How I test lithium cell and power bank capacity.

It's nice seeing videos like this that respond to the "internet experts" who claim things, but have no practical experience of what they're talking about... :)

I test them by putting them in the microwave. The ones with the largest explosions and most poisonous gas are the ones with the highest capacity. The extra high quality ones have fumes that make me cry blood.

The Ruideng UM34 USB tester is very accurate but it has a few quirks you need to be aware of. It is definitely a good idea to turn the display off (or very dim) because it eats a lot of power and if testing at higher than 5V, the internal voltage regulator in the tester gets very hot. Another problem is that the lowest measurable voltage is just 3.94V, because below that the unit turns off. The capacity recording threshold mentioned by Clive has bugs too and can produce wrong capacity readings. There are a full reviews of the UM34 and the UNI-T tester on my channel if you want more details.
The reason why you always measure less capacity (mAh) going out of a USB power bank than in is partly due to the losses in the step-up converter as Clive mentioned but mostly because of maths. For example, a Li cell producing 1A for 1hour at (average) 3.6V has a capacity of 1000mAh and delivered an energy of 1A*3.6V*1h = 3.6Wh. These 3.6Wh get converted to the same energy on the USB side but 3.6Wh on 5V means the current is only 0.72A for 1h (ignoring losses in the converter). So the capacity measured on the USB side is only 720mAh and in reality, even less if the conversion losses are factored in.

Clive, in the DIY Powerwall/second life hobby world, we use the Opus BT3100 to test capacities discharging at 1 amp. This helps to standardize results. It tests 4 at once and does the charging, discharge measurement and recharge and then we just write the mAh value on the cell. Can speed things up a lot by pre- and post-charging with a rack of TP4056s or other chargers. With 10 Opuses we can test around 200 cells per day. Those that get hot during 1A charge are rejected as well as those that get excessively hot during discharge. (A good cell should never get hot during a 1A charge, but is ok to get a little warm on discharge).
Then let stand for a week or two and measure voltage again - any that have self-discharged less than about 4.10V should also be rejected and go for recycling.
Using this method I have over 1000 good cells after testing over 3000 cells and always looking for more to do!

Thanks for such an educational video. Links to the products you recommend would be very useful and could make you a bit of money too!

The complexity of this video exemplifies the reason we should be measuring cell capacity in watt hours.

Nice roundup on Lipo batteries
Thanks for sharing👍😀

Happy New Year, Clive, lovely video as always.
I'd like to embellish your statement @13:30, that you wouldn't get 3Ah out of the power bank containing a 3Ah lipo cell because of the step-up conversion losses. It's not because of the conversion losses as much as it is the voltage difference. With an ideal lossless conversion you'd pull, say, average 3.7V * 3Ah = 11.1Wh from the cell and put that same energy out at 5.0V, meaning 2.22Ah @ 5V.

Thanks for this, Clive. Having RTFMed the instructions with the UNI-T UT658, I got sucked into measuring the charge delivered by a powerbank. However, your video made me realise that the powerbank's boost converter will draw some of the cell's stored charge to boost the voltage to 5V so, inevitably, it delivers less charge to the load.
As you point out, the only fair test of a cell's capacity is to measure the charge that a charger delivers to it through a powerbank's dropper-type charging circuit. I think you later discovered that even the upmarket Duracell PB2 powerbank doesn't have a buck converter that would draw less charge from the charger than it delivers to the cell.

Thanks for the informative video! ended up getting myself a Uni-T meter after this to test various batteries around the house now

Excellent video, thanks. I bought 3 on eBay along with 3, five volt, 6 watt solar panels. I am a big fan of 18650 lithium cells. Salvaged from discarded power banks. Always on search for disposable vape devices.

