Astir Grow Led Panel Project...

tenthirty said:

Yes! I agree completely, but we've been looking at how discreet (more or less) wavelengths effect photo-morphology. If you will, how efficiently a given wavelength will facilitate electro-chemical reactions within the plant cell.
As far as I have found, nobody really knows how a plant cell cracks co2 into carbon and o2 or if the plant has the ability to mix or steer the photons of different wavelengths. Also does resonance play a role in all of this?

The way to NW for me, was/is a natural progression of experimentation from PLL to T5 to HPS to led. Also, the question arises, what is a good starting point? "Occam's razor"

As far as cheep Chinese leds, (good, fast, cheep.) pick 2, though a little natural selection here couldn't hurt. It could be said that some of the best scientific breakthroughs were mistakes!
Having a data sheet is a plus.
But I can't fault your logic here, but for me the price of a given diode is not as important as the price of electricity, cooling and most importantly my time, which is in very short supply!

Also, 10w led for $9.00 on a star. http://www.rapidled.com/cree-xm-l-neutral-white-led/
That's less than a dollar a watt. (looks like they run best at around 6w) I have a pile of these sitting on the table calling me.
I'm about to be able to compare these "top of the line" chips against the existing pro-grows that I have. Let's hope for a pleasant surprise.

Click to expand...

PSUAGRO. said:

I hope to God your putting a daisy chain feature on these

Click to expand...

PSUAGRO. said:

I hope to God your putting a daisy chain feature on these

Click to expand...

guod said:

This Light fly by itself , only a Powercord is needed.

View attachment 2336830

and a bit nice blow of Air for the ladys included

Click to expand...

There is a question. Is it necessary to prepare optimal light conditions for the photosynthesis of all leaves on the plant or not? What way is it determined? The correct decision on spectral composition of light depends very much on certain morphological characteristics of plants. There is a dependance upon the distribution of fruits along a stem (Tikhomirov, 1990). For example, cucumber has equal distribution of fruits along the stem. There every leaf supplies assimilate to its fruit(or flower). In this connection cucumber leaves at all layers must be provided with optimal light conditions. This requires a large portion of green rays in PAR (about 40%). Red rays in PAR (about 40%) provide high level of photosynthesis of upper leaves. Green rays penetrate into middle and lower leaves of plants. Blue rays have regulatory function, but its part in PAR is not very big (about 20%) (Tikhomirov, 1989).

We have another situation, where fruits of a plant concentrate in the upper part of the stem. Classical example is wheat. The ear of wheat is supplied with assimilates, primarily from the upper leaves. With this crop, PAR must have approximately 60-70% red rays (Tikhomirov, 1990). We've obtained data on specific reactions of plants for the spectral composition of PAR. It's particularly important during plant development processes. According to this point of view plants may be divided into two groups (Tikhomirov et al., 1991)
http://biology.mcgill.ca/Phytotron/LightWkshp1994/1.3 Tikhomirov/Tikhomirov text.htm

Click to expand...

Question #1: How long ,it will take ,before the leds suffer from permanent damage ?
Spoiler: Not to long...Less than 10' ....

Click to expand...

With ambient temp of 34°C ,the heatsink had a temp of 38° C on its fin base...( cycle 24/0 !! )
Also the front side of the MCPCB was at 38-37° C ,also...

Click to expand...

Jahulath said:

Wise is the word friend but sadly also expensive those ali extrusions are proper expensive for what you get, anyone would have thought it was difficult to smelt and extrude an already expensive metal at a mere 500c hehe.
I'm getting to think that there may be more one can do. Looking in old computers you will see all manner of systems for making semi active cooling, the most prevalent one is using ducting to the main exhaust fan from the heat sink, a pretty stable system (that uses kit you already have installed) but still active I guess. Are there ways to use a bit of physics? Logic would suggest that a chimney could be installed to aid airflow but I may just be baked.
View attachment 2336944
You have heat anyway and that means you have convection, the really shit 2 second sketch shows the air being pulled across the heat sink by the warm air as it rises. If this was made out of 2mm Ali and set to actually rest on the heatsink you would get an even better draw from the chimney effect. Never going to work in a PC but we have the benefit of being horizontal! An idea or a "pipe dream"? (I still love the way that phrase is used in every day life and yet as far as I know it refers directly to smoking Opium lmao)

Click to expand...

guod said:

1. 100% fan-power (0.9 W)
Temperature for all Leds(Dye-Temp) are below 40°C this means also that the light-Output is > 90%
at higher room-temperature up to 30°C only the red leds(630 nm) goes down to 85 - 80%

2. 75% fan-power (see it as an old dusty fan)
no dramatical change here, plus 2-3°K for the leds.
for this test i change the 27 Ohm to 56 Ohm.

