I think you misunderstood my post Jesse. I wasn't comparing the radion to a 400w fixture. I was comparing my DIY 180 watt LED to a 400 watt MH.
At 75% it only uses 135W.
I feel confident comparing it to a 400w MH because it is lighting a three foot tank from end to end with SPS at both ends and near the bottom. I order to light this tank with MH from end to end I would have to hang a 400w MH two feet above the tank and IMO a single 250 can't do that.
Ahh I see what you are saying. Yah there is no efficient MH solution for tanks whose width or length is an odd number of feet(3', 5', 7', etc). You are either using too many bulbs or too few.
Also, can you show me the math that works out to $94 a year.
My point was that to do a sunrise/sunset effect, you really only need to run the t5 supplementation in the morning for an hour and at night for an hour. During the day, I have a hard time seeing a big difference with my t5's on or off because the MH are so bright in comparison. Therefore, you could turn them off for 7-9 hours during the middle of the day, and save a lot of electricity, and make your bulbs last a lot longer. I think I will start doing this myself actually. $94 = .320kw x 9hr x 365day x $.09
My comparison of the 400w to the 120w led fixture was in terms of depth penetration. If you look at this thread here
LED with Optics PAR Measurement - Reef Central Online Community (which is a better version of what I originally posted) At shallow depths, LED puts out thermo-nuclear levels of PAR, but it quickly falls off with depth. At a depth of 15 inches, the par has fallen to about 300. If you extrapolate this out to 24 or 30 inches, you are going to be left with a reading of around 100 par, which isn't enough imo if you want to grow light demanding SPS or clams near the bottom.
If you look at these posts:
Reef Central Online Community - View Single Post - What PAR readings to you keep your SPS in?
Reef Central Online Community - View Single Post - What PAR readings to you keep your SPS in? (questionably old bulbs, and the reflector on the left isn't the right reflector for the tank size so use the numbers on the right.
These are 250w MH's at depths of 24+ inches. One of the most important thing to keep in mind is that these readings are on bulbs that are 7-8 months old, so they are fairly conservative. You will notice that they range from about 700-800par at the surface, to 250-300 on the sand at a depth of ~24-27 inches. Compare this to the LED from the first link which is 3000 at the surface and a conservative guess of 100 at depth of 24-27 inches. Thus the 160w LED doesn't have the depth penetration of the 250w bulb, but "blows it away" in the shallower depths. This lack of depth penetration would be even more pronounced if it were compared to a 400w bulb, thus me saying they aren't comparable for a typical deepwater application that people use 400w mh's for, and are more comparable to 250w MH's. Maybe an 70-90 x 3w array would be comparable to 400w? Anyone else have some links with different LED fixture par measurements at depth?
Looking at those LED par numbers though makes me think they are more dangerous then originally though. While they lack the punch, the PAR levels in shallow water is enough to burn the crap out of an unacclimated coral. This must be what gives them their reputation for being "beasts."
