UF-1504, 1503, 1505 - multiple LED's tested for throw (just what you have been waiting for!!!)

Yeah that is a very good point, over longer distances those inches amounts to almost nothing.

After testing some different 1504s, I have an understanding of their factory lenses fairly well. They lose about 15% of potential output. The problem I see with the 1504’s design, mainly is that the lens diameter is uncommon when trying to replace it with a better lens. Uniquefire isn’t going to use an expensive lens, but we could be lucky if it were a different size. I would consider “common” to be something like: 15, 25, 25.4, 30, 35, 40, 50, 50.8, 75mm, etc. In this case, and due to quality of the starting lens (or lack thereof), it may be possible to obtain higher output by use of two lenses or one slightly smaller.

The way I look at it is like this. The 1504 body is just slightly wider than the lens used—bezel walls stay inside lens diameter mostly. When I hold up a pair of calipers set at 77mm roughly, and I place them against the bezel imagining a 75mm lens, I see that it would barely change the overall shape and size of the 1504/1405. Heck, the 1405 would look better with larger bezel. A 75mm lens in this light would have not only been better, would have opened gates to a quick 1mcd light. There are lenses at that size which would ensure 700,000cd without RA.

As far as different lenses go that are not from the UF “150X” factory lights, I am on lens #3 for the 1504. I attached pictures below of it, and showing why it isn’t so great. Not just on visible cast marks, but the kcd is just low with it. Losing 40% of light because of the lens surfaces and profile. It is a 67mm lens. Still, there is one last lens I am waiting on that has a better, polished quality, that I think will beat the factory lens, but not by extremes.

A final option I thought about would be this, make a bezel that holds a 75mm lens for the 1504. :quest:

What do you guys think? Plastic black-ABS bezel holding a 75mm lens on the 1504/1405? :evil:

I think the problem will be maintaining the focal length for a bigger lens. I am interested in what you can come up with.

Why not... And especially if it will be plug and play.

I was hoping that there is some hope for main lenses in combination with mini RA...

Going up in size to 75mm or maybe even up to 100+, if we or you can find a good lens with the correct focal length sound like a good plan :slight_smile: And one i have been thinking about to possible using lens hoods/adapters to be able to fit, but a custom 3D printed new bezel sounds interesting.

These big lights are hardly a EDC anyway so going bigger i don’t really see as a problem.

To be honest i find i very much prefer the “lens” type die spot, to the reflector type spot with much spill in the beam that light up everything around, & interferes with night vision adaptation & making the spot beam feel less impressive.

I still hope a small little drop in RA could be produced for the 1504 though.

+1

When you turn on reflector LED light, your night vision is killed by spill light that is reflecting from nearby objects & environment. Your pupil of the eye narrows and you see less. The brighter the environment is, the narrower is the pupil of the eye, so there’s a reduction in light that hits the fundus. Aspherical type of beam has sharp borders, so there is better contrast between illuminated area and dark area. The enhanced contrast lets you to perceive objects/persons/things better.

Mine 300kcd reflector light does not seems to out throw mine 270 kcd NMV2 aspheric (eye perception, of course reflector wins on lux meter). I see further in a night with aspheric.

I suppose the “photo” I referred to in my very last post of this lens would have helped if it were actually in the post.

Here is a simple example of how to demonstrate aspheric lens cast quality, especially when it is very poor, so an audience who cannot see your same close-up view can see what you are talking about. I used a bright contrasted image behind the two differing lenses on the computer monitor, then the inconsistencies of the poorer lens really jumped out. Beam shots can show intensity loss, but this is the reason why light is lost—imperfections. It’s somewhat hard to show the imperfections on the factory 1504 lens without knowing which image you are looking for when viewing it, but once you see the inside surface of the asphere reflecting an image, suddenly you will realize how bumpy and wavy it is. Also strange things such as image boundaries that occur can be used to view overall curvature consistency. When I take a good polished (not cast) lens, and view the dark spot occurring that moves across the (upper) lens as it is tilted, it will have a very consistent, rounded edge which is what I would call “predictable” as it moves. A cast lens will show this same dark mark as nice and smooth at some points of its border, and at other points it will sort of jump around becoming inconsistent with the lens’ overall shape which is producing it. This is harder to show sometimes in a photo though you probably have an idea of what I’m talking about. To the naked eye, it is very apparent, though.

