Floating lumens II, my second integrating sphere in the make

This is all incredibly impressive looking!
Sounds like every last lumen will be accounted for inside this thing! :slight_smile:

Speechless. Are you doing all this work for us?

Eehhmm... in case of this sphere project, perhaps I do it for some folks here, but it is more a challenge for myself than anything else. I do not think that the BLF-community benefits much from it except by making people uncertain now, who were thusfar quite happy about their light measurements .

I have a proposition for you, when you are satisfied that you have it working to it’s optimum performance let me know. I will send you a light that I have built and tested in my pvc lightbox. Then we can see how my box, and duplicates of mine used by Richard and Tom as well as manxbuggy1 and rdrfronty, stacks up by comparison.

You will be free to keep the light I send you for your efforts.

Then we will all know how to adjust our conversion factors if/as needed. :slight_smile:

Or, as you say, we’ll be more confused than ever before. :stuck_out_tongue:

Oh, let me add my keen observations from this point….You Are F’N Brilliant! That cfc light is impressive too. Amazing.

Nice! Put four short legs on it and use it as a coffee table, Kramer djozz.

DBC. I'm going to build a light box sometime in the future and need you to send me a real hot rod light. When I've finished testing I promise I will send it back to you. You can trust me. No seriously you can, just dont ask my wife.

Tracking says it was delivered on…lets see…yeah right here, Dec 3rd. That one is awesome, I clocked it at 4487.34 at start on Efest 35A’s. That particular UI was kind of experimental, hope you like it (or hope your wife likes it, apparently)

That is a nice looking little cfc light djozz. Even if utilitarian in its design. Looking forward to your progress :-)

And never mind my new sig line. That totally made me laugh so hard that I nearly woke everybody up.

I'm honoured to have made it into your sig-line, Ledsmoke

And Dale, let's make it a swap, you send me a light you measured and I will send you a light that I measured. But I still need to do the coating so let's wait until that is done. But while I try to do everything to characterise this sphere and reduce any possible secondary measuring errors, there's one thing that you and others have done more thoroughly than I have done: the primary calibration of the sphere! Many use a multitude of ANSI-F1 measured flashlights for calibration and take a mean of that, I just define the 'high' output of my SWM D40A (rated 550 lumen) as the holy truth (I do that for very practical reasons btw), if my copy of this light is off, the djozz-lumen is off. As DrJones suggested, in the end I need a NIST-calibrated lightsource to finish the characterisation (or have my D40A measured officially), but that is way too expensive.

This is very impressive work, i wonder how much this would be worth (materials plus time at reasonable wage)

There's three answers to the question how much it is worth:

1) materials+wages. It is a hobby so wages are not there, I enjoy the work that is in it. The materials: I guess about 150 euro, this is including 5 new-build test flashlights with constant output. If I ever have a lightsource officially calibrated for it, another 325 euro's is added. (for the luxmeter alone I payed 425 euro's second-hand, new and freshly calibrated this one goes for 1500 euro's. But I had the luxmeter already and use it for other measurements as well, so it was not purchased exclusively for this sphere).

2) the functionality. If this sphere performs close to the performance of a professional sphere, it could be worth over 1000 dollars. A professional sphere goes for many thousands of dollars (think 30), but it comes certified, which will never happen to my DIY-thingy, and it has all kinds of convenient computer-outputs and software.

3) relevance to what we do here at BLF. Well, probably it is worth close to any white-painted cardboard box with a cheap chinese luxmeter (so say: 20 dollars), meaning: if you get within 10 to 15% of the real lumen-value which is what such a box probably achieves if you build and calibrate it carefully (and more accurate if you measure only cool white flashlights with similar beam profiles), the difference is not noticable by eye and therefore good enough. My goal of getting within 1% for all beam profiles (from mule to thrower) and colour temperatures is purely for my own enjoyment (and I must admit that I do enjoy posting about it as well ;-) )

Thanks for the detailed reply :slight_smile:
I agree, its not about the money, its a hobby, but i do like to see what goes into a project, especially a hobby one (the watermark software comes to mind from another thread, the writer worked carefully on it instead of corporately produced which values production rate over refinement and bug catching)
You answered my next question about how much the meter cost, its far more then i expected but your right that its worth it for the repeatability and light colour correction!
How many hours has this project taken?

Looks like you are doing some great work here Djozz.

About the calibration. Using a single light from a single manufacturer as the holy grail for calibration seems to be a bit of waste of all the time, energy and money and you have put making the sphere and buying a good light meter to get accurate results. Most know that different manufacturers can have quite different numbers and some like to inflate their numbers or round them up. On top of that you cant get a good average even for the type of light you use. So even that light could be a bit off the average.

I know you don't buy a lot of premium lights. But you do buy a fair amount of emitters. Cree and other manufacturers have output data that you are familiar with so why not just use that data for calibration? With the amount of emitters you test you could average out the results over time and get a good calibration that you could fine tune as you test more emitters. Maybe remove strange results if you suspect one or several emitters are off. Over time I think that could give you a much better calibration without spending any more money. Not only much better compared to using a single light as the holy grail, but also a compared to using a bunch of supposedly ANSI calibrated lights.

Thing is that in this project I see the absolute calibration of the sphere the least interesting part to find out (my sphere project is bit a bit a case of "l'art pour l'art") because I can't really do a test on the end result, I can only pay a considerable amount of money and then get the real figure. Perhaps because I also use these spheres for emitter tests, the BLF-community deserves a better calibration than this, but taking a mean of the output of a bunch of unprecise light sources is highly unsatisfying to me, it will never get me to the 1% accuracy that is my (probably not realistic) goal for all other aspects of the light measurements . I will try to figure an affordable way to do a true calibration eventually but in the mean time my SWM D40A high output (it is my most stable output light, and I use it just for this purpose) is a very convenient 'working' calibration because I can alter any aspect of my sphere (or build entirely new ones) and the lightsource is always there to recalibrate it to the same standard. And if (at all) I arrange a true calibration in the end, all my results can be corrected with one correction number.

attention to details and determination on this new sphere for sure hold your signature Djozz. if i ever take the courage to make my sphere your work will be my main inspiration. hope to perform inside the hi-standard you allways seems to ask from your work.
as a side note, ouch before, that nice power suply than the exotic spectrometer now the precise light meter , this hobby together with those little crees seems to have plotting to sabotage your finances :stuck_out_tongue:

I never saw <6% lumen accuracy in any of LED datasheets,so your goal sounds optimistic.

Your comparing apples to oranges, datasheets are not based on accuracy of lumen measurement, they are based on tolerance in bulk manufacturing.

You should read datasheets more carefully,for example:

Cree: "Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and ±2 on CRI measurements"

Lumileds: "Philips Lumileds maintains a tolerance of ± 6.5% on luminous flux and ± 2 on CRI measurements"

Luminus: "Luminus maintains a +/- 6% tolerance on flux measurements"

Let me explain how manufacturing works, they produce millions of chips and sort them into bins which are labelled for sale. Each LED has a slightly different output so they sort the chips into output bins, each bin has a lumen output between the stated values. If you buy two XM-L2 U2 1A chips and tested them, they would fit into the U2 bin but would not have the exact same lumen output, but would be between the 7% difference stated.

Thanks,but you don't have to explain to me how manufacturing works,manufacturing tolerance and luminous flux measurement accuracy are two different things.

You said:"datasheets are not based on accuracy of lumen measurement, they are based on tolerance in bulk manufacturing";

Yes,datasheets are based on tolerance in bulk manufacturing,but how accurate you can measure those tolerances-depends only on accuracy of measuring equipment.