17.4 Sound Card Components
The
key function of a sound card is playback梐ccepting a digital
data stream or MIDI instructions from the PC and converting them to
an analog audio signal that can be reproduced on speakers or
headphones. Most sound cards can also do the converse梐ccept an
analog audio signal and convert it to a digital data stream that can
be stored on a PC. Sound cards use the following components to
support these functions:
- Converters
Sound cards contain at least one Digital-to-Analog
Converter (DAC) and one
Analog-to-Digital Converter
(ADC) for each of the two stereo channels, and
some contain more. A DAC converts a digital audio stream into the
analog audio delivered to the Line-out port. An ADC digitizes analog
sound received from the Line-in or Microphone port. CD-Audio sound,
generally the highest quality supported by sound cards, requires
16-bit resolution. The converters used in better-quality sound cards
usually support higher resolution, typically 18- or 20-bit. Some
expensive cards, such as the Sound Blaster Audigy 2, use 24-bit
resolution for both recording and playback. Resolution sometimes
differs between the DAC and ADC. For example, a card might use an
18-bit DAC and a 20-bit ADC. Internal resolution is often higher than
that supported by the DAC/ADC, typically 24- or 32-bit.
- Sample rate generator
The sample rate generator provides the clock for
the converters under the control of the PC. While nothing prevents
using arbitrary or continuously variable sample rates, most sample
rate generators instead support discrete sample rates, which are
usually even fractions of 44,100 Hz and 48,000 Hz. A sample rate
generator might support sample rates of 48,000, 44,100, 32,000,
24,000, 22,050, 12,000, 11,025, and 8,000 Hz. Many sound cards
support differing rates for record versus playback. For example, a
card may support playback rates of 48,000, 44,100, 22,050, 11,025,
and 8,000 Hz, but record only at 44,100 Hz. High-end cards may
support sampling rates as high as 96 KHz in Dolby Digital 5.1 mode
and 192 KHz in stereo mode.
- Processor
The processor (also called the sound
generator or synthesis engine)
creates analog output from MIDI input by reading, interpolating, and
combining wavetable samples into the composite audio waveform
represented by the MIDI instructions. Most sound cards use a custom
digital signal processor
(DSP) such as the E-mu Systems EMU10K1 or
EMU10K2, or the Crystal/Cirrus Logic CS4630 or CS8420. The processor
used directly or indirectly determines several key capabilities of
the sound card, including how many MIDI channels, voices,
hardware-accelerated sound streams, and so on it supports. DSPs
provide useful supplementary capabilities in hardware, such as reverb
and chorus effects, text-to-speech processing, and compression.
Because a DSP is programmable, some DSP-based sound cards support
related functions, such as faxmodem or telephone answering machine
functions.
- Connectors
Sound cards typically provide at least the following connectors:
- Line-out
Line-out is a line-level (unamplified) stereo
output intended to be connected to Line-in on amplified speakers,
headphones, home audio equipment, or a tape or DAT recorder. Most
sound cards provide one stereo Line-out port, but some provide two
mono Line-out ports, designated Left and Right. Sound cards that
support four speakers usually have two stereo Line-out ports, one
each for front and rear speakers. The PC 99 standard color code for
Line-out is lime, although for this and other color codes makers
often pay scant attention to the exact hue. The standard icon usually
stamped into the card bracket is three concentric circle segments (to
represent audio vibrations) with an outward-pointing arrow anchored
in the center.
- Line-in
Line-in is a line-level stereo input intended to
be connected to the Line-out of external analog audio sources such as
a CD player or VCR. Some microphones can also be connected to
Line-in. The standard color is light blue. The standard icon is the
same as for Line-out, but with the arrow head pointing to the center.
- Microphone-in
Microphone-in, sometimes labeled
Mic, is a monaural input that supports
inexpensive microphones for recording voice. The standard color is
pink, although red is commonly used, and the standard icon resembles
a microphone.
- MIDI/gameport
MIDI/gameport is a DB-15 connector whose primary
purpose is to connect a game controller. However, the standard
gameport (see Chapter 21) also supports connecting
external MIDI devices such as keyboards and synthesizers. Doing so
requires a special octopus cable, available from the manufacturer,
which extends the MIDI signals present on the gameport to
MIDI-standard 5-pin DIN MIDI-in and MIDI-out connectors, which
resemble standard AT keyboard connectors. The gameport should fully
support analog and digital game controllers, including force feedback
and DirectInput devices. Standard color is gold.
