Digitizing Audio - Adobe 22011292 - Audition - PC Using Instruction

User manual

Hide thumbs Also See for 22011292 - Audition - PC:

User manual (390 pages)

Table Of Contents

100

101

102

103

104

105

106

107

108

109

110

111

112

113

114

115

116

117

118

119

120

121

122

123

124

125

126

127

128

129

130

131

132

133

134

135

136

137

138

139

140

141

142

143

144

145

146

147

page of 147

/ 147
Contents
Table of Contents
Bookmarks

Table of Contents

USING ADOBE AUDITION

Digital audio fundamentals

Digitizing audio

Comparing analog and digital audio

In analog and digital audio, sound is transmitted and stored very differently.

Analog audio: positive and negative voltage

A microphone converts the pressure waves of sound into voltage changes in a wire: high pressure becomes positive

voltage, and low pressure becomes negative voltage. When these voltage changes travel down a microphone wire, they

can be recorded onto tape as changes in magnetic strength or onto vinyl records as changes in groove size. A speaker

works like a microphone in reverse, taking the voltage signals from an audio recording and vibrating to re-create the

pressure wave.

Digital audio: zeroes and ones

Unlike analog storage media such as magnetic tape or vinyl records, computers store audio information digitally as a

series of zeroes and ones. In digital storage, the original waveform is broken up into individual snapshots called

samples. This process is typically known as digitizing or sampling the audio, but it is sometimes called analog-to-digital

conversion.

When you record from a microphone into a computer, for example, analog-to-digital converters transform the analog

signal into digital samples that computers can store and process.

Understanding sample rate

Sample rate indicates the number of digital snapshots taken of an audio signal each second. This rate determines the

frequency range of an audio file. The higher the sample rate, the closer the shape of the digital waveform is to that of

the original analog waveform. Low sample rates limit the range of frequencies that can be recorded, which can result

in a recording that poorly represents the original sound.

Two sample rates

A. Low sample rate that distorts the original sound wave. B. High sample rate that perfectly reproduces the original sound wave.

To reproduce a given frequency, the sample rate must be at least twice that frequency. For example, CDs have a sample

rate of 44,100 samples per second, so they can reproduce frequencies up to 22,050 Hz, which is just beyond the limit

of human hearing, 20,000 Hz.

Here are the most common sample rates for digital audio:

Last updated 2/16/2012

Table of Contents

Show Quick Links

Hide quick links:

Table of Contents

This manual is also suitable for:

Audition cs5.5

Digitizing Audio - Adobe 22011292 - Audition - PC Using Instruction

Digitizing audio

Hide quick links:

Related Manuals for Adobe 22011292 - Audition - PC

Related Content for Adobe 22011292 - Audition - PC

This manual is also suitable for:

Table of Contents