Public address
From Wikipedia, the free encyclopedia
A public address or "PA" system is an electronic amplification system with a mixer, amplifier and loudspeakers, used to reinforce a given sound, e.g., a person making a speech, prerecorded music, or message, and distributing the sound throughout a venue.
Simple PA systems are often used in small venues such as school auditoriums, churches, and small bars. PA systems with a larger number of speakers are widely used in institutional and commercial buildings, to read announcements or declare states of emergency. Intercom systems, which are often used in schools, also have microphones in each room so that the occupants can reply to the central office.
There is disagreement over when to call these audio systems Sound Reinforcement (SR) systems or PA systems. Some audio engineers distinguish between the two by technology and capability, while others distinguish by intended use, e.g., SR systems are for live music, whereas PA systems are usually for reproduction of speech and recorded music in buildings and institutions). This distinction is important in some regions or markets, while in other regions or markets the terms are interchangeable.[1] In colloquial British English, a PA system installed for public address in a building is sometimes referred to as a "Tannoy" system after the company of that name. [2]
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[edit] Small systems
The simplest PA systems consist of a microphone, a modestly-powered mixer-amplifier (which incorporates a mixer and an amplifier in a single cabinet) and one or more loudspeakers. Simple PA systems of this type, often providing 50 to 200 watts of power, are often used in small venues such as school auditoriums, churches, and small bars.
Public address systems typically consist of input sources, preamplifiers and/or signal routers, amplifiers, control and monitoring equipment, and loudspeakers. Input sources refer to the microphones and CD Players that provide a sound input for the system. These input sources are fed into the preamplifiers and signal routers that determine the zones to which the audio signal is fed. The preamplified signals are then passed into the amplifiers. Depending on a country's regulations these amplifiers will amplify the audio signals to 50V, 70V or 100V speaker line level. Control equipment monitors the amplifiers and speaker lines for faults before it reaches the loudspeakers.
[edit] Telephone paging systems
Most modern telephone systems, such as PBX and VOIP, use a paging system that acts as a liaison between the telephone and a PA amplifier. In key telephone systems such as those by Nortel, Toshiba, Avaya or Alcatel-Lucent, paging equipment is usually built into the telephone system itself, and allows announcements to be paged over the phone speakers themselves, through external speakers or through both external and internal telephone speakers.
In PBX and larger VOIP telephone systems such as those by Nortel, Cisco, Avaya, Siemens or Alcatel-Lucent, used for larger enterprise applications, paging equipment is not built into the telephone system. Instead the system provider must provide a separate paging controller connected to a trunk port on the actual telephone system. The paging controller is accessed as either an unused directory number or unused central office line. Access to the paging system is provided through a "trunk access" code or a preprogrammed feature button on the telephone set itself.
Many retailers and offices choose to use the telephone system as the sole access point for the paging system, because the equipment is already "paging system"-ready. Many schools and other larger institutions are no longer using the large, bulky microphone PA systems and have switched to telephone system paging, as it can be accessed from many different points of the school in an emergency. One disadvantage of telephone paging systems compared to microphone paging systems, is that the noise associated with hanging up the telephone can be heard over the speakers.
[edit] PA Over IP
"PA Over IP" refers to PA paging and Intercom systems that use the Ethernet or GSM-R network instead of a centralized analog or DSP amplifier to distribute the paging to all of the locations in a building or company. Distributed network attached amplifiers and Intercoms are used to provide the communication function. A computer running special software is used to control where you send the pages. Using a microphone connected to the sound card you can talk to the selected zones. One, some or all the zones can be selected for broadcasting using the software. The voice message is broadcast on the network to the selected network attached amplifier and Intercom modules. These are small specialized network appliances with an IP address just like any other computer on the network[3]. Since the system is connected using your standard network and/or the Internet, a user can have unlimited multiple remote sites tied together so that one location can be used to send pages to any or all other locations around the corner or around the world. The command control center can also be at multiple locations. Manufacturers of PA and Long Line PA based Public Address Systems include ASL Application Solutions (Safety and Security) Ltd.
[edit] Long Line PA
Long Line Public Address (LLPA) describes any Public Address system in which the architecture is distributed, normally across a wide geographic area. Systems of this type are commonly found in the rail, light rail and metro industries and allow announcements to be triggered from one or several locations to the rest of the network over low bandwidth legacy copper (normally PSTN lines using DSL modems), or IP based media such as optical fiber, or GSM-R. Rail systems typically have an interface with a Passenger information system (PIS) server, at each station linked to train describers which state the location of rolling stock on the network from sensors on trackside signalling equipment . The PIS system invokes a stored message to be played from a local or remote Digital Voice Announcement system, or a series of message fragments to be assembled in the correct order. for example //the//13.29//virgin_trains//sleeper_service//from//London_Paddington//to//Penzance//....//will depart from platform//five//this train is formed of //12_carriages//. Messages are routed via the IP network and are played on local amplification equipment. Taken together, the PA, routing, DVA, passenger displays and PIS interface are commonly referred to as the Customer Information System or CIS, a term which itself is often used interchangeably with Passenger Information System (PIS)
[edit] Large venue systems
For popular music concerts, a more powerful and more complicated PA System is used to provide live sound reproduction. In a concert setting, there are typically two complete PA systems: the "main" system and the "monitor" system. Each system consists of microphones, a mixing board, sound processing equipment, amplifiers, and speakers.
