a25fa2c6a6
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@12005 a1c6a512-1295-4272-9138-f99709370657
420 lines
20 KiB
TeX
420 lines
20 KiB
TeX
% $Id$ %
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\screenshot{configure_rockbox/images/ss-sound-settings}{The sound settings screen}{}
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The Sound Settings menu offers a selection of sound properties you may
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change to customise your listening experience.
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\section{Volume}
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This setting adjusts the volume of your music. Like most professional
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audio gear and many consumer audio products, Rockbox uses a decibel scale
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where 0 dB is a reference that indicates the maximum volume that the \dap{}
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can produce without possible distortion (clipping). All values lower than
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this reference will be negative and yield a progressively softer volume.
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\opt{player, recorder, recorderv2fm, ondio, ipodnano, ipodvideo}{
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Values higher than 0 dB are available and can be used to raise the
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volume more than would otherwise be possible. These volume levels will
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ordinarily lead to distorted sound, but might work nicely for music that has
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an otherwise low volume level.}
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The volume can be adjusted from a
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\opt{player}{minimum of -78 dB to a maximum of +18 dB.}
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\opt{recorder,recorderv2fm,ondio}{minimum of -100 dB to a maximum of +12 dB.}
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\opt{h1xx,h300}{minimum of -84 dB to a maximum of 0 dB.}
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\opt{ipodnano}{minimum of -72 dB to a maximum of +6 dB.}
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\opt{ipodvideo}{minimum of -57 dB to a maximum of +6 dB.}
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\opt{ipodcolor,x5}{minimum of -\fixme{??} dB to a maximum of +\fixme{??} dB.}
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\opt{h10,h10_5gb,sansa}{minimum of -74 dB to a maximum of +6 db.}
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\section{Bass}
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\opt{player,recorder,recorderv2fm,ondio}{This emphasises or suppresses the
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lower (bass) sounds in the track. 0 means that bass sounds are unaltered
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(flat response).}
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\opt{h1xx,h300}{The bass setting can be used to increase (but not decrease)
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frequencies below 300Hz. Bass boost can be set from 0 to 24 dB in
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increments of 2 dB. A setting of 0 means that low frequencies are unaltered
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(flat response).}
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\opt{ipodnano,ipodcolor,ipodvideo}{This emphasises or suppresses the
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lower (bass) sounds in the track. 0dB means that bass in unaltered
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(flat response). The minimum setting is -6dB and the maximum is 9dB.}
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\opt{x5,sansa}{\fixme{add platform specific information here}}
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\section{Treble}
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\opt{player,recorder,recorderv2fm,ondio}{This emphasises or suppresses the
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higher (treble) sounds in the track. 0 means that treble sounds are
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unaltered (flat response).}
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\opt{h1xx,h300}{The Treble setting can be used to increase (but not decrease)
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frequencies above 1.5kHz. Treble boost can be set from 0 to 6 dB in
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increments of 2 dB. A setting of 0 means that high frequencies are unaltered
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(flat response).}
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\opt{ipodnano,ipodcolor,ipodvideo}{This setting emphasises or suppresses
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the higher (treble) sounds in the track. 0dB means that treble is unaltered
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(flat response). The minimum setting -6dB and the maximum is 9dB.}
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\opt{x5,sansa}{\fixme{add platform specific information here}}
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\section{Balance}
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This setting controls the balance between the left and right channels. The
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default, 0, means that the left and right outputs are equal in volume.
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Negative numbers increase the volume of the left channel relative to the
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right, positive numbers increase the volume of the right channel relative
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to the left.
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\section{Channels}
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A stereo audio signal consists of two channels, left and right. The
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\setting{Channels} setting controls if these channels are to be combined in
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any way, and if so, in what manner they will be combined.
