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Siren (alarm)

January 19, 2024

This article is about the alarm device. For other uses, see Siren.

A siren is a loud noise-making device. Civil defense sirens are mounted in fixed locations and used to warn of natural disasters or attacks. Sirens are used on emergency service vehicles such as ambulances, police cars, and fire engines. There are two general types: mechanical and electronic.

Electronic Sirens Pavian by Telegrafia
A Whelen WPS electronic siren imported to Saudi Arabia by HSS Engineering for use as a Civil Defense siren.
There are 8,200 alarm sirens for civil protection throughout Switzerland. They are tested once a year, on the first Wednesday in February.[1] Sound sample
An 1860s-era siren.[2]

Many fire sirens (used for summoning volunteer firefighters) serve double duty as tornado or civil defense sirens, alerting an entire community of impending danger. Most fire sirens are either mounted on the roof of a fire station or on a pole next to the fire station. Fire sirens can also be mounted on or near government buildings, on tall structures such as water towers, as well as in systems where several sirens are distributed around a town for better sound coverage. Most fire sirens are single tone and mechanically driven by electric motors with a rotor attached to the shaft. Some newer sirens are electronically driven speakers.

Fire sirens are often called fire whistles, fire alarms, or fire horns. Although there is no standard signaling of fire sirens, some utilize codes to inform firefighters of the location of the fire. Civil defense sirens also used as fire sirens often can produce an alternating "hi-lo" signal (similar to emergency vehicles in many European countries) as the fire signal, or attack (slow wail), typically 3x, as to not confuse the public with the standard civil defense signals of alert (steady tone) and fast wail (fast wavering tone). Fire sirens are often tested once a day at noon and are also called noon sirens or noon whistles.

The first emergency vehicles relied on a bell. In the 1970s, they switched to a duotone airhorn, which was itself overtaken in the 1980s by an electronic wail.

History edit

Some time before 1799, the siren was invented by the Scottish natural philosopher John Robison.[3] Robison's sirens were used as musical instruments; specifically, they powered some of the pipes in an organ. Robison's siren consisted of a stopcock that opened and closed a pneumatic tube. The stopcock was apparently driven by the rotation of a wheel.

In 1819, an improved siren was developed and named by Baron Charles Cagniard de la Tour.[4] De la Tour's siren consisted of two perforated disks that were mounted coaxially at the outlet of a pneumatic tube. One disk was stationary, while the other disk rotated. The rotating disk periodically interrupted the flow of air through the fixed disk, producing a tone.[5][6] De la Tour's siren could produce sound under water,[7] suggesting a link with the sirens of Greek mythology; hence the name he gave to the instrument.[8]

Instead of disks, most modern mechanical sirens use two concentric cylinders, which have slots parallel to their length. The inner cylinder rotates while the outer one remains stationary. As air under pressure flows out of the slots of the inner cylinder and then escapes through the slots of the outer cylinder, the flow is periodically interrupted, creating a tone.[9] The earliest such sirens were developed during 1877–1880 by James Douglass and George Slight (1859–1934)[10] of Trinity House; the final version was first installed in 1887 at the Ailsa Craig lighthouse in Scotland's Firth of Clyde.[11] When commercial electric power became available, sirens were no longer driven by external sources of compressed air, but by electric motors, which generated the necessary flow of air via a simple centrifugal fan, which was incorporated into the siren's inner cylinder.

To direct a siren's sound and to maximize its power output, a siren is often fitted with a horn, which transforms the high-pressure sound waves in the siren to lower-pressure sound waves in the open air.

 
The electrically powered cylinder siren used to alert the town of Lowe­stoft during World War Two.

The earliest way of summoning volunteer firemen to a fire was by ringing of a bell, either mounted atop the fire station, or in the belfry of a local church. As electricity became available, the first fire sirens were manufactured. In 1886 French electrical engineer Gustave Trouvé developed a siren to announce the silent arrival of his electric boats. Two early fire siren manufacturers were William A. Box Iron Works, who made the "Denver" sirens as early as 1905, and the Inter-State Machine Company (later the Sterling Siren Fire Alarm Company) who made the ubiquitous Model "M" electric siren, which was the first dual tone siren. The popularity of fire sirens took off by the 1920s, with many manufacturers including the Federal Electric Company and Decot Machine Works creating their own sirens. Since the 1970s, many communities have since deactivated their fire sirens as pagers became available for fire department use. Some sirens still remain as a backup to pager systems.

During the Second World War, the British civil defence used a network of sirens to alert the general population to the imminence of an air raid. A single tone denoted an "all clear". A series of tones denoted an air raid.

