DIY - 204W LED Build

[hlem]

I have to say that these are 100000x easier to put together than the cree stars. Took me less than 2 hours to put this together, all 84 leds. I've worked with the CREE Stars before and it probably took me over an hour, maybe even more, just to put 10 leds or so together, and that doesnt include drilling on the heatsink to attach the leds.

Edited August 10, 2012 by hlem

[Ryan S]

what has the cost been from start to finish?

[hlem]

what has the cost been from start to finish?

 

Cost so far is about the price of 1 radion. But will cover my 265 gallon tank easily. that's 84"x24x30"deep, with an extra smaller fixture for a frag tank. hours so far, maybe 2-3 hours invested in physical work, about 4-5 in looking/buying/designing.

[Ryan S]

Cost so far is about the price of 1 radion. But will cover my 265 gallon tank easily. that's 84"x24x30"deep, with an extra smaller fixture for a frag tank. hours so far, maybe 2-3 hours invested in physical work, about 4-5 in looking/buying/designing.

 

So about $750 invested? I think Chad is over $2000 on his LEDs. There is a learning curve for sure. Your tank, if covered in radions, would probably require like 4 of them... So your DIY is a lot cheaper then $3000, that's for sure! Looking forward to seeing your DIY LEDs in action!

[hlem]

So about $750 invested? I think Chad is over $2000 on his LEDs. There is a learning curve for sure. Your tank, if covered in radions, would probably require like 4 of them... So your DIY is a lot cheaper then $3000, that's for sure! Looking forward to seeing your DIY LEDs in action!

 

oh, a radion is $750? thought it was $700 but keep in mind, mine is not controlled, only on/off functions. no dimming, or sunrise/sunset. however, I've estimated this as well, it'll be another $250-$350 if i want add DIM4 controllers and dimmable drivers. I've also calculated adding UV/Red/Green, those will cost about $50 more per fixture. But I dont need it, maybe next time

[Chad]

So about $750 invested? I think Chad is over $2000 on his LEDs. There is a learning curve for sure. Your tank, if covered in radions, would probably require like 4 of them... So your DIY is a lot cheaper then $3000, that's for sure! Looking forward to seeing your DIY LEDs in action!

 

 

Nah... it's not that high. I am around $1400, though more than half is in computer controls and cosmetics.

 

(by the way, it lights now )

[taiscici]

Very clean built so far. Take a look at the light below I bet this is similar to your 100W chip

 

http://www.marinedepot.com/Orphek_DIF_100_100_Watt_120_Degree_LED_Pendant_Aquarium_LED_Pendant_Lights-Orphek-UG1731-FILTFILDLP-vi.html

[Ryan S]

Nah... it's not that high. I am around $1400, though more than half is in computer controls and cosmetics.

 

(by the way, it lights now )

 

Nice!

[hlem]

Very clean built so far. Take a look at the light below I bet this is similar to your 100W chip

 

http://www.marinedepot.com/Orphek_DIF_100_100_Watt_120_Degree_LED_Pendant_Aquarium_LED_Pendant_Lights-Orphek-UG1731-FILTFILDLP-vi.html

 

I bet you it's the same chip LoL

[zygote2k]

To accurately test the heat on the heatsink, youj should get one of those infrared heat guns that you point and shoot to get a localized reading. If the heatsink gets much over 110 degrees, you'll have premature failures of the emitters.

[Chad]

^from where do you get that number? Please provide a reference.

[chucelli]

Looking good.

one thing puzzles me (unless I'm misunderstanding something).

 

This is the LED's spec when running fully

3W running at 680mA, 3.4V

10W at 900mA, 12V, <65F working temp

100W at ~3.5A. 30-36V, <65F working temp

 

and also my basement, usually stays around 70F in summer time, so pretty cool year round.

 

How can the working temp be less than 65F on any of the emitters? Are these manufacture specs or did you come up with these based on your own calculations?

I'm also not trying to start any arguments. Just want to make sure you have sufficient cooling so your LED experience doesn't get soured.

 

-Robert

[hlem]

To accurately test the heat on the heatsink, youj should get one of those infrared heat guns that you point and shoot to get a localized reading. If the heatsink gets much over 110 degrees, you'll have premature failures of the emitters.

 

Interesting... the spec for the 100W and 10W states "led working temperature: <65C", I'm not exactly sure what this means, but I'm guess it can/tolerate/goes up to 65C when operating...

[hlem]

Looking good.

one thing puzzles me (unless I'm misunderstanding something).

 

 

 

How can the working temp be less than 65F on any of the emitters? Are these manufacture specs or did you come up with these based on your own calculations?

