Alas. The root cause of my insomnia since I started down this rabbit hole.
noob about to make a final decision. Please help.
- Thread starter Chuff420
- Start date
Alas. The root cause of my insomnia since I started down this rabbit hole.
AquariusPanta
Well-Known Member
Rahz
Well-Known Member
http://www.ullrich-aluminium.co.nz/extrusions/heatsinks - if you don't mind drilling and tapping, ordering from here might be the best option for shipping costs to AU. They have several interesting profiles depending on which cob set you decide on.
As far as spacing, figure out your cob grid and then work the heat sinks in, 2-3 inches on the end from the center point of the cob.
Airwalker16
Well-Known Member
He's got those too
Thanks.
Email sent to Jerry and reply received.
He said he only sells drivers to people who purchase COBS from him, but his minimum quantity for sale is 5 COBS. So I replied asking if he was prepared to sell less COBS on the proviso that I also purchase the matching driver. Hopefully he says "Yes", and the price is good.
After all the considering I have done, I have decided to eliminate CXB2530s simply due to the number of COBS and the fart-assing around needed to wire them up and cool them all.
I've also concluded that running any combination using passive heat sinks, which was my preferred option, was just too expensive. If I could get HeatsinkUSA prices in Australia, then passive would definitely be the go. Instead, CPU coolers will be used.
So these are the combinations I am currently considering for my area of 0.43m² or 4.6285 Feet².
Price & availability of drivers will probably be the determining factor.
On the subject of CPU coolers, I've read that the Arctic 64 Plus & Arctic 11 are popular for the CXB3590 & CXB3070 respectively. Will these CPU coolers handle the higher Heat Watts?
Thanks
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Just got prices from Jimmy and I've narrowed it down to 2 choices, but I am very much leaning towards the 1.75A option.
The price difference between the 1.4A & 1.75A drivers is only AU$32 and my PPFD will jump from [email protected] to [email protected]?
Plan is to buy a Model B Driver and have a remote dimmer set up. Everything I've read has led me to believe that the CXB3590 3500K CD BIN works perfectly well for vegging, so I will use the same box for both and adjust the light intensity accordingly.
That should work, yes?
Any reason I should consider the 1.4A over the 1.75A, or can we call it, 4 @ 1.75A FTW?
Thanks everyone.
The price difference between the 1.4A & 1.75A drivers is only AU$32 and my PPFD will jump from [email protected] to [email protected]?
Plan is to buy a Model B Driver and have a remote dimmer set up. Everything I've read has led me to believe that the CXB3590 3500K CD BIN works perfectly well for vegging, so I will use the same box for both and adjust the light intensity accordingly.
That should work, yes?
Any reason I should consider the 1.4A over the 1.75A, or can we call it, 4 @ 1.75A FTW?
Thanks everyone.
Danielson999
Well-Known Member
I would go with the 1.4ma option. It produces considerably less heat and is already overkill for PPFD. People are doing amazing grows with 800PPFD so I'm sure you'll be just fine with 1155!
That exact argument has been going through my head for a few days now, but I keep thinking with a 7 foot high cabinet, and not growing a SCROG, maybe it could get better penetration at 1378 PPFD, or is my thinking wrong and 1378 PPFD is just overkill?
Apologies for all the questions. When I started this thread 10 days ago, I had absolutely no understanding of any of this and had a completely different set-up in mind.
I've learnt so much since then, and still have so much more to learn.
Thanks again everyone.
Danielson999
Well-Known Member
Right, makes sense if you're just letting the plant grow naturally. I didn't take that into consideration.
hello .. allow me to respond to your post .. but the last part of Table W / ft2 is wrong .. your values gives W / the entire area of 4.63 square feet rather than one square feet .. In addition, it is important for you to take into account the PARW / ft2 want If you or PARW / cover area ft2 (4.63 square feet)
a simple calculation:
3x CXB3590 @ 0,7A total wattage watt 68.71 / 4.63 = 14.84 (9,56PARW / ft2) total
10x CXB2530 @ 0.3A 101.88 / 4.63 = 22 (11.77 PARW / ft2)
Attachments
Fixed. Thanks.
At some point during this thread is was pointed out that the the W/ft² standard was more for the HID/Sodium type lighting and for COBs we were more interested in the PPFD value, so I lost focus on W/ft².
That now makes two posts that have commented on my solution.