Types edit

Pneumatic edit

 
A motor siren (a German E57) Sound sample

The pneumatic siren, which is a free aerophone, consists of a rotating disk with holes in it (called a chopper, siren disk or rotor), such that the material between the holes interrupts a flow of air from fixed holes on the outside of the unit (called a stator). As the holes in the rotating disk alternately prevent and allow air to flow it results in alternating compressed and rarefied air pressure, i.e. sound. Such sirens can consume large amounts of energy. To reduce the energy consumption without losing sound volume, some designs of pneumatic sirens are boosted by forcing compressed air from a tank that can be refilled by a low powered compressor through the siren disk.

In United States English language usage, vehicular pneumatic sirens are sometimes referred to as mechanical or coaster sirens, to differentiate them from electronic devices. Mechanical sirens driven by an electric motor are often called "electromechanical". One example is the Q2B siren sold by Federal Signal Corporation. Because of its high current draw (100 amps when power is applied)[citation needed] its application is normally limited to fire apparatus, though it has seen increasing use on type IV ambulances and rescue-squad vehicles. Its distinct tone of urgency, high sound pressure level (123 dB at 10 feet) and square sound waves account for its effectiveness.

In Germany and some other European countries, the pneumatic two-tone (hi-lo) siren consists of two sets of air horns, one high pitched and the other low pitched. An air compressor blows the air into one set of horns, and then it automatically switches to the other set. As this back and forth switching occurs, the sound changes tones. Its sound power varies, but could get as high as approximately 125 dB, depending on the compressor and the horns. Comparing with the mechanical sirens, it uses much less electricity but needs more maintenance.

In a pneumatic siren, the stator is the part which cuts off and reopens air as rotating blades of a chopper move past the port holes of the stator, generating sound. The pitch of the siren's sound is a function of the speed of the rotor and the number of holes in the stator. A siren with only one row of ports is called a single tone siren. A siren with two rows of ports is known as a dual tone siren. By placing a second stator over the main stator and attaching a solenoid to it, one can repeatedly close and open all of the stator ports thus creating a tone called a pulse. If this is done while the siren is wailing (rather than sounding a steady tone) then it is called a pulse wail. By doing this separately over each row of ports on a dual tone siren, one can alternately sound each of the two tones back and forth, creating a tone known as Hi/Lo. If this is done while the siren is wailing, it is called a Hi/Lo wail. This equipment can also do pulse or pulse wail. The ports can be opened and closed to send Morse code. A siren which can do both pulse and Morse code is known as a code siren.

Electronic edit

 
HLS electronic siren

Electronic sirens incorporate circuits such as oscillators, modulators, and amplifiers to synthesize a selected siren tone (wail, yelp, pierce/priority/phaser, hi-lo, scan, airhorn, manual, and a few more) which is played through external speakers. It is not unusual, especially in the case of modern fire engines, to see an emergency vehicle equipped with both types of sirens. Often, police sirens also use the interval of a tritone to help draw attention. The first electronic siren that mimicked the sound of a mechanical siren was invented in 1965 by Motorola employees Ronald H. Chapman and Charles W. Stephens.[12]

Other types edit

 
Whelen electronic siren (WPS-2750) in Milpitas, CA

Steam whistles were also used as a warning device if a supply of steam was present, such as a sawmill or factory. These were common before fire sirens became widely available, particularly in the former Soviet Union. Fire horns, large compressed air horns, also were and still are used as an alternative to a fire siren. Many fire horn systems were wired to fire pull boxes that were located around a town, and this would "blast out" a code in respect to that box's location. For example, pull box number 233, when pulled, would trigger the fire horn to sound two blasts, followed by a pause, followed by three blasts, followed by a pause, followed by three more blasts. In the days before telephones, this was the only way firefighters would know the location of a fire. The coded blasts were usually repeated several times. This technology was also applied to many steam whistles as well. Some fire sirens are fitted with brakes and dampers, enabling them to sound out codes as well. These units tended to be unreliable, and are now uncommon.[citation needed]

Physics of the sound edit

Mechanical sirens blow air through a slotted disk or rotor. The cyclic waves of air pressure are the physical form of sound. In many sirens, a centrifugal blower and rotor are integrated into a single piece of material, spun by an electric motor.

Electronic sirens are high efficiency loudspeakers, with specialized amplifiers and tone generation. They usually imitate the sounds of mechanical sirens in order to be recognizable as sirens.

To improve the efficiency of the siren, it uses a relatively low frequency, usually several hundred hertz. Lower frequency sound waves go around corners and through holes better.

Sirens often use horns to aim the pressure waves. This uses the siren's energy more efficiently by aiming it. Exponential horns achieve similar efficiencies with less material.

The frequency, i.e. the cycles per second of the sound of a mechanical siren is controlled by the speed of its rotor, and the number of openings. The wailing of a mechanical siren occurs as the rotor speeds and slows. Wailing usually identifies an attack or urgent emergency.