Hi Bigclivedotcom big fan of your videos whenever I come back from work I always put one of your videos on and it's fun to watch you take something apart and find out what's inside and you do a great job of explaining everything, I think a good video for you in the future would be taking apart a laptop's battery and explaining how you could repurpose the cells and explaining how the charge controller works

6:20 ooowyhea, can’t wait to see that opened up
I’m pretty sure the anker power banks also have switching dc-dc converters for charging ... at 12W in from 5v ... no way they can stay luke warm over the entire charge cycle

Hi Clive
Every time i watch one of your videos I learn something , and i realy enjoy that. Don't know a lot about electronics ,but always try to find out what or why something failed

Wow clive an upload at gone 4AM? I am not going to complain one bit about this as this has made me smile thanks clive.

You're right about the blue power bank. I have the exact same one (sold under the Vivitar brand), two no-name 18650s wired parallel. Ridiculously SLOW charge. It does, however, work quite well.

Now a days respectable battery makers list the power in Watthour instead of mAh .. it gives more accurate indication of how much power the battery can store .. every time you test a battery capacity you state that it took "x" mAh which is less than the capacity listed .. yet you seem to forget that you're measuring the mAh @ 5V .. while the rated battery capacity is listed @3.7V .. that's how you always end up with lower mAh "nominal" capacity while the true Wh measured capacity is actually higher. example: that Duracell power pack, it listed the capacity of 6.7 Ah @ 3.7v .. your test measured 5.4 @5v .. but 6.7x3.7= 24.79 Wh, while 5.4x5= 27 Wh. which makes sense .. it's the battery capacity + all the losses in the circuits .. thus their listing if capacity as 6.7ah is true.

Clive, easiest way to check charged/discharged capacity of 18650 or similar cells is just to use dedicated charger like LiitoKala Lii500 or cheap IMAX B6 for almost all kinds of chemistry.

You have quite a few tools that are more convenient than the sort in my engineering group. I would be in heaven seeing your workshop up close.

When at all possible I generally try to gain access to the bare cell(s) in the power bank and cycle them 3-5 times on a reasonable quality hoppy charger that has been calibrated against my HP 6.5 digit bench meter. I would say your method is far easier for most people and you can test the entire power bank with the limits it has been factory programmed with.

For testing normal li-ion cells analysing chargers are better, for example opus 3000 or liitokala li-500. They are quite accurate in measuring capacity, and can measure capacity when charging and when discharging. For switch mode power banks I think it's better to measure not Ah, but Wh, as Ah is voltage dependent. You put in 1A for one hour at 5V, you get 5Wh in charging circuit. Almost the same ammount of energy is then put in battery but with lower voltage/higher current, but total power put inside the cell will be around the same amount (with some loses in charger, around 5-10% is a safe bet for losses). If there is no Wh written on power bank, you can calculate this by multiplying Ah by 3,7V

Hi Clive
On your New Year's Eve live stream you mentioned you old dentist. David is actually my oldest friend from school days. We used to play in bands together, him on lead guitar and me on organ.
We used to make fuzz boxes and wah-wah pedals , sound activated light boxes and all sorts of gadgetry.

You are so good Clive. Love the soothing Scot accent.

For the 18650 (and similar) cells, I like the BT-C3100 NiCd/NiMH/Li charger/discharger. For the wired cells, I use a dummy 18650 cell with solder tabs to connect the cell under test to the BT-C3100. The charge and discharge currents are settable and the unit can be set to the repeated charge/discharge mode - excellent for getting a new cell to its maximum capacity.
Seeing the fireworks - and the Fire Department's question about live ammo - from Rick's Disney car fire, I'm glad I opted for older technology (lead-acid AGM batteries) for my small solar system. The 82AH (8 hour) or 90AH (20 hour)12HX330FR batteries are very capable, being rated to deliver 586 amps for 2 minutes and 3700 amps short circuit current, but the voltage tolerances aren't nearly so stringent as the lithium cells. If the charge voltage gets a little above the float voltage of 13.65, it's not a problem as DataSafe recommends occasional charging to 14.4 volts in what would be an equalization cycle for a flooded battery - but only 4 or 5 times a year. For a 6 battery, 540AH battery bank in the basement, I'd much rather have the larger AGM batteries.

Holy cow I think this was the longest: "I run em flat and charge em up again" I have ever heard.
But verry intresting and entertaining nontheless keep it up.

