Intel's Long Awaited BTX Form Factor
by Purav Sanghani on November 15, 2004 5:31 AM EST- Posted in
- Cases/Cooling/PSUs
Thermals Micro ATX (uATX)
Our first assumption of miniATX cases was that due to the smaller size, air could be circulated in and out quicker than larger cases with smaller and less fans. We tested our D915GUX ATX motherboard and Pentium 550 CPU in the TT-501 microATX chassis from Opus Technologies. Opus Technologies does not have as many products on its list as other big name manufacturers like Thermaltake or SilverStone, but it does have a few tower cases and power supplies with unique features. We had a chance to look at their titanium plated MT-200 mid tower chassis in April which did not disappoint us with its performance.The TT-501 is also a unique case with various features that take away the blandness we usually find in value prices chassis. It has plenty of room for expansion for its size. With two 3-1/2" drive bays, and two 5-1/4" drive bays as well as an area at the bottom to mount a floppy drive or flash memory card reader it is ready to compete even with some mid tower cases. Things may seem a bit cramped when the case is packed with hardware, though. The TT-501 is about 13" in width by 15" in depth and about 6" in height when laid on its side. Since this is meant to be a mini tower chassis we will stand it upright for our benchmarks.
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The temperatures of the ambient air throughout the TT-501 are generally higher than we had expected them to be. We can see from the overlay that the warmest region of the system is around the CPU, Northbridge, and PCIe VGA card. What we did not expect was how hot these temperatures would be in those areas. Let's see if the temperatures of the components themselves can tell us something more.
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It is obvious the TT-501 is not the best in cooling performance. Though it has two 80mm fans mounted at the back of the case it is not enough to circulate air in and out efficiently. An extra fan on the left side panel of the case may have helped exhaust some of the warm air from various areas.
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trikster2 - Tuesday, November 16, 2004 - link
I've got to say, this review is bad, even by anandtech standards.
Comparing an mBTX destop to a mATX TOWER to a Fullsize ATX desktop, litteraly comparing apples to oranges to pears, and then coming to sweeping conclusions like "any of us were skeptical for a long time, but after seeing the numbers ... we can conclude that BTX is not hype. " is simply ludicrouse.
Shame on you anand for letting such a review fall through your QC into the hands of the general public.
I'm not sure if you guys are incompetent or payed by intel to find a combo to pimp the BTX standard. I just did a refresh 5 times, no intel adds so it must be the former.
How about spending 49.95 on a decent desktop mATX case and compare apples to apples, instead of just grabbing whatever was laying around the lab (we've seen that whacked oppus case in other reviews haven't we?)?
I have the silverstonetek equivalent of the oppus matx tower. It is the worst mATX cases I have ever worked with. Give us a break and do a valid review, mATX single fan 1/2 height desktop to mBTX single fan 1/2 height desktop.
johnsonx - Tuesday, November 16, 2004 - link
I see nothing here in the BTX standard that couldn't have been better accomplished with a backwards and forwards compatible ATX II standard.ATX II compliant motherboards would have standardized locations for the CPU socket, two standard locatations for RAM (either or both locations could be used, as needed), standard locations for the power connectors, standard locations for the most common onboard ports (IDE, SATA, front USB, audio, etc.) and standard component heights (capacitors and etc.).
ATX II compliant cases would have standardized air intake and exhaust locations, fan mounts, and ducting. ATX II cases could be built to open from the right side, with the CPU on the bottom. The ducting would be removeable for use with a legacy ATX mainboard.
ATX II compliant heatsinks would be fanless, designed to be cooled by an ATX II chassis duct, but would have a fan mounting point for use in a legacy ATX chassis. Boxed coolers that come with retail CPU's would include the fan on a standard clip with instructions to remove it when used with an ATX II compliant chassis and mainboard.
ATX II compliant power supplies would basically be the same as the latest ATX supplies are now - 24pin power, 8-pin ATX 12v power, standard 4-pin drive power plugs, SATA power plugs, PCI-E graphics power plug. 24 to 20 pin converters and 8-pin to 4-pin converters would be standard with retail power supplies.
Any mix of ATX and ATX II components would work fine together, but a system built of all ATX II components would gain various cooling, noise level, assembly and operational advantages.
What does BTX offer that my hypothetical ATX II standard doesn't? Oh, yeah... ATX II couldn't give you a face of hot air...
xsilver - Monday, November 15, 2004 - link
To the guy b4 that was wondering where the air intakes are -- no amount of case fans are going to create a vacum inside your case, there's just not enough pressure -- unless you tape up all the gaps lol.... so the air will just "flow" in from any holes in your caseblackmetalegg - Monday, November 15, 2004 - link
Bah we're(work) using this motherboard in an application that shall remain anonymous(NOT oridinary PC) and the damn design make wiring a bitch to deal with. And the motherboard isn't all that stable, considering it's from Intel...justly - Monday, November 15, 2004 - link
BTW that 20.666715 "cfm" is assuming all of the area taken by the 2 fans has air flow, but we should all knoe that the motor and frame ocupy some of that space so the actual "cfm" would be lower.justly - Monday, November 15, 2004 - link
Why was "lfm" not converted to "cfm" for a direct comparison on page 11?If I am reading this correctly the BTX provides 40 "cfm" while the ATX requires 150 "lfm". This sounds like BTX is an overwhelming success, untill you do the conversion that is. So what exactly does this 150 "lfm mean in comparison, well if the ATX uses 2-80mm fans that would be 80mm x 80mm = 6400 square mm per fan, 6400 x 2 = 12800 square mm for both fans, convert that to square ft and you get 0.1377781 square ft, take that and multiply by the 150 "lfm" and we get (drum roll) 20.666715 "cfm". Thats right about half what the BTX has.
I don't know if this was intentional or not, but I will give the author the benifit of the doubt and assume it was not.
If I have overlooked something please explain my mistake, if not then I feel some injustice has been done to the readers that did not ask this question.
ShadowVlican - Monday, November 15, 2004 - link
like someone else said... the BTX form wasn't made for enthusiasts, since we already know how to cool our rigs properly..BTX is for the average consumer who doesn't know jack about computers, so BTX will help those people have quieter/cooler computers without them reading forums/articles
i'm just wondering how well the transition from ATX machines into BTX will go...
ZobarStyl - Monday, November 15, 2004 - link
Yes Five40, you can't directly upgrade from 754 to 939, but you can take your case and PSU with you...I'm using the same case I used in my AXP system now for an A64 with watercooling, but if Intel has their way, my next rig won't be able to use the same rig and I'll just have to spend more cash. Hence, we are rightfully pissed because the real question is "Why?" and when something lacks benefits but costs you mad cash: a whole new case and good PSU will set me back 120 bucks, for what? Nothing worth my time.MAValpha - Monday, November 15, 2004 - link
Anyone know how pBTX stacks up against FlexATX?five40 - Monday, November 15, 2004 - link
#50....umm I can't do a A64 to A64 upgrade so what's your point? 754 to 939 does me no good. I just see this as another socket update. A64 might not need it right now, but if all things where just made for what we need right now, we'll move forward at a very slow pace.