Gigabyte's New Odin GT 800W Power Supply
by Christoph Katzer on July 24, 2007 12:01 AM EST- Posted in
- Cases/Cooling/PSUs
The Inside
For the housing of this power supply CWT/Gigabyte came up with a very odd design. Frankly, it took us a few more minutes than usual to open it since it is not done in the normal way. The top, bottom, and right sides (assuming the unit is positioned in a standard ATX case) are a single U-shaped piece that slides away once you remove the screws. With the case open, we are greeted by a layout that is quite different than we normally see.
The three heatsinks are anodized aluminum that only appears to be copper. The heatsinks are flat with lots of fins, and the size of the fins sometimes makes it impossible to see what's underneath. While we did our best, our pictures still can't provide a good look at all of the components located under the heatsinks.
The design of the filtering stage is a typical CWT-layout like we can see in Thermaltake power supplies.
The whole primary side is covered by a heatsink which makes it difficult to identify certain components. Since there is a heatsink on both sides of the primary side, the layout here is slightly different to other power supplies. The big main capacitor sticks out of the heatsink and has a large sticker to make sure everyone can tell where the component is made: Japan.
For the housing of this power supply CWT/Gigabyte came up with a very odd design. Frankly, it took us a few more minutes than usual to open it since it is not done in the normal way. The top, bottom, and right sides (assuming the unit is positioned in a standard ATX case) are a single U-shaped piece that slides away once you remove the screws. With the case open, we are greeted by a layout that is quite different than we normally see.
The three heatsinks are anodized aluminum that only appears to be copper. The heatsinks are flat with lots of fins, and the size of the fins sometimes makes it impossible to see what's underneath. While we did our best, our pictures still can't provide a good look at all of the components located under the heatsinks.
The design of the filtering stage is a typical CWT-layout like we can see in Thermaltake power supplies.
The whole primary side is covered by a heatsink which makes it difficult to identify certain components. Since there is a heatsink on both sides of the primary side, the layout here is slightly different to other power supplies. The big main capacitor sticks out of the heatsink and has a large sticker to make sure everyone can tell where the component is made: Japan.
23 Comments
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strikeback03 - Tuesday, July 24, 2007 - link
Does the software need to be running for the voltage regulation to work? Or can you make changes then close the software and have the changes still work on the PSU?Also I'd guess if UV lighting is that useful for a case you could swap the blue LEDs for some UV ones - looks like enough wire is exposed to cut the blue ones and solder in UV ones.
Oberst - Tuesday, July 24, 2007 - link
Hello,nice review (i wouldn't expect anything else of you). But I've got a question about the measuring-software: Was it reliable, when measuring voltages? You already mentioned, that the wattage was not reliable. So I'd like to know, if that was because of wrong measured amps or volts.
greets Oberst.
Christoph Katzer - Tuesday, July 24, 2007 - link
Voltages have been quite accurate; amps have been wrong in almost every case.qpwoei - Tuesday, July 24, 2007 - link
Once you've got the ripple measurements sorted out, it'd be nice to get some scope traces as the load changes. Poor transient response of the rails can cause all sorts of hard-to-diagnose problems in the real world.Christoph Katzer - Tuesday, July 24, 2007 - link
We use a scope to follow response on the rails but until now we feel the data is not good enough to present. If there would be something to extraordinary to tell we surely would.bob4432 - Tuesday, July 24, 2007 - link
what about that? a good quality unit, the Corsair 520HX seems to be a lot of people's favorite lately, how does it really stack up? or some of the FSP "Green" units - are they really that efficient? what about seasonic - really as good as everyone says?these reports are all fine and dandy, but you are catering to possibly 5% of your user base, yes even here 800W is extreme overkill.
and it is not a $$$ issue but rather a reality issue. i am surprised you guys testing these are continuing the thought process by only reviewing the upper wattage units and thus making everyone think they need one when they don't - people on review 750W psus, so i must need one...come on guys
Christoph Katzer - Tuesday, July 24, 2007 - link
Will come. No worries about that. At the moment we are just starting as you can see and of course every company wants to have the best PSU tested first. We'll have lower ones very soon but need to work on that mountain of PSUs here first. With 380w you will see a Seasonic pretty soon for example.bob4432 - Tuesday, July 24, 2007 - link
will definitely be looking forward to them :)ATWindsor - Tuesday, July 24, 2007 - link
I disagree that an OCP per rail i s a good thing, it onyl makes using the PSU more of a hassle, since you can draw a lot less from the PSU on 12V than the specs would make possible, if you are unlucky and draw most of it from one rail. Several manufacturers have one big rail without any know safety-problems, having an OCP for the combined drav from the 12V-lines however is a good thing.AtW
dare2savefreedom - Tuesday, July 24, 2007 - link
I would be interested in knowing how a psu runs with dual 8800gtxs in virginia in summertime in an old house with a window air conditioner.Not these theoretical white glove clean room lab environment tests.
triple sli 8800gtx?
come one stop playing with your iphone.