marosa
Active Member
Hi,
how do you power this configuration
(4) Vero29 4000K @ 1.4A = 200W
44% efficient
88 PAR W
$113 + $64
$2.01/PAR W
would be nice to have a link for the driver
awesome thread by the way
COB efficiency Spreadsheets
- Thread starter nogod_
- Start date
how do you power this configuration
(4) Vero29 4000K @ 1.4A = 200W
44% efficient
88 PAR W
$113 + $64
$2.01/PAR W
would be nice to have a link for the driver
awesome thread by the way
littlejacob
Well-Known Member
Bonjour
Sorry for the bad answer...
So is that mean that 6 X3590 will go on a hlg-185-700???
I still have a lot to learn!
Have a great day★
Sorry for the bad answer...
So is that mean that 6 X3590 will go on a hlg-185-700???
I still have a lot to learn!
Have a great day★
nogod_
Well-Known Member
Download the data sheet for the driver and find the max voltage for the one you want to use.
Divide by the voltage of the cob you want to use at your chosen current.
Round down to the nearest whole number.
Rinse. Repeat.
Divide by the voltage of the cob you want to use at your chosen current.
Round down to the nearest whole number.
Rinse. Repeat.
marosa
Active Member
has someone a picture like he mentioned above?View attachment 3444601
do you got a chart like this for the CXB 3070 AD & the CXB 3590 aswell you like to share with us?
Or alesh
Stephenj37826
Well-Known Member
What driver would be good to use on cxb3590 to do ~ 65-75watts ? There will be 8 total in this fixture. Also will artic 11 plus work for cxb3590?
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Stephenj37826
Well-Known Member
robincnn
Well-Known Member
We use this thread for mostly COB efficiency spreadsheets. We just love those
HLG-240H-36A is a wrong driver. Please post power supply related questions at this thread to get faster and better response. It is sticky thread
https://www.rollitup.org/t/diy-leds-how-to-power-them.801554/page-84
I am not sure about ur hestsink question. Heatsink questions welcomed on previous sticky thread or here
https://www.rollitup.org/t/heatsinks-for-diy-led-lamps.851907/
good luck
HLG-240H-36A is a wrong driver. Please post power supply related questions at this thread to get faster and better response. It is sticky thread
https://www.rollitup.org/t/diy-leds-how-to-power-them.801554/page-84
I am not sure about ur hestsink question. Heatsink questions welcomed on previous sticky thread or here
https://www.rollitup.org/t/heatsinks-for-diy-led-lamps.851907/
good luck
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Stephenj37826
Well-Known Member
Had two browsers open I meant to post these questions here.We use this thread for mostly COB efficiency spreadsheets. We just love those
HLG-240H-36A is a wrong driver. Please post power supply related questions at this thread to get faster and better response. It is sticky thread
https://www.rollitup.org/t/diy-leds-how-to-power-them.801554/page-84
I am not sure about ur hestsink question. Heatsink questions welcomed on previous sticky thread or here
https://www.rollitup.org/t/heatsinks-for-diy-led-lamps.851907/
https://www.rollitup.org/t/led-cob-bar-project.874955/page-7
EfficientWatt
Well-Known Member
Hi Supra,
(quote is from a51 thread, but I didn't want to go off topic on there ..)
How did you get PAR watts for the 3500K, and do you have some magic numbers for them ? (LER ?)
As far as I know, we don't have a relative spectrum graph or anything very useful .. I'd love to be proved wrong tho!
Thanks !
(quote is from a51 thread, but I didn't want to go off topic on there ..)
How did you get PAR watts for the 3500K, and do you have some magic numbers for them ? (LER ?)
As far as I know, we don't have a relative spectrum graph or anything very useful .. I'd love to be proved wrong tho!
Thanks !
EfficientWatt
Well-Known Member
Thanks salmonetin,
I'd love a relative spectrum graph for the 3500K, like we have for the different cri 3000K's and 4000K, to see where are the give and takes.
But seems like cree hasn't released one as of yet.
You worked this out starting from which data please ?
I'd love a relative spectrum graph for the 3500K, like we have for the different cri 3000K's and 4000K, to see where are the give and takes.
But seems like cree hasn't released one as of yet.
SupraSPL
Well-Known Member
Going back to Mr Flux CXA Analysis thread, I thought it was convenient and helpful that the new CXA 2700K-5000K COB LERs were very close to each other. Others such as Alesh and SDS have come to similar LER numbers after analyzing the graphs. Cree provided us with some data from their CXA2540, 325 LER for the 3000K 80 CRi 321 LER for the 2700K. Mr Flux revised his numbers from the original post so it lines up like this:
2700K 80 CRi 321 LER
3000K 80 CRi 325 LER
4000K 70 CRi 323 LER
5000K 70 CRi 324 LER
Based on that, I think 324 is a close estimate for the CXB3590 3500K LER. My spreadsheet used 325 to estimate on the lower side of efficiency. Very small difference, probably larger than our margin of error so I think we are in the ballpark on LER.
