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Soundware Guides: Cables and Connectors
In this guide we'll explain the different types of cable and
connectors, and what they're used for...
Types of Cable
Unbalanced
Traditional unbalanced audio cables are made up of four parts -
a conductive core, an insulating layer known as a " dialectric", a
shield made of foil or wire braid, and an outer insulating layer.
The conductive partsof the wire are known as "lines" - so
unbalanced cable uses two lines. The core is known as the "hot"
line, since this is the part that transmits the current. The outer
shield is the "earth" line.
The earth line shields the core by intercepting unwanted
electromagnetic interference and running it to ground, so that it
cannot reach the core and affect the audio signal. However, this
system is not perfect, soan audio signal will pick up noise caused
by electromagnetic interference from other power sources when it is
passed through an unbalanced cable. The longer the cable, the more
noise will be picked up, sowhen working with unbalanced cables it's
best to keep the lengths as short as possible.
Balanced
Balanced cables work differently - a balanced cable has a twin
core with "hot" and "cold" lines. Both the hot and cold lines carry
the audio signal, but the voltage on the cold line is inverted, so
that when the hotline carries a positive voltage, the cold line
carries a negative one. The cold line always carries the exact
opposite charge to the hot line - it is in effect "turned
upside-down". This allows for a f orm of noisereduction called
"common mode noise rejection".
Common mode noise rejection uses the idea of "phase inversion".
This means that signals of exactly opposite voltages will cancel
each other out. For example, a positive signal of +5V and a
negative signal of-5V appearing together will create a t otal
voltage of +5V - 5V = 0. The two opposing signals will cancel each
other out, and neither will register. The two voltages are said to
be "180 degrees out of phase".
So, if the cold line of the cable i s always carrying the exact
opposite of the hot line, the two l ines are 180 degrees out of
phase and i f the two signals are combined and played they will
make no sound.
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The hot and cold lines are 180 degrees out of phase
But if electromagnetic interference enters the cable as the
signal is passing through, it will enter both cores at once, and t
he noise will have exactly the same voltage in both lines - it will
not be inverted.
When noise enters the cable, it is not out of phase.
So, in the cable we have the desired signal 180 degrees out of
phase across the two lines, and the noise "in phase", as it were.
If we combine the signals at this point and play them, we will not
hear the originalsignal because the phase inversion cancels it out,
but because the noise is in phase, we will hear it. What's the
point in that? We can hear nothing but the noise the signal has
accrued along the way.
This is the clever part. At the end of the cable, the cold line
is inverted again. This turns it upside-down again and inverts the
phase on both the original signal and the noise. So now the
original signal, which was180 degrees out of phase, is back in
phase. But the noise, which was in phase, is now 180 degrees out of
phase and will cancel itself out.
When the cold signal is inverted, this brings the signal back
into phase but puts the noise out of phase.
In this way, noise picked up by the signal as it passes throught
the lead is cancelled out. This makes balanced cables much better
for long lengths, or where electrical interference is high.
Shielded
As described above, the shield is an earthed conductive layer
wrapped around the core. This intercepts electrical interference
and runs it to ground before it can reach the core. All unbalanced
cables areshielded, and many balanced cables also have a shield as
an extra layer of protection against interference.
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Types of Connector
XLR
XLR connectors are mainly used for balanced signals - in
particular with microphones and mixing desks. XLR plugs have three
pins - Pin 1 carries the earth (or shield), pin 2 carries the hot
(positive) signal andpin 3 carries the cold (negative) signal.
View all XLR leads...
Jacks
Jack connectors come in two sizes - 1/4" and 1/8" (or
"Minijack"). Both sizes are wired the same, and come in mono or
stereo types. A mono jack is split into two sections - the tip (at
the very end) and the sleeve(the rest of the plug). The tip is the
hot (positive) line, and t he sleeve is the cold line or the
shield. Mono jacks are used for instrument cables like guitar or
microphone leads.
View Mono Jack Leads In Our Cables and Leads Section...
A stereo jack is split into three sections - a tip and sleeve
like a mono jack, with a ring between the two. For this reason
stereo jacks are also sometimes called TRS (tip, ring, sleeve)
jacks. Stereo jacks can beused to carry balanced or stereo signals.
In a stereo jack being used to carry a balanced signal, the tip is
the hot line, t he ring is the cold line and the sleeve is the
shield. If the jack is used to carry a stereo signal,the tip is the
left channel, the ring is the right channel and the sleeve is the
shield. Stereo jacks can be used as speaker cables carrying
balanced signals, or as headphone leads carrying stereo
signals.
View Stereo Jack Leads...
Phono
Also known as RCA connectors, Phono connectors can be used for
audio or video signals, and are used a lot in hifi and home cinema
systems. The centre pin is the hot line, and the outer ring is the
shield.
View Phono Leads...
MIDI
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MIDI leads are used for communication between MIDI devices like
keyboards and synthesizers. They use 5-pin DIN connectors - these
are German standard audio connectors. The pins are numbered - 1 and
3are the two outermost, 4 and 5 the next two in and 2 is the centre
pin. only 2, 4 and 5 are wired specifically - pin 2 is the shield,
pin 4 is the hot line and pin 5 the cold. Pins 1 and 3 have no
specific use, but someMIDI equipment uses them for other f
unctions.
View MIDI Leads...
USB
USB cables are used to connect computers to peripheral devices
like printers, external mixers and hard drives. USB cables have a
different connector at each end - an "A" connector (the big one)
connects to thecomputer, and a "B" connector (the small one)
connects to the peripheral device.
The USB protocol started as a r elatively slow connection method
- USB 1.0 was only capable of transfer rates of 12Megabits per
second (1.5 Megabytes) - not nearly fast enough for audio
recording. This hasgiven rise to the impression that USB is too
slow for use with audio interfaces. However, USB 2.0 (the most
recent protocol used by newer computers) is capable of 480Mbps (60
Megabytes). The vast majority ofUSB audio or MIDI interfaces use
USB 2.0, and this provides a fast enough data transfer for
low-latency recording.
View all USB Cables...
FireWire
Firewire is used in much the same way as USB - to connect
computers to peripheral devices. It provides fast r ates of data
transfer (up t o 800Mbps) for recording multiple tracks at
once.
Firewire (also known as IEEE 1394) cable connectors come in
several different types depending on the type of Firewire port -
using 4, 6 or 12 pins.
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View all Firewire Cables...Optical
Optical (or TOSlink) cables transfer digital data using optical
fibre and pulses of light from an LED. Mostly used to transfer data
between digital audio devices like CD and Minidisc players, optical
connections canhave very high data transfer rates. It is limited,
however, by the quality of the cabling - the fibre optic material
can have a huge difference on the quality of data transfer, so it's
important to use the best-qualityleads you can when using optical
devices.
View all Optical Cables...
If you're unsure about any of the above,or if you're not sure
which products would be best for you, pleasecontact usand we'll be
happy to offer friendly, impartial advice and recommendations.
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Soundware 2009
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