Test/Review of Charger ML-102 V9.0 2015

Charger ML-102 V9.0 2015





This charger is a very small 18650 charger, it need an external USB power source to charge, and can also work as a USB charger / power bank. It only charges one battery at a time. The charger has been on the market a long time with frequent updates and not all updates successful.
First time I looked at it, it was good, second time it was bad, third time it was fine again and this time?



I got the charger in a envelope without any accessories.



The charger has a micro usb connector for power input.



And a usb connector for usb output power.



As a new function the charger has a "fuel gauge", the number of green leds inside the charger shows how much power is in the battery.
This gauge lights up when a battery is put into the charger. When charging one led in the gauge will flash the rest will show charge state, when discharging (i.e. used as power bank) it will only show charge state there is no flashing.



The battery slot is fixed length with a tight spring at the minus end.



Only unprotected 18650 will fit. It might be possible to charge smaller sizes with the use of spacers, but the battery and spaces must be very close to 65 mm length together.





The charger can only handle 65 mm long batteries, this means unprotected batteries.



Inside the charger



The charger is easy to open, only four screws must be removed and it can be pulled apart.





The top side of the board. Everything is basically controlled by one chip.





The bottom side of the board.



Measurements

• When not connected to power it will drain about 3mA from the battery when the gauge is lit and 0.1mA when not.
• Below 0.5 volt the charger will not charge.
• Between 0.5V and 3.2 volt the charger will charge with 200mA down to 100mA at 3.2V, gauge will show charging.
• Above 3.2V the charger will use full current.
• When charge is finished the charger will charge with 0.1mA.
• Charger will restart if voltage drops below 4.15V
• Charger will restart charging after power loss or battery insertion.

At first glance it looks like a CC/CV charge curve with a high termination current. Both the charge voltage and termination current is fairly high, this gives a fast charge and the two probles balances each other out to give a good final voltage.
The problem is that the charger measures voltage with current off and then terminates when it reaches 4.2 volt, this is not the correct algorithm for LiIon batteries.





Because termination is voltage controlled, the termination current will vary with the battery.



Simulating a weak charger made the ML102 charge the battery with reduced current, i.e. longer charge time, but it did termination when battery was full.



M1: 30,8°C, M2: 29,1°C, HS1: 32,4°C
This charger runs very cool when charging.



The charger is a fairly dumb charger, this means fast initialization.



When the charger reach the CV phase it will start using pulses to measure the battery voltage. This is not a real CC/CV charge.



There is nearly 5 minutes between the measuring pulses.



Measurements on USB power

• Usb output is coded as usb charger (DCP).
• Usb output can be used while charging, this will reduce charge current.
• The gauge inside the charger is used to show battery charge state.
• Usb output will be turned off when battery is down to 3.0 volt.
• Usb output will turn off after 40 secods with 70mA or less load.
• Usb output turns on when output is loaded.
• The blue led is on when usb output is delivering current.
• When not connected to power it will drain about 3mA from the battery when the gauge is lit and 0.1mA when not.
• USB output can be used as ups, but notice the lower voltage when running on usb supplied power.

The usb output can deliver 1.4A with a new battery before reducing the output, overload protection kicks in at about 2.1A.



When the charger is powered the usb output is depend on the external power usb supply. Notice the lower voltage and higher current capability (Overload protection must be handled by external usb power supply).



It can also charge while usb output is active, but charge current will depend on usb load.



It works very fine at 0.5A load, good efficiency and stable voltage until the battery is discharged and automatic disconnected.



Same with 1A load. The output drops slightly the last few minutes.



With 1.2A load the charger has problems when the battery runs down, this means significantly shorter runtime.



With 0.5A load the noise is very low at 10mV rms and 38mVpp.



The noise is basically the same at 1A load at 11mV rms and 38mVpp.



Conclusion

I am not really impressed with this last update to the charger. The charging algorithm is not the recommended for LiIon and goes outside the specified charging parameters. I expect it to work fine, but probably costing a small amount of lifetime for the LiIon cells. The power meter is a nice addition.

The usb output works very well up to 1A, at higher current it will have trouble when the battery is nearly empty. The possiblity to pass power from usb input to output is useful, but the low voltage may be an issue.

Due to the strange charging algorithm I will only give it a final rating of acceptable.



Notes

Here is an explanation on how I did the above charge curves: How do I test a charger

Read more about how I test USB power supplies and chargers

Thanks for testing the ML-102 yet again.

Really disappointing that they’ve gone backwards. The fancy LED gauge is nice but not at the expense of a correct charge algorithm.

Thank you HKJ for your time and effort, it is really helpful , i have been using ML-102 chargers for long time now, and i love to know those info you gave us about the new versions , Thank you again.

Thanks once again HKJ!

According to your tests which do you consider to be the best version as a charger?

For charging I like the first tested version best, the longer spring makes it more versatile The charging from version 8 is just as good, but is more critical with battery length.

V8 (and this) has the best power bank function.

Hmmm….no RProg to change to restrict charge current…hmmm

Datasheet: https://translate.googleusercontent.com/translate_c?depth=1&hl=en&prev=search&rurl=translate.google.com&sl=zh-CN&u=http://www.wendangku.net/doc/3d5db566227916888586d701.html&usg=ALkJrhiPzluUc1y7KhDGW\_-yUj2a5xO0tg

Whew! I almost bought this version last night. I’m glad I held off until I saw it reviewed by you. I think now I might just go with something like the Efest Xsmart. As always thanks for the great indepth review! They really help folks like me on what to buy.

Too bad that I bought this a month ago. Not a big deal since it was only about $5. At least it’s useful as a battery bank and isn’t dangerous as a charger. If losing some battery life is the biggest downside even that is acceptable when I really need to charge batteries in an emergency.

Thank you HKJ.
Much Appreciated :nerd_face:

Question HKJ

From he very sparse datasheet

Could that ramping be the soft-start function? Which is a good thing right?

and my chinglish is a bit squiffy

no hooking adapter? The pulse on the CV at 4.2…is that a pulse used to check the battery?

Does this charger really sway that far from CC/CV charging pattern?

Yes, it is the soft start. There is no problem in using it, but I doubt if there are any befit for charging either.

Not when looking at the curve, but it will always violate the charge voltage specification a bit, how much depends on the internal resistance in the battery.

What’s the worst that could happen?
I’m guessing the higher the resistance of the cell, the further out of spec the charger’s behavior would go.

Is the result — guessing again — losing efficiency, or overheating the charger or the power supply, or overheating or overcharging the cell, or ……??

The worst is an exploding cell, but I do not believe that will happen, more realistic you may be loosing some lifetime on the battery.