm using that red charger board with TP5000. I'm located in Norway, and it has seen temperatures down to -10 or lower - without any apparent problem. The LiFePO4 cell still seems to work well after 3 years. (It may have lost some capacity, I have not tried to measure.)

@AndreasSpiess

2 жыл бұрын

Thank you for sharing your experience. Low temperatures created a lot of discussions in past videos.

@TheChopain

2 жыл бұрын

For a temp sensor with a solar panel you can automatically disable the charging when temperature drops bellow 0 by using a transistor.

@opsahle2

2 жыл бұрын

@@TheChopain Good idea! But as the battery works well also at cold temp, I will continue like this. I forgot to note that I replaced resistors on the charger module to reduce the charging current. I charge at around 1C for the AAA cell.

@lambdaprog

2 жыл бұрын

Solar... in Norway? Explains the AAA size.

@opsahle2

2 жыл бұрын

@@lambdaprog The device wakes from sleep each 15 minutes, using design features derived from Kevin Darrah's Trigboard - so zero consumption while sleeping. Wake time is around 2-3 seconds including Wifi transmit. Using an 11x15 cm solar panel it *almost* gets me through the winter: I have had to recharge the battery once each December. It helps of course that I am located as far south in Norway as you can be.

I love my LiFePos. No regulators needed to drive my ESP stuff, quite safe handling, ideal for my lower power / long life sensors. I can run my doorsensor for several months with one charge from LifePos. I use Li Ion only if there is no way around it ...

@AndreasSpiess

2 жыл бұрын

I am on the same trajectory ;-) But I often use these TTGO LoRa boards because they are so handy. And they require Li-Ion.

@rickhuntraslam2925

2 жыл бұрын

But we still using Lipo batteries in our smartphones 😎🤞

@junkerzn7312

2 жыл бұрын

@@rickhuntraslam2925 Smart phone makers want you to buy a new phone every 5 years :-). The marketing is capacity-centric rather than robustness. But I would really love to see a cell phone with a LFP battery in it. I would happily take slightly reduced capacity for it. -Matt

@rickhuntraslam2925

2 жыл бұрын

@@junkerzn7312 LFP has a very high price still currently a lipo battery 100Ah is less than 100 bucks in alibaba, a battery of that same capacity in Lifepo4 costs about 350 to 600 dollars, So I prefer to buy 3 lipo batteries for applications and change them every 5 years( 3 x 5=15 years) than a single lifepo4 battery that lasts 8- 10 years

Very good video and a great overview, thanks Andreas!

@AndreasSpiess

2 жыл бұрын

You are welcome. After 5 years (last LiFePo4 video was in 2016) I thought it is time for such a video ;-)

Magnificent presentation. I really enjoyed it.

@AndreasSpiess

2 жыл бұрын

Many thanks! A lot of LiFePO videos focus on high power applications. So I thought I do one for low power...

Another great video mate. I have been using lifepo4 batteries in my espnow projects since your early videos.

@AndreasSpiess

2 жыл бұрын

A good decision. Particularly if you use deep sleep.

Very useful again! I have been using a LiFePo battery in my motorcycle for the last two years, Works fine and much smaller/lighter.

@AndreasSpiess

2 жыл бұрын

I still have lead acid. I feared to change because my Harley consumes a ton of current (2 cylinders, 1700cc). Maybe I try one next time.

Thanks for sharing this awesome video for small use cases.

@AndreasSpiess

2 жыл бұрын

My pleasure 😊

Great update video as always 👍🙂 Thanks for sharing your experience with all of us 👍😀

@AndreasSpiess

2 жыл бұрын

My pleasure!

Great informative video and thanks for sharing. Let's hope to see some ready made ESP32 development boards like the Lolin range with built in Lifepo4 support

@AndreasSpiess

2 жыл бұрын

I hope so too!

Very informative, thanks for your efforts and sharing 👍🇬🇧 This will always be my go to for information for a quick update if I need to recap

@AndreasSpiess

2 жыл бұрын

Glad it was helpful!

2 days ago I "found" 40 lifpo4 solar light batteries I bought a year ago because I needed them, your timing Andreas is perfect.

@AndreasSpiess

2 жыл бұрын

Sounds like enough for many projects;-)

Thanks again for the detailed yet concise video 👍

@AndreasSpiess

2 жыл бұрын

You are welcome!

This was very useful, thank-you. I'm looking to replace the Ni-Cad cells in my military Clansman radio and have been given some LIFePo4 battery packs. Your information has given me some ideas for producing a safe and efficient project.

@AndreasSpiess

Жыл бұрын

Glad it was useful!

Helpful information

@AndreasSpiess

2 жыл бұрын

Glad you think so!

great comparison and summary. many thanks!!!

@AndreasSpiess

2 жыл бұрын

You are welcome!

Thank you for all your wonderful videos

@AndreasSpiess

2 жыл бұрын

You are welcome. Glad you like them!

