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=== Audio cables === | === Audio cables === | ||
Audio cables (also just called "wires") come in two broad categories: | |||
[[#Analog audio cables|analog]] and [[#Digital audio cables|digital]], which carry [http://en.wikipedia.org/wiki/Analog_circuit analog] and [http://en.wikipedia.org/wiki/Digital_data digital] signals. The analog signals are discussed above. They are the direct translation of pitch and volume into the frequency and amplitude of an electrical wave. Digital signals are converted from analog signals by [http://en.wikipedia.org/wiki/Analog-to-digital_converter | analog to digital] (A-to-D) converters - by a process that is also called [http://en.wikipedia.org/wiki/Sampling_(signal_processing) "sampling."] | |||
A cable [http://www.mediacollege.com/audio/connection/connectors.html connector] is the termination element at each end of the cable. There are many kinds of connectors and each kind is comes in two sexes: male and female. Male connectors have one or more prongs that are inserted into a corresponding female connector. The female connectors have one or more holes that receive the male connector's prong(s). It is left as an exercise for the reader to explain how these connectors came to be labeled "male" and "female." | |||
==== Analog audio cables ==== | |||
Audio cables are divided into balanced and unbalanced cables. Balanced cables sound better and are better. Unbalanced cables are more common. See the details [[#Balanced and Unbalanced cables|below]]. Cables tend to carry either one audio channel (mono or monaural) or two audio channels (stereo). If you look inside a cable you can tell if it is stereo or mono, and balanced or unbalanced. This is not recommended since taking a cable apart will probably make it useless for our purposes. Fortunately there are industry standards that let us tell by looking at the connectors at the end of the cables. | |||
Most of the information presented here is better told in this [http://www.mediacollege.com/audio/connection/ tutorial]. | |||
===== Balanced and Unbalanced cables ===== | |||
The information carried by analog audio cables is usually called "signal." The audio signal is sent along the medium of the cable (usually copper). Inside the [http://www.mediacollege.com/audio/connection/cables.html cable] the signal is transmitted by either one or two separate wires (called "cores") and a tube of wire mesh (called a "shield"). If a cable has one core the main ("positive") signal is sent on the core and the inverted signal (also called the "negative" signal) is sent on the shield (the wire mesh). If the cable has two cores the positive signal is on one core and the negative signal is on the other. The shield is the ground (or earth). | |||
Cables with one core are called "unbalanced" cables and those with two cores are called "balanced cables. Having the ground on the shield makes the cable "balanced" For complicated reasons involving the physics of how electricity balanced cables are better than unbalanced cables. They are also more expensive since they tend to half again as much [http://www.nasdaq.com/markets/copper.aspx copper]. | |||
===== Analog audio connectors ===== | |||
====== Microphone connectors ====== | |||
======= XLR connectors ======= | |||
====== Professional audio connectors ====== | |||
======= Quarter inch phono plug ======= | |||
======= Insert cables ======= | |||
====== Home audio connectors ====== | |||
======= RCA phono plug ======= | |||
====== Portable audio connectors ====== | |||
======= Eighth inch phono plug ======= | |||
==== Digital audio cables ==== | |||
=== Microphones === | === Microphones === | ||
=== Audio Mixers === | === Audio Mixers === |
Revision as of 17:34, 21 September 2013
In modern theatre and musical performances the sounds created on stage are reinforced by gathering the original sounds, mixing them, and then sending them to loud speakers with amplification.
Some simple physics
Sound is vibrations in air. Sound is produced by vibrating air. Sound is heard when the vibrations strike our eardrums and are converted into signals that are processed by our brain.
Sources of sound
The Human Voice
The human voice creates sound by vibrating the larynx with air from the lungs. On the way out of the mouth the sound is shaped by the lips, tongue, and teeth to create words.
Traditional Musical Instruments
Sound vibrations can also be made by traditional musical instruments, usually by
- Striking things (percussion instruments)
- Dragging one item past another item (string instruments)
- Blowing air through constricted spaces (wind instruments)
Please note that many Foley effects are made in the same manner as the traditional musical instruments (striking, dragging, and blowing) but are not called "musical" because they usually cannot be tuned.
Electronic Musical Instruments
Electronic musical instruments don't create sound directly. Instead they create electronic signals that are interpreted as sound by additional audio components.
Conversion into electronic signals
The human voice and traditional musical instruments have their vibrations received and converted into electric signals by microphones. Sound conversion is one of the earliest applications of electronics. The conversion of sound into electricity is conceptually simple: a sound has two dimensions: frequency and amplitude. In music these dimensions are called pitch and volume. A microphone converts the sound wave into an electrical wave that matches the sound frequency to the cycle frequency of the electrical wave and the sound volume to the height of the electrical wave. When sound is played on speakers the electrical wave is converted back into sound by vibrarting an artificial diaphragm in the speaker much like a human vibrate his larynx.
Along the way the electric sound signals are carried by audio cables. They can be modified electronically by "signal processors" and made louder by amplifiers. The most commons signal processor is a mixer which takes multiple input signals and creates a unified sound from them. One or more channels of audio are produced. If one channel of audio is produced it is called monaural sound. Two channels (a left and right) is called stereo. More than two channels are usually presented to the listeners as some sort of surround sound playback.
Audio cables
Audio cables (also just called "wires") come in two broad categories: analog and digital, which carry analog and digital signals. The analog signals are discussed above. They are the direct translation of pitch and volume into the frequency and amplitude of an electrical wave. Digital signals are converted from analog signals by | analog to digital (A-to-D) converters - by a process that is also called "sampling."
A cable connector is the termination element at each end of the cable. There are many kinds of connectors and each kind is comes in two sexes: male and female. Male connectors have one or more prongs that are inserted into a corresponding female connector. The female connectors have one or more holes that receive the male connector's prong(s). It is left as an exercise for the reader to explain how these connectors came to be labeled "male" and "female."
Analog audio cables
Audio cables are divided into balanced and unbalanced cables. Balanced cables sound better and are better. Unbalanced cables are more common. See the details below. Cables tend to carry either one audio channel (mono or monaural) or two audio channels (stereo). If you look inside a cable you can tell if it is stereo or mono, and balanced or unbalanced. This is not recommended since taking a cable apart will probably make it useless for our purposes. Fortunately there are industry standards that let us tell by looking at the connectors at the end of the cables.
Most of the information presented here is better told in this tutorial.
Balanced and Unbalanced cables
The information carried by analog audio cables is usually called "signal." The audio signal is sent along the medium of the cable (usually copper). Inside the cable the signal is transmitted by either one or two separate wires (called "cores") and a tube of wire mesh (called a "shield"). If a cable has one core the main ("positive") signal is sent on the core and the inverted signal (also called the "negative" signal) is sent on the shield (the wire mesh). If the cable has two cores the positive signal is on one core and the negative signal is on the other. The shield is the ground (or earth).
Cables with one core are called "unbalanced" cables and those with two cores are called "balanced cables. Having the ground on the shield makes the cable "balanced" For complicated reasons involving the physics of how electricity balanced cables are better than unbalanced cables. They are also more expensive since they tend to half again as much copper.