2530 vs 3590 in a 4x4

Hydropat

Active Member
You're given a four-foot-square grow area. Select your build:

Build #1 — 12 x CXB3590 3000k 90cri
3 x HLG-185H-C1400B
1400mA, ~56.4%, ~330PARW, ~21 PARW/sqft, ~$765

Build #2 — 32 x CXB2530 3000k 90cri
4 x HLG-185H-C700B
700mA, ~49.1%, ~383PARW, ~24 PARW/sqft, ~$775​

I feel like you guys will tell me to follow the first build's superior efficiency rather than the second build's extra 50 PARW and improved emitter distribution (32 vs 12 points). Am I wrong?

And I hate to fan the flames of the color temperature debate, but I'm hoping to accomplish both veg and flower under the 90CRI 3000k chips. I've seen comments both supporting and refuting the viability of only using high-CRI chips for both phases. Reality?
 
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Danielson999

Well-Known Member
I would take build #2 all day. That would be crazy cool to see 32 cobs spread over a 4'x4' space. Become the scrog master and pull 2lbs. By the way I would have posted this earlier but it took me about 2 1/2 hours to do this drawing in mspaint. For the sake of argument, I'd tighten up that spread a bit so the cobs aren't so close to the wall.

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Hydropat

Active Member
No worries, I've been jotting down COB arrangement sketches all week. Appreciate the response.

I have HLG's quantum boards written down as an alternative to the 2530's... maybe I should take a closer look at them as well.
 

frica

Well-Known Member
You're given a four-foot-square grow area. Select your build:

Build #1 — 12 x CXB3590 3000k 90cri
3 x HLG-185H-C1400B
1400mA, ~56.4%, ~330PARW, ~21 PARW/sqft, ~$765

Build #2 — 32 x CXB2530 3000k 90cri
4 x HLG-185H-C700B
700mA, ~49.1%, ~383PARW, ~24 PARW/sqft, ~$775​

I feel like you guys will tell me to follow the first build's superior efficiency rather than the second build's extra 50 PARW and improved emitter distribution (32 vs 12 points). Am I wrong?

And I hate to fan the flames of the color temperature debate, but I'm hoping to accomplish both veg and flower under the 90CRI 3000k chips. I've seen comments both supporting and refuting the viability of only using high-CRI chips for both phases. Reality?
What heatsinks are you going to use?
Will the 2530s have smaller heatsinks, or the same?
And I hate to fan the flames of the color temperature debate, but I'm hoping to accomplish both veg and flower under the 90CRI 3000k chips. I've seen comments both supporting and refuting the viability of only using high-CRI chips for both phases. Reality?
The real truth is that light intensity is king and colour temp doesn't matter that much.
 

Hydropat

Active Member
What heatsinks are you going to use?
Will the 2530s have smaller heatsinks, or the same?
A big aluminum square plate. How thick? Don't know. 1/8"? Something like that. Four 50 CFM fans dumping air on the center of the top of the plate. An eyebolt in each corner for suspension, and a plastic sheet above the metal one to enclose the electrical.

Is 8x QB288 at 1400mA overkill? I like overkill. I don't know the 561C S6 bin efficiency at 1.4, but assuming 50% efficiency that's ~17.5 PARW/sqft.

The real truth is that light intensity is king and colour temp doesn't matter that much.
Solid. I just saw the active thread about 3500k vegging, I'll happy forget the question and accept my new quantum overlords. I will add though, that a quantum board and some Luxeon Deep Red/Royal Blue would make for a sweet American flag grow light. Anyone?
 

frica

Well-Known Member
A big aluminum square plate. How thick? Don't know. 1/8"? Something like that. Four 50 CFM fans dumping air on the center of the top of the plate. An eyebolt in each corner for suspension, and a plastic sheet above the metal one to enclose the electrical.

Is 8x QB288 at 1400mA overkill? I like overkill. I don't know the 561C S6 bin efficiency at 1.4, but assuming 50% efficiency that's ~17.5 PARW/sqft.



Solid. I just saw the active thread about 3500k vegging, I'll happy forget the question and accept my new quantum overlords. I will add though, that a quantum board and some Luxeon Deep Red/Royal Blue would make for a sweet American flag grow light. Anyone?
Well, if you use the same heatsink for the 3590s and 2530s then the 2530s should run a little cooler which puts their efficiency closer to the 3590.
Can't say by how much though.

QB288 at 1.4A is about 55-56% efficient.

Should be around 950 PPFD, that's very good.

Wouldn't go higher unless you also run CO2.
 

Hydropat

Active Member
Well, if you use the same heatsink for the 3590s and 2530s then the 2530s should run a little cooler which puts their efficiency closer to the 3590.
Can't say by how much though.

QB288 at 1.4A is about 55-56% efficient.

Should be around 950 PPFD, that's very good.

Wouldn't go higher unless you also run CO2.
Much appreciated; yeah, I'm probably going to run with six at 1400 or eight at 1050.
 
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