Andreas, you are amazing. First the video on 3D printing cases exactly when I needed it. And now this very week-end I was experimenting with different battery set-ups and this video surfaces. I'm beginning to think you have mystical powers ;)

@windowsxseven

2 жыл бұрын

Andreas has been known to stalk random subscribers before. I'd be careful.

@AndreasSpiess

2 жыл бұрын

I hear this quite often. What I think is that we all have the same problems to solve ;-)

Thank you! For me, the improved safety of LFP cells is a big reason I prefer them wherever they make sense. Also - I've had enough tech damaged by leaking 1.5v single-use cells that I'm experimenting with using pairs of LFP cells and spacers in AA and AAA sizes for that kind of application, especially in devices that don't seem to work well on NiMH rechargeables.

@AndreasSpiess

2 жыл бұрын

A good idea. Soshine even delivered a "connector" (spacer) battery with their AA cells.

@thesimbon

2 жыл бұрын

@@AndreasSpiess the problems I have with AA LFP in common electronics are the usual inaccurate battery level and no undervoltage protection. It would be nice to have a protection circuit in the "connector", otherwise I noticed it is very easy to over discharge them.

Great explanation, Andreas. Congratulations.

@AndreasSpiess

2 жыл бұрын

Glad you like it!

Thank you Andreas very informative.

@AndreasSpiess

2 жыл бұрын

Glad you enjoyed it!

Very helpful video. Thanks!

@AndreasSpiess

2 жыл бұрын

You are welcome!

Thank you. Needed the information.

@AndreasSpiess

2 жыл бұрын

You are welcome!

Great Video! Btw: The P is phosphorus, the O is oxygen, so it should be LiFePO₄ (lithium iron phosphate)

@DJPhilTBCollins

2 жыл бұрын

Saw that too. I was like, "Polonium! Holy crap!"

@AndreasSpiess

2 жыл бұрын

Yes, you are right

Interesting video Nice layout thank you.

@AndreasSpiess

2 жыл бұрын

You are welcome!

Thanks for the excellent update. I think I'm still best served by the unprotected li-pos (sold for RC use), as most of my applications fly on model planes and thus weight is critical, but they also tend to place large pulse loads on the battery. I may very well move towards lifepo4 anywhere else I can though. Their safety is a compelling feature.

@AndreasSpiess

2 жыл бұрын

I agree. For your usage you are best with these specialized batteries.

Great video. BTW, LifePO4 batteries are fully discharged at 2.5 volts, not 3.0. There’s not a lot of energy left between those voltages, but to be accurate your graph should have shown that.

@AndreasSpiess

2 жыл бұрын

You are right. Other sources go even deeper. But, as you wrote, not much to gain.

Wirklich super erklärt, du bist ein auf den Punkt Kommer! 👌👍

@AndreasSpiess

2 жыл бұрын

Vielen Dank!

Excellent video! I just loved it!

@AndreasSpiess

2 жыл бұрын

Thank you!

Very informative video, as always. I'm planning a PCB with a CN3058 chip onboard and a small PV panel. This charger chip has a TEMP pin, where you can connect an NTC thermistor, disabling this way the charging at subzero temperature.

@AndreasSpiess

2 жыл бұрын

This is an interesting feature!

My 11 year old LiFePo4 RC car battery still works great. It's a 3S 9.9V 4500 mAh battery, and can be charged at 15C (67A).

@AndreasSpiess

2 жыл бұрын

Thank you for sharing your experience. So this must be one of the first commercially available batteries.

I have used LTO batteries in my 6.6kwh Powerwall, I know the chemistry isn't ideal for your projects, but it has the greatest change and discharge rate of 6 minutes, also withstands the coldest of all temperatures on charging cycle, extremely safer then Li-ion and Lifepo4, and will have over 20,000 full charge cycles at 80% still left in capacity , I have pulled over 2000kwh out of it , I have even has 2 cells go into reverse voltage before I installed a BMS which seems to have done no harm to them, I think this LTO battery bank will out live me and my grandchildren.!.

@AndreasSpiess

2 жыл бұрын

I have a few cells in the lab but so far did not use them because, as you said: Their voltage is not ideal. In addition I di not find an "TP4056" style board for this chemistry :-(

Good job

@AndreasSpiess

2 жыл бұрын

Thank you!

Great battery video!

@AndreasSpiess

2 жыл бұрын

Thank you!

Grüezi aus DE lieber Andreas! Ich habe zwar persönlich ausserhalb von PC-Service bisher wenig mit Elektronik zu tun, deine Videos machen aber Lust drauf, mal selbst den Lötkolben in die Hand zu nehmen. Vielen Dank und weiter so!