- The "main" system (also known as "Front of House", commonly abbreviated FOH), which provides the amplified sound for the audience, will typically use a number of powerful amplifiers driving a range of large, heavy-duty loudspeakers including low-frequency speaker cabinets called subwoofers, full-range speaker cabinets, and high-range horns. A large club may use amplifiers to provide 1000 to 2000 watts of power to the "main" speakers; an outdoor concert may use 10,000 or more watts.
- The "monitor" system reproduces the sounds of the performance and directs them towards the onstage performers (typically using wedge-shaped monitor speaker cabinets), to help them to hear the instruments and vocals. In British English, the monitor system is referred to as the "fold back". The monitor system in a large club may use amplifiers to provide 500 to 1000 watts of power to the "monitor" speakers; at an outdoor concert, there may be several thousand watts of power going to the monitor system.
At a concert in which live sound reproduction is being used, sound engineers and technicians control the mixing boards for the "main" and "monitor" systems, adjusting the tone, levels, and overall volume of the performance.
[edit] Acoustic feedback
All PA systems have a potential for feedback, which occurs when sound from the speakers returns to the microphone and is then re-amplified and sent through the speakers again. This generally manifests itself as a sharp, sudden high-volume piercing sound which can damage the loudspeakers' high-frequency horns or tweeters - and audience members' hearing.
Sound engineers take several steps to prevent feedback, including ensuring that microphones are not pointed towards speakers, keeping the onstage volume levels down, and lowering frequency levels where the feedback is occurring, using a graphic equalizer, parametric equalizer a combination of both devices, or a notch filter.
[edit] Recent developments
In recent years, a number of technological advances have been made to PA systems.
[edit] Digital signal processors
Small PA systems for venues such as bars and clubs are now available with features that were formerly only available on professional-level equipment, such as digital reverb effects, graphic equalizers, and, in some models, feedback prevention circuits (which electronically sense and prevent feedback "howls" before they occur). These digital signal processing multi-effect devices offer sound engineers a huge range of sound processing options (reverb, delay, echo, compression, etc.) in a single unit. In previous decades, sound engineers typically had to transport a number of heavy "rack-mounted" cases of analog effect devices.
[edit] Amplifiers
A number of PA companies are now making lightweight, portable speaker systems for small venues that route the low-frequency parts of the music (electric bass, bass drum, etc.) to a separately-powered subwoofer. Routing the low-frequency parts of the signal to a separate amplifier and low-frequency subwoofer can substantially improve the bass-response of the system. As well, the clarity of the overall sound reproduction can be enhanced, because low-frequency sounds take a great deal of power to amplify; with only a single amplifier for the entire sound spectrum, the power-hungry low-frequency sounds can take a disproportionate amount of the sound system's power.
Power amplifiers have also become lighter, smaller, more powerful and more efficient due to increasing use of Class D amplifiers (also called "switching amplifiers"), which offer significant weight and space savings as well as increased efficiency. In the 1970s and 1980s, most PA amplifiers were heavy Class A amplifiers or Class AB amplifiers. In the late 1990's ASL invented the Adaptive Class D PA amplifier which, in addition to normal Class D efficiency characteristics, consumes just 70mW for a 100w amp module when not transmitting programme material. Amplifiers using this technology have become popular in large scale PA applications such as rail, stadia and airports where their efficiency gains allows them to run fanless and with higher rack densities compared to standard amplifiers.
[edit] Other meanings
The term "Public Address" also may refer to any IP address that is not in RFC 1918 "Private networking" scheme and is routable on the Internet.
[edit] Footnotes
- ^ Borgerson, Bruce. "Is it P.A. or SR?." Sound & Video Contractor. 1 Nov. 2003. Prism Business Media. 18 Feb. 2007 <http://svconline.com/mag/avinstall_pa_sr/index.html>.
- ^ Compact Oxford English Dictionary "Tannoy": http://www.askoxford.com/concise_oed/tannoy?view=uk
- ^ Mesnik, Bob. " How Paging and Intercoms work over the network <http://www.imakenews.com/kin2/e_article000855106.cfm?x=b8v5FDQ,b25tl0b3,w