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Available options are:
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%
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\begin{table}
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\begin{center}
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\begin{tabularx}{\textwidth}{lX}\toprule
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\textbf{Setting} & \textbf{Description} \\\midrule
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Stereo
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& Leave the audio signal unmodified. \\
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%
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Mono
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& Combine both channels and send the resulting signal to both stereo
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channels, resulting in a monophonic output. \\
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%
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Custom
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& Allows you to manually specify a stereo width with the
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\setting{Stereo Width} setting described later in this chapter. \\
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%
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Mono Left
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& Plays the left channel in both stereo channels. \\
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%
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Mono Right
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& Plays the right channel in both stereo channels. \\
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%
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Karaoke
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& Removes all sound that is the same in both channels. Since most
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music is recorded with vocals being equally present in both channels
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to make the singer sound centrally placed, this often (but not
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always) has the effect of removing the voice track from a song. This
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setting also very often has other undesirable effects on the sound. \\
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\bottomrule
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\end{tabularx}
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\end{center}
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\end{table}
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\section{Stereo Width}
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Stereo width allows you to manually specify the effect that is applied
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when the \setting{Channels} setting is set to \setting{Custom}.
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All values below 100\% will progressively mix the contents of one channel
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into the other. This has the effect of gradually centering the stereo image,
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until you have monophonic sound at 0\%. Values above 100\% will progressively
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remove components in one channel that is also present in the other. This has
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the effect of widening the stereo field. A value of 100\% will leave the
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stereo field unaltered.
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\opt{recorder,recorderv2fm}{
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\section{Loudness}
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Loudness is an effect which emphasises bass and treble. This makes the
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track seem louder by amplifying the frequencies that the human ear finds
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hard to hear. Frequencies in the vocal range are unaffected, since the human
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ear picks these up very easily.
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}
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\opt{recorder,recorderv2fm}{
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\section{Auto Volume}
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Auto volume is a feature that automatically lowers the volume on loud parts,
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and then slowly restores the volume to the previous level over a time
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interval. That time interval is configurable here. Short values like 20ms
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are useful for ensuring a constant volume for in car use and other
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applications where background noise makes a constant loudness desirable.
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A longer timeout means that the change in volume back to the previous level
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will be smoother, so there will be less sharp changes in volume level.
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}
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\opt{recorder,recorderv2fm}{
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\section{Super Bass}
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This setting changes the threshold at which bass frequencies are affected by
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the \setting{Loudness} setting, making the sound of drums and bass guitar
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louder in comparison to the rest of the track. This setting only has an
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effect if \setting{Loudness} is set to a value larger than 0dB.
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}
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\opt{recorder,recorderv2fm}{
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\section{MDB {}- Micronas Dynamic Bass}
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The rest of the parameters on this menu relate to the Micronas Dynamic
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Bass (MDB) function. This is designed to enable the user to hear bass
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notes that the headphones and/or speakers are not capable of reproducing.
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Every tone has a fundamental frequency (the ``main tone'') and also several
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harmonics, which are related to that tone. The human brain has a mechanism
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whereby it can actually infer the presence of bass notes from the higher
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harmonics that they would generate.
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The practical upshot of this is that MDB produces a more authentic sounding
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bass by tricking the brain in believing it's hearing tones that the
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headphones or speakers aren't capable of reproducing. Try it and see
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what you think.
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The MDB parameters are as follows.
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%
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\begin{description}
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\item[MDB enable:]
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This turns the MDB feature on or off. For many users this will be the
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only setting they need, since Rockbox picks sensible defaults for the
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other parameters. MDB is turned off by default.
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\item[MDB strength:]
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How loud the harmonics generated by the MDB will be.
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\item[MDB Harmonics:]
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The percentage of the low notes that is converted into harmonics.
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If low notes are causing speaker distortion, this can be set to 100\%
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to eliminate the fundamental completely and only produce harmonics in the
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signal. If set to 0\% this is the same as turning the MDB feature off.
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\item[MDB Centre Frequency:]
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The cutoff frequency of your headphones or speakers. This is usually
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given in the specification for the headphones/speakers.
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\item[MDB shape:]
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It is recommended that this parameter be set to 1.5 times the centre frequency.
