Test/review of Charger NiteCore UMS2

Charger NiteCore UMS2

This is a USB QC powered universal charger with adjustable current.

The cardboard box lists lot of specifications, battery types and features.

The box contains the charger, a USB cable, manual and a warranty card.

The charger has the USB connection on the back together with a plastic heat sink.

The charger has two switches:

C: A short press will change slot and longer press will enter the charge and battery menu.

V: Step between displayed values and change settings in menu.

No batteries in the charger.

When charging it will show chemistry (Li-ion), algorithm (CV), current, charged capacity, voltage time and internal resistance.

The “Quick Charge” is present when the charger is power from a QC charger.

Other LiIon battery types.


NiMH batteries.

The yellow label has the important specifications and is easy to read.

The slots uses the usual construction and works well. They can handle batteries from 30mm to 79 mm long, the new 21700 with protection will fit in the charger.

The charger can handle 79 mm long batteries, inclusive flat top cells.


  • Discharges LiIon with 0.1mA and NiMH with 0.02mA when not connected to power

  • Below 0.7 volt the charger will show EE and charge with about 1mA, there will be no voltage readout.

  • At 0.7 volt the charger will assume NiMH and start charging.

  • The charger will assume NiMH below 2.1 volt and LiIon above 2.1 volt.

  • Will not restart if battery voltage drops.

  • Charges with 0.2mA when LiIon battery is full.

  • Voltmeter readout freezes when charging is finished

  • Voltmeter is within 0.01 volt.

  • Voltmeter has a max. readout of 1.48V for NiMH and 4.20 volt for normal LiIon.

  • Change between 0.5A and 1A is around 55mm long batteries.

  • Charger uses 9V in QC mode and up to 2A current.

  • Charge will restart charging after power loss or battery insertion.

  • Power consumption from USB when idle without batteries is 38mA

LiIon charging

Current can be adjusted from 0.3A to 2A in 0.1A step with USB and to 3A with QC power supply. Default is 1A with normal supply and 1.5A with QC supply and long batteries. For shorter batteries it is always 0.5A.

This is a fine CC/CV charge with a termination current around 150mA, but the charger is a bit low in voltage.
Display shows 3009mAh

The second slot is similar.
Display shows 2842mAh

These 3 batteries are handled fine, even the old cell.
Display shows 2399mAh, 2750mAh, 1762mAh

The termination current is the same with 0.5A charge current.
Display shows 2877mAh

For this old and worn down cell I used the 0.1A setting, it is 150mA and due to the fixed termination current it do not taper, this is not ideal for small cells.
Display shows 47mAh

2A charge current works fine.
Display shows 3065mAh, 2781mAh, 3055mAh

Display shows 2796mAh

This larger cell handle a 3A charge nicely and the charger also do a good job.
Display shows 3120mAh

Two cells at 1A works fine on normal USB.
Display shows 3061mAh, 2987mAh

The current draw is up to 2A.

It was possible to set the current for both cells to 2A and the charger did it, this means 4A drawn from USB.
This is not very nice to do without warning the user.
Display shows 3068mAh, 2956mAh

With QC I could also select 3A for each cell and it did it.
Display shows 3269mAh, 3086mAh

Adding a 0.5ohm resistor to simulate a long cable or weak power supply did not prevent the charger working, but slowed it down.
Display shows 2803mAh, 2980mAh

M1: 42.5°C, M2: 43.2°C, M3: 48.2°C, HS1: 61.2°C

HS1: 58.3°C

The charger need some time to start a charge. The charger measured voltage with current off.

With QC there is a current spike.

When entering the current change menu the current is turned off and first resumed when leaving the menu.

The charger has some problems with a unstable power supply.

4.35V LiIon charging

The charge curve is nice enough, but again the voltage is about 0.05V too low.
Display shows 2694mAh

IFR (LiFePO4) charging

No problem with LiFePO4 cells.
Display shows 476mAh, 1183mAh

NiMH charging

Current can be adjusted from 0.1A to 2A in 0.1A step both with USB and QC power supplies. Default is 0.5A

The charging uses -dv/dt termination in the end and then adds a 10 minute top off charge (Why?) and do not use trickle charge.
Display shows 1969mAh

Both high capacity cells are terminated on -dv/dt and with top-off charge.
Display shows 2850mAh, 2901mAh

It works the same way at 0.5A charge current.
Display shows 1807mAh

A AAA is no problem.