Good job Clive. Keep up the good work. Love your channel dude!

G'Day B'Clive 👍­
­
Great to see you back in the new year!

Great timing! I just got a Ruidang USB volt-amp meter this last weekend! Happy New Year, Clive! : )

Happy New Year Clive! Please have a safe, enjoyable & extremely prosperous 2019!

Thanks Big Clive. I love your reviews and Happy New Year to you!

I guess Watt hours (Wh) would be more accurate when comparing the bare cell to the 5V bank output ?

RuiDeng make very good digital power supply and USB tester. I have the blue one with OLED and it has a low power draw which I like. For propper testing I use my Agilent power analyzer

Interesting video Clive. Thanks for answering questions I never knew I wanted the answer to but am glad I now know.
Happy new year.

I have a cheap USB power bank (soshine E4S) that I got from ebay that has spring loaded contacts for easy replacement of 18650 cells and can measure capacity. For measuring power banks I use a device similar to what you have here, but I measure both a charge and a discharge cycle and take the geometric mean of the capacities to compensate for loses in the charging/discharging circuit.

Another great video. After I saw you using the mini Uni-T clamp meter I had to get one. Now I want the Uni-T usb tester. *waits patiently for the Duracell bank to be taken to bits.

Always good to see video's about power banks :) I would like to know how well the TP Link Ally ones stand up as they claim high capacity.

You sir are a national treasure 🙏

Great video - but you didn't show any of your test loads. I have a resistive one and also the electronic one, with the heatsink with the tiny fan on it, and I get different results with each. mAh doesn't take voltage into account so I always convert to Watt-hours.

Hi Clive. That single 18650 yellow powerbank - they are designed to take the flattop 18650 cells.

Interesting video :) If you want to know a little more on the RD UM24 (green) and UM34 (yellow) UPM's, I've got videos on both on my channel (or if you don't remember how to work the menu ;))
Although I differ in opinion from you on getting a capacity-measurement : I'll discharge a powerbank at a certain current and monitor that along the way. I'll do this for every charging mode the powerbank supports.

Happy new year, Clive! A couple of comments- first you touch on failure modes, and how energy density is a root cause more than particular chemistry. One additional factor that I've heard that's relevant is potential for "thermal runaway"- how in some specific conditions, past a threshold the cells enter a self-sustaining reaction where their temperature increases dramatically. Some chemistries are very prone to this, while others are not at all, with only vague connection to energy density & cost, much more a function of when they were developed. Is this true?
Also, for your testing "rig," in addition to the instruments and the pie tin, have you considered a dedicated smoke detector? They've become very small and cheap. I'd be so happy to see you include a smoke detector, especially in your overnight testing setup.
Love the videos; thanks for taking time out to keep us entertained & educated!

We've been working with a company called R&D and they've done great in providing us a range of these ammeters with tight specs (we've created 4types with them atm & have a couple of false load devices in the pipeline atm) there is great monitoring software with them aswell😉

Back again. So I measured my one phone, a Nexus 5X, from flat to full and it came out around 2300 mAh. Supposed to be 2700mAh new. Makes sense to me. I think I used the mWh reading and converted it down to mAh @ 3.7V
I know that normally this would be difficult to measure at all since usually you charge a phone while it's on, so I did it while it's off, hopefully keeping the draw down.
That's not my Daily phone though. It's one of the models that had a widespread bootloop issue, so now it's really slow to use.
The replacement was a Doogee S60. A brick of a phone. I noticed a lot of lies in their advertising. Like they say it has stereo speakers, it's only got one for media playback. They say the charger's capable of 12v 2A (so 24W) charging, I can only get 9v1a, or 5v1.4a out of it.
They say the Battery is 5580mAh. So of course I want to measure that.
Ran it flat. charged it to full while it's off. The numbers are confusing. It started at 5.12v 1.4a and went down to 5.02v .25a by the end.
Ruideng says it used 3080mAh. Being generous and using the max voltage to convert that to mWh, 15769. Down to 3.7v, 4262 mAh.
The Ruideng also said it used 23835 mWh, which I think is what I used to measure the 5X before, and THAT converted down to 3.7v is 6442 mAh.
Since neither of these are close to the stated capacity, and I've had the Doogee for a year, would you think the mAh -> mWh -> mAh reading is more accurate or the flat mWh -> mAh?
If you read all that, thanks a ton! Also never buy a Doogee phone, Clive.