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This is the frequency up to which harmonics are generated. Some of the
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lower fundamentals near the cut{}-off range will have their lower
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harmonics cut off, since they will be below the range of the speakers.
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Fundamentals between the cut{}-off frequency and the lower frequency
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will have their harmonics proportionally boosted to compensate and restore
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the `loudness' of these notes.
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For most users, the defaults should provide an improvement in sound
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quality and can be safely left as they are. For reference, the defaults
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Rockbox uses are:
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%
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\begin{table}[h!]
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\begin{center}
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\begin{tabular}{@{}lc@{}}\toprule
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Setting & Value \\\midrule
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MDB Strength & 50dB \\
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MDB Harmonics & 48\% \\
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MDB Centre Frequency & 60Hz \\
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MDB Shape & 90Hz \\\bottomrule
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\end{tabular}
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\end{center}
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\end{table}
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\end{description}
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}
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\opt{SWCODEC}{
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\section{Crossfeed}
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Crossfeed attempts to make the experience of listening to music on
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headphones more similar to listening to music with stereo speakers. When you
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listen to music through speakers, each ear will hear sound originating from
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both speakers. However, the sound from the left speaker reaches your right
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ear slightly later than it does your left ear, and vice versa.
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The human ear and brain together are very good at interpreting the timing
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differences between direct sounds and reflected sounds and using that
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information to identify the direction that the sound is coming from. On the
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other hand, when listening to headphones, each ear hears only the stereo
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channel corresponding to it. The left ear hears only the left channel and
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the right ear hears only the right channel. The result is that sound from
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headphones does not provide the same spatial cues to your ear and brain as
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speakers, and might for that reason sound unnatural to some listeners.
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The crossfeed function uses an algorithm to feed a delayed and filtered
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portion of the signal from the right channel into the left channel and vice
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versa in order to simulate the spatial cues that the ear and brain receive
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when listening to a set of loudspeakers placed in front of the listener. The
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result is a more natural stereo image that can be especially appreciated in
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older rock and jazz records, where one instrument is often hard-panned to
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just one of the speakers. Many people will find such records tiring to listen
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to using earphones and no crossfeed effect.
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Crossfeed has the following settings.
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\begin{description}
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\item[Crossfeed:]
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Selects whether the crossfeed effect is to be enabled or not.
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\item[Direct Gain:]
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How much the level of the audio that travels the direct path from a speaker
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to the corresponding ear is supposed to be decreased.
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\item[Cross Gain:]
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How much the level of the audio that travels the cross path from a speaker
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to the opposite ear is to be decreased.
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\item[High-Frequency Attenuation:]
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How much the upper frequencies of the cross path audio will be dampened.
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Note that the total level of the higher frequencies will be a combination
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of both this setting and the \setting{Cross Gain} setting.
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\item[High-Frequency Cutoff]
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Decides at which frequency the cross path audio will start to be cut
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by the amount described by the \setting{High-Frequency Attenuation}
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setting.
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\end{description}
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Most users will find the default settings to yield satisfactory results, but
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for the more adventurous user the settings can be fine-tuned to provide a
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virtual speaker placement suited to ones preference.
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% TODO: adapt the guidelines for crossfeed settings found here?
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% http://www.ohl.to/interests-in-audio/crossfeed-and-eq-for-headphones/
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Beware that the crossfeed function is capable of making the audio distort
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if you choose settings which result in a too high output level.
