Boost driver to power an MC-E? Would this work?

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Sitting' on the dock o' The Bay...
I've been thinking of modifying a pair of 2D MagLites that I have for my kids to use. I want to keep the battery chemistry safe for them to use so I have decided to use NiMH batteries because I have a bunch of D NiMH cells already. The problem is that I ordered a pair of MC-E emitters without really thinking about where to use them. The thought occurred to me that it might work to power the MC-Es if they're wired 2S2P with a boost driver intended to be used with a single emitter like a Sandwich Shop Mad Max Plus or BB Nexgen 750. Would I blow up the driver if I tried this?

Also, I tried applying power momentarily to an MC-E that is wired 4P and I got 1400mA from three NiMH batteries. Does this mean that each emitter saw 350mA or each emitter saw 1400mA?

Thanks!
 
It's amazing what a few quiet minutes all to myself can do for my thought processes.

To answer my own questions: I can probably get away with running one of these small boost drivers but I would end up splitting the output four ways, one to each emitter. That means that a 1A driver will provide each die 250mA. Since there are few drivers out there that can push more than 1A from 3V I'm pretty much stuck with this. I think I'll set these lights up with XP-G R5s instead or wait for the XM-L.

As for the second question, 1400mA split four ways gives me 350mA to each die.

Does this look right?
 
Yes, the drive current divides.

The BadBoy Nexgen boost IC is rated to a max of 5.5V output. So you are going to push it at its limits with a 2S2P MC-E driven at 250mA per die.

Probably better to wire the MC-E in 4P and run it with a BBNG1000.

The XP-G is probably easier to deal with since you don't have to wire up a bunch of tiny terminals in 4P. And with an R5 bin, you'll probably get more lumens vs the MC-E, as well as get better throw.

Note that under load, your cells won't deliver 1.5V each. For ~1A-2A draws, big D NiMHs could hold 1.25V-1.3V, giving a total of about 2.5V-2.6V. Fortunately, the XP-G has a low Vf at 1000mA drive, and thus you should be well within the switch current limit of the BBNG's boost IC -- meaning you should reach full regulation for basically the full run time.

Make sure that you power the BBNG only with a load (e.g., an LED connected) applied. The BBNG will instantly fry if powered with an open load.
 
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Thanks, JC. I'm actually leaning towards running an XP-G with a BBNexgen 750 for longer run times and about 90 less OTF lumens. Now I need to find a project for the pair of MC-Es that are going to show up in the mail soon.
 

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