The characteristic timbre or musical quality of a mechanical siren is caused because it is a triangle wave, when graphed as pressure over time. As the openings widen, the emitted pressure increases. As they close, it decreases. So, the characteristic frequency distribution of the sound has harmonics at odd (1, 3, 5...) multiples of the fundamental. The power of the harmonics roll off in an inverse square to their frequency. Distant sirens sound more "mellow" or "warmer" because their harsh high frequencies are absorbed by nearby objects.

Two tone sirens are often designed to emit a minor third, musically considered a "sad" sound. To do this, they have two rotors with different numbers of openings. The upper tone is produced by a rotor with a count of openings divisible by six. The lower tone's rotor has a count of openings divisible by five. Unlike an organ, a mechanical siren's minor third is almost always physical, not tempered. To achieve tempered ratios in a mechanical siren, the rotors must either be geared, run by different motors, or have very large numbers of openings. Electronic sirens can easily produce a tempered minor third.

A mechanical siren that can alternate between its tones uses solenoids to move rotary shutters that cut off the air supply to one rotor, then the other. This is often used to identify a fire warning.

When testing, a frightening sound is not desirable. So, electronic sirens then usually emit musical tones: Westminster chimes is common. Mechanical sirens sometimes self-test by "growling", i.e. operating at low speeds.

In music edit

Sirens are also used as musical instruments. They have been prominently featured in works by avant-garde and contemporary classical composers. Examples include Edgard Varèse's compositions Amériques (1918–21, rev. 1927), Hyperprism (1924), and Ionisation (1931);[13] Arseny Avraamov's Symphony of Factory Sirens (1922);[14] George Antheil's Ballet Mécanique (1926); Dimitri Shostakovich's Symphony No. 2 (1927), and Henry Fillmore's "The Klaxon: March of the Automobiles" (1929), which features a klaxophone.

In popular music, sirens have been used in The Chemical Brothers' "Song to the Siren" (1992) and in a CBS News 60 Minutes segment played by percussionist Evelyn Glennie. A variation of a siren, played on a keyboard, are the opening notes of the REO Speedwagon song "Ridin' the Storm Out". Some heavy metal bands also use air raid type siren intros at the beginning of their shows.[citation needed] The opening measure of Money City Maniacs 1998 by Canadian band Sloan uses multiple sirens overlapped.

Vehicle-mounted edit

 
Warning siren and emergency lights mounted on a fire truck

Approvals or certifications edit

Governments may have standards for vehicle-mounted sirens. For example, in California, sirens are designated Class A or Class B. A Class A siren is loud enough that it can be mounted nearly anywhere on a vehicle. Class B sirens are not as loud and must be mounted on a plane parallel to the level roadway and parallel to the direction the vehicle travels when driving in a straight line.[15]

Sirens must also be approved by local agencies, in some cases. For example, the California Highway Patrol approves specific models for use on emergency vehicles in the state.[16] The approval is important because it ensures the devices perform adequately. Moreover, using unapproved devices could be a factor in determining fault if a collision occurs.[citation needed]

The SAE International Emergency Warning Lights and Devices committee oversees the SAE emergency vehicle lighting practices and the siren practice, J1849.[a] This practice was updated through cooperation between the SAE and the National Institute of Standards and Technology. Though this version remains quite similar to the California Title 13 standard for sound output at various angles, this updated practice enables an acoustic laboratory to test a dual speaker siren system for compliant sound output.[17]

Best practices edit

A fire truck uses a siren

Siren speakers, or mechanical sirens, should always be mounted ahead of the passenger compartment. This reduces the noise for occupants and makes two-way radio and mobile telephone audio more intelligible during siren use. It also puts the sound where it will be useful. A 2007 study found passenger compartment sound levels could exceed 90dB(A).[18]

Research has shown that sirens mounted behind the engine grille or under the wheel arches produces less unwanted noise inside the passenger cabin and to the side and rear of the vehicle while maintaining noise levels to give adequate warnings.[19] The inclusion of broadband sound to sirens has the ability to increase localisation of sirens, as in a directional siren, as a spread of frequencies makes use of the three ways the brain detects a direction of a sound: Interaural level difference, interaural time difference and head-related transfer function.[20]

The worst installations are those where the siren sound is emitted above and slightly behind the vehicle occupants such as cases where a light-bar mounted speaker is used on a sedan or pickup. Vehicles with concealed sirens also tend to have high noise levels inside. In some cases, concealed or poor installations produce noise levels which can permanently damage vehicle occupants' hearing.[21]

Electric-motor-driven mechanical sirens may draw 50 to 200 amperes at 12 volts (DC) when spinning up to operating speed. Appropriate wiring and transient protection for engine control computers is a necessary part of an installation. Wiring should be similar in size to the wiring to the vehicle engine starter motor. Mechanical vehicle mounted devices usually have an electric brake, a solenoid that presses a friction pad against the siren rotor. When an emergency vehicle arrives on-scene or is cancelled en route, the operator can rapidly stop the siren.

