the loneoeans firmware is on github on the gxb172 website, so I am thinking if anyone here has skills to modify it to work with narsil or anduril firmware? I will also like to try it with my build to see how we can make it work!
Is it possible to get a boost driver like this to have an output ~9V to run a triple in series (something like XP-L2)?
Itās my understanding that boost drivers are typically more efficient than linear especially at lower outputs? But I havenāt seen this sort of setup before so Iām guessing thereās a good reason whyā¦.can anyone enlighten me on this?
Boost drivers tend to burn up when too much current is passed through it. 50 watts as about the most. So maybe 4 amp total at 9 volts (triple 3 volt leds in series). This is quite low for a triple xp-l2.
You could get much more power wiring the leds in parallel then using a FET driver. Thatās what most folks do.
While we are discussing boost drivers, can I digress a little ?
I have two spare (yeah, I know) Olight M2R. They are XHP35 lights, so the driver boosts the input voltage of a single 18650 (4,2V and below) to an output of 12V and regulates the current to allow different modesā¦
Now if I were to make a triple with one of this, and put 3*3V emitters (say, SST20) in series for a total of 9V required, what would the driver do ?
WIll it produces more current ? Is there a risk to burn it ? Or will the current remain the same and the voltage will burn the LEDs ? or no ?
Without knowing what IC it has and what the setup is, it is impossible to know what the effects will be.
Many will work with the a mildly different voltage setup with minor issues that you may or may not notice (such as higher ripple current then would be ideal).
Some will burn out and some will burn the LED.
Only way to find out is to try it.
Generally if you research the IC you can change a few components to make it work with a 9V setup but that is a lot of work.
The reason I asked is because Iām looking into making my own headlamp design where Iām specifically needing maximum run times at lower outputs ~200-500lumen range to be able to run all night. Hence why Iām interested in the boost drivers efficiency.
On that note, do we have any freelance driver gurus here that would design a custom pcb for a fee?
Im guessing that it may remove some limitations of present flashlight boost drivers by being able to allow for a larger pcb footprint and also being able to mount flush straight onto the alu heatsink/body.
The issue with custom boost drivers is that we do not have a working āBLF Boost reference designā. All the drivers that have been attempted so far have had issues.
Buck driver is also hard on a compact setup using BLF designs, the only working buck driver setup we have is the GT but it takes up a lot of space.
Until we have a working base design to use, it is doubtful that a custom driver could be made.
I am still a huge fan of boost drivers myself, they are far more useful then buck drivers for single cell lights.
Are you really wanting SST-20 or just thought of those as an example? Iām wondering why not just a triple XHP-35 in parallel, since that is the voltage the driver has been optimized for.
You should be able to get over 200 lumen all night without a boost driver, but I guess that depends on cell choice. Going with a single 18650 cell?
I had issues too so I designed a MP3431GL-P testing board to test some options but I havenāt gotten around to building it yet, too many ongoing projects.
SST20 would have be my first choiceā¦
I canāt stand CREE tints anymore, they canāt even offer a good tint in their āhighā CRI variant
A quad would be an option but the optic would be partially hidden by the bezel so itās not a viable solution
A while back, there was some testing done around here of Nichia 144 quad die high CRI LEDs. They come in 6V and 12V configuration. But tint rainbow seems to be as bad as CREE in some cases.