@AndreasSpiess

2 жыл бұрын

Sehr schön. Das freut mich! Willkommen im „Klub“

Hi Andreas, Thanks for a good talk on batteries, very relevant for makers. I have noticed that discharge at low temperatures does not affect these batteries much. I bought some camping lanterns and measured their light output while running them flat in an environmental chamber. The temperatures were 20, 0 , -20 DegC. The internal resistance rises slightly at cold temperatures, which resulted in reduced peak output but extended the discharge time as a consequence. The average energy yield appeared to stay the same. It was very interesting testing. Kind regards, South Africa

@opsahle2

2 жыл бұрын

Thank you; very interesting comment.

@AndreasSpiess

2 жыл бұрын

I agree, very interesting info. What about Li-Ion batteries? Did you test them, too?

@Uncle-Duncan-Shack

2 жыл бұрын

@@AndreasSpiess Sorry, should have mentioned, these torches are fitted with Li-Ion batteries.

@opsahle2

2 жыл бұрын

@@Uncle-Duncan-Shack So when you said "...does not affect these batteries much" you referred to Li-Ion batteries?

@Uncle-Duncan-Shack

2 жыл бұрын

@@opsahle2 Correct

Supper Thanks 😊 now I now i can add lion protection to my charger boards

@AndreasSpiess

2 жыл бұрын

Glad I could help

Very good video, now I know a lot more about 2 battery tecnologies, for me I loved to know that lifepo4 does not flame cause this is an issue when using li-ion, on the other hand I always want to know the battery capacity, but connnect a lifepo4 to my project without a need of regulator is a great thing, so to choose what use will depend of the project kind, Thank you Andreas for this valuable information, bye!!!!

@AndreasSpiess

2 жыл бұрын

Glad you find the content useful for your projects!

I bought a 105AH LiFePO4 Drift battery from Fogstar in the UK. BMS is on board and there's a Bluetooth connection to an App so the battery tells you how it's feeling. It replaces two 104AH lead acid standby cyclic batteries. I power my amateur radio and TV activities with it including power amplifiers. The lead acid batteries would decline in charge really quick but the Fogstar Drift does the whole day's operation no trouble! Also my back loves it. My battery pack is a quarter of the mass it was. Yes it and the fast charger by Victron energy are expensive. So are all the sulphated and now useless lead acid leasure batteries and inflated LiPo battery packs. 73 M0YDH

@AndreasSpiess

8 ай бұрын

I agree. I also built a 7.3kWh LiFePo battery for our remote station (24V). These batteries are extremely good!

An American-English tip. Blow-up = explode (fire). It’s more clear to say “puff-up” or “inflate”

@mewintle

2 жыл бұрын

The video does make it clear what was meant. I was offering a tip, I didn’t mean to criticize. I suspect that it might come up in a conversation where it’s not clear, so it’s worth knowing the US usage. I’m sorry if I offended.

@AndreasSpiess

2 жыл бұрын

@Em Wintle.: No problem. I know my linguistic limitations and I always learn ;-)

Great video, great batteries!

@AndreasSpiess

2 жыл бұрын

:-)

I have made a LiFePO4 battery from individual cells; which is nearly three years old, there is no need to fear this battery technology, as long as you have designed it to work within manufacturers guide lines and you have a good Battery Management System (BMS). BMS is a major topic in its own right, with active and passive devices being hotly debated.

@AndreasSpiess

2 жыл бұрын

I agree. But this is probably a topic for another video...

indeed LiFePO4 are annoying when you try to measure the capacity because the battery have a really stable 3.3v nominal voltage. but that stability is a bliss for an mcu! 3.3v directly connected without a buck converter/regulator? heck yeah!!

@AndreasSpiess

2 жыл бұрын

I agree. Usually I am more interested in when to recharge. This signal fortunately can be generated also for LiFePO4 batteries.

Great overview and summary, Andreas! Even Tesla will change/has changed their battery packs and there are already Tesla models released (initially only for China but now also in Europe) that run with LiFePo4 batteries. And even more interesting, they are operated with a heat pump to have a most efficient heating of the batteries in cold environments. So with your video you are again leading edge! Thank you for sharing!

@kleinEDV

2 жыл бұрын

LiFePO4 ! = Li-Fe(III)-Phosphate

@AndreasSpiess

2 жыл бұрын

@Juerg: Other viewers also confirmed that Tesla seems to change chemistry. I always asked myself what happens if 500 e-cars are in a Garage and one starts to burn... It seems easier to extinguish burning gas.

@juergwyser6520

2 жыл бұрын

@@AndreasSpiess It's already reality! in Germany the Tesla3 models manufactured in China already run on LiFepo4 cells with a special monitoring procedure of the BMS to switch off the battery in case the temperature increases significantly above the environmental temperature. I understand this as a fire protection measure.

Also a big thank you from Switzerland (also if for once the infos were not new to me). Nice summary and overview though! In the table at the end of the video (13:00) there are two errors: IMHO the discharge current of LiFePo4s may be even higher than the one of LiIon (because of the lower ESR) and the charge time could also be much lower than the one of Li-Ions... Keep up your great work and best regards from the Kanton Bern! :-)

@AndreasSpiess

2 жыл бұрын

Thank you for the additional information!