Multi-speaker electronic sirens often are alleged to have dead spots at certain angles to the vehicle's direction of travel. These are caused by phase differences. The sound coming from the speaker array can phase cancel in some situations. This phase cancellation occurs at single frequencies, based upon the spacing of the speakers. These phase differences also account for increases, based upon the frequency and the speaker spacing. However, sirens are designed to sweep the frequency of their sound output, typically, no less than one octave. This sweeping minimizes the effects of phase cancellation. The result is that the average sound output from a dual speaker siren system is 3 dB greater than a single speaker system.

See also edit

Notes and references edit

  1. ^ Standard available at SAE J1849, 2020 Edition, February 2020 - Emergency Vehicle Sirens
  1. ^ Testing sirens 2020-02-08 at the Wayback Machine, Swiss Federal Office for Civil Protection (page visited on 7 September 2013).
  2. ^ The dials atop the siren are connected, via reduction gears, to the perforated disks (in the cylinder beneath the dials) which produce the siren's sound. The dials allow the siren's frequency to be determined. During the 19th century, sirens were among the few sources of sound having a known frequency. Hence they were used in research on hearing and sound.
  3. ^ See:
    • John Robison, Encyclopædia Britannica, 3rd ed., 1799.
    • "Temperament of the scale of music" in: John Robison with David Brewster and James Watt, ed.s, A System of Mechanical Philosophy (Edinburgh, Scotland: 1822), vol. 4, pages 404-405 2022-11-13 at the Wayback Machine.
    • Ernst Robel, Die Sirenen: Ein Beitrag zur Entwickelungsgeschichte der Akustik [Sirens: A contribution to the history of the development of acoustics] (Berlin, Germany: R. Gaertners, 1891), part 1, pages 7–10 2022-11-13 at the Wayback Machine.
  4. ^ Charles Cagniard de la Tour (1819) "Sur la Sirène, nouvelle machine d'acoustique destinée à mésures les vibrations de l'air qui contient la son" (On the siren, new acoustic machine to be used for measuring the vibrations of sound in air) Annales de chimie et de physique, vol. 12, pages 167–171.
  5. ^ For descriptions of Robison's and de la Tour's sirens, see:
    • Robert T. Beyer, Sounds of Our Times: Two Hundred Years of Acoustics (New York: Springer Verlag, 1998), page 30 2022-11-13 at the Wayback Machine. De la Tour's siren is illustrated on page 31.
    • De la Tour's siren is also illustrated on page 12 2022-11-13 at the Wayback Machine of: Hermann von Helmholtz, On the Sensations of Tone as a Physiological Basis for the Theory of Music, 3rd ed. (London, England: Longmans, Green, and Co., 1875). (Reprinted in 1954 by Dover Publishing Inc. of N.Y., N.Y.)
  6. ^ The rotating disk of such a siren is driven by air pressure alone: The holes in each disk are not drilled perpendicularly to the disk. Instead, the holes slope in a clockwise direction in one disk and counterclockwise in the other. To escape, the flowing air must therefore change direction sharply, driving the rotating disk like a turbine. See:
    • Robert T. Beyer, Sounds of Our Times: Two Hundred Years of Acoustics (New York: Springer Verlag, 1998), page 30.
    • See also: Michael Lamm, "Feel the noise: The art and science of making sound alarming," Invention and Technology Magazine, vol. 18, no. 3, pages 22–27 (Winter 2003). (Lamm's article is available on-line at: American Heritage 2008-02-18 at the Wayback Machine.)
  7. ^ See;
    • Adolphe Ganot (translator: Edmund Atkinson), Elementary Treatise on Physics: Experimental and Applied, 8th ed. (N.Y., N.Y.: Wm. Wood and Co., 1877), pages 188-189.
    • J.H. Poynting and J.J. Thomson, Sound (London: Charles Griffin and Co., 1899), page 37 2022-11-13 at the Wayback Machine.
  8. ^ de la Tour (1819) "Sur la Sirène, nouvelle machine d'acoustique destinée à mésures les vibrations de l'air qui contient la son," Annales de chimie et de physique, vol. 12, page 171 2015-10-15 at the Wayback Machine:

    Original: "Si l'on fait passer de l'eau dans la sirène, au lieu d'air, elle produit également le son, lors même qu'elle est entièrement immergée dans ce fluide, et les mêmes nombres de chocs produisent les mêmes nombre de notes par l'air. C'est à cause de cette propriété d'être sonore dans l'eau, que j'ai cru pouvoir lui donner le nom sous lequel elle est désignée."

