LOL, nobody uses RGB over a reef tank for corals.
My guess was either poor cooling or over-driving, the most common cause 99% of the time.
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I wouldn't know. I don't build with them.
By doing that you have to lift the leads off the aluminum to avoid shorts. Just press the egg down as you give the leads a quick tough with the soldering iron tip.
Properly cooled and if not over-driven it doesn't happen.
Wattage is determined by current times volts. I'm presuming those LEDs were limited to 350mA, as most of those allow 350mA max.
With a constant current driver there's no need, right?
Ok.
I believe you.
I've never been a fan of BB. It's my experience that the majority of Chinese BB LEDs, including things like grow lights, claim to be up to triple the wattage they actually consume. I've verified with a Kill-a-Watt. This is where a PAR meter comes in handy.
Still, DIY is waaaaaaaaaay cheaper, while providing all the corals need, and all the user likes. DIY isn't for everyone, but it doesn't take much skill, especially for the people who like bragging rights for saving potentially $thousands over a larger tank. Didn't I recently see a newer fixture running almost $2,000 each? There are those who think paying top dollar guarantees the absolute best quality. It'll always be the case (status, bragging rights, hoping for the solution to their problems).
My proposed solution is to use more LEDs, drive lower to keep cool, provide excellent heat sinks. In fact, I typically use at least 50% more than I think I'll need in case they were incorrectly advertised or are knockoffs. I can always run them at much lower power (i.e., cooler) and turn them up a bit if necessary. All individual LEDs are disposable (i.e., cheaply and easily replaceable), which is the big advantage over MH and T-5.
Orphek? The same company who advertises CHLOROPHYLLS B and F for coral lighting? (
https://orphek.com/correct-corals-spectral-needs/)
For the benefit of some readers, corals have chlorophyll a and c2 (among other pigments).
I believe it, so you can't trust that any LED is what it states. When I ordered some LEDs they came direct from China, so no doubt there. Others came from eBay, Amazon, etc., and I'm sure many were Chinese knockoffs, including some sold as Cree.
Mmmm, not sure what "best" means. Many builders don't specify exact wavelengths. They say blue, royal blue, etc., and show a spectral graph that could be closely duplicated fairly easily. IME, the commercially-made LEDs are fairly consistent between fixtures.
I don't know any reefers who are that picky. Solder it. Run it. It works.
Errrr. Kind of... and kind of not... Spectrum and intensity matter to photosynthesis for corals and plants. Spectrum matters for fluorescence, but throwing only royal blue in there only causes certain pigments to fluoresce. But you know that. You might as well say that 723nm is all you need to make flowers look great. Fluorescence results from the Stokes shift, but I'm sure you know that too. The more of the spectrum you cover, the more pigments fluoresce, which is important to SW people. The triggering wavelengths range from a high of 600nm down to around 325nm, with the majority being between ~325 and ~520. Most reefers wouldn't like the overall visual effect that comes with longer wavelengths, and many wouldn't like the exposure to more energetic UV energy.
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