Thanks Andres for the great info. For me, the thoughts for charging are important. I'm afraid it needs its own charging electronics for every project / device. vy 73 de Micha, DD0UL

@AndreasSpiess

2 жыл бұрын

We often include a charger right with the project. Then, you just have to chose the right one. Otherwise you have to pay attention, I agree. 4.2volts on a LiFePO creates a lot of heat ;-)

For 5v projects I would also suggest looking at the real new kid on the block, Lithium Titanate (LTO) their working voltage is (unless you are putting extreme loads on small cells) around 2.6-2.4 volts, so with 2 of them in series, my 5v stuff that I tested it on work absolutely fine, and they appear to be as safe as LiFePO4 (Some claim they are even safer). Slightly lower energy density though, but they claim 10 000-20 000 cycles on it. (havent been able to test that myself yet ;) )

@AndreasSpiess

2 жыл бұрын

I have a few of them in my lab. But as you write, the voltage does not really fit. Too high for 3.3 and too low for 5V (2 cells). It seems they are better in cold conditions. So maybe this is an application. Otherwise I do not see a big advantage for small projects.

@esenel92

2 жыл бұрын

@@AndreasSpiess I've had some luck with 5v projects with 2 of them in series (large cells so that they can run long without recharging). Currently they are absolutely not cost effective, but I figured I'd give them a try to determine if they live up to the claims. Maybe I just got lucky with parts that aren't all that sensitive voltage wise :)

@huestifer

9 ай бұрын

I really would like to see a easy solar charge controller for LTO. I'm thinking about installing a project in an extremely remote location where the only way to access is by helicopter. If I could have the LTO long life span and stability it would be perfect.

Fun, the little hand pointer as frm 8:05

@AndreasSpiess

2 жыл бұрын

Thank you. It has many fans ;-)

Hi Andreas , Andy of 'Off-Grid Garage' in sunny Queensland has lots of interisting videos about LIFEPO4!

@AndreasSpiess

2 жыл бұрын

Thank you for the link! I will have a look.

The claim to fame for LiFePO4 (also known as LFP) batteries is cycle life, a flat discharge curve, low internal resistance, large voltage tolerances, and a nice failure mode. All at the cost of some capacity verses NCA or NMC. (LFP has slightly less capacity due to the lower voltage). I really love the chemistry. * Cycle life is roughly 4 x vs NCA or NMC * The discharge curve is very flat, which is especially nice when you are pulling high currents. * Low internal resistance means the battery has almost no chance of overheating. * Large voltage tolerances. A cell is typically charged up to 3.65V (and settles down to 3.2-3.3V). State of charge depends on the C-rate but you basically get it fully charged if you stop at 3.65V, then let it settle. Electrolyte break-down voltage is way up at 4.2V, so there is a massive tolerance between fully-charged and break-down. * Failure mode is simply a slow loss of capacity over time. No instant failures, no sharp failure curve. So much so that used LFP batteries are often resold as lower-capacity B-grade cells. However, you still have to be careful about bloating if using prismatic cells. Poorly manufactured batteries and batteries that are abused in their first life can wind up building up gasses inside the cell, bloating the cell. Cylindrical LFP cells are more resilient to this effect, but are harder to deal with (e.g. do you go with four big prismatics or 64+ cylindrical cells? Most people go with the aluminum-cased prismatics. * Slightly lower capacity than NCA and NMC lithium ion chemistries. But if you don't care for the application, all of the above positive points trumps the slightly lower capacity. A well-maintained LFP battery will easily last 15 years. Even longer. -Matt

@AndreasSpiess

2 жыл бұрын

Thank you for your additional info!

As a long term user of lifepo4 batteries. Charging is not a problem, get boost or buck converters with current limiting set em to 4 volts per cell and the current limiting to something appropriate and just leave it connected. 4 volts won't hurt them and the'll just settle at that and the current draw will drop to near zero. You'll need to watch the low volts cut off. The discharge curve is fairly flat but not as flat as your graph shows. I can estimate mine to within around 10% The'll rapidly fall from say 4 volts to about 3.4 volts and then gradually discharge to about 3.2 volts and then fall away quickly. Almost all the capacity falls betwen 3.2 volts and 3.4 volts They are affectively fully charged at 3.85 volts but you want a bit more to drive the current in. You can make a convincing 12 volt battery by using 4 cells, You cant with standard lithium ion.

@AndreasSpiess

2 жыл бұрын

Thank you for sharing your experience. I would not charge them higher than 3.65 volts because this is what the specs say. As you write, there is not much more energy stored if you go higher.