If there is a flaw in my thinking I think I see it. I've been using 1200 - 1500 PPFD as my minimum/maximum target. Due to my limited floor space of 860mm x 500mm (2.8' x 1.6') combined with the fact that I now have 7 foot of height, meaning I no longer needed to go SCROG, I was aiming for the higher PPFD values and driving the COBS harder and further away as opposed to softer and closer.
Now I don't think there's anything wrong with my logic, but I think my minimum/maximum target should probably be revised to 800 - 1200 PPFD, and if that's the case then running them at 1.75A is overkill.
If all that sounds about right, then we have a final decision.
4 x [email protected]
Driving the CXB3590s softer @ 1.4A means less heat to dissipate which has now opened up the possibility of eliminating the CPU fans and going for passive heatsinks, my preferred choice, but I need a few more pieces of the puzzle.
I have 860mm x 500mm of floor space to work with and I'd like 2 rows of passive heatsinks with 2 x CXB3590 COBS per sink.
At 1.4A each COB is generating 21.33 Heat Watts so each heatsink is required to dissipate a minimum of 42.66 Heat Watts.
Should A = 286mm evenly spacing the COBS out along my 860mm width?
Should B = 166mm evenly spacing the COBS out along my 500mm depth?
With passive cooling in mind, what value would be considered a minimum for length "C"?
Thanks.
I have 860mm x 500mm of floor space to work with and I'd like 2 rows of passive heatsinks with 2 x CXB3590 COBS per sink.
At 1.4A each COB is generating 21.33 Heat Watts so each heatsink is required to dissipate a minimum of 42.66 Heat Watts.
Should A = 286mm evenly spacing the COBS out along my 860mm width?
Should B = 166mm evenly spacing the COBS out along my 500mm depth?
With passive cooling in mind, what value would be considered a minimum for length "C"?
Thanks.
I like your idea about splitting the length in two and spreading the COBSs further apart. That would definitely give better light distribution
Before discounting CPU coolers, could someone please tell me what would happen if I had a [email protected] generating 21.33 Heat Watts attached to a CPU cooler and the cooler fan stopped working due to mechanical failure or a failed power supply. Would the COB survive this or would it overheat and fail?
Thanks.
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klx
Well-Known Member
IF your fans go out they will overheat after an unknown period of time but the probability of that happening is low. The problem in Oz is the stupid price of heatsinks. It even works out cheaper to import heatsinks even with the weight and shipping. Crazy. For me, CPU coolers are the go here until I find a heatsink supplier with realistic prices. I have checked em all, fastron, conrad, ullrich etc. Hundreds of dollars per bar. Joke. If you are on a budget passive is going to be tricky. If you find a good source please let us know.
I must ask, if you are in Oz, why are you ordering your COBs from China and not getting from cutter.com.au? I am chiming in late sorry if you already mentioned why.
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Yep. My concern was loosing a COB if the fan went out.
Agree about heatsink prices in Oz. I've considered the same manufacturers as you and I've been focusing my preference towards the Fastron H42 profile, which I'm now thinking will be overly efficient for the lengths I need.
Calculations tell me that as little as possibly 680mm is required to passively dissipate the total Heat Wattage of the 4 COBS and this adds up to to $125, however, in order to achieve optimum placement of the COBS within my space I will need to buy about 1100mm, thereby bumping the cost up to $203.50. 1100mm of 5.88 at HeatsinkUSA is almost half that at AU$105. If I could get 1100mm of H42M for $105, this discussion would be over.
So, buying approximately 400mm more of H42M than required just to better space out the COBS doesn't make economic sense, especially at the prices we pay, so I'm now considering the smaller H4 profile. I'll need a longer length of the H4 which will be better with COB placement, but with only 860mm of cabinet width, I may not have enough space for the length to dissipate the Heat Watts..
As for buying from China, Cutters don't have the HLG-240H-C1750 drivers I needed to run them at 1.75A. I even emailed Mean Well Australia and their reply was:
"The HLG-240H constant current LED driver has only recently been released. As of yet there are no distributors with stock."
Now that I need an HLG-185H-C1400, this may change.
pop22
Well-Known Member
I came here looking for information related to using the CXA 2530 for my build also. Great information here, thank you all! I'll be reading thru the rest of this for sure!
My plan is to build 3, 39" long heatsinks with 5 COBs each. haven't decided yet whether to do passive or active cooling.
My plan is to build 3, 39" long heatsinks with 5 COBs each. haven't decided yet whether to do passive or active cooling.