Cali Kid Corals

DIY LED for a 48"x24"X24" tank

[I was originally going to post this in the same thread as my tank, but I would like to keep the feedback together, so I am posting a new thread instead.]

I need an SPS capable light for my 48"x24"x24 tank. I am thinking DIY, although it seems like new off-the-shelf units are coming out every month and they are getting closer and closer to what I want to build myself.

While I know there is a lot of ideas floating around in terms of different color LEDs and even multi-chip LEDs, I am thinking about a typical CREE XP-E/XP-G Royal Blue/Cool White fixture. Here are my current specs:

100 LEDs
3:2 Ratio of RB:CW
60 CREE XP-E 500 Royal Blue
40 CREE XP-G Q5 Cool White
60 Degree Optics
10" wide HeatSinkUSA HeatSink
Wired in Series with Thomson Research Product Drivers

Originally, I was thinking one long heatsink laid out something like this (ignore the LED layout, this is not what I was planning):
ledlightfor120gv3notext.png


Then I got some feedback on nano-reef.com and people said that two smaller units might give me more flexibility, so I designed this:
LEDFixturev2-0.png


In this layout, I can use one TRC-120S105DT (1050mA) and TRC-120S140DT (1400mA) to drive the 30 RB and 20 CW LEDs, respectively. With these drivers, my plan would be to always have these dimmed somewhat. Technically, the 1050mA is 50mA too high for the XP-E 500 RB. Here is roughly how it works out:

XP-E 500 RBs at 1000mA run at 3.479V, so 30x = 104.37V. The TRC-120S105DT has a voltage range of 68-114V, so I should be OK there.
XP-G Q5 CW at 1400mA run at 3.528V, so 20x = 70.56V. The TRC-120S140DT has a voltage range of 52-86V, so I should be OK there too.

With the 60 degree optics, I looked at getting these spreads with the light 12" above the tank. These diagrams show the 60 degree overall spread and 30 degree spread that contains most of the light from the LEDs:
LEDFixture60DegreeConeSpread.png

LEDFixture30DegreeConeSpread.png


Most recently, however, I saw that nanocustoms is going to offer the following heat sink Kit and a DUO700 driver box, so I could build four of these and run them at 700mA instead of 1000mA and 1400mA.
NanocustomersLEDKitback.jpg

NanocustomersLEDKitHeatsink.jpg


If I wanted to use the Duo700 driver box, it would limit the build to 700mA -- not sure I want to do that -- but the math works out like this:

PHP:
	XP-E RB 500
	LEDs     Amp     V Each     Total Volts     Total Watts
	15        0.7       3.4          51.0            35.7
	
	XP-G CW R5
	LEDs    Amp    V Each    Total Volts    Total Watts
	10       0.7   3.242     32.42        22.694

This gets me back to my original 100 LEDs but running at 700mA. Of course, I don't need the Duo700 box, so I can drive them in series with different drivers and drive them higher.
 
I do not believe that was a heat sink.

I believe that was a block of aluminum carved into a custim heat sync.

You could get something like this carved into a heat sync, call around to some machine shops.
Maybe a hobyest on the board can help.. I have a mini mill.. no skills at all but I have one. I keep it in the backroom of my gunshop.

Couldn't be too hard.. spend some time laying it out clamp it down and cut away what doesnt loo right...
There is even a machine shop club you can join for doing exactly this kind of projects. I forget the posters name but they just posted a DIY of a very nice frag rack built at this same machine shop club.
 
I could machine it for you but you won't like the prices. The materials alone will run you over $500 plus shop time. 24x24 is a large size and price/increasing thickness is highly disproportional. I suggest going with multiple strips and daisy chaining them together to keep prices down. Otherwise, if you really really really want a custom heatsink, and are willing to pay the prices, I could do it
 
I bought my heatsinks there, and have been fairly happy.
The only downside, they are heavy.
Another good reason to have multiple smaller sets.

I have a metal hand grinder if you want to remove a lot of aluminum fast for the fan.
(Union City)
Note that you might need a different type of fan if there is no space below it.

