this.
Agreed. The OP should probably write up a paper and send it to some scientists.
I have one of those, but there are a few problems with it. A bit of background: Not all USB cables are created equal; some can carry more current than others. I originally bought the USB ammeter to determine which of my big pile of USB cables were best for charging. The problem is, that using the ammeter with a known-good QuickCharge cable, may cause the phone to drop out of QuickCharge, but other times the ammeter will show the phone is QuickCharging. It causes even more problems with Apple devices. The Kill-a-Watt may show an ipad is charging at 10W, then connect the USB meter, and now it is only charging at 5W.
The Kill-a-Watt and the USB ammeter tend to agree. Obviously the Kill-a-Watt shows 110-120 volts, but if it shows 10W, then the USB shows 5V and 2A. There is definitely power loss in the charger. The Kill-a-Watt may show 28-30W, but the USB shows 12V 2A QuickCharging.
I would like to get a new USB ammeter that does USB-C power delivery, but you go to Alieexpress, look at the hundreds of options, and tell me which one to get. Lots of nearly identical ones ranging from $10-50. I don’t want another one that is so bad it decreases the charge speed when connected. Or go to Amazon and see the exact same ones, but marked up 3-400% and a bunch of fake reviews (if any reviews).
Just a WAG, but this one sounds like what used to be (still is ?) called a surface charge:
That doesn’t apply to the lithium batteries in a phone.
A phone using lead-acid batteries would weigh about 15 pounds and be about the size of a small shoebox.
Ah. Good points. Thank you both 
ETA: a quick review shows it may not be limited to lead-acid batteries. It may be largely applicable to them, though:
In simple terms, surface charge is the situation where your battery reads more voltage than its actual voltage. As a result of the elevated voltage, your battery reads a false voltage. Battery surface charge happens mainly on lead-acid batteries. This happens because lead-acid batteries are slow at converting lead sulfate to lead and lead dioxide during the charging process. As a result of this delayed action, most of the charging activity happens on the surface of the plates which results in the state of charge (SoC) increasing on the outside.
[bolding mine]
Anybody know for sure ?
I don’t think so, but I really don’t know for sure.
However, reading the voltage of a lithium battery during charging isn’t accurate because the increased temperature during charging affects the voltage reading. You have to let the battery sit with an open circuit to get a good reading.
Instead devices (phones, laptops) typically use a process called coulomb counting to track the current going into and out of the battery. There is a look-up table to map the count to battery percentage. It is possible for the count to get out-of-sync with the battery (due to a bug, a battery swap, etc). In this case, the phone might think the battery is more charged than it actually is.
I am not sure what technique earbuds (like the Bose ones upthread) use though.
I have never seen lithium batteries exhibit surface charge effects. Surface charge affects otherwise good batteries and causes a slightly elevated voltage that is reduced within moments when load is applied. I have never seen this in a lithium battery.
And even if it applied, as CaveMike says smartphones don’t use voltage to determine level of charge anyway. So it wouldn’t give the result the OP reports even if it existed in Lithium batteries.