Great video clive

This was going to be my question for the next Q&A session. Thank you!

Just as a heads up I have a battery charger that will test the capacity as well as charge them, it's also not very expensive. You might even find it interesting, it's called MiBoxer C4. Got it on Amazon for less than $30 usd.

Lithium is actually pretty safe, and an essential food supplement. It's Nickel and Cadmium that are a bigger environmental concern.

I wish that the cell manufacturers would add the Watt-hour capacity to cells. It would eliminate much of the confusion for many consumers, and simultaneously reduce the scope for scammers to use misleading advertisements claiming ridiculous Ah - or rather mAh - capacities. A simple '11 Wh' makes more sense when trying to use those powerbanks. Then an allowance can be made for charging and conversion losses, and we could then know to expect about 10 Wh from a decent unit. To be fair, the more reputable ones do that already, but it should be a legal requirement for all types of cell and battery, including those disposable ones which have never been required to tell the customer what they are actually buying.

Looking forward to you testing the Duracell power bank. I recently got the 10 amp one and am wondering how close to its stated capacity it will achieve.

Hello Clive and all,
Is it not better to know the discharge capacity of a power bank (or a Lithium cell) rather than the charge capacity?
I ask because it is not uncommon to put more power (current/voltage/time) into a cell than you will actually get out of a cell.
I have a power bank that when it finishes charging, the charge capacity is 2400 +/- mAh, but discharge the power bank and I only get 560 mAh.
Charging the internal cell on its own using a lithium cell charger and then discharging the cell through a constant current load of 200 ma, confirms the cell's discharge capacity is only around 580 mAh.
The cell is clearly of no use unless you want to put around 5 times the charge into it than you get out of it.
However, does this not suggest that discharge capacity is more accurate than the charge capacity of a lithium cell/power bank when it comes to knowing what you can expect to get out of a lithium cell or power bank?
Thanks,
K Watt - yes, that is my name.

Thanks Clive nicely explained, was your new year resolution less leds as I only saw two, yes two. Happy New year mate.

I have a Imax b6 charger. They are on Ebay for like 20 bucks. They have all the connectors and can charge/discharge most any type of battery. I have used it a few times and works pretty good.

Just like to say your channel has been my best discovery of 2018. Long may you buy cheap trashy electronics and test them

That neat little 3W aluminium flashlight adapter can be got from Amazon or eBay quite cheaply. ETA: Also that USB Tester Power Meter - mine is a UM34C USB tester costing £26.99 from Innovateking-EU, but can cost a lot more so it pays to shop around.

Well I see you survived The New Year Party. I had to step out before the end.
Now don't tease us OPEN the pack up.

So you are measuring capacity by seeing what goes into a cell. I've been measuring it by what I can pull out of one. I've a little device here with a power resistor or two attached, some 7-segment displays, and the ability to set various parameters by pushing buttons. I'll charge a cell fully, stick it in a holder attached to this device, and run it down, reading the total capacity in mAH with another device similar to the ones you show here.

I always test the cells on their own whenever possible, and measure the capacity from fully charged to flat (using one of those imax chargers/dischargers)

you want to test the capacity of battery and his voltage , if you want to test the capacity, you can take it as power bank, then use our forum ,
power bank capacity calculation method
After the power bank is fully charged, connect the AT34(data first reset) with the appliance, then discharge to the stop output
Method 1: power bank capacity =AT34 measurement mAh * the output voltage ÷ battery voltage ÷efficiency.
Method 2: power bank capacity =AT34 measurement mWh ÷ battery voltage ÷efficiency (normally power bank output voltage is about 5V, internal battery voltage is about 3.7V, efficiency about 85-90% )

When you measure the current at the input you must must multiply by the assumed average voltage at the cell and the time to get the capacity. Maybe you should explain that a bit. If you use the reading of your device only the energy you take will include the "resistor"

Have you done comparisons between the mAh/Wh going into and coming out of power bank? Like measure while charging and then use a load with similar current and measure while discharging. I would be interested to know the ball park "roundtrip" efficiency of a power bank (maybe comparing the resistive and switching ones or name brand vs. chinese).