With -dv/dt termination it takes some time to detect a full cell, here 20 minutes and then a 10 minute top-off charge.
Display shows 289mAh

Two NiMH batteries.
Display shows 2143mAh, 2041mAh

It is also possible to charge at 2A with a normal USB supply.
Display shows 2155mAh, 2102mAh

Here I uses a QC charger for the 2A charging.
Display shows 2173mAh, 2183mAh

M1: 47.8°C, M2: 48.2°C, M3: 46.8°C, HS1: 65.8°C
The batteries gets fairly warm at 2A charging.

HS1: 56.3°C

The charger need some time to start and ramp up current.

With QC it was a bit longer time adjusting the current to the correct level.

When changing current the charge current is turned off, when finished it will slowly be adjusted to the new level.

Unstable power supply do not work with NiMH either.

Measuring Internal Resistance

These results looks very good, it detect my resistance fairly precise and consistently.

One slot worked fine on NiMH, but the other was completely useless, I wonder what went wrong.


The charger charges nicely, the default current is low enough to always work when using a normal USB charger, with QC it may be necessary to adjust the current down for smaller LiIon batteries. The mAh display is rather optimistic in its values. This charger can use a lot of usb current, because it do not limit the usb current. This high current will only happen if the user increase the charge current manually.
The user interface is fairly easy to use.

I will call it a good charger, just verify the current when charging smaller cells with a QC power supply.

My copy of the charger is at the bottom of the allowed voltage for LiIon or even a fraction below it. This will improve the lifetime of the batteries, but they will have less capacity when charged on this charger.


The charger was supplied by a Nitecore for review.

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

Thank you Henrik! My observations were exactly the same. All my cells had a resting voltage between 4.13V and 4.16V. I found out that slot #1 (left) and slot #2 (right) have a consistent voltage deviation of 0.01-0.02V with fully charged cells.

Cheers, Thomas

Can you recommend a 110v usb wall plug that would output enough amps to charge two cells @2A each? I'm assuming the charger does not have any type of booster and needs a stronger wall plug to do the job.

I actually had bought this charger before, which was even more powerful, but is discontinued, meaning you can’t buy it:

So, I would recommend to buy this UGreen charger instead:

It’s quite the powerful charger, being able to do 18W on QC 3.0+USB 2.4A continuously, combining at 30W continuous output.

That means not only could you charge your cells rapidly, but also your phone/tablet. :slight_smile:

Again BSM to the rescue, thanks man Exactly what I was looking for.

Do I need a special cable for the UGREEN charger for QC3.0 or will the regular usb cable that came with my nitecore UMS2 work? If anyone knows, would the Samsung 40T's get really hot when charging at 3A?

With respect to the graph “Nitecore UMS2 3A QC (2xSA18650-33)” it is written: “With QC I could also select 3A for each cell and it did it. Display shows 3269mAh, 3086mAh”.
Assuming 2 channels deliver simultaneously around 4V at 2.75A (see time 40 minutes in the graph), then the total momentary power is around 22W (=2*4*2.74).
Considering the QC power source is set to 9V, then the source current should be at least 2.44A (=22/9), or probably higher (due to some power losses).


  1. It is specified in the review (as well as on the product box) that the “Charger uses 9V in QC mode and up to 2A current”, which corresponds to “only” 18W (=9*2). So, where does the extra 4W (=22-18) come from?
  2. On the product box it is also written: “QC Mode 3,000mA*1 (MAX) 2,000mA*2 (MAX)”, which does seem match the specified ability of the power source (9V 2A). So, is it possible that the UMS2 charger can actually exceed the specified power, given a more powerful (say, 9V 3A) QC power source?

Perhaps the reviewer HKJ could tell which QC source model was used during the review?

I cannot remember what QC source I used, probably a BlitzWolf model.

On the charger it is possible to select parameters that will go outside the power specifications, i.e. draw more power from USB/QC than specified. Nitecore may have fixed that now.