Viewing page 3 of 5 pages. Previous 1 2 3 4 5 Next
HDD NOISE BASICS
Before we jump into the testing, it's worthwhile to establish the HDD characteristics that the Scythe Quiet Drive is trying to damp. We refer you to SPCR's Hard Drive Testing Methodology article for the full meal deal, but to save you time, key passages are reproduced here:
The noise of a HDD mounted in a case comes in two forms:
- Airborne acoustics is what all drive manufacturers currently
specify as the HDD noise. It is the sound that comes from the drive
through the air to the observer. This value is measured with the drive suspended
in space by wires.
- Structure-borne acoustics induced by the drive's vibration during idle
and seek is not quantified by HDD makers. This vibrational energy is transmitted to the PC chassis
and causes the chassis to act much like a sounding board.
The acoustic noise that a drive produces is a result of mechanical movement
that occurs inside the drive enclosure. There are two sources of acoustic noise inside a drive: The motor and the actuator.
The bulk of the noise produced by a hard drive comes from the electric motor
that spins the discs. This is the noise you hear when the drive is idling.
Except when first turned on and spinning up to speed, the drive is at a constant
speed, so the noise at idle is always present. The primary frequency of the
HDD noise is easy to predict: Simply divide the motor speed by 60. This is
because RPM is the spin rate per minute, while frequency or
Hertz is the rate of cyclical movement per second; there are
60 seconds in a minute.
of HDD Vibration / Noise
Keep in mind that HDD noise is never composed of only this fundamental noise,
the first harmonic. Like most ordinary noises, there are many harmonics (multiples
of the fundamental frequency) at higher frequencies. There is also broadband
noise, a hissing sound related to the spinning of the discs, and this noise varies in overall frequency balance and loudness level from
drive to drive. Generally, the higher the number of platters,
the higher the idle broadband noise.
The seek noise produced by
the actuator is louder and usually more irritating. Its irregular character
tends to draw attention so it can't be
tuned out easily. Seek noise can be reduced by adjusting the speed that the actuator
moves across the discs, although this acoustic benefit often comes at the
cost of drive latency. Many drives provide this feature as an option in the
form of Automatic Acoustic Management (AAM). Generally, the higher the number of platters, the higher the seek noise. Again seek noise varies quite a lot, with each drive exhibiting a unique combination of sounds.
Vibration Induced Noise
a hard drive by screwing it directly
to a computer case chassis conducts the vibration to the case. This is referred to by Seagate, the world's dominant HDD company, as structure-borne acoustics.
A case that is vibrating due to conduction of mechanical energy from a HDD produces noise by itself. The large thin metal panels of the typical case act as sounding boards which convert the vibrations into airbone noise. A vibrating case can also create additional mechanical noise. A loose screw, a badly fitted side panel, or a cable
resting against the side of the case all these are prone to rattling when the case
The sources of vibration in a hard drive are identical to the sources of
acoustic noise: Once again it is the moving parts, the motor and the actuator.The primary frequency of the HDD vibrations are 70, 90, 120, 167 or 250 Hz, as mentioned before, along with harmonics, broadband noise, and the complexities of the seek vibrations. Add whatever harmonics the case itself might add to this rich mix of sounds, and you can begin to understand that the total noise of a hard drive depends not only on how it is mounted but what kind of case it is mounted into.
The vibration produced by a HDD in idle does not necessarily correlate with its airborne
noise. While some drives are quiet and vibrate very little, there are also many drives with low acoustic noise and high vibration, and
vice versa. Seek vibration, by contrast, usually correlateswith seek acoustic
noise. A drive with loud seeks in free air usually has even louder seek noise when installed
in a case. The AAM feature discussed above is just as effective for reducing
seek vibration as it is for direct acoustic seek noise.
|Help support this site, buy from one of our affiliate retailers!|