One part of the CXB3590 spreadsheet that was hard to figure, the current/temp droop factor running them at 23W ea. The CXA3590 PDF gives us that data but ther CXB3590 cut the graph short. So I applied the CXA factor to the CXB data to try and get close. It should not be too hard to test the actual current and temp droop for the CXB3590 at 23W and 49W to see if the real life measurements agree with the spreadsheet estimate.
2700K 80 CRi 321 LER
3000K 80 CRi 325 LER
4000K 70 CRi 323 LER
5000K 70 CRi 324 LER
Based on that, I think 324 is a close estimate for the CXB3590 3500K LER. My spreadsheet used 325 to estimate on the lower side of efficiency. Very small difference, probably larger than our margin of error so I think we are in the ballpark on LER.
One part of the CXB3590 spreadsheet that was hard to figure, the current/temp droop factor running them at 23W ea. The CXA3590 PDF gives us that data but ther CXB3590 cut the graph short. So I applied the CXA factor to the CXB data to try and get close. It should not be too hard to test the actual current and temp droop for the CXB3590 at 23W and 49W to see if the real life measurements agree with the spreadsheet estimate.
Has anybody found an SPD for the cree 3590 27K ?
I reviewed the charts in this thread, but can't seem to answer one question, sorry aging stoner brain
How does the Vero29 stack up against the 3590 efficiency wise? Considering the higher cost for the 3590 and the need for a cob holder, is the extra $$ worth it ?
I'm targeting a slightly under driven setup, driving around 1.4ma or even as low as 1ma.
I reviewed the charts in this thread, but can't seem to answer one question, sorry aging stoner brain
How does the Vero29 stack up against the 3590 efficiency wise? Considering the higher cost for the 3590 and the need for a cob holder, is the extra $$ worth it ?I'm targeting a slightly under driven setup, driving around 1.4ma or even as low as 1ma.
EfficientWatt
Well-Known Member
Thanks again Supra, precious info as usual 
I'm also concerned about cree's product characterizaton tool being off. Any news on that story ?
Wish all the data clicked together, like it should. I like it like that
Slightly ? 0.001A wonder what the efficiency would be ...
so about 30+ cobs per watt, now that's gotta be efficient electricity wise, but not so much in a economical sense
I can picture a 100W panel with 3000 cobs, no need for heatsinks either 
Just kidding, I know you meant amps, not miliamps
I'm also concerned about cree's product characterizaton tool being off. Any news on that story ?
Wish all the data clicked together, like it should. I like it like that
Slightly ? 0.001A wonder what the efficiency would be ...
so about 30+ cobs per watt, now that's gotta be efficient electricity wise, but not so much in a economical sense
I can picture a 100W panel with 3000 cobs, no need for heatsinks either Just kidding, I know you meant amps, not miliamps
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SupraSPL
Well-Known Member
Alesh and I think SDS explored that
If you can get top bin CXB3590s for a fair price, on paper they strongly outperform Vero29 V2.0 in cost and efficiency, exaggerated even more if you run them soft. You can see this by matching the $/PAR W. For example the 3590 @ 49W cost $1.73/PAR W and gives us 56.34% efficiency. The Vero at 38W cost $1.67/PAR W and gives us 44.75% efficiency. The Vero does tend to have better availability. True the CXB COB holder can add cost but the Vero pico ezmate adds cost as well, neither are required to get the job done.
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littlejacob
Well-Known Member
Meinolf
Well-Known Member
Has anyone besides Supra tried this configuration? It seems like the max Vf of the driver is exceeded by 4 Vero29 in series at 1400mA. What will happen? Does the driver go into limp mode? Does the driver scale down the If, if so, to what extent? Looking forward to having this finally answered.
littlejacob
Well-Known Member
Bonjour
I believe it is on the hlg-185-1050 that you can put 4, and 3 on the 1400mA...
Have a great day ★
I believe it is on the hlg-185-1050 that you can put 4, and 3 on the 1400mA...
Have a great day ★
SupraSPL
Well-Known Member
Yes that is correct. Unfortunately the manufacturers are not giving us the output in mW although that may change in the future.
I have not tested that configuration although there are some who have. The Vf of the COBs will vary slightly and the max voltage of the driver will also vary slightly. If the voltage load is a bit too high for the driver it will reduce the current until it matches. Then as the COBs warm up and Vf drops, the driver will increase the current as high as it can.
Meinolf
Well-Known Member
Yes, well, no. You can put 5 V29 on 185H-C1050, I have done that. I was always wondering if 4 V29 would work on 185H-C1400. Same goes for 3 V29 on 120H-C1400. Apparently it does, although I haven't seen it yet.