I suspected this lens would not be great when I bought it, but I had to try it to confirm. Once in a blue moon a grade “C” lens will arrive as a better grade lumped in with the others, but typically it is old projector/condenser light stock items that were cast in the 1950s and 1960s at low quality levels, like this one is:

The FL is shorter, and there’s still a good 5mm travel left after focus—even though it is very similar in all dimensions to the factory lens.

…So, yet another lens is added to my lens container to be placed into the eternal darkness of sealed storage. :slight_smile: I’ve officially passed the $400 mark in two weeks on potential project lenses. Doing this is not cheap; it’s furthest from “budget”. (In my house it’s her and me. I can assure that only one knows what has been spent on lenses, and I’d prefer to keep it that way, or I may receive an involuntary, and likely painful organ removal during my sleep.)

Speaking of projectors. When I was thinking about condenser setups from long ago, I thought about what had given me some of my first ideas for my original RA design. Those projectors often used hemispherical or near-hemispherical recycling lenses for their bulb, to redirect the source image back onto the emitting surface. Looks like there’s a lot of hemispherical mirrors with holes in them that should fear the development of the time-machine. :slight_smile:

(“Rear Reflector” here:)

On the topic of “mini-RAs”, simply put, it won’t work right. I have tried this (I have made a few hundred of them, there is a boundary for every LED size). At extremely small sizes, what happens is the simple phenomenon of localized heating, and a highly deformed projected image that will not fit the die properly to cover it right. The light is far too concentrated in too small an area, and what’s trapped under the tiny space actually gets very heated up. (even 5% of lost lumens recirculating in a very small space can make a lot of heat from an XM-L2/XP-G2. Also, the aperture effect is thrown all out of whack by the small size—the reason I say that the image is incorrect (the corner FL points are different from the center, and a . I won’t go into great detail, but height is important for the lens being used. If the egg-holder is very very short, it needs a large hole in ratio to width to allow the yolk through. This diminishes the effect. If it is too tall, the egg will sit very nicely, but the entire egg will not cover the skillet. Meaning you bought a big skillet, but you’re only getting the performance of a smaller skillet’s surface area. So it will be the same performance as a grill with small skillet. The balance has to be just right to use the entire surface area of your skillet! :smiley: :smiley:

Honestly, don’t try to fix the design by using the wrong parts. Just fix the design. The problem is the pill. It is recessed. The pill needs to lose the recess. Then a regular size egg-holder will sit on top. When that happens you have far better cooling and mass because the recess will be filled with copper (= higher kcd). I can provide the copper slugs, and modify the pills so they are pressed-in, then faced off so they are smooth all the way across. You’re likely thinking, “but then the lens will not focus…”, which is exactly right. But, you’re forgetting something.

What you are likely forgetting is that the mod is done so that the correct size RA can be used, for full theoretical output. Once the proper RA is in place, a second (well, first) collimating lens placed on the RA is how the problem is then solved. The first lens on the RA captures every bit of available light, the light is slightly collimated, and the next lens (the 67mm) doesn’t have to be so far away to finish the collimation. There is no real problem with FL after all when this is done. The correct lens #1 needs to be used. This is the easy part. It doesn’t have to be large or thick since it’s just allowing lens #2 to focus. If it is too thick, lens #2 simply focuses at a shorter distance. I can guarantee I can find coated lens #1 to work for likely $10-$15. For better quality, $20-$25 for an achromat doublet, which is what I would personally use to obtain a tighter focused image with higher ending kcd. You may notice that as you focus, yellow/red wants to focus last. Once yellow/red are focused, blue is a little past its focal length, since it refracts more than yellow/red light. This results in lost kcd, because that blue outline is being thrown away off to the sides. When an achromat is used at plane 1, the beams align better going into the asphere, so they also come out of the asphere closer together since its job to focus becomes less in the total amount of light bends. This is how I have my big-aspheric setup to achieve very high output numbers. Monochromatic light doesn’t care about the amount of steps or degree of bends (to an extent) since all light bends at the same refractive index—being the same wavelength. White light is a far different animal. Red focuses further away, while blue focuses closer. You attempt to find a point that best represents all colors and appears brightest, but really, you’re only achieving good focus with colors around the same wavelength range. People may think I over-analyze this sort of stuff, but my testing equipment tells me that these are important things to take into account when hunting high output numbers. There’s a reason why a DEFT-X is using the same size lens and getting over 100% more output with even lower LED bins. It’s very simple when broken down, just like anything—make additions to all places and suddenly you’re confused about how your output became so high. It isn’t rocket science, but it needs to be done right as if it were.

