Would it be possible to make a simple adapter (as shown below) that would allow us to charger our 26800’s in our existing chargers? I would love for this product to exist and be about $5. Then I could buy a couple of them and just use them on either end of my existing bay charger.
And for a dedicated 26800 charger, here are my thoughts:
Definitely use USB-PD (the official industry standard) instead of QC 3.0 (3rd party standard that doesn’t comply with USB specifications). It should work with standard 5V power sources too, just at a lower charging speed.
Up to 90mm cell length would be excellent. That should fit any future 26800 releases, even USB rechargeable protected ones. I don’t think an LCD screen or measurement functions will be necessary, just a simple 2-4 LED indicators to show charging status. For current selection, A small switch like on Xtar FC2 would be ideal.
I’m more interested in an affordable, basic charger than one that has advanced functions. As the Freeman said, many of us already have nice chargers, they just can’t fit 26800’s so we need this new charger to supplement.
A PB1 or PB2L with USB-PD would be excellent, especially if it was capable of 45W. If my layman math is correct you could charge a laptop at 45W for a around an hour with two QB 26800s.
EDIT: tactical_grizzly’s adapter suggestion also seems great but I would suggest that it be made with long enough cables to accommodate 26980s since flashlights in this form factor seem to be becoming available now too
I’d like to see the ANT-MC1 Plus just stretched to 90mm’s. No other modification needed on that one. As far as other chargers. I’d take a few of your best selling ones and just stretch them. The extra length in general would be very welcomed. The short chargers can be tight, ripping the cells wrapper getting them out.
This is my X2 Xtar charger slight modification. Slider works unmodified but it’s at it’s limit and a bit tight. The spring is showing signs of being fatigued and losing some tension. Slightly longer unstretched springs would be needed.
I wouldn’t mind that, especially if it could come to market really fast. It should completely replace MC1 Plus and the old version should be discontinued to keep the product line from getting any more cluttered.
+1 on the extra length.
These are high capacity batteries and likely to get better as time goes on.
Both slots need to be able to charge at higher outputs.
I think 5 amps each would be a good place to start.
If it uses a USB power supply, it’s doomed. Nobody want’s to wait forever to charge a big battery.
Make the slots far enough apart so the batteries have room to breathe and room for our finger to pluck them out.
Temperature sensing to detect overheating cells would be nice and perhaps required for high charge rates.
Don’t bother with NiMh charging. Keep it dedicated to the Lith chemistry. Chargers for MiMh are cheap and plentiful.
Most users have several already.
All the Best,
USB-PD can handle up to 100 watts so it’s not a limitation. 5 amps would be great, but my suspicion is that would be costly. I’m starting to like the idea of 2 chargers:
One cheap one, 1-2 bays, current is fixed at 3A (unless you’re using a lower-powered USB source), just some indicator LED’s.
And then a really nice charger (probably an update to/replacement for VP4 Plus) that can do super high current like 5+ amps and has all the testing features and a nice display.
I would LOVE that on a premium charger. When I do regulation testing I have to keep manually removing the battery to check the voltage and test brightness every 0.2V. Being able to just set the termination voltage instead of me having to baby it and keep pulling the battery out and testing would be INCREDIBLE.
Given that there are plenty of countries where 26800s are not available, or not shipping to (like Australia), you would need to be careful around which countries these chargers would be sold in.
Maybe just develop a magnetic charger with polarity detection like the one from Olight, but more advanced?
I would respectfully disagree. I wanted at least 85mm slots just to have room to get 21700 cells in and out with plenty of room for my fingers. I would have bought the lengthened chargers without access to 26800 cells. I’ve torn a few cell wrappers from it just being too tight a fit on short slots. 15-20mm’s extra length won’t put any of these chargers over the top in size. 99% of my charging in done at home on a desk with plenty of room for that extra length. ANT-MC1 Plus is my portable charger. Add some 19mm’s to bring it to 90mm charging length and it’ll still be a small charger.
Have a 3.8V storage charge and 4.0V working charge. And of course 4.2V like every other charger.
The 4.0V is to allow charging to 80% for those who want to extend battery life but still have good battery capacity for everyday use. I have never seen a 4.0V feature on a charger so this would be an innovative feature.
Also the ability to show voltage or percent on the display, so the user change choose which one they prefer, i want voltage being an enthusiast but someone else might prefer percent.
the BlueSwordM one? I did ask him for the up to 26800 if not 26950, but his reply was
The 26900 would be welcome even by the 21700 guys, so that you can easy put it in, and out.
Ps. for the charger, the 2 slot 26900 at the same time capable charger is enough.
The feature that BLF want, is to have te option to select and memorize, the max voltage to charge up to, most people would be happy to charge li-ion up to 4.1V or 4.15V max
The problem (of course) is that to stretch the slots to fit 800s and 980s, that means the slider-spring needs to be made of some miracle material to also grab onto 340s and 350s (ie, 16340s and 18350s).
Even in my Ope that only stretches to baaaaaaarely fit 21700s, it also barely rests against the case of 18350s/16340s, and to make good contact I typically also have to wedge something in the open area to push the slider more firmly against the cell.