I'd recommend a driver meant for triple XM-L in series. This will put out 9-10v and should be good for a 9v MT-G2. The only problem is you may want more than just 3A (I know I would). Problem with this is the 9v MT-G2 is rated for max of 2A. Your best bet is to hang on, like NightCrawl said, for PilotPTK's new MT-G2 driver I heard he's working on.
Another option for a 6v MT-G2 is direct drive from 2 Li-Ion cells with a resistor mod to drop the current from 8.4v to the low 6V range.
Just in case anyone is looking at this one, the 9 volt mt-g2 is only rated for a max of 2 amps, so a 3A driver would be overdriving it by ~50% already. Heck, the 36v one is only rated at 500ma.
Cutter doesn't even have the 9v,just 6 or 36,this is going to be a real pain to find a driver for.Trial and error will be the way to find out what works best,I,m going to try a 5 amp sst-50 driver@8.4v with the 9v mtg and see what happens.Just have to wait for the 9v to be available.
I think you guys are forgetting the simple fact that measuring the approximate output of an LED by amperage alone isnāt entirely correct.
We can generally get away with it in this forum because normally all the LEDs we use operate at the same voltage, but these donāt.
Volts X Amps = Watts
So, for the MT-G2, it only makes sense that the three versions are as listed:
6V at 3A = 18 Watts
9V at 2A = 18 Watts
36V at .5A = 18 Watts
For an XML:
3.1V at 3A = 9.3 Watts
FYI, because I was curious, they list the MT-G2 maximum output:
1987 lumens at 18.5 Watts = 107.4 lumens per watt
And the XML maximum output:
1040 lumens at 10 Watts = 104 lumens per watt
So efficiency is pretty similar, itās just capable of a much higher input, thus allowing far more output.
To me, this LED means we now have the capability of a much brighter flashlight in a single LED format. Iām excited.
I fitted this driver in my torchlite build, I get a 3a tailcap reading on two keygos 26650ās (not the best cells in the world) its comfortably bright on high and low is wickedly low considering.
pop over to the torchlite thread by edcplus ti see what we all tried out.
Any buck driver rated for the voltage you will be supplying should work fine. The closer the supply voltage to the vf the better. The 6v mgt2 vf climbs as the current climbs. So more than 7v if going over 3 amps. I have used that cheap 3T6 from Manafont with great success. Drives around 4.5amps stock. That was with 2S 18650ās.
Right now, Iām using just straight 7135ās with manual switches to control current and have 6S nimh cells. So 7.2v total. The cells are 4/3AFās. Works great.
Don't forget the HBFlex... the only 3-amp-capable boost driver I know of - but the low end of the input voltage range is too high for a single cell (too high for two cells, really, though you might be able to get by), which is a shame.
Does anybody know if the TaskLED drivers, specifically the H6Flex, can survive with LEDs in parallel? I know that's the 'wrong' way to do it, but it usually works fine in the non-theoretical real world.
the driver wonāt care about the LEDs wired in parallel, although the risk of an imbalance in Vf and current draw between the paralleled LEDs increases with current I believe. Thatās just theoretical though, Iāve no practical experience of it.
So, how do you calculate total/individual amperage with LEDs in parallel run off a common output? For example if I used the H6Flex in the triple MTG2 build with 4S cells and LEDs in parallel, vs. the original plan which was HBFlex boost driver with 4S cells & series LEDs.
(numbers with the HB boost: cell voltage 12-16.8v in, total series Vf of ~18.9v; w/H6 buck: 12-16.8v in, parallel LED Vf of 6.3v)