encapsulating the Cree LED dome/lens

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fun4four

Newly Enlightened
Joined
Jun 18, 2008
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Hi, Can anyone recommend a optically clear resin/epoxy sealer for my project.
What I need to do/accomplish is fully submerge the Cree led dome and the little aluminum ring with some kind of resin/epoxy that is half way optically clear as not to loose to much light transmission.
I have tried searching but I couldn't find anything that pertains to submerging the dome completely. Any recommendations would be greatly appreciated....
Bob
 
fun4four said:
Hi, Can anyone recommend a optically clear resin/epoxy sealer for my project.
What I need to do/accomplish is fully submerge the Cree led dome and the little aluminum ring with some kind of resin/epoxy that is half way optically clear as not to loose to much light transmission.
I have tried searching but I couldn't find anything that pertains to submerging the dome completely. Any recommendations would be greatly appreciated....
Bob
Click to expand...
Why do you want to do it? I have done it and the results were less than spectacular. With a lens anyhow.
 
In a word 'DONT' the lens on Cree is a floating lens, if you epoxy it it no longer floats
 
Morelite said:
What does that mean? Are you talking about deforming the shape of the dome?
Click to expand...

No, it's solid acrylic. It's attached to the die with a thin layer of gelatinous optical silicone though, and it's fairly easy to knock the dome free if you aren't being careful. At that point, the LED is essentially useless, although it'll still light up.

I believe he means that if you glue something to the dome, you're highly likely to pull the dome free of the die and ruin your LED.
 
WeLight said:
In a word 'DONT' the lens on Cree is a floating lens, if you epoxy it it no longer floats
Click to expand...
I have absolutely no problems potting the Cree from a mechanical perspective. There is no reason to not pot other than the fact that there can be an associated lumen loss.




likeguymontag said:
No, it's solid acrylic. It's attached to the die with a thin layer of gelatinous optical silicone though, and it's fairly easy to knock the dome free if you aren't being careful. At that point, the LED is essentially useless, although it'll still light up.

I believe he means that if you glue something to the dome, you're highly likely to pull the dome free of the die and ruin your LED.
Click to expand...

No it is solid glass. There is no more chance of knocking the dome off than if you were performing any other action with an LED such as changing one out.
 
saabluster said:
I have absolutely no problems potting the Cree from a mechanical perspective. There is no reason to not pot other than the fact that there can be an associated lumen loss.


No it is solid glass. There is no more chance of knocking the dome off than if you were performing any other action with an LED such as changing one out.
Click to expand...

It's surprising how much misinformation is spread around like it's the truth isn't it?

Good thing we got guys like you go keep us on the up and up. :twothumbs
 
tebore said:
It's surprising how much misinformation is spread around like it's the truth isn't it?

Good thing we got guys like you go keep us on the up and up. :twothumbs
Click to expand...
Thanks. I can't say I haven't done it myself but the shear volume of misinformation is hard to keep up with and correct.
 
Well it is actually a bad idea in general to encapsulate the full down for a few reasons:

1) You will change the optical properties considerably.

2) You will change the mechanical properties of the LED. By fixing the dome in space with the encapsulant, you are making the led less able to handle mechanical stress (including that from thermal cycling).

3) Intrusion of solvents, etc. from the encapsulant into the LED.

I would contact Cree directly to see what they have tested and confirmed it works. How long does your product need to work?

Semiman
 
SemiMan said:
Well it is actually a bad idea in general to encapsulate the full down for a few reasons:

1) You will change the optical properties considerably.
Click to expand...
Changing the optical properties is not necessarily a bad thing. In my experiment(with an aspheric) it did not work out and I have a theory as to why but I think it would have been a smashing success with a reflector. Don't know for sure as I have not tested it though.

SemiMan said:
2) You will change the mechanical properties of the LED. By fixing the dome in space with the encapsulant, you are making the led less able to handle mechanical stress (including that from thermal cycling).
Click to expand...
Have you actually tried it? I have. I ran the encapsulated R2 up to 3.2A. If anything was going to stress it that would. Result? No problems whatsoever. Normally if you knock off even partially the LED dome on the Cree you get what looks like cracks that run through it. This is because air gets in between the tears. If the whole LED is encapsulated the air cannot get in and these tears will not result. There certainly is no appreciable increase in stress to the LED die so where is the failure to occur? The only issue I can see is if you did a poor prep job before encapsulation and it did not adhere very well.

SemiMan said:
3) Intrusion of solvents, etc. from the encapsulant into the LED.
Click to expand...
What kind of encapsulant would you use? The stuff I use has no such issues.


SemiMan said:
I would contact Cree directly to see what they have tested and confirmed it works. How long does your product need to work?

Semiman
Click to expand...
Seriously? You know exactly what they would say. Don't do it! And in all honesty if I was a big company that wanted to use these LEDs I would not do it. But for a personal project I see no problems.
 
