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Audio
Audio analysis is also performed, with the Nexus 7 outclassing the
Kindle Fire in almost every aspect. One way of determining the accuracy
of audio reproduction is by measuring the Total Harmonic Distortion
(THD), that is, the amount of unwanted overtones (harmonics) arising
from the playback of a particular note. At a fundamental frequency of
1kHz measuring harmonics up to 20Khz, THD on the Nexus 7 is low enough
to be largely unnoticeable throughout low, medium and high volumes.
Things aren’t quite as smooth for the Kindle, with up to 18% THD at
lower volume levels. Noticeable amounts are around 1% to 5%.Another way of determining audio quality is by measuring the amount
of background noise compared to the intended signal – that is, the ratio
between everything you want to hear, against everything that you don’t.
The difference between the Nexus 7 and Kindle Fire at average volume
settings of 50% is night and day. Positioned as a media device, the
Nexus 7 doesn’t disappoint, producing a clean signal with a high SNR
(Signal-to-Noise Ratio) of 91.5dB. On the other hand, the Kindle Fire
disappoints slightly, with significantly poorer performance. As seen
below, the Nexus 7 produces an extremely clean signal, whereas the
Kindle appears very messy. End result? You’ll hear clearer sound and
less hissing on the Nexus 7.
http://apkudo.wordpress.com/2012/07/21/cheap-tablet-meet-apkudo-apkudo-meet-cheap-tablet/
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In the first trial (connected to an active
external amplifier), the iPhone 4S performed marvelously, but that's
hardly a surprise. Even less talented smartphone musicians can get good
scores here, so we couldn't expected anything less than perfect from the
iPod descendant.What really puts the iPhone 4S in a class of its own (not counting
its predecessors, of course) is its headphones-on performance. The minor
jump in stereo crosstalk is all that our lab equipment was able to
detect as the resistance to the line-out port increased. The rest of the
readings remained virtually unchanged, rounding up a really impressive
performance.Check out the numbers and see for yourselves.
TestFrequency responseNoise levelDynamic rangeTHDIMD + NoiseStereo crosstalk Apple iPhone 4S+0.02, -0.11-91.291.20.00200.012-93.0 Apple iPhone 4S (headphones attached)+0.05, -0.10-91.391.30.00680.071-66.7 Apple iPhone 4+0.01, -0.07-90.190.00.00680.012-89.6 Apple iPhone 4 (headphones attached)+0.01, -0.07-90.490.40.00360.092-68.4 Samsung I9100 Galaxy S II+0.04, -0.09-91.491.90.00420.066-89.7 Samsung I9100 Galaxy S II (headphones attached)+1.05, -0.22-90.090.20.0130.647-49.4 HTC Sensation+0.05, -0.34-90.290.20.0120.021-91.1 HTC Sensation (headphones attached)+0.71, -0.15-89.190.10.0190.522-70.6 LG Optimus 2X+0.01, -0.03-90.190.10.0110.016-89.2 LG Optimus 2X (headphones attached)+0.14,-0.04-89.889.90.00980.111-35.1 Sony Ericsson XPERIA Arc S+0.11, -0.10-89.389.30.0140.038-90.2 Sony Ericsson XPERIA Arc S (headphones attached)+0.41, -0.12-88.888.80.1740.319-46.6 
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For those of you who are interested, I used RMAA and my M-Audio
Firewire 410 audio interface to record and analyze the following:- Samsung Nexus S with Voodoo Sound- HTC One X LTE with sound processing off- HTC One X LTE with Beats audio on (headphone set to Other)I used supercurio's new app that plays a RMAA test signal to do
this. Also, I repeated each test twice to verify that my results were
accurate.Note that on the One X, the output level doesn't go beyond -10dB
when volume is at maximum, so I adjusted the Nexus S to -10 dB, even
though it can go higher.I have no idea if my methodology is sound, but I'd say the frequency response speaks for itself.
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