I believe the most important difference between the lifepo and others is that need for regulator. Although you mentioned the need for the component in case of higher voltages I think you missed one crucial aspect and that is the efficiency and idle current of the regulator. If you need a regulator in your battery operated project it is crucial how much quiscent current it is speced and what current it needs when loaded, this needs to be taken care of at design and requires testing of the overall system. For lower currents an ldo suffice but for higher loads a switching supply is needed with low efficiency in non-loaded cases giving you terrible headaches. Its a huge benefit when you can connect directly a battery to your mcu/system and not having to deal with optimization and or alternative designs. For me it would be a nobrainer to change to lifepos once they will be widely available. I don't know why the battery operated system designer are not pushing this technology when you can really save 1-3$ component on your board and increase lifespan.

@AndreasSpiess

2 жыл бұрын

You are right with the quiescent current. It was covered many times on this channel and was not in focus today (because we do not need an LDO)

@theelmonk

9 ай бұрын

It doesn't seem quite safe enough for some applications. For example, an ESP32 has a maximum Vdd of 3.6V, and the LiFePO4 is charged at 3.65. But if you have an LDO, it needs an exceptionally low dropout for any 3v3 parts (though the esp32 itself is OK down to 1.8, the modules often have a higher limit - perhaps the memory eeprom needs more).

Looking forward to a LiFePO4 wall battery!

@johncoops6897

2 жыл бұрын

Then go buy some. They are the most common type, unless you are using recycled laptop cells.

@AndreasSpiess

2 жыл бұрын

Next year I plan to mount solar cells on my roof. And maybe I will add a "Power Wall"...

I would love to see a video about coulomb meters / gas gauges / fuel gauges for batteries and how to use them in projects. I've only came across MAX17043 that wasn't super expenisve, but is only for a single cell.

@AndreasSpiess

2 жыл бұрын

These MAX17043 just measure the voltage and would not work with LiFePO4. Coulomb meters measure the energy transferred in and out of the battery. Maybe I will make once a video about it. However I do not see a big need for them for small projects because usually we just need a signal to recharge the batteries and we fully charge them before the next deployment.

God it's _wild_ how often my google searches lead me to this channel.

@AndreasSpiess

Жыл бұрын

Good news for me, I guess ;-)

Great infos and that's gona help in my project ;) Although I'm having a little challenge to add the ultrasonic loop within my LoRa32 V2 using VsCode

@AndreasSpiess

2 жыл бұрын

Challenges are here to be solved ;-)

@ikbelhammami5525

2 жыл бұрын

@@AndreasSpiess I can't agree more that's why it's called Hardware ;)

A video on how to integrate the TP BMS on a larger battery pack would be appreciated. I’m working on (future project) 16s 7p pack for a Honda e-cub and the standard multi BMS leave me wondering if I’m missing a trick. Shout out to Great Scott who provided a link to your channel

@AndreasSpiess

2 жыл бұрын

So far I did not cover higher voltage battery packs because this channel is more geared towards low power and microcontrollers...

Great video, very informative but there was no mention of the cost difference, is there much?

@AndreasSpiess

2 жыл бұрын

As always: It depends. But for sure it is not relevant for a decision.

Thanks for your comparing and time. Could you tell me about LTO Lithium Titanate Battery?

@AndreasSpiess

2 жыл бұрын

I think they currently are a niche product. For small projects they are hard to use because of the voltage. I did not find standard chargers or protection circuits for them.

thanks !!! any advice on using LFP ( lithium iron phosphate ) for multiple aruino boards ???

@AndreasSpiess

2 жыл бұрын

I do not understand your question :-(

I invested some money into the SkyRc MC3000 charger. It can charge all kinds of cells and it's firmware can be upgraded for supporting new kinds

@AndreasSpiess

2 жыл бұрын

Good choice. The newer chargers should offer LiFePo. Older did not have it.

@johncoops6897

2 жыл бұрын

Almost all hobby chargers support LiFePO4. For desk chargers the cheap LiitoKala single and double bay ate OK. The single bay Opus analysing chargers are great for testing. The 4-bay Opus also handles LiFePO4 however you need to access the internal switch to change it for LiIon, LiPo and LiFePO4.

Since LiFePO4 batteries don't leak (as well as not catching fire), I've been replacing pairs of AA and AAA batteries with a LiFePO4 and a blank in all our devices. I lost a $2000 USD device to leaking alkaline batteries, so I don't ever want to go through that again. So far, they have been perfect. With a few spares (kept charged monthly), a quick swap keeps devices in service. Also, Tesla is switching to LiFePO4 for some of their vehicles.

@richardlighthouse5328

2 жыл бұрын

LiFePO4 batteries as well as any other battery always leak. The leakage is determined by how well manufacturer manufactures the cells and how likely it is for the battery to leak through building pressure.

@AndreasSpiess

2 жыл бұрын

Also other viewers mentioned that Tesla is changing the chemistry. I can imagine having hundreds of Li-Ion batteries in a parking garage could be dangerous if one starts to burn...

@macemoneta

2 жыл бұрын

@@richardlighthouse5328 Some chemistries, like alkalines, use the case as one of the electrodes. As a result, they are consumed over time, leading to leakage. That is not the case with LiFePO4 batteries.