- MPC-3 CD-in
Although some recent CD-ROM drives can deliver CD audio digitally
across the bus to the sound card, listening to CD audio on most
CD-ROM drives requires connecting the line-level Audio-out connector
on the back of the CD-ROM drive to the Audio-in connector on the
sound card. Older CD-ROM drives and sound cards used a chaotic mix of
proprietary and nonstandard connectors, which sometimes made it very
hard to find the right cable. Recent CD-ROM drives and sound cards
all use a standard cable. The sound card uses a shrouded, keyed,
four-contact header-pin MPC-3 connector, often called a Molex or
ATAPI connector. The CD-ROM drive uses an unkeyed version of the same
connector, sometimes called a Sony connector. MPC-3
CD-in is usually color-coded black to differentiate it
from other connectors, described next, that use the same physical
connector.
Some sound cards also provide some or all of the following connectors:
- Speaker-out/Subwoofer
Speaker-out/Subwoofer is an amplified stereo output intended to be
connected to unpowered speakers, or to some powered subwoofers that
expect a high-level input. Do not use this output to connect to
standard powered speakers. Although it will usually work without
damaging the speakers or the sound card, sound quality will be
noticeably inferior to that provided by the Line-out connector.
Standard color is orange.
- MPC-3 Aux-in
MPC-3 Aux-in uses the same physical connector as
MPC-3 CD-in, described earlier, and is usually color-coded white to
differentiate it. This connector accepts any line-level input,
although it is most commonly used on systems that already have one
CD-ROM drive to connect audio from a second CD-ROM, CD-R(W), or DVD
drive.
- MPC-3 Modem-in/out
MPC-3 Modem-in/out uses the same physical
connector as MPC-3 CD-in and MPC-3 Aux-in, and is usually color-coded
green to differentiate it. MPC-3 Modem-in is a line-level audio
input/output intended to be connected to a line-level connector on a
modem. This allows modem tones to be played through the speakers, and
also supports such functions as Internet telephony and audio
conferencing via the modem.
- Daughtercard connector
Some sound cards include one or more daughtercard connectors, which
usually take the form of a large header-pin connector similar to an
IDE connector. Daughtercards, which are proprietary to the make and
model of sound card, may be used to add wavetable support, to extend
ROM-based wavetable samples, or for other similar purposes.
- S/PDIF
Sony-Philips Digital InterFace
(S/PDIF) is an RCA coax jack that provides a
direct digital connection between the sound card and an external
device with an S/PDIF jack (typically, a DAT deck). All S/PDIF ports
support 48,000 Hz; most support 32,000 Hz; some support lower rates.
S/PDIF is a standard feature on most high-end sound cards, and may be
an option on midrange sound cards. Some sound cards have both S/PDIF
input and output ports, but others have only an S/PDIF output.
Because of limited room on the expansion bracket of the sound card,
S/PDIF ports are often present as a header connector on the sound
card, which uses an extender cable to a cliffhanger bracket where the
S/PDIF connectors reside. Some sound cards use a proprietary
connector that joins the sound card to a remote head, which often
contains S/PDIF connector(s), line-in connector(s), and MIDI
connector(s).
- CD interface connector
Some older sound cards include interface connector(s) for a CD-ROM
drive, which made it easier and cheaper to upgrade older systems to
multimedia capability. These connectors may be any of five types: the
three proprietary interfaces used by early-model Mitsumi, Panasonic,
and Sony CD-ROM drives; a second ATA interface, intended for use on
early ATA systems that had only one embedded ATA interface; and/or a
SCSI interface. Using any of these interfaces is a bad idea. The
proprietary interfaces are used only by CD-ROM drives too old to be
usable. The IDE interface is normally slow and conflicts with the
second ATA interface present on all modern motherboards. The SCSI
interface is slow, probably supports only one SCSI device, and often
causes conflicts. Indeed, the presence of any of these connectors
indicates that the sound card is so old that it should be replaced.
- Amplifier
Early sound cards were intended for use with unamplified speakers,
and so included an onboard amplifier. Nearly all modern computer
speakers have built-in amplifiers that require only line-level input.
Sound card amplifiers usually produce inferior sound because they are
inexpensive, underpowered, and poorly shielded, and must operate in
the electrically noisy environment inside a PC. Some modern sound
cards include an amplifier, primarily for use with devices (such as
some powered subwoofers) that expect an amplified rather than
line-level signal. A sound card that lacks an amplifier is not
necessarily of low quality. In fact, the converse is often true. Many
inexpensive sound cards include amplified outputs, and many high-end
sound cards do not.
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