I remember when nickle cadmium was the thing before Li+ existed. I would trickle charge a battery until I knew it was fully charged (a few days, doesn't hurt them). I had a modified analog travel alarm clock. Instead of it having a battery, I installed a resistor and some wires. I would set the clock to 12:00 and hook up the charged battery to it through an ammeter. I would write down the current at the start and finish of the discharge and take the average (close enough) of that current and divide it by the hours the clock ran to get the AH of the battery.

the green one has bluetooth so you can log the info on a computer or smartphone, i use this to monitor pulling Li out of sleep mode (over drained)

9:35 - If you short-circuited that, it really would become a red hot chilli pepper!

Counting A-h is confusing as soon as you discuss different voltages. If the charger has a resistive controller (as you describe) then the A-h input will equal the A-h of charge, but if a buck converter is used in the controller, the A-h put into the battery will be greater than the input A-h by a factor of the ratio of the input and battery voltage (integrated over the varying battery voltage, assuming 100% efficiency). Similarly, on output, even if the output circuit (boost converter) were 100% efficient, the output A-h will be smaller than the battery draw A-h. Also, although the A-h your get out of the battery is really close to the A-h you put in (which in turn reflects the number of lithium ions transferred between the electrodes), when you draw down the battery the voltage will be less than during charging and so the energy (Watt-hours) will be less than what was put in.
The so-called A-h rating of a boost pack should really be interpreted as a W-h rating based on an assumed voltage of somewhere around 3.8V.

Wouldn’t discharging a battery or power bank more accurately give the correct capacity?

The "tight" power bank is only meant to take a cell that doesn't have a protection circuit. The protection adds a little bit to the length of the cell. Most things that receive 18650s can fit both lengths. Considering thats a "DIY" style USB battery its pretty much a defect of design not to accommodate both lengths.

Clive can you test a lipo safety charging bag to see how safe these things are. I mean put a Lipo in a bag and overcharge it and see how or if the lipo bag makes any difference to the battery going up in flames. I know you love lipos and flames

Interesting that you say the Uni-T metres are fairly good. AvE seems to have a differing opinion.

Can you give links Clive to all your testers or put all the names of them in the discription

Well, we know what happens when you put an LED across the mains (not much, they fail controlled) but what about if you were to plug a lithium cell straight into 240v... How big of an explosion would be created?
(I'd probably suggest trying this outdoors ;) )

Ruideng should sponsor you, lol. Bought a um34c because of this.

I'm very curious about the clock you made and had shown for testing.

You are an early bird again.
An interesting vlog, but would you like to tell us more about the yellow (Rudaing??) controller?

The only issue I have with this type of charge testing (And I do it myself) is that the readings are distorted by the efficiency of the 5vUSB to CellVoltage conversion. I believe this method will always measure the capacity with about a 10% over-read. The same stands for the discharge of the cell. They will typically under-read by about 10-15% due to the measuring at 5v as you said around 14:00. I guess these numbers are close enough for general use though.
I built, but never published, a tester based on an Arduino and a couple of constant current drivers that I feel gave better values for capacity. It measured the capacity using time and a fixed current of either 1A, 100mA or 25mA based on voltage triggers. I might drag it out and publish it sometime soon as I've never seen this done anywhere else.
Sorry for waffling! :-)

Happy New Year, Clive. 🍺😀

nice explanation, thanks !
Why do you test battery capacity by charging them, instead of discharging ? Discharging capacity seems like a good measurement as it represents the delivered useful power.