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}
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\opt{SWCODEC}{
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\section{\label{ref:EQ}Equalizer}
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\screenshot{configure_rockbox/images/ss-equalizer}{The graphical equalizer}{}
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Rockbox features a parametric equalizer. As the name suggests, a parametric
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equalizer lets you control several different parameters for each band of the
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equalizer. Rockbox's parametric EQ is composed of five different EQ bands:
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\begin{table}
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\begin{center}
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\begin{tabularx}{\textwidth}{lX}\toprule
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\textbf{EQ Band(s)} & \textbf{Description} \\\midrule
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Band 0: Low shelf filter
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& A low shelf filter boosts or lowers all frequencies below the
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designated cutoff point. The ``bass''control on most home or car
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stereos is an example of a low shelf filter. The low shelf
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filter in Rockbox is more flexible than a simple ``bass''
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control, because a simple bass control only lets you adjust
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the amount of gain that is applied. Rockbox lets you control
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the amount of gain that is applied (i.e., the amount that the
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bass is boosted or cut) too, but Rockbox also allows you to
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adjust the ``cutoff'' frequency where the shelving starts to take
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effect. For example, a cutoff frequency of 50 Hz will adjust only very
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low frequencies. A cutoff frequency of 200 Hz, on the other hand, will
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adjust a much wider range of bass frequencies.. \\
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%
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Bands 1-3: Peaking filters
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& Peaking EQ filters boost or low a center frequency that you select,
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as well as the frequencies within a certain distance of that
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center. Graphic equalizers in home stereos are usually peaking
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filters. The peaking EQs on Rockbox's parametric equalizer let
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you adjust three different parameters for each EQ band 1
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through 3. The ``center'' parameter controls the center
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frequency that is adjusted by that EQ band. The ``gain''
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parameter controls how much each band is adjusted. Positive
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numbers make the EQ band louder, while negative numbers make
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that EQ band quieter. Finally, the ``Q'' parameter controls how wide
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or narrow each EQ band is. Higher Q values will affect a
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narrow band of frequencies, while lower EQ values will affect
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a wider band of frequencies. \\
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%
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Band 4: Hi shelf filter
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& A high shelf filter boosts or lowers all frequencies above a
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designated cutoff point. The ``treble'' control on most home or car
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stereos is an example of a high shelf filter. The high shelf filter is
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adjusted the same way as the low shelf filter, except that it works on
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the high end of the frequency spectrum rather than the low end.\\
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\bottomrule
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\end{tabularx}
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\end{center}
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\end{table}
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So, as a general guide, EQ band 0 should be used for lows, EQ bands 1
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through 3 should be used for mids, and EQ band 4 should be used for highs.
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\begin {description}
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\item[Enable EQ:]
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This option controls whether the EQ is on or off.
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\item[Graphical EQ:]
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This option brings up a graphic EQ screen, which allows adjustment of each of
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the three parameters described above (gain, center frequency, and Q) for each
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of the five EQ bands.
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\begin{table}
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\begin{btnmap}{}{}
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\opt{IPOD_4G_PAD,IPOD_3G_PAD,IPOD_VIDEO_PAD}{\ButtonScrollFwd}
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\opt{IRIVER_H100_PAD,IRIVER_H300_PAD,IAUDIO_X5_PAD}{\ButtonUp}
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\opt{SANSA_E200_PAD}{\ButtonScrollUp}
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& Raises the highlighted parameter.\\
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%
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\opt{IPOD_4G_PAD,IPOD_3G_PAD,IPOD_VIDEO_PAD}{\ButtonScrollBack}
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\opt{IRIVER_H100_PAD,IRIVER_H300_PAD,IAUDIO_X5_PAD}{\ButtonDown}
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\opt{SANSA_E200_PAD}{\ButtonScrollDown}
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& Lowers the highlighted parameter.\\
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%
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\opt{IRIVER_H100_PAD,IRIVER_H300_PAD,IAUDIO_X5_PAD}{\ButtonLeft}
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\opt{IPOD_4G_PAD,IPOD_3G_PAD,IPOD_VIDEO_PAD}{\ButtonLeft}
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\opt{SANSA_E200_PAD}{\ButtonUp}
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& Moves to the previous EQ band. \\
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%
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\opt{IRIVER_H100_PAD,IRIVER_H300_PAD,IAUDIO_X5_PAD}{\ButtonRight}
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\opt{IPOD_4G_PAD,IPOD_3G_PAD,IPOD_VIDEO_PAD}{\ButtonRight}
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\opt{SANSA_E200_PAD}{\ButtonDown}
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& Moves to the next EQ band. \\
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%
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\opt{IRIVER_H100_PAD,IRIVER_H300_PAD}{\ButtonSelect}
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\opt{IAUDIO_X5_PAD,IPOD_4G_PAD,IPOD_3G_PAD,IPOD_VIDEO_PAD,SANSA_E200_PAD}{\ButtonSelect}
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& Toggles the cursor among the three parameters (gain, center frequency,
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Q) for the selected EQ band.\\
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%
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\opt{IRIVER_H100_PAD,IRIVER_H300_PAD}{\ButtonMode}
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\opt{IPOD_4G_PAD,IPOD_3G_PAD,IPOD_VIDEO_PAD}{\ButtonMenu}
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\opt{SANSA_E200_PAD}{\ButtonPower/\ButtonRight}
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& Exits the graphic EQ screen.\\
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\end{btnmap}
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\end{table}
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\item[Pre-cut:]
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If too much gain is added through the graphical EQ, your music may distort.