    Translation: If one runs water through the siren instead of air, it still produces sound even though it is fully immersed in this fluid, and the same number of shocks produce the same number of audible vibrations as in air. It is because of this property of making sound in water that I thought I could give it the name by which it is designated.
  9. ^ Some sirens have two pairs of slotted cylinders, allowing such a siren to produce two tones having a musical interval of a minor or a major third.
  10. ^ Alan Renton, Lost Sounds: The Story of Coast Fog Signals (Latheronwheel, Scotland: Whittles Publishing, 2001), page 51 2022-11-13 at the Wayback Machine. For a brief biography of George Slight, see the Spanish Wikipedia article "George Slight" (in Spanish).
  11. ^ See:
    • David A. Stevenson (1887) “Ailsa Craig lighthouse and fog signals,” 2022-11-13 at the Wayback Machine Minutes of the Proceedings of the Institution of Civil Engineers, vol. 89, pages 297-303. Regarding the siren, see pages 300 and 301.
    • Frederick A. Talbot, Lighthouses and Lightships (Philadelphia, Pennsylvania: J. B. Lippincott & Co., 1913), page 62 2022-11-13 at the Wayback Machine.
    • Wayne Wheeler, "The history of fog signals – part 1," The Keeper's Log, vol. 6, no. 4, pages 20–23 (Summer 1990) and "The history of fog signals – part 2," The Keeper's Log, vol. 7, no.1, pages 8–17 (Fall 1990). See especially page 11 of part 2.
    • Brian Clearman, Transportation-markings: A Historical Survey, 1750–2000 (St. Benedict, Oregon: Mount Angel Abbey, 2002), pages 170-171. Available on-line at: University of Oregon 2016-03-03 at the Wayback Machine.
    • "Lighthouse," Encyclopædia Britannica (1911), 11th ed., vol. 16, page 647 2022-11-13 at the Wayback Machine.
  12. ^ Ronald H. Chapman and Charles W. Stephens, "Electronic siren including a shock excited resonant circuit," 2017-02-06 at the Wayback Machine U.S. Patent no. 3,324,408 (filed: Nov. 23, 1965; published: June 6, 1967).
  13. ^ "Varese and his Fire Siren: Not So Wild". The Washington Post. 27 January 1978. Retrieved 15 September 2019.
  14. ^ Aronson, Marc (1998). Art Attack: A Short Cultural History of the Avant-Garde. Boston, MA: Houghton Mifflin Harcourt. p. 84. ISBN 9780395797297.
  15. ^ "Cal. Code Regs. Tit. 13, § 1028 - Performance Requirements". LII / Legal Information Institute. Retrieved 2022-11-13.
  16. ^ Little, R A (1970). "Siren Standards (Office of Justice Programs)". NCJRS.
  17. ^ "J1849_202002: Emergency Vehicle Sirens - SAE International". www.sae.org. Retrieved 2022-11-13.
  18. ^ Catchpole, K.; Mckeown, D. (2007-08-01). "A framework for the design of ambulance sirens". Ergonomics. 50 (8): 1287–1301. doi:10.1080/00140130701318780. ISSN 0014-0139. PMID 17558670. S2CID 28283263.
  19. ^ Catchpole, Ken; Denis Mckeown (8 June 2007). "A framework for the design of ambulance sirens". Ergonomics. 50 (8): 1287–1301. doi:10.1080/00140130701318780. PMID 17558670. S2CID 28283263.
  20. ^ "Alarms and Sirens". Physics.org. Retrieved 25 October 2012.
  21. ^ Riach, Douglas (2003-01-01). Emergency vehicle siren noise: A potential for hearing loss. Theses: Doctorates and Masters (Thesis). Retrieved 2022-11-13.

External links edit

 
Wikimedia Commons has media related to Warning sirens.
  • Various examples
  • (PDF). Archived from the original (PDF) on 2007-02-06. (206 KiB)
  • - Pictures of Siren whistles
  • The Siren Archive - pictures of fire sirens