3. defect fan (worst case)
heatsink goes up to 50°C
the temp. of the leds is near 70°C (up to 85°C will be no problem for Leds)
the output for the 630 nm leds is now at 65%. all other leds are over 85% (little shift in the spectrum)
as you see the modul works w/o a fan and we get enough time to fix the fan.

Me.


I clean my Tools after every Grow, too much for you?
lubricating !!! .......Scotty beam me up...

post 15 from here


the MCPCB which is in direkt contact with the LEDS and on the other side with the Heatsink can go cooler than the Heatsink, not bad dude!

Click to expand...

How exactly you measured the Tj ?
Did you just, add up the thermal resistances ?
How many Watts is your panel ?
85°C is no problem ? Are you sure ?

...
...

"...the MCPCB which is in direkt contact with the LEDS and on the other side with the Heatsink can go cooler than the Heatsink, not bad dude!..."

Yes,it's possible....
If the heatsink has big enough values of ,both,thermal conductance and thermal transmittance ,
accompanied with a low value of thermal capacitance..
It's all, a matter of aluminium alloy used,number-thickness-height of fins and thickness of heatsink base...
After all ,the mass/surface area of heatsink surpass the mass/surface area of the ,1mm thick, mcpcb...It 'sucks' all of its heat.....
Simple Thermodynamics...
I can shoot some photos tomorrow ,after 6 hours of operation with a K-type sensor ,attached to heatsink and PCB...
Just to prove it to you ...

It's your choice to use fans...
Mine,isn't...

Why you get so upset ?

I say my opinion ,you say yours..
But,facts are facts....And it goes for both of us...

And if it was the time limit ( 10 ' ) that upset you ..Ok ,I can make it 24 hours...
Or as much ,as you would like....
Will you leave the leds working without the fans for 24 hours ?
Since that,even at 85° C,there isn't a problem,as you claim....

And moreover...
Why you think that my post was an answer to yours ?
I'm referring generally to cooling...
It might be possible,that what I say may not apply,specially, for your panel...
(For many different reasons...)
What do you think instead,about a $.$$$ led panel of some hundred Watts,which has plenty of fans ,enclosed on a metal box ?
What happens there ,if a fan fails ?
You think that ,they will happen the same things ,as of the three cases ,you analysed ?
Let's say with a 400 Watt or 600 Watt led panel....
If a fan stops working there ,everything is going to be just ok ?
....
We are not reviewing or testing,exclusively ,your panel...

Save your bad mood,in case of fried leds...
For now ,keep growing,rolling & smiling...

P.S.
Don't know, up there on Enterprise ,what kind of fans ,you people, are using...
But here,on our planet,fans blow dust,hair and other debris ,along with air...
So,any moving parts,get dirty & dry ,pretty easy....
Since they are the cheap ones,they do not have a decent ball-bearing on axle.
So(again),either we often clean & lubricate the fans(...its a bit tricky to do..)
or we leave them as they are and
when they start to make weird noises & sounds,if we ever notice(hear),
we just throw them away and replace them with new ones,before they fail....
...
My greetings to Captain Kirk & Mr.Spock ...

PSUAGRO. said:

Can you elaborate why you think that 660nm is not beneficial to C3 plants......I graduated some time ago but I do remember that chlorophyll A peaks at 660 and B peaks at 640......and are all your leds driven at 350ma(1watters right?)..... so since red wavelengths carry way less power that blue why load up on white leds vers red instead of the opposite?..............junction temps vary by the manufacturer, but 85c IMO is too hot. Yeah passive cooling is expensive, but your using cheap bridgelux(ok-not great)/epistar(suck) leds with an expensive heatsink?i dont get it, why not completely use quality parts throughout like this american company http://www.rhinogrow.com/ .........good luck on your venture

edit...yes 1 watt leds are more efficient than 3,5,10 etc. but your penetration will be much lower(i know you suggest scrog/sog for these panels) but sometimes phenotypes emerge that require larger vertical space, so a dimmable driver paired with high wattage leds will give you the best flexibility/longevity for indoor grows IMO.......

Click to expand...