--

A note on those drivers: You are going to a pretty high voltage.
That does save time and effort, and can improve efficiency.
However, it gets rid of one key advantage of LEDs - safety.
Once you head up into the 100V range, you need to think about insulation, and
what can happen when things go wrong. I have certainly heard plenty of stories about
shorts between LED star and heat sink online.
 
TechShop and do it yourself.

You can also pay the people there to program the machine for you. Don't expect it to be as cheap as the extruded heat sinks though.
 
Well, two things.

First, a lot of DIY projects are way overkill on heat dissipation via heatsinks... trust me, you don't need THAT much but it certainly won't hurt, so don't consider it a requirement.

Second, extruded aluminum will be far cheaper than a machined block of aluminum, which is what nanocustoms/tuners/etc is. For your project I imagine HeatsinkUSA is a good bet... they make what you probably need out of extruded pieces, in custom lengths. Put it in an enclosure if you want it to look pretty. :)
 
Mr. Ugly said:
Carve it out with a router and carbide bit(1/2" shank). That'll give you a super clean DIY job.

Just a hand held router? I don't have one, but will an inexpensive one work or do I need a fairly high-end router to cut through metal?
 
If you want it to turn out well at all, you need a mill and some know-how... I'm kind of afraid at how a first DIY attempt would go with a handheld router and no coolant, guides, etc. It's expensive and a lot of material to remove to make the "fins" and it's easy to ruin.

Seriously, did you check this out? http://www.heatsinkusa.com/
 
Yep. Even a cheap router can work. But you have to take lighter cuts.

I've used both 3hp and 3/4hp routers for aluminum.

If you're going to use a router on metal, definately use eye protection and secure the work piece.

If you're not super handy and comfortable with power or machine tools, it's probably not a good idea to use this approach.
 
Tamazula said:
Seriously, did you check this out? http://www.heatsinkusa.com/

Sorry, Vic, not sure what you are point to here? My plan was to buy a Heatsink USA heat sink, but carve out a place to put a fun so it does not need to sit on top. I would therefore need some method to carve out the fins where I want the fan to go and like run some diagonal groves so the fan will cool better across the heatsink rather than just along the groves it sits inside.
 
Mr. Ugly said:
If you're not super handy and comfortable with power or machine tools, it's probably not a good idea to use this approach.

I worked for a General Contractor for 5 years, so I am not afraid of power tools, but most of my experience is with wood and not metal.
 
Ah, no problem then.

Just don't go hogging it out like it was wood.

Do light cuts and work cleanly. Like you're doing custom built-in cabinet work in Larry Ellison's office or something :D
 
Tamazula said:
First, a lot of DIY projects are way overkill on heat dissipation via heatsinks... trust me, you don't need THAT much but it certainly won't hurt, so don't consider it a requirement.

Based on your comment that my HeatSink might be overkill, I reduced it to 8.5"x17" (instead of 10"x21"). HeatSink USA sells this one for ~$39 and it weights about 7.5lbs.
LEDFixturev3-0.jpg
 
So you need to mount a fan on the HS right?
Why not get some metal studs similar to the ones used to mount motherboards on computer cases? of course the proper size. I don't know what those are called, one end is male thread and the other female; the shape is hexagonal.
 
Mr. Ugly said:
Ah, no problem then.

Just don't go hogging it out like it was wood.

Do light cuts and work cleanly. Like you're doing custom built-in cabinet work in Larry Ellison's office or something :D

+1
I have used my router with a carbide bit and it works like a charm on aluminum.
It is very important to go slow and make shallow cuts. If you don't, something will break, and at 20k rpm's it could get ugly.
I used my holesaw, jigsaw and router to cut the ovals and scribe these two "I" beams together.
fishtank029-1.jpg
 
Nice :D

First time I saw someone rout aluminum was when our machine shop superintendent had one of his guys use a roundover bit on some 6061 bar stock. I built a 12' stainless steel walk in fume hood, and our machine shop made the bottom track for the sliding doors. That was about 25+ years ago.
 
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