driving light?

reflector with spill should be more useful and easier to find

Yeah, anything can throw with a big enough reflector. An xhp70 throws much better than 4 xp-l's 10mm apart crammed into one optic. I wouldn't like having to push to top bins though.

Lexel are those your plots? Even if they are, you should credit yourself, so others can. As it is now I wouldn't dare repost that because I don't know who to credit. I know the noctigon images aren't yours.

References list isn't needed on a comment board but I wouldn't ever post anything like that without mentioning where it came from.

sorry guys, i’m a noob when it comes to some of the lingo.
what is ‘dtp’, ‘tir’, and ‘spill’?
thanks

TIR
TotalInternalReflection
Spill is usually less than on reflector lights

DTP was my 2. last post with pictures

if i was building a driving light for a boat, i’d use 6-8 xhp35, and 38mm ledil iris 4* tir, easiest way is to build it, is in a shape of a light bar, but there are other ways too.
also i would not be over driving leds, i’d prbly go with 70% of max current. overdriving is good for “wow” flashlights with little to no practical use,but for something that would be used often, i would not. it is not just life span, it is potential issues with heat, it maybe ok to do for a flashlight that is not running for long periods of time, but when it has to work for hours, you do not want to have any heat or other issues, you investing time, effort into the build, might as well make it last.
or you can pick up aux lights for cars, and use them on a boat, some are pretty good throwers, especially hid ones.

alp, that sounds like good advice and about what i thought about doing, but i’m still open to any ideas.
i prefer a square or round housing due to different mounting requirements on different boats. it may have to be mounted horizontal or vertical.
where can i buy the optics?
and i need to educate myself more on optics. all help appreciated.
thanks again.

I like TIRs (get 20mm and 26mm from LEDsupply.com), but you can get fairly big reflectors from fasttech, like

https://www.fasttech.com/products/1617/10006828/1543304-78mm-aluminum-smooth-smo-reflector

which take 20mm stars directly. The layer of aluminum negates the benefit of DTP, but is easier mounting. Just don’t overdrive the LEDs.

Again, no pix of what you want to reuse, so these are all generalities.

something similar to this:
https://www.rigidindustries.com/led-lighting/701313

one of my board shops has dtp capability. would i need it for xhp35s at high amperage?
thanks

You are wrong with this overdriven is bad for LED lifetime

Watch this video

The picture before it plays shows the aging with current, the solid line shows longer life for 350mA, while the other for 100mA shows less for the same LED temperature, a DTP star keeps the LED a lot cooler than conventional cheap aluminum stars that are used in most application to save costs

There are tests that clearly show that if the LED keeps cool enough on the LED die a higher current makes in fact the LED age less than on lower current
LED ages from a process that is mainly rapidly increased at low currents like moonlight or low the LED can age 10 times faster than on full current

I watched this video multiple times

And I am native german, so I did understand well why low currents are far worse than heat to kill LEDs

The current protects the very thin active light emitting zone from electrically defective spots to migrate into it from the surrounding material, this active zone is a lot thinner than the rest so migration is a huge issue
Of course heat also increases the migration of electrically defective spots

On our CC moonlight flashlight the LED can age over 10 times faster than on max. rated current
You see the plot at 16:00 of the video
And that plot shows the LED running on 3% of its normal current
Our moonlights and firefliey modes on CC lights get below 0.1%

The odd thing is if we get good cooling an overdriven LED ages slower than at rated current when they got the same junction temperature

that particular optic, is sold on either digikey, or mauser. that is the places i know sell those, but there may be others selling it.
this is the one i’m talking about,
https://www.digikey.com/product-detail/en/ledil/FCN12076_IRIS-SCREW/711-1127-ND/2354525
with hxp35 it is 8* angle. with xpe 4* but you’ll need 3 xpe to match xhp brightness
i also like that i can use screws to hold the holder and the star at the same time, majority of other lenses use either glue or tape, which is fine for flashlights or stationary lights,. but not good for vibrations.

i tried 20-26mm carclo lenses from led supply, they are great for flooders, they even throw ok, but only with xpe, which is a bit outdated and underpowered.

use dtp stars whenever possible, it is always better to use dtp stars, unless you using leds that do not have electrically insulated heatpad, but lately most have insulated one at least cree.

i’ve build quite a few light, that are basically light bars with handles and batteries.

Vf is a problem with XHP35 and 12V supply. i’ve never used a boost driver and don’t have a schematic for one. i’ve also heard they’re not a good idea in high current applications.
what would be the next best choice after XHP35? are none of the xp-g3 style parts strong enough?
could someone rank the LEDs in order of preference for long range power?
still open to ideas.
thanks.

there is nothing wrong with properly selected boost driver. but in your case vf and supply match, you could be fine with linear driver. l flex from task led should do the job, or any other linear driver with low voltage drop.
in theory you can direct drive, or a resistor. try 1 xhp see how it works,

some outboard charging systems produce up to 16volts. that worries me with a linear driver. also most boats have 24v and 36v available and most people think hot is hot. this light has to be idiot proof.
what do you think?
thanks

then i would use 6 xhp35, 2 strings, each has 3 leds in series, each string has it own driver, i’d use flexblock 700ma, it is boost buck driver, led supply sells those.

You can get cheap, small, buck and boost drivers all over amazon and aliexpress for under $10. You can set the current control to your max and use the voltage limit for control, or the other way. Good idea to replace the onboard pots with a nice knob, for convenience and because the onboard pots are likely junk and failure may ruin your light.

For a practical light like this where you don't need to cram the driver into a 15mm space, a controllable buck or boost seems great. Then you get analog control, which isn't bad.

i want to build my own drivers onto the same board with LEDs.

what do think about 6 XP-L with 2 PAM2863 drivers running at 2A or 4 XP-L running at 3A?

at what current do i need DTP?

thanks

at 3A DTP has a clear benefit to gain lumens as the LED stays cooler
with DTP you can easily get to 4.5A without to much lumens/W efficiency loss compared to 3A on a cheap star

DTP boards pay for themselves, as you can push the current per LED and reduce the number of LEDs significantly

basically XML footprint gain less than XPL from DTP as the surface of the thermal pad is bigger

red and blue line are bad aluminum stars as you find em on so many shops

here is a comparism from XML with different MCPCBs, for XPL footprint the curves should be more significant

and he damaged the LED on a cheap star

My mistake.. edited. I see you made a link this time. As links break though I think it's still worth pointing out (and proper etiquette) that these are djozz's plots, and great work it is.

using cree’s lumen calculator, it seems 6 XP-G3 or XP-L2 driven at 2A would generate about 5000 lumen. G3s are cheaper and lumens are very close to L2s so G3s seem to be best choice to my simple mind. am i right?
are DTP boards necessary for XPs driven at 2A?
thanks

i really like the cree lumen calculator. thanks Lexel.