So, with 1504 data becoming all over the place, how should we proceed with these specific custom mods I propose? Should I start a thread on the 150X lights, and make the thread about possible custom optic arrangements, so that lens data is contained away from general driver modding and etc?

I will work on, and build a new bezel. I would like input along the way for what you guys think about looks and etc.

75-80mm is max size you’ll want in a 1504—that’s what I’m surely thinking based on lenses I have. A 100mm lens size is something better for a bigger starting light, because 100, 125, and 150mm lenses get very heavy in such a short light; it would become awkward.

Here is an example of the print quality I can perform (this part is for a heatsink mount behind a large lens system):

A light that looks like a good candidate for an aspheric also appears to be the TrustFire TR-DF003, even the DF005 looks OK but I’m not sure I like the design as much for heatsinking where the LED would be. A switch would need to be installed on the DF003 handle (no problem) but the bezel is quality and practically saying, “put a lens in me”. :slight_smile: I mean it has a thick camera style bezel, which is really the exact design you want in an aspheric for adjustment. I read up on them, appears the DF003/5 has a bump-switch, or a turn head switch, which had problems for divers. It could be grounded well, with a tail switch installed, due to all the extra handle-cap flat area. Then you wouldn’t use the turn-head switch, or you could as a second channel to a driver.

OT, I know…sorry. :smiley: Just thinking of aspheric hosts and that really seemed like something that has been looked past.

Carry on.

So your wife is surgeon? You have every right to be afraid then :)

But if you look that from other side you are not alcoholic, drug addict, etc... You just spend your money in the name of science.

HA! “Science”. Good one. Science to her, is determining how much a diamond set into a silver band weighs, and if it will fit her finger well. :stuck_out_tongue:

Well we all like something... And if we can afford it why not? Life is short.

About topic here is mine opinion:

It is fun to have super thrower flashlight like DEFT for WOW effect but as a hunter I am really dreaming about small rifle mountable(1" 1x18650 tube), 30-50 aspheric that could do about 500kcd.

What I want to say is that I would like to see downsize trend in aspheric world. Super performance in as small package as possible.

IMO 1504 is good light but it is heavy like hell(even after trimming on lathe) and because of that it sucks as a hunting light so I really don't want to rifle mount it & each attempt to make this flashlight larger will make it even less usable from mine perspective...

Luminarium, while I agree with you about the weight of the 1504, I don’t know if 500kcd is possible out a 50mm lens with a collar or some other device.

Yes I also agree with you that currently that is not possible (at least to mare mortals like us).

That why I want to "throw bug" in the ear to some inventor that could do it. I know that MEM could do it but probably not in a small package like nightmaster V2 or 1503 flashlight. Even 350-400 kcd would be great (without loosing zoom function if possible).

If RA can bring 70 -100% boost and quality 50mm aspheric does around 270kcd it could be possible.

If i replace the stock lens of 1504 with the crelant lens http://store.crelant.com/products/flashlight-accessory/collimator-head/7g5s-aspheric-collimator-head-7g5ch-833.html will i see an improvement? They have almost the same dimension but the crelant lens i guess has better quality or maybe not?

1504 lens = thickness of 24.5mm, diameter of 67 mm with a weight of 100.8 grams
crelant lens = Height (center): 24.0mm, Width (base): 66.7mm Weight: 98.8g

I’ve heard the crelant lens weren’t that great. They may be the same. Who knows.

Just as an addition to the numbers, yesterday I build up a 1504 host for another member: tail switch spring bypassed+brass top soldered to spring, driver spring bypassed, AK47driver with all 7135 chips removed, replaced by FET, short 18AWG ledwires, dedomed XP-G2 S2 1D on 16mm Noctigon soldered to pill, pill blackened with matt heat resistant paint.

Current just under 4A, throw measured at 5meter distance, with full Keeppower 4200mAh, 30 seconds after switch-on: 428kcd.

Nice Djozz

400k+ at Under 4amps? Wow

Very nice :) Could that FET mod be done with Nanjg 101-AK-A1 driver?


Edit:

N10Sivern would you be so kind and check your PM list. Thanks.