I'm also not trying to start any arguments. Just want to make sure you have sufficient cooling so your LED experience doesn't get soured.

 

-Robert

 

All manufacture specs. I welcome any and all comments/feedback/suggestion as I am working with these for the very first time and wouldnt want to blow anything out

[chucelli]

ah..... Celsius!

 

Now that is VERY different.

That sounds more like it. Most likely that means as long as you keep junction temps below 65C, the emitters will conform to their published lumen maintenance specs.

 

-Robert

[chucelli]

Just some food for thought when using other emitters other than the Crees everyone else seems to be using:

 

The Cree emitters, at least the older generation ones, (I assume the newer/latest generation ones have improved) can tolerate up to 80C junction temp during operation and still conform to the "50000 hours" lifetime rating. So that gives you some more flexibility in the cooling department and/or possible increase in lumen maintenance when compared with the emitters you used in this build. They are obviously more expensive, so you just have to do the math to see if the money you are saving by buying "non-Cree" is worthwhile. It may be that you chose these emitters over the Crees because they are easier to implement (which is totally fine BTW).

Just something to think about for others who may be trying to decide which brand to use...

 

-Robert

[hlem]

ah..... Celsius!

 

Now that is VERY different.

That sounds more like it. Most likely that means as long as you keep junction temps below 65C, the emitters will conform to their published lumen maintenance specs.

 

-Robert

 

oh whopss.. sorry, yea. it's 65C = 149F. my bad

 

65F be very very hard to achieve.

[hlem]

Just some food for thought when using other emitters other than the Crees everyone else seems to be using:

 

The Cree emitters, at least the older generation ones, (I assume the newer/latest generation ones have improved) can tolerate up to 80C junction temp during operation and still conform to the "50000 hours" lifetime rating. So that gives you some more flexibility in the cooling department and/or possible increase in lumen maintenance when compared with the emitters you used in this build. They are obviously more expensive, so you just have to do the math to see if the money you are saving by buying "non-Cree" is worthwhile. It may be that you chose these emitters over the Crees because they are easier to implement (which is totally fine BTW).

Just something to think about for others who may be trying to decide which brand to use...

 

-Robert

 

here are some reasons why I chose these leds

 

Price: Cree = 3-4x more, maybe higher with the newer stuff

 

Implementation: These are wayyyyy easier to put together. a whole lot less drilling, no soldering one emitter to the next, even though you'll need to solder it to the PCB, but that's a very easy cause there is no wire, and a lot less wiring throughout.

 

life expectancy: truthfully - I'm pretty sure I'll upgrade/change with newer technology wayyy before the 50,000 hours. I've change light 3 times already before this build. MH, T5, led fixture. why pay for 50K hours when you know there'll be new/different things coming

 

also, the 100W is rated 10,000lm, that's 100lm/W. I'm dont remember what the CREE was rated at, but I remember it being less. i may be wrong here. but anyway, the first 3 reasons were good enough for me to give these a try.

[hlem]

DHL dropped this offer like 20 minutes ago

 

 

Check out the 100W lens (i only ordered one cause they didnt have 90 degrees in, so i got a 70 degree to test with.

 

fits perfectly... no room for error tho... =(

[hlem]

i'm going to be working on the smaller frag tank fixture first as the fans will not be here for another 2-3 weeks, hopefully sooner...

[hlem]

Still waiting on some parts. but almost finished with the smaller fixture.

 

I'm starting to build the case to hold it, I'm using plywood. I dont have metal or acrylic tools to work with those.

 

Anyone has any idea if using wood is okay for a case?

[Chad]

That is looking great!

 

Honestly, I don't like the idea of wood for an electronics case (of any type) based on the fire concerns, especially when you have parts that may well have temperatures high enough to catch a spark. Plus, wood is a pretty good insulator, so the internal temperatures will be higher than if a metal (and maybe plastic depending on thickness) fixture was used.

 

But that's just my thoughts and why, I know it's been done, though and there are some nice pics on RC.

[zygote2k]

^from where do you get that number? Please provide a reference.

This is what Ecoxotic told me as to the reason of their failing pro modules. They said that the fan needs to keep the temp below 110 F otherwise it leads to premature burnout of the emitters. I've experienced 12 of these things dying.

Maybe the more expensive emitters and assemblies have higher heat resistance.

[Chad]

Huh. Yep, that's a low number for electronics in general. I'm surprised they went to production knowing something like that.

[hlem]

ok, just finished the box for the small light. It's a little frankenstien-ish, birdhouse-ish , but once I paint it black, it should look nice, I hope.

 

Here it is over a frag tank. The 3 holes are for timers. Still waiting on 1-2 things to finish putting the drivers in there. I'll take an inside pics once everything is ready.