January 19, 2024
siren, alarm, this, article, about, alarm, device, other, uses, siren, siren, loud, noise, making, device, civil, defense, sirens, mounted, fixed, locations, used, warn, natural, disasters, attacks, sirens, used, emergency, service, vehicles, such, ambulances,. This article is about the alarm device For other uses see Siren A siren is a loud noise making device Civil defense sirens are mounted in fixed locations and used to warn of natural disasters or attacks Sirens are used on emergency service vehicles such as ambulances police cars and fire engines There are two general types mechanical and electronic Electronic Sirens Pavian by TelegrafiaA Whelen WPS electronic siren imported to Saudi Arabia by HSS Engineering for use as a Civil Defense siren There are 8 200 alarm sirens for civil protection throughout Switzerland They are tested once a year on the first Wednesday in February 1 Sound sample An 1860s era siren 2 Many fire sirens used for summoning volunteer firefighters serve double duty as tornado or civil defense sirens alerting an entire community of impending danger Most fire sirens are either mounted on the roof of a fire station or on a pole next to the fire station Fire sirens can also be mounted on or near government buildings on tall structures such as water towers as well as in systems where several sirens are distributed around a town for better sound coverage Most fire sirens are single tone and mechanically driven by electric motors with a rotor attached to the shaft Some newer sirens are electronically driven speakers Fire sirens are often called fire whistles fire alarms or fire horns Although there is no standard signaling of fire sirens some utilize codes to inform firefighters of the location of the fire Civil defense sirens also used as fire sirens often can produce an alternating hi lo signal similar to emergency vehicles in many European countries as the fire signal or attack slow wail typically 3x as to not confuse the public with the standard civil defense signals of alert steady tone and fast wail fast wavering tone Fire sirens are often tested once a day at noon and are also called noon sirens or noon whistles The first emergency vehicles relied on a bell In the 1970s they switched to a duotone airhorn which was itself overtaken in the 1980s by an electronic wail Contents 1 History 2 Types 2 1 Pneumatic 2 2 Electronic 2 3 Other types 3 Physics of the sound 4 In music 5 Vehicle mounted 5 1 Approvals or certifications 5 2 Best practices 6 See also 7 Notes and references 8 External linksHistory editSome time before 1799 the siren was invented by the Scottish natural philosopher John Robison 3 Robison s sirens were used as musical instruments specifically they powered some of the pipes in an organ Robison s siren consisted of a stopcock that opened and closed a pneumatic tube The stopcock was apparently driven by the rotation of a wheel In 1819 an improved siren was developed and named by Baron Charles Cagniard de la Tour 4 De la Tour s siren consisted of two perforated disks that were mounted coaxially at the outlet of a pneumatic tube One disk was stationary while the other disk rotated The rotating disk periodically interrupted the flow of air through the fixed disk producing a tone 5 6 De la Tour s siren could produce sound under water 7 suggesting a link with the sirens of Greek mythology hence the name he gave to the instrument 8 Instead of disks most modern mechanical sirens use two concentric cylinders which have slots parallel to their length The inner cylinder rotates while the outer one remains stationary As air under pressure flows out of the slots of the inner cylinder and then escapes through the slots of the outer cylinder the flow is periodically interrupted creating a tone 9 The earliest such sirens were developed during 1877 1880 by James Douglass and George Slight 1859 1934 10 of Trinity House the final version was first installed in 1887 at the Ailsa Craig lighthouse in Scotland s Firth of Clyde 11 When commercial electric power became available sirens were no longer driven by external sources of compressed air but by electric motors which generated the necessary flow of air via a simple centrifugal fan which was incorporated into the siren s inner cylinder To direct a siren s sound and to maximize its power output a siren is often fitted with a horn which transforms the high pressure sound waves in the siren to lower pressure sound waves in the open air nbsp The electrically powered cylinder siren used to alert the town of Lowe stoft during World War Two The earliest way of summoning volunteer firemen to a fire was by ringing of a bell either mounted atop the fire station or in the belfry of a local church As electricity became available the first fire sirens were manufactured In 1886 French electrical engineer Gustave Trouve developed a siren to announce the silent arrival of his electric boats Two early fire siren manufacturers were William A Box Iron Works who made the Denver sirens as early as 1905 and the Inter State Machine Company later the Sterling Siren Fire Alarm Company who made the ubiquitous Model M electric siren which was the first dual tone siren The popularity of fire sirens took off by the 1920s with many manufacturers including the Federal Electric Company and Decot Machine Works creating their own sirens Since the 1970s many communities have since deactivated their fire sirens as pagers became available for fire department use Some sirens still remain as a backup to pager systems During the Second World War the British civil defence used a network of sirens to alert the general population to the imminence of an air raid A single tone denoted an all clear A series of tones denoted an air raid Types editPneumatic edit nbsp A motor siren a German E57 Sound sample The pneumatic siren which is a free aerophone consists of a rotating disk with holes in it called a chopper siren disk or rotor such that the material between the holes interrupts a flow of air from fixed holes on the outside of the unit called a stator As the holes in the rotating disk alternately prevent and allow air to flow it results in alternating compressed and rarefied air pressure i e sound Such