Let me reiterate 'DONT'
As a Cree distributor we sell leds to commercial customers, we have been down the path of encapsulating leds, as I said earlier the lens is a 'FLOATING' lens, it will no longer float if you lock it in place with encapsulant, therefore it can no longer expand and contract with thermal changes, you will inherently alter the fundamental design of the led, we have done it and leds blow up, this is not speculating it is a fact. If you need to encapsulate do so with a small air pocket around the lens, this will work
 
I know I saw lens units some where that are made to be encapsulated, they even had a thin chrome colored coating on the back of the tir optic so there was no optical change by encapsulating it. I think it even boasted that it formed a waterproof unit. They were made by L2 or perhaps khatod.....
I know if this post were a little less vague it would be much more helpful.
 
Everyone,
Thanks for all of your reply's.
Let me elaborate a little on why I need to do this. This is not for a flashlight application. I would prefer to leave the LED dome clear of anything but I am afraid that the LED and the housing will not be waterproof. I am not using any reflector or optics. I'm just using the LED mounted to it's little pcb board in open air. I am also concerned about popping the LED dome off with a garden hose or pressure washer. As we all know it doesn't take much to pop the dome off. If the led were encapsulated I think the chances of popping the dome off will be almost zero. I have experimented last night with filling the pocket with some resin. It worked extremely well. I lost a little of the blue tint and the led light seems to have a warmer glow to it. It does not appear to have lost any light output but I'm sure it did. I have no way to check that. I don't know what the long term affect are but I will find out. It is waterproof as I had it submerged in a bucket of water for a couple of hours with it being on with no damage.
The reason for the original post was to find the clearest optical transmitted sealer/resin/epoxy available possible.
 
Perhaps based on the information from the distributor, it would make sense to consider an alternative LED product. I am reasonably sure that the Lumileds K2 and for sure the rebel are not glass domes.

Ideally, you will want a high refractive index material. Silicones would be better than epoxy (more flexible / more UV resistant) if you can work with it.
 
WeLight said:
Let me reiterate 'DONT'
As a Cree distributor we sell leds to commercial customers, we have been down the path of encapsulating leds, as I said earlier the lens is a 'FLOATING' lens, it will no longer float if you lock it in place with encapsulant, therefore it can no longer expand and contract with thermal changes, you will inherently alter the fundamental design of the led, we have done it and leds blow up, this is not speculating it is a fact. If you need to encapsulate do so with a small air pocket around the lens, this will work
Click to expand...
You had very unimaginative engineers working on your project. See the quote below from the genius HarryN. You can't seriously expect us to believe that the LEDs blew up?:shakehead Were you encapsulating with C-4 or something?



HarryN said:
Silicones would be better than epoxy (more flexible / more UV resistant) if you can work with it.
Click to expand...
Congratulations! You got it right. What he needs to look for is a "water clear" silicone encapsulant.
 
saabluster said:
Changing the optical properties is not necessarily a bad thing. In my experiment(with an aspheric) it did not work out and I have a theory as to why but I think it would have been a smashing success with a reflector. Don't know for sure as I have not tested it though.


Have you actually tried it? I have. I ran the encapsulated R2 up to 3.2A. If anything was going to stress it that would. Result? No problems whatsoever. Normally if you knock off even partially the LED dome on the Cree you get what looks like cracks that run through it. This is because air gets in between the tears. If the whole LED is encapsulated the air cannot get in and these tears will not result. There certainly is no appreciable increase in stress to the LED die so where is the failure to occur? The only issue I can see is if you did a poor prep job before encapsulation and it did not adhere very well.


What kind of encapsulant would you use? The stuff I use has no such issues.



Seriously? You know exactly what they would say. Don't do it! And in all honesty if I was a big company that wanted to use these LEDs I would not do it. But for a personal project I see no problems.
Click to expand...

- Speaking of misinformation.....

I have done significant work with the automotive and other vehicle based industries, all of who would love to have an encapsulant over the lens as well as the LED body. Simply running the LED up to 3.2A (and just a few) is not indicative of long term thermal stress. Perhaps if you did that then dropped it into a freezing bath a few times, then perhaps yes..... or maybe a hundred times. As was stated, it absolutely does lower the reliability of the LED, though likely more so for Cree and others who have bond wires versus the TFFC Lumileds products that do not.

The dome does form part of the optical system of the LED. If you use the wrong encapsulant, you can reduce light emission by creating internal reflection between the dome and the encapsulant medium. The next answer will of course be "then get an encapsulant with the same index of refraction as the dome....". That has its own issues.... now the LED/air interface occurs at a different spot and again, depending on the angle of light, you could get internal reflection and lose light.

I would guarentee that Cree has been looking at exactly this issues and quite possibly could offer suggestions on what has been the most effective. They will be researching it as their large customers are interested.

For a one off where life is not critical, I would not worry too much though. Silicon based encapsulants should have the least amount of yellowing and have some give.

Semiman
 
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