Great video Mr Clive Sir... cheers.. Happy New year's to you and yours

@bigclivedotcom would you be interested in reviewing a niche battery technology, LIPO? I'm a radio control model car enthusiast and would love to see your opinion of this batterys' performance on your test.

Can you recommend an AA battery analyser? Project Farm did a great video to test the actual capacity of a few brands. He used a Powerex device but it's quite expensive at about £60.

Thank you for making this video!

Shouldn't you be measuring in watt-hours instead of mAH? That is what I usually do since modern packs I have like to run at 9-20 volts with QC or PD, watt hours usually line up
Also is that big yellow meter one of them that does QC, PD, and USB-C?

I can recommend the Imax B6 charger or one of its many clones for people who play around with LiPos. It will show the capacity while charging and discharging. It is also very hackable for someone tech savvy. I have a homebuilt case with 3 of these powered from an old, hacked 203W Xbox 360 powersupply, which is just enough for my use.

Ive got 2 of these testers, and they seem to be somewhat accurate for a standard 5v charge, but both give rubbish back for higher voltage 'fast charge' devices. My phone is 4500mAH, the testers say 3600 at 5v from flat to 100%, and 1800mAH at 9v fast charge. The phone lasts a long time, so it is charged fully. Strangely the Wh figure they give is pretty much bang on the battery spec.

Would not like to see you angry. ;-) You are kick ass. (From USA; Scot blood).

"I wiggled it and it went bang." That's what HE said!

Bonne video 👍 bonjour de la France 🇫🇷

Clive, ever since I started watching you you've been testing cells. So how many do you think that you have tested? It's got to be hundreds by now.
And on a related note, if I have something (say a touch) that I wanted to run off a USB supply rather than batteries, what would be the best way to do it?
Happy new year...

I acquired a lot of knowledge from this Vlog. I was wondering if they would be changing the meter from USB A to USB C or would an adapter be sufficient ?? Have you looked into the Handwarmer +power banks???

Did I miss it or didn't you mention you can connect to those USB power meters via Bluetooth (applications for Windows and Android) then you can control it from the app and log out to Excel etc.

Thanks for sharing. Im interested in testing my NiMh AA cells and see what capacity they have and when I should dispose of them.

Happy new year, Clive! I assume either this video was recorded earlier or you have remarkable powers of recovery...

I don't like any of the displays on those USB-testers. What happened to the nice blue Keweisi branded one with an OLED?

Clive, do you have any recomnedations for good, high capacity, but not ridiculously expensive, 18650 cells? I have a set of 4 in an external battery pouch which came with some bike lights, but the capacity if terrible and the lights just chew through the pack in less than an hour, even on the lower settings. Cheers

Good stuff! Does the ambient temperature make a difference to capacity of lithium cells during charging and discharging? Electric cars charge slower and have less capacity at low temperature (30°C is optimal), and alkaline delivers most capacity at 20°C during discharging...

Can I give you some of my old electrical test equipment to tear down? Thanks

Also a dirty trick I found a jump start pack I have...which claims 8000mAH, 11.1V, 29WH. It seems the salespeople added voltage and multiplied capacity to make the specs...so it sounds huge but really it is worthlessly small. I was excited to find nearly 10 amp hour 12V source for cheap but it turned out to be more like 2 amp hour capacity when I drained it with a small 2A test load.

Can you do a vid on battery chargers for non rechargeable batteries and whether there is any difference between normal chargers and ‘non rechargeable battery’ battery chargers?

Interesting, I'm surprised you get capacity from charging.
I used to test 18650's like that but I've had lots of batteries that are old that must be internally failing as they take quite a bit more to charge than you get back out.
Now I use an Mc3000 charger though as it gives me charge and discharge characteristics on the PC/phone which is pretty sweet.

Hi, could you please make a video about installing line-out ports to a bluetooth soundbar so you can connect an external amp? Please 😁

Still got a question for 18650. Personally when i test mines, i drop them to 3.6v and stop at 4.2v or vice-versa. Are there some official standard for initial and ending voltages?