@TheChenchen

2 жыл бұрын

Isn't it burning and can cause fire, it's better because it's not exploding.

Thank you for the great video, Andreas. What is your experience about self discharging compared to NiMH cells?

@AndreasSpiess

2 жыл бұрын

I did not do any such tests. Usually I just charge the batteries before deployment. The topping up does not take long. So I assume self discharge is rather small

@mac-sm2cv

2 жыл бұрын

@@AndreasSpiess I'm using (rechargeable) batteries mostly for wireless sensor apps that should work for several years. For ultra low power sensors I use coin cells. But if the sensor needs more power I use "eneloop" NiMH. The "self discharge quality" of the eneloops is rather different: sometimes you can get self discharging rates that are worse then cheap NiMHs (I read that the trade mark of "eneloop" is sold to other companies...). So maybe the LiFePO4 cells could be an alternative to NiMH?

@AndreasSpiess

2 жыл бұрын

I do not know. But you could use one in one of your setup and see if it works...

@irvingc4255

2 жыл бұрын

Self-discharge in my experience 0for LiFe cells is about 1% per month, slightly more fior bigger capacities >10Ah

Hello Andreas, I have been following you for years; thank you for all your support and knowledge, This is off topic but my be interesting, have you heard about the thread protocol? it is supposedly supported by the ESP 32 chips. it's and new open and supported mash network by many companies, But I can't find any information about it.

@AndreasSpiess

2 жыл бұрын

Thread is similar to Zigbee and will be supported by the (not yet available) ESP32-H2. It is too new and I will cover it when it is ready. BTW: Thread is a stupid name for a new protocol because this name is used for completely different purposes.

Goooooood job

@AndreasSpiess

2 жыл бұрын

Thank you!

Thanks for the info. I just save a few packs that were ready to be thrown away at my job...

@AndreasSpiess

2 жыл бұрын

So you can start to play with them…

@petittoto7433

2 жыл бұрын

@@AndreasSpiess I was thinking of using a current generator (0.1A) switched on and off with an arduino to check the tension every minute, but I may buy a correct charger...

Great video....How is life cycles determined in lifepo4 batteries?

@AndreasSpiess

2 жыл бұрын

I do not know. It seems they survive more cycles if the discharge is small. So far, I have never had problems with the lifetime and no experience.

I have been using a LiFePO4 32700 battery for a humidity sensor for a while. It lasts half a year on a charge and I love the idea that it won't spontaneously combust and burn down the house. Of course, that's only because its a 12 million MAH Chinese cell and has nothing to do with tuning the ESPs deep sleep and WiFi settings ;-)

@AndreasSpiess

2 жыл бұрын

More capacity is always good. The Chinese understood that fact fast ;-) and they found a lot of believers.

I think that supercapacitors are better because charge cycles, no overdischarge, temp amplitude bigger.Thank you for the great video!

@AndreasSpiess

2 жыл бұрын

Super caps have a very low capacity per size. They are very good for high currents and many charge cycles. All things we do not need for our small projects. They have other uses, though.

@mr.0x373

2 жыл бұрын

​@@AndreasSpiess Oops!I really didn't think about the capacity.Thanks!

Hi Chris, Yes I agree that FePos are cool 😎... I used them a long time in my model planes... If you are flying around 10 minutes with the motor with normal performance this is a perfect choice... You can charge them wit 6c and discharge with 6c nearly infinite times... But you should keep them warm +30°C... The weight is higher but you can even discharge them with effective 30c... I think 200 cycles are possible... Later I used a 120c premium LiPo and after 30 cycles with 30c you see the performance dying... Currently I am using LiPos due to the better power/weight ratio... At the 6s 5000mAh level the difference is significant! So I strongly disagree with your comparison of charging and discharging rates! The reason why you do not find any charging boards is because you do not need them... Take a stabilized voltage supply with max 3.6V and be happy...

@AndreasSpiess

2 жыл бұрын

Thank you for adding in some info. Because I focused on small projects I did not investigate too much into charging and discharging rates.

Nice video. At around 2:10 you use 'amps PER hour' instead of 'amp-hours' for capacity twice. For the rest, I have learned a lot. Thanks. p.s. Tesla is switching from Li-Ion to LiFePo4.

@mhammadalloush5104

2 жыл бұрын

I'm pretty sure this is because Tesla decided that at a certain point we can have much safer batteries in cars without too much of a tradeoff in energy density (I still think that EV's need a much lighter and faster charging and longer lasting battery chemistry to overtake the ICE in every metric aside from pollution after manufacture).

@plemli

2 жыл бұрын

Andreas says ampere hours, which is entirely correct. Not the meaningless "amps per hour" that a lot of Americans get wrong.

@charanvantijn541

2 жыл бұрын

@@plemli I think you are right, but it is not absolutely clear. He could be saying 'amps per hours' or 'amperehours'. Closed Caption also doesn't know what he says. Maybe it is just his Swiss accent.

Andreas, can you share how you store your lithium batteries in your lab?

