I can tell that the finish is Silicone. The gold substrate is blue LED and then they put the phosphor-laden silicone on top.
Well, I can sell the remaining 6 4 of these for $12/ea (excl. shippimg). Just mind that these are meant for ‘beta testing’ and I have seen no hard numbers yet.
edit: Loucas took 2 of these. There are 4 left to be either sold or given away for public review.
It’s on Aliexpress. The very CREE that I used in comparison was the 90+ CRI 5000k version bought from HotRed Store. The very same store also sells 6500k and 3000k variants. You get to choose voltage, too.
uhh, nevermind, the 90CRI version only available there in 5000k.
You might try your luck here, but it’s 1000pcs minimum order.
Why do you call it a bigger version of XHP35 HI? Why not just say it’s like a XHP-70 HI? Anyway, I’m eager to see what the “collimated” beam from these look like compared to the XHP-70 when you finish the Sofirn C8 builds. Will you also de-dome the XHP-70 to compare with both LEDs being domeless?
This sounds exciting. If everything test out well, perhaps we can get MTN or Kaidomain interested to buy in the quantities they need and we can just buy from them.
The reason I was reluctant to call that a XHP70 HI is that the given spec wasn’t as efficient as the XHP70.2. By estimate it should be about 20lm/w behind at the same CRI.
By the way, just want to let you know that I also plan to later buy these in bulk to make part of the living, and also gain funding to hunt for another product.
No problem with the reduced efficiency. We expect that with all high CRI variants. If you check CREE specs, you can often find that their high CRI versions of emitters are at least one or two brightness bins lower than their low CRI version of the same emitter. In other words, the high CRI version just isn’t available in the highest brightness bins. Same with low CCT (warm) versions. They can’t make them as bright as higher CCT (colder) versions, so the highest brightness bins just aren’t available in the low CCT versions of their emitters.
The readily available driver are the ones that used to drive the XHP35’s, but it’s only driving the LED at 1A so you would be seriously underdrive these LED (though not necessarily a bad thing).
On the other hand, these are 40w LEDs so running these on full tilt in flashlights with poor thermal dissipation could very well be a recipe for disaster.
I should be able to at least do a proper beamshot and side-by-side comparison against CREE’s on a flashlight this week, provided I won’t destroy the driver.
I could always let Djozz chime in later. Djozz’s result should turn up next two weeks.
Also, the manufacturer seems quite confident about CRI values of this thing. They did said something along the line of “see it for yourself”.
I got beamshots too. Unfortunately, I only have one high drain 18650, and my setup trips the overcurrent protection of other batteries. I can only give you the individual beamshot for the moment.
All the shots are taken at 5500k WB. I took this with a smartphone camera which annoyingly messes with the exposure setting.
XHP70’s Beam shot
FC40’s Beam shot — Again, This looks much less green than XHP70’s 90CRI, but a bit cooler.
Additionally, the H2-C I ordered are not the same. One of them operates in 1-mode, the other operates in 5-mode. Annoying, but it’s only the best shot I have at this. I probably don’t want to go through the trouble of sanding down the driver and coat it with nail polish again.