sirens can consume large amounts of energy To reduce the energy consumption without losing sound volume some designs of pneumatic sirens are boosted by forcing compressed air from a tank that can be refilled by a low powered compressor through the siren disk In United States English language usage vehicular pneumatic sirens are sometimes referred to as mechanical or coaster sirens to differentiate them from electronic devices Mechanical sirens driven by an electric motor are often called electromechanical One example is the Q2B siren sold by Federal Signal Corporation Because of its high current draw 100 amps when power is applied citation needed its application is normally limited to fire apparatus though it has seen increasing use on type IV ambulances and rescue squad vehicles Its distinct tone of urgency high sound pressure level 123 dB at 10 feet and square sound waves account for its effectiveness In Germany and some other European countries the pneumatic two tone hi lo siren consists of two sets of air horns one high pitched and the other low pitched An air compressor blows the air into one set of horns and then it automatically switches to the other set As this back and forth switching occurs the sound changes tones Its sound power varies but could get as high as approximately 125 dB depending on the compressor and the horns Comparing with the mechanical sirens it uses much less electricity but needs more maintenance In a pneumatic siren the stator is the part which cuts off and reopens air as rotating blades of a chopper move past the port holes of the stator generating sound The pitch of the siren s sound is a function of the speed of the rotor and the number of holes in the stator A siren with only one row of ports is called a single tone siren A siren with two rows of ports is known as a dual tone siren By placing a second stator over the main stator and attaching a solenoid to it one can repeatedly close and open all of the stator ports thus creating a tone called a pulse If this is done while the siren is wailing rather than sounding a steady tone then it is called a pulse wail By doing this separately over each row of ports on a dual tone siren one can alternately sound each of the two tones back and forth creating a tone known as Hi Lo If this is done while the siren is wailing it is called a Hi Lo wail This equipment can also do pulse or pulse wail The ports can be opened and closed to send Morse code A siren which can do both pulse and Morse code is known as a code siren Electronic edit nbsp HLS electronic sirenElectronic sirens incorporate circuits such as oscillators modulators and amplifiers to synthesize a selected siren tone wail yelp pierce priority phaser hi lo scan airhorn manual and a few more which is played through external speakers It is not unusual especially in the case of modern fire engines to see an emergency vehicle equipped with both types of sirens Often police sirens also use the interval of a tritone to help draw attention The first electronic siren that mimicked the sound of a mechanical siren was invented in 1965 by Motorola employees Ronald H Chapman and Charles W Stephens 12 Other types edit nbsp Whelen electronic siren WPS 2750 in Milpitas CASteam whistles were also used as a warning device if a supply of steam was present such as a sawmill or factory These were common before fire sirens became widely available particularly in the former Soviet Union Fire horns large compressed air horns also were and still are used as an alternative to a fire siren Many fire horn systems were wired to fire pull boxes that were located around a town and this would blast out a code in respect to that box s location For example pull box number 233 when pulled would trigger the fire horn to sound two blasts followed by a pause followed by three blasts followed by a pause followed by three more blasts In the days before telephones this was the only way firefighters would know the location of a fire The coded blasts were usually repeated several times This technology was also applied to many steam whistles as well Some fire sirens are fitted with brakes and dampers enabling them to sound out codes as well These units tended to be unreliable and are now uncommon citation needed Physics of the sound editMechanical sirens blow air through a slotted disk or rotor The cyclic waves of air pressure are the physical form of sound In many sirens a centrifugal blower and rotor are integrated into a single piece of material spun by an electric motor Electronic sirens are high efficiency loudspeakers with specialized amplifiers and tone generation They usually imitate the sounds of mechanical sirens in order to be recognizable as sirens To improve the efficiency of the siren it uses a relatively low frequency usually several hundred hertz Lower frequency sound waves go around corners and through holes better Sirens often use horns to aim the pressure waves This uses the siren s energy more efficiently by aiming it Exponential horns achieve similar efficiencies with less material The frequency i e the cycles per second of the sound of a mechanical siren is controlled by the speed of its rotor and the number of openings The wailing of a mechanical siren occurs as the rotor speeds and slows Wailing usually identifies an attack or urgent emergency The characteristic timbre or musical quality of a mechanical siren is caused because it is a triangle wave when graphed as pressure over time As the openings widen the emitted pressure increases As they close it decreases So the characteristic frequency distribution of the sound has harmonics at odd 1 3 5 multiples of the fundamental The power of the harmonics roll off in an inverse square to their frequency Distant sirens sound more mellow or warmer because their harsh high frequencies are absorbed by nearby objects Two tone sirens are often designed to emit a minor third musically considered a sad sound To do this they have two rotors with different numbers of openings The upper tone is produced by a rotor with a count of openings divisible by six The lower tone s rotor has a count of openings divisible by five Unlike an organ a mechanical siren s minor third is almost always physical not