@AndreasSpiess

2 жыл бұрын

Nothing special. But we have a good Fire insurance ;-) And I do not have many and mostly distributed in devices.

Nice overview ! Btw, never trust LiIon packs.... sooner or later they'll all inflate, it's just a matter of time. But so do many other battery technologies. I've been working with lead/acid for years, eventually they too will inflate. If you're lucky they don't burst.

@AndreasSpiess

2 жыл бұрын

Good to know. I only use lead acid batteries in my rides…

You can also see electric cars switching from lion to lifepo4 due to the availability of iron over nickel. Because the batteries are cheaper it makes sense for lower end models where 300 plus miles of range are not needed.

@AndreasSpiess

7 ай бұрын

I agree. And most home batteries also use this technology.

My solar pole light used LiFePO4 batteries in 18650 size. The one that came with it said 2000mah and I was unable to find a replacement with that high a capacity anywhere. I was able to fit in a larger cell that had I think 3600mha.

@AndreasSpiess

2 жыл бұрын

My 18650 LiFePO4 batteries only have around 1500mAh (tested). The 3600mAh are probably 4.2V cells.

There is also a great material advantage for LiFePO4, they don't use cobalt, which outside being expensive to mine has significant additional environmental issues as the countries where cobalt is extracted (outside of Austalia, Canada and the US) have very poor environmental track records and also tend to use child labour under health hazardous circumstances.

@AndreasSpiess

2 жыл бұрын

I agree.

One great usage of LiFe is the direct replacement of Pb battery of motorbikes or cars, a 4 elements LiFe battery can replace a 12V 6 elements Pb battery, with about 14.4V at maximum charge given by alternators.

@AndreasSpiess

2 жыл бұрын

You are right. We also use them for out radio transmitters which work best at around 1.6 volts.

I'm impressed. I will be glad when drone batteries last longer (flight time) and do not have to be monitored and maintained when not used for extended periods....1 month of none use.

@AndreasSpiess

2 жыл бұрын

I am not sure if this chemistry will appear soon in drones because its Wh/kg ratio.

There was a test tittled 'LEO life tests of ABSL batteries using SONY 18650HC' that managed to use those lion cells for 75000 cycles, I understood that this due to not discharging the cells too deep, meaning that even lion cells are entirely viable if you just rather shutdown your device than deep discharge them and don't overcharge them.

@AndreasSpiess

2 жыл бұрын

Good Point. But what is then the advantage of their higher capacity? If you do not use it?

@Purkkaviritys

2 жыл бұрын

@@AndreasSpiess availability for both cells and chargers, which thankfully is being leveled by LiFePo4 cells and chargers being more available. It also comes with the implication that more than likely the LiFePo cells can also do the same thing with even less loss of capacity (the Sony cells had lost 30% after 75k cycles). So if you need to leave a sensor in the wild for years, how deep the battery cycles go can mean the life or death of the cell, so less maintenance is required.

Interesting video. I wonder if you could understand how some apparatus don't need charge in 10 years of operation. In Italy our wireless toll system is a small low power battery operated transceiver that communicates with the two vertical antenna system on each side in the toll gate lane. There is no issue working in temperatures from 0 to 60°C. No damage to the battery.

@AndreasSpiess

2 жыл бұрын

Do they have batteries at all? If they are UHF RFIDs, the energy is induced by the "receiver". I once made a video about it

@santopino2546

2 жыл бұрын

@@AndreasSpiess yes they do have, if a remember correctly, a one cell li-ion battery about the AA size. There is also a buzzer than makes two short sounds when the communication is ok. I'm not convinced that they are RFiD because the receiver is typically placed under the center mirror in the car and that's usually over 1,5 meters from the reciever on the toll lane.

@opsahle2

2 жыл бұрын

@@santopino2546 The Norwegian toll road devices are RFID without battery, same location in the car. I believe it is a SAW (surface acoustic wave) device.

@santopino2546

2 жыл бұрын

@@opsahle2 i suppose, at this point, in our device, that the battery is only for the buzzer. Some kind of low self discharge battery. I've just searched the web and read about some RFID with a 5m distance communication, that incredibile.

@opsahle2

2 жыл бұрын

​@@santopino2546 And also while having to account for significant doppler effect due to car speed. Yes, amazing technology!

At last LiFePO4, winter is coming!

@AndreasSpiess

2 жыл бұрын

True. At least on the northern hemisphere.

One thing that I think its very important but no one seems to address it... the "storage" voltage. Li-ion and Lipos if kept fully charged are degrading themselves at significant rate. Lifepo4 "storage" voltage is at fully charged state. Capacity specs of Li-ion should be corrected to reflect this.

@AndreasSpiess

11 ай бұрын

Storage is important, I agree. However, in my lab, the rechargeable batteries are self-discharging and do not stay on full charge for long (also because of the mandatory protection circuits). More important for me is to not forget them (because they do not like to be discharged below 2.5V)

LiPo needs to be handled differently from LiOn. LiPo needs to be cycled back down once charged, otherwise they lose capacity and potentially swell up and become dangerous. Please discuss this if you are going to mention R/C aircraft LiPo packs.

