Difference between revisions of "Acoustic bit correction"

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[[Dither]] is a term used to describe a special form of wide-band noise which is added to digital audio signals to prevent distortion of low level signals; typically at the level of 1-2 [[lsb]]'s. The two common forms are: "Flat" and "Triangular" or "HPDF" (high pass probability density function), which both distribute the noise energy fairly evenly across the audible spectrum. [[Noise shaping]] is a process where the noise energy is ''shifted'' away from the mid-range frequencies where the ear is most sensitive to the bass and upper treble regions.
 
[[Dither]] is a term used to describe a special form of wide-band noise which is added to digital audio signals to prevent distortion of low level signals; typically at the level of 1-2 [[lsb]]'s. The two common forms are: "Flat" and "Triangular" or "HPDF" (high pass probability density function), which both distribute the noise energy fairly evenly across the audible spectrum. [[Noise shaping]] is a process where the noise energy is ''shifted'' away from the mid-range frequencies where the ear is most sensitive to the bass and upper treble regions.
 
==LavryProducts==
 
==LavryProducts==
*LavryGold AD122-96 MkIII
+
*LavryGold AD122-96 MkIII [http://lavryengineering.com/pdfs/lavry-ad122-96mkiii-manual.pdf for more information click here]
*LavryGold LE3000S
+
*LavryGold LE3000S [http://lavryengineering.com/pdfs/lavry-le3000s-manual.pdf for more information click here]
*LavryBlue MAD-824
+
*LavryBlue MAD-824 [http://lavryengineering.com/pdfs/lavry-lavryblue-manual.pdf for more information click here]

Revision as of 16:00, 20 June 2012

Overview

The term "αβC αcoustic βit Correction™" is a registered trademark of Lavry Engineering, Inc. which refers to a proprietary form of Noise-shaped dither.

Basics

Dither is a term used to describe a special form of wide-band noise which is added to digital audio signals to prevent distortion of low level signals; typically at the level of 1-2 lsb's. The two common forms are: "Flat" and "Triangular" or "HPDF" (high pass probability density function), which both distribute the noise energy fairly evenly across the audible spectrum. Noise shaping is a process where the noise energy is shifted away from the mid-range frequencies where the ear is most sensitive to the bass and upper treble regions.

LavryProducts