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The \setting{Precut} setting allows you to adjust the overall gain of the EQ.
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If your music distorts when using the EQ, trying changing this setting to a
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negative value.
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\item[Simple EQ:]
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This option provides an easier alternative for those who are daunted by all of
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the parameters that can be adjusted using the graphical EQ. With the
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\setting{Simple EQ}, the only parameter that can be adjusted is the gain.
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\item[Advanced EQ:]
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This sub menu provides options for adjusting the same parameters as the
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\setting{Graphical EQ}. The only difference is that the parameters are
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adjusted through textual menus rather than through a graphic interface.
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\item[Save EQ Preset:]
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This option saves the current EQ configuration in a \fname{.cfg} file.
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\item[Browse EQ Presets:]
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This menu displays a list EQ presets, as well as any EQ configurations saved
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using the \setting{Save EQ Preset} option. Users unfamiliar with the
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operation of a parametric EQ may wish to use the presets instead of trying to
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configure the EQ, or use the presets for designing their own custom EQ
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settings.
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\end{description}
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}
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\opt{ipodvideo}{
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\section{Hardware EQ}
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This function controls the EQ that is built into the hardware of your
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\playerman{}. The hardware EQ functions similarly to the Graphical EQ in that
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it allows adjustment of several parameters. However, unlike the Graphical EQ,
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the Hardware EQ allows the user to choose from a limited number of settings
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for ``Center Frequency'' and ``Bandwidth'' (``Bandwidth'' in the Hardware EQ
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is similar to ``Q'' in the Graphical EQ).
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\note{While the \setting{Hardware EQ} menu shows Low Shelf, three peaking
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filters, and High Shelf, the peaking filters are not currently operational.}
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}
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\opt{SWCODEC}{
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\section{Dithering}
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This setting controls the dithering and noise shaping functionality of Rockbox.
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Most of Rockbox' audio file decoders work at a higher bit depth than the 16 bits
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used for output on the \daps{} audio connectors. The simplest way in which to
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convert from one bit depth to another is simply discarding all the surplus bits.
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This is the default behaviour, and adds distortion to the signal that will
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vary in character along with the desired sound.
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Dithering adds low-level noise to the signal prior to throwing away the surplus
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bits, which gives the resulting signal a uniform noise floor which is
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independent of the signal. Most people find this noise preferable to the
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time-varying noise heard when not performing dithering.
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After dithering, noise shaping is performed. This basically just pushes the
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dithering noise to the parts of the frequency spectrum humans cannot hear so
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easily. In Rockbox' case, some of the noise is pushed up to above 10 kHz.
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This setting will be put to its best use when listening to dynamic music with
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frequently occuring quiet parts, classical music being a typical example. It is
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worth noting that the effects of dithering and noise shaping are very subtle,
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and not easily noticable.
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Rockbox uses highpass triangular distribution noise as the dithering noise
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source, and a third order noise shaper.
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}
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