@AndreasSpiess

2 жыл бұрын

I was not aware of that fact. Some of my packs are swollen and never used.

He's absolutely convinced me...... to wait and see what happens.

@AndreasSpiess

2 жыл бұрын

We can always wait and see. In battery technology we will see a lot of innovation over the next years, I am sure. It is a huge market.

Can you please do a video on USB PD and designing for variable voltages?

@AndreasSpiess

2 жыл бұрын

Maybe. It is on my list...

Page 3:30 remember the internal resistance of LiFePO4 cell? It has the lowest among all candidates. It is least appreciate in low current applications. However is important to (very) high rate charge and discharge applications such as high power tool and electric motor cars. LFP is more tolerance to high temperature c/d cycles than its counter parts.

@AndreasSpiess

2 жыл бұрын

I looked at the use case "small projects" where the maximum charge/discharge rate is not so important. So I did not investigate a lot into this matter.

I am looking at Protection Board you linked... specs say Over discharge voltage: 2.1 ± 0.05V... As far as I know, that is way too low... Discharging to 2.1 V will harm batteries and propably to loose some capacity. I was using some LiFePo4 for years, but only with low voltage protection at 2.8V.

@AndreasSpiess

2 жыл бұрын

I also have such a board and I do not use it. Everything below 2.5 is a no-go for me. Below 2.9 volts there is anyway only a small amount of energy left.

FYI: I am going on 7 years for my GoldenMotor LiFePO4 36 Volt, 12 Ah battery Pack on my EBike. I have absolutely no idea how many charge cycles it has gone through :-) I have also resurrected A123 LiFePO4 cells from the dead (i.e. no detectable voltage).

@AndreasSpiess

2 жыл бұрын

Thank you for sharing your experience!

so it is ok if i put a solar panel (5.5v 1.8w) -> TP5000 board -> 14500 lifepo4 -> ESP32 connected on the same pin of the battery while it is charged by the TP5000?

@AndreasSpiess

Жыл бұрын

I think so. The 1.8W is probably a little small... If you want, you can have a look at the "power path" I showed in another video.

Today I learned a new pronunciation of lithium Iron Phosphate batteries.

I have 2 lifePO4 12v 8Ah I bought the first of this month. I bought a charge you have to set type of battery number of cells, voltage, etc. I tried to see the charger work. When I hook either battery up and try to start the charge I get a cell warning on both and no charge. My other charger gives me a cell balance problem. What do you think? I just got one of the Miady 20ah batteries today. The charger is at my office so haven’t had a chance to try it with either charger.

@AndreasSpiess

2 жыл бұрын

The chemistry has to be the same on the charger. Otherwise, it assumes wrong voltages. My charger, for example, does not support LiFePo4, only standard Li-Ion batteries.

LFP can be used and charged from near 0% to 100% with no degradation. To maintain a reasonable cycle life, LiIon are best kept between 20% to 80% only going outside that range when maximum usage is needed. This considerably reduces the claimed capacity advantages of LIon.

@AndreasSpiess

2 жыл бұрын

Thank you for the additional information!

👍

@AndreasSpiess

2 жыл бұрын

:-)

My LiLyGO ESP32 SIM800L module doesn't power using LiFePo4 cell (at 3.6V) when I connect through the back built-in connector.. There's also no V-in pin.. Is it safe to connect that 3.6V to 3.3V pin directly to power?

@AndreasSpiess

2 жыл бұрын

I do not know this board. Particularly I do not know if the SIM800L module needs 5 volts. So you have to consult the diagram.

Hey I am doing my project on health care sensor devices which battery would be the better to use

@AndreasSpiess

2 жыл бұрын

You decide according your needs. You should find the info about the battery features in the video. I am no healthcare specialist.

Li-ion still has one advantage, because they're so mass-produced they're still cheaper and ridiculously cheap to get from recycling companies, something like 25-50 cents per 2Ah cell vs $3 or $4 for a 5Ah LifePO4 cell.

@AndreasSpiess

2 жыл бұрын

I agree with the price of recycled cells. For the new ones I found pricing no more too different.

LFP cells will become more predominant mid next year onwards as a patent on LFP expires then. This was highlighted in a video by "The Limiting Factor" titled "A Brief History of LFP". LFP is desirable because there is no Nickel or Cobalt; both in very short supply. Lithium is the only constraint and that's mostly a processing constraint. This matters greatly in vehicles where there are a lot of cells used.

@AndreasSpiess

2 жыл бұрын

Thank you for the additional information! I will search for the video.

@Clark-Mills

2 жыл бұрын

@@AndreasSpiess kzread.info/dash/bejne/eJN71rV6ZKzNadY.html For you, though you've probably found the video by now, and others who may be interested.