Heatsinks for DIY LED lamps

Bonjour
Thanks testicles
Merci

Bonjour
If you are satisfied of a certain size of heatsink @1400mA. If you switch to 700mA is that mean that you can split the h.s in 2 and keep the same temperature and use a smaller fan!??
Have a great day ★

littlejacob said:

Bonjour
If you are satisfied of a certain size of heatsink @1400mA. If you switch to 700mA is that mean that you can split the h.s in 2 and keep the same temperature and use a smaller fan!??
Have a great day ★

Click to expand...

You'll get even better temps assuming that you move the air with the same speed.
1) At lower current the LEDs operate at a higher efficiency
2) At half the current the dissipation is less than a half
3) The heat sink cut in half is slightly more efficient too

Bonjour
Thanks again, again and again alesh my friend
Ok, but I will certainly decrease the fan speed a little, when I will do it...
First thing first: try my lights as they are, and then, change/adapt/add/transform a few things.
Have a great day ★

@SupraSPL maybe you have a minute to give me some advice. I haven't quite wrapped my head around all the heatsink equations you have posted.
12" chunk of this profile heatsink actively cooled would be able to handle how many (watts) CXB3070 AB 1.4A This is a profile available on ebay and I was just curious what it could handle. Really appreciate any advice you can give.

Didn't double check but :

Perimeter in cm (2.71+2.71+2.82+((1.41-0.185)*52))*2.54 = 182.7 cm
Total surface area : 182.7 * (12*2.54) = 5569 cm²


(Using 40cm² per W of heat) : 5569/40 = 139W max of heat (with proper ventilation)

CXB3070 36V AB's @1400mA (according to supra's numbers) dissipate 54.57% of heat,

So 139/0.5457 = 254W of CXB3070 AB 36V @1400mA.

254/49.83 = 5.1

Can't split a cob so we need top round it down to:

5 , is your answer.

(if i didn't mess up along the way)

CanadianONE said:

@SupraSPL maybe you have a minute to give me some advice. I haven't quite wrapped my head around all the heatsink equations you have posted.
12" chunk of this profile heatsink actively cooled would be able to handle how many (watts) CXB3070 AB 1.4A This is a profile available on ebay and I was just curious what it could handle. Really appreciate any advice you can give.

Click to expand...

EfficientWatt said:

Didn't double check but :

Perimeter in cm (2.71+2.71+2.82+((1.41-0.185)*52))*2.54 = 182.7 cm
Total surface area : 182.7 * (12*2.54) = 5569 cm²


(Using 40cm² per W of heat) : 5569/40 = 139W max of heat (with proper ventilation)

CXB3070 36V AB's @1400mA (according to supra's numbers) dissipate 54.57% of heat,

So 139/0.5457 = 254W of CXB3070 AB 36V @1400mA.

254/49.83 = 5.1

Can't split a cob so we need top round it down to:

5 , is your answer.

(if i didn't mess up along the way)

Click to expand...

Thanks a bunch @EfficientWatt hopefully someone else can chime in for verification.

Just make sure you put a couple fans on that heatsink as the fins go the opposite way. Want to make sure all fins where there is heat being dissipated is getting air movement. Most heatsinks with a n single fan would be like this:
========0=======

Yours should be something like thksy:
////////////////////
0//0//0//0//0//0//
///////////////////

Not that many fans but you get the idea

Getgrowingson said:

Just make sure you put a couple fans on that heatsink as the fins go the opposite way. Want to make sure all fins where there is heat being dissipated is getting air movement. Most heatsinks with a n single fan would be like this:
========0=======

Yours should be something like thksy:
////////////////////
0//0//0//0//0//0//
///////////////////

Not that many fans but you get the idea

Click to expand...

The fins run lengthwise Not side to side

CanadianONE said:

The fins run lengthwise Not side to side

Click to expand...

Hahahaha maybe I should open the damn picture file next time

what type of copper is best for heatsink material ?

I was thinking of making some nice fat copper base plates\shims to attach to a normal aluminum heatsink or aluminum channel, for each individual cob. Does anybody know what grade of copper and what type I should be using ?

was thinking of using copper flat bars from onlinemetals

EfficientWatt said:

5 , is your answer.

Click to expand...

Good math, I agree.

CanadianONE said:

12" chunk of this profile heatsink actively cooled would be able to handle how many (watts) CXB3070 AB 1.4A This is a profile available on ebay and I was just curious what it could handle. Really appreciate any advice you can give.

Click to expand...

One thing that might be worth pointing out, the base is thinner than the heatsinks we normally use. Thick base is important if you have an uneven heat load and 50W COBs are a good example of that. Probably not a huge issue but I have not tested it to be sure.

SupraSPL said:

Good math, I agree.



One thing that might be worth pointing out, the base is thinner than the heatsinks we normally use. Thick base is important if you have an uneven heat load and 50W COBs are a good example of that. Probably not a huge issue but I have not tested it to be sure.

Click to expand...

So maybe more suitable to lower wattage situations.

I used the thinner base plate heat sinks and haven't really noticed an issue. My cobs are running fine and my Heatsinks barely get warm. Unfortunately nothing scientific how supra does it but I hope it helps

Yes it would work better with lower wattage emitters. It will still work but you might get more efficient performance from a profile with thicker base. You can check your temp droop if you have a luxmeter and watt meter to get an idea where you are at.

Hey supra could you go into a bit more detail on measuring temp droop. An just a quick question does dimming the cobs via potentiometers increase cob efficiency?

Sure, the idea is to take an instantaneous lux reading and power consumption reading when the fixture is cool, then let it warm up to a stable temp and take another lux reading and power reading. Then check to see what percentage the lux/W has decreased. At very low currents you can have as little as .1% temp droop, a good range (IMO) for hard driven COBs is 2-5%. If it is 7% or more it is probably a good idea to address the cooling situation.

For posterity, using the watt meter is not a perfect method because the driver efficiency tends to increase a bit as it warms up. If you want more accuracy you would have to use dissipation wattage by checking the voltage and amperage on the DC side of the circuit, preferably at the same time using a pair of multimeters.

It can be tricky to get an accurate instant reading because at high currents the the lux will drop off very quickly and the driver current output can spike when first clicked on, so you might want to try the cold start test a few times to get confirming repeatability.

Yes when you dim the current using a pot the efficiency of the COB will rise quite a lot because you are reducing both current droop and temp droop.

I am building a few LED strips that are I would like to hang (for the most part) from long heatsink bars. I would prefer to get passive cooling, but it may not be an option. I will be using 3 cree 3070s at 50 watts each. I would mount the cobs to the heatsink and the drivers would be mounted away from the heatsinks. The distance/spread of the cobs would be(theoretically, this is not the exact size of the heatsink, it would be longer)at the 1", 18", 36"(most likely) or 1", 24",48." What are viable options for passive cooling at these spreads on one long heatsink? Thanks.

SupraSPL said:

http://www.amazon.com/ARCTIC-Alpine-M1-Passive-Silent/dp/B00U8PUNH2

Ill grab one to test

Click to expand...

verdict on this one?