The 7200.9 Series

On the outside, the 7200.9 drives look identical to the 7200.7 and 7200.8 series of desktop drives. On the inside, the 7200.8 line was the first to incorporate the highest density platters to date in their 400GB version drive at 133GB per platter. This puts Seagate ahead of Hitachi who released their 500GB DeskStar quite some time ago. The new 7200.9 line has incorporated a higher density 160GB platter into a few of its drives. The following screenshot shows the manufacturer's specifications for each 7200.9 drive according to capacity size.


Click to enlarge.

The 160GB platter has only gone into the 80GB drive, which uses a single side and single head, and the 160GB drive, which uses both sides of the platter with 2 heads. The 400GB model still uses its original three 133GB platter design that was implemented in the 7200.8, while the new 500GB drive uses four 125GB platters. Why not just use the 160GB platters for the 500GB drive? Doing the math, 3x160GB would bring us to 480GB, which is 20GB short of the 500GB mark, and 4x160GB comes out to 640GB, which cannot be marketed at 500GB without a 140GB waste in total capacity. It makes the most sense to use 4x125GB platters to bring us to a perfect 500GB total capacity. (Note that the drive's total capacity will be slightly lower in Windows, as 1GB is 1,073,741,824 bytes for Windows, but only 1,000,000,000 bytes in hard drive manufacturer specs.)


All of the SATA 2.5 Trimmings

A few months ago, we cleared up some confusion regarding the SATA naming conventions and what they mean. The confusion was with the SATA II name being used in unison with the 3.0Gb/sec transfer rate. SATA II was actually the name of the SATA standards organization, which decides the specifications for each SATA version. (They've since changed names to SATA-IO.) At the time, many thought that the 3.0GB/sec came standard in all drives labeled as SATA II. In fact, transfer rate along with other options such as hot plug, hot swap, and NCQ are options that drive manufacturers can implement in their products if they choose. You can even get most of the "SATA II" features in "SATA I" drives.

Seagate states that it has incorporated all of the features that SATA has to offer in the 7200.9 series including the following:
  • Hot Plug
  • Hot Swap
  • ClickConnect
  • Native Command Queuing (NCQ)
  • Staggered Spin-Up
  • 3G (3.0Gb/sec, backwards compatible with 1.5Gb/sec hardware) maximum transfer rates
The features listed above are only a start to what SATA should bring to the table. The SATA-IO group is continually working on updates to their specifications and we hope to see transfer rates and error checking features mutate into something extremely valuable to desktop and enterprise users alike.

In 2004, 20% of hard disk drives shipped were SATA based - about 41 million, according to Seagate Market Research. It is estimated that this year, the percentage will increase to 80% of shipped drives being SATA based, 40% of which will be Seagate drives. Meanwhile, PATA is being phased out and nearly all production will cease by the end of 2006.


Other Characteristics

Seagate reports that all of the drives in the 7200.9 line will feature an operating shock tolerance of about 63Gs and a non-operating shock of 350Gs, making them extremely rugged. Almost all but Hitachi's 7K500 drive can handle this much non-operating shock, but shock tolerance during normal operation is not as forgiving, with many drives only allowing about 55Gs. Not that we would recommend dropping your drives or computer, but accidents happen...


Click to enlarge.

Seagate is also reporting a lower sound rating between 2.5-2.8 bels while the drives are idle, and about 2.8-3.2 bels while the drives are seeking for data. According to Seagate, the lowest amount of sound audible by human ears is about 2.6 bels, so the idle noise output is borderline inaudible to our ears. Combine this with the hum of case and heat sink fans, and the hard drive is basically silent.


Click to enlarge.

In the next few weeks we will be looking at the performance of the 500GB 16MB SATA model of the 7200.9. We'll put it through our usual synthetic, simulated, and real world tests, and we'll compare it not only to the 400GB 7200.8, but also to some older drives like the 120GB 7200.7 as well as Maxtor's and Hitachi's higher capacity drives.

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  • JarredWalton - Monday, October 10, 2005 - link

    2.6 bels is of course the same as 26 decibels. (deci = 1/10)

    That said, people claiming that 26 dB is not quite probably are going by advertising numbers rather than reality. I have an SPL (Sound Pressure Level) guage, and 26 dB is extremely quiet. I can still hear it, but a room with no noise in it ranges from 24 to 30 dB. A car driving by outside makes about 40 to 45 dB of noise.

    The problem is that if you trus the noise levels from computer hardware manufacturers, you might actually believe that your PSU, fans, HDD, etc. only put out 26 dB of noise. I've got a case with three "26 dB" fans, plus a "28 dB" PSU. Anyone want to guess at the real noise level? I won't keep you in suspense; at 1 meter form the case, the actual measured noise level is 48 dB, FAR higher than the rating of any of the components. Multiple fans plays a part, but even a single "26 dB" fan still came up with a 38 dB rating on my SPL.

    I would agree mostly with Seagate's claim that 26 dB (2.6 Bels) is below the threshold of human hearing. A device putting out 26 dB at a distance of one foot would be inaudible at a range of 10 feet, that's for sure. (Unless you have dog hearing....) Whether or not that's how Seagate rated their drives, though, I can't say.
  • ATWindsor - Tuesday, October 11, 2005 - link

    First of all, a room with "no noise" is much more quiet than 24-30 db, it just that you are used to the background noise. a 26 db fan at one feet is around 15-16 db at 10 feet, which is a clearly adible sound that too (this i have measured in an anecoic room). However, in most rooms the background noise would mask it. 26 db is quiet, but its far from inaudible.
  • JarredWalton - Tuesday, October 11, 2005 - link

    We don't live in sound-proof environments, though. While it may not be truly silent, an empty house without any noise from neighbors or traffic is still going to have a background noise level above 20 dB. If something is below the background noise level for a house, I'm willing to call it "silent" - even if it isn't technically dead silent. I guess that's a difference of opinion, though.
  • JarredWalton - Monday, October 10, 2005 - link

    "26 dB is not quite" should be "26 dB is not quiet". Still need that edit function.... grumble.
  • DRavisher - Monday, October 10, 2005 - link

    Indeed. Though I doubt anyone can accurately detect even a 1dB sound :).
  • ATWindsor - Monday, October 10, 2005 - link

    That of course, can be discussed, but most people would easily detect 26 db, or 20 for that matter. And saying that 29 db is "barly audible" is a far strech IMHO.
  • DRavisher - Monday, October 10, 2005 - link

    I agree. You can certainly hear 20dB+ sounds. Especially if you were to set up a completely closed environment (no background noise that is).
  • Xenoterranos - Monday, October 10, 2005 - link

    OK, there's a period there. they said 2.6 thats "2 point 6"
  • DRavisher - Tuesday, October 11, 2005 - link

    They said 2.6 bels, which equalts (does it not?) 26 decibels (dB).
  • Tiamat - Monday, October 10, 2005 - link

    Agreed. At 2AM (when I am sleeping with my computer idle 10 feet away) I can hear its 28dB and its not very quiet. I would say in the dead of night, a computer would have to be roughly 18dB to be considered unhearable above typical background noise.

    However, there seems to be a mix-up between Sound power and Sound Pressure - two totally different entities.

    http://en.wikipedia.org/wiki/Sound_power_level">http://en.wikipedia.org/wiki/Sound_power_level

    http://en.wikipedia.org/wiki/Sound_pressure_level">http://en.wikipedia.org/wiki/Sound_pressure_level

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