Surprisingly green and red are so high!
bUt rED liGht CaUSes aLGaE
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Surprisingly green and red are so high!
after a long time of burning coral with leds, I turned down my ocean revive black boxes to 8% blue and 1% white and growth exploded, not near MH/VHO combination, but more growth then ive seen with leds.
210g tank, and I added 2 x 5' UV bars reefbreeders new UV bars. Love the blacklight pop in morning and dawn effect.
But growth seems to have increased, over mainly blue and white with a hint of other colors.
Im probably matching your chart now pretty close, and I think its a great balance for my LPS
A lot of things have been said, but reality is, most light manufacturers use the same ones. Mine are 8" above the water with no real dark spots or shading, and it appears pretty even. I dont use par meters when I can watch growth levels.it's been said that those black boxes lenses are too focused for their suggested mounting height. Have you PAR'd out your tank?
A lot of things have been said, but reality is, most light manufacturers use the same ones. Mine are 8" above the water with no real dark spots or shading, and it appears pretty even. I dont use par meters when I can watch growth levels.
And that mistake is why I wasted 5 ish years cooking coral instead of growing it.
Good advise. But I have a canopy and there within an inch of the top. And I'm getting perfect growth and coverage with them turned down. No spot lighting. Or shadowsThat's a fine way to do it, but a PAR meter would be a better objective measurement.
Depending on those lenses in your LED fixture -- a 90 degree reflector, mounted 12 inches above the water surface, the beam spot is 24 inches wide. So it's better to keep many of those lights mounted way above the tank. EcoTech's beam lenses ( I think 120 degrees) are very wide, so mounting them 8 inches above the tank makes sense for that fixture, but even WWC mounts there's well above 12 inches for even more spread, which also reduces intensity -- reduces burning as well.
So depending how wide your tank is, you might want to consider raising them up.
* SIMULATION DATA
----------------------------------------
Luminous flux : 18,501 lm
Radiant flux : 78,981 mW
PPF : 330 umol/s
TCP : 7750 K
CRI : 90
λp : 472 nm
Color : #D4E0FF
----------------------------------------
* PERFORMANCE @ 30cm & 120° (compulsory)
----------------------------------------
Irradiance : 93.1 W/m²/s
Illuminance : 21,811 lx
PPFD : 389 umol/m²/s
----------------------------------------
by SPECTRA 1.0β @ 1.023world
SPECTRA
SPECTRA can perform the optical simulation of many required for coral breeding. SPECTRAはサンゴ飼育に必要な多くの光学シミュレーションを行う事が可能です。spectra.1023world.net
Soo my FAV TOOL spectra is upgrading (now called RAYCAL) but having growing pains.
I'm helping them troubleshoot the issues but it gave me time to rethink a "perfect" light based on a lot of past and present thinking.
It still breaks some rules but it is relatively cheap/watt and should provide more than enough power.
K temp warmest is 6500k (whites only 98CRI). 100% should be around 7500K.
VERY shallow reef..
nm's are flexible really if someone cared to modify it..
It's an old style blue/white unit with 120 degree spread.
No fussing with green ect.
Still little IR and the UV diodes would need to be replaced far sooner than any others on board BUT since this is FOR FUN..THIS is my fun..
Enjoy..
I did the lazy mans calculus on the light..Reds high compared to say an Iwasaki 6500k but a bit lower than "daylight"I really like the COB idea because of the full spectrum but they look like they are pumping a lot of red spectrum. I am hoping one day those will get a bit 'cooler' to knock down some of that red. Love that you have cyan.
Interesting how the G6 is also going for more full spectrum LED's like you did to fill in the green portion and eliminating the the cyan and lime channels on their g5 pro and blue. Which they must have something different than what data is available on spectra.
Here's my proposed mixing list with out getting too crazy in the 500 to 600 range, which obviously adds a lot of cost, but could be done with an amber led. It's really difficult to fill in the blue spectrum in the 470 to 500 range, so its like you almost need to spec out each 10 nm
* MIXING LIST
----------------------------------------
LED UV (400nm) [120°] x1
LED Violet (420nm) [120°] x1
LED RoyalBlue (440nm) [120°] x1
LED Blue (470nm) [120°] x1
LED Blue (480nm) [120°] x1
LED Cyan (490nm) [120°] x2
LED Cyan (500nm) [120°] x1
LED CoolWhite (8000K) [120°] x4
LED NeutralWhite (4000K) [120°] x2
----------------------------------------
* SIMULATION DATA
----------------------------------------
Luminous flux : 1,001 lm
Radiant flux : 5,080 mW
PPF : 20.4 umol/s
TCP : ‑ K
CRI : 42
λp : 453 nm
Color : #6793FF
----------------------------------------
* PERFORMANCE @ 60cm
----------------------------------------
Irradiance : 1.5 W/m²/s
Illuminance : 295 lx
PPFD : 6 umol/m²/s
----------------------------------------
by SPECTRA 1.0β @ 1.023world
SPECTRA
SPECTRA can perform the optical simulation of many required for coral breeding. SPECTRAはサンゴ飼育に必要な多くの光学シミュレーションを行う事が可能です。spectra.1023world.net
I currently use one ReeFi Uno on my tank, which the spectrum looks vastly different from this one, but to me would be perfect if Reefi-labs would add just a few more 470's and a couple of 500's to round everything out.
I did the lazy mans calculus on the light..Reds high compared to say an Iwasaki 6500k but a bit lower than "daylight"
Remember these are relative measurements based on a peak spectrum so it isn't "actual" numbers of photons.
Like if I dimmed the cobs 50% and ran the "blue at 100% my red/blue ratio decreases.
I know there's so much debate on what's needed and I am by no means an expert, but the closer we achieve spectrally at a given at depth, in my mind at least, the best for coral health.As to Radion taking out the cyan, more a visual than growth thing I suspect.
Everything I read leads me to "believe" cyan is quite efficient for coral photosynthesis.
Peridinin/chl a complex thing..
At least ON PAPER..
Kyocera did their best..It's really difficult to fill in the blue spectrum in the 470 to 500 range, so its like you almost need to spec out each 10 nm
Kyocera did their best..
Violet pump with RGB phosphors.. sound familiar?
Any mercury based lighting though it is more uv and rgb emitting phosphors or halide salts.To me that's a great start. Violet pump and RGB phosphors -- are you referring to traditional fluorescent? To my understanding, that's how that works.
oh lol duh, of course MH. MH is no longer on my radar any more. It's just not a tenable tech anymore. We will be able to far surpass MH in the near future and in many ways we already have.Any mercury based lighting though it is more uv and rgb emitting phosphors or halide salts.
There are other peaks that are used though, like green. Principals are very similar though.
Violet/UV diodes still need improvements in efficiency and lifespan. It is certainly an " active" area with implications across the err spectrum .
Royal blues/ blues are still king.
SPECTRA. now RAYCAL is fixed..so far.
Fixed chl c now vs chl b. B shows up for fw..
The SCORE needs to be turned on in the setup.
RAYCAL
RAYCAL can perform the optical simulation of many required for coral breeding. RAYCALはサンゴ飼育に必要な多くの光学シミュレーションを行う事が可能です。1023world.net
Still has some issues.....I saw that, and they removed on 1.0 ver many of the LED's from cree, for example. On 2.0 there's no options to compare models of LED's. Kind of disappointing to see, but its a free tool, so I can't complain.