tempered To achieve tempered ratios in a mechanical siren the rotors must either be geared run by different motors or have very large numbers of openings Electronic sirens can easily produce a tempered minor third A mechanical siren that can alternate between its tones uses solenoids to move rotary shutters that cut off the air supply to one rotor then the other This is often used to identify a fire warning When testing a frightening sound is not desirable So electronic sirens then usually emit musical tones Westminster chimes is common Mechanical sirens sometimes self test by growling i e operating at low speeds In music editSirens are also used as musical instruments They have been prominently featured in works by avant garde and contemporary classical composers Examples include Edgard Varese s compositions Ameriques 1918 21 rev 1927 Hyperprism 1924 and Ionisation 1931 13 Arseny Avraamov s Symphony of Factory Sirens 1922 14 George Antheil s Ballet Mecanique 1926 Dimitri Shostakovich s Symphony No 2 1927 and Henry Fillmore s The Klaxon March of the Automobiles 1929 which features a klaxophone In popular music sirens have been used in The Chemical Brothers Song to the Siren 1992 and in a CBS News 60 Minutes segment played by percussionist Evelyn Glennie A variation of a siren played on a keyboard are the opening notes of the REO Speedwagon song Ridin the Storm Out Some heavy metal bands also use air raid type siren intros at the beginning of their shows citation needed The opening measure of Money City Maniacs 1998 by Canadian band Sloan uses multiple sirens overlapped Vehicle mounted edit nbsp Warning siren and emergency lights mounted on a fire truckApprovals or certifications edit Governments may have standards for vehicle mounted sirens For example in California sirens are designated Class A or Class B A Class A siren is loud enough that it can be mounted nearly anywhere on a vehicle Class B sirens are not as loud and must be mounted on a plane parallel to the level roadway and parallel to the direction the vehicle travels when driving in a straight line 15 Sirens must also be approved by local agencies in some cases For example the California Highway Patrol approves specific models for use on emergency vehicles in the state 16 The approval is important because it ensures the devices perform adequately Moreover using unapproved devices could be a factor in determining fault if a collision occurs citation needed The SAE International Emergency Warning Lights and Devices committee oversees the SAE emergency vehicle lighting practices and the siren practice J1849 a This practice was updated through cooperation between the SAE and the National Institute of Standards and Technology Though this version remains quite similar to the California Title 13 standard for sound output at various angles this updated practice enables an acoustic laboratory to test a dual speaker siren system for compliant sound output 17 Best practices edit This section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed October 2016 Learn how and when to remove this template message source source source source source source source A fire truck uses a sirenSiren speakers or mechanical sirens should always be mounted ahead of the passenger compartment This reduces the noise for occupants and makes two way radio and mobile telephone audio more intelligible during siren use It also puts the sound where it will be useful A 2007 study found passenger compartment sound levels could exceed 90dB A 18 Research has shown that sirens mounted behind the engine grille or under the wheel arches produces less unwanted noise inside the passenger cabin and to the side and rear of the vehicle while maintaining noise levels to give adequate warnings 19 The inclusion of broadband sound to sirens has the ability to increase localisation of sirens as in a directional siren as a spread of frequencies makes use of the three ways the brain detects a direction of a sound Interaural level difference interaural time difference and head related transfer function 20 The worst installations are those where the siren sound is emitted above and slightly behind the vehicle occupants such as cases where a light bar mounted speaker is used on a sedan or pickup Vehicles with concealed sirens also tend to have high noise levels inside In some cases concealed or poor installations produce noise levels which can permanently damage vehicle occupants hearing 21 Electric motor driven mechanical sirens may draw 50 to 200 amperes at 12 volts DC when spinning up to operating speed Appropriate wiring and transient protection for engine control computers is a necessary part of an installation Wiring should be similar in size to the wiring to the vehicle engine starter motor Mechanical vehicle mounted devices usually have an electric brake a solenoid that presses a friction pad against the siren rotor When an emergency vehicle arrives on scene or is cancelled en route the operator can rapidly stop the siren Multi speaker electronic sirens often are alleged to have dead spots at certain angles to the vehicle s direction of travel These are caused by phase differences The sound coming from the speaker array can phase cancel in some situations This phase cancellation occurs at single frequencies based upon the spacing of the speakers These phase differences also account for increases based upon the frequency and the speaker spacing However sirens are designed to sweep the frequency of their sound output typically no less than one octave This sweeping minimizes the effects of phase cancellation The result is that the average sound output from a dual speaker siren system is 3 dB greater than a single speaker system See also editBlues and twos Chrysler air raid siren Civil defense siren Foghorn Klaxon Thunderbolt siren Warning systemNotes and references edit Standard available at SAE J1849 2020 Edition February 2020 Emergency Vehicle Sirens Testing sirens Archived 2020 02 08 at the Wayback Machine Swiss Federal Office for Civil Protection page visited on 7 September 2013 The dials atop the siren are connected via reduction gears to the perforated disks in the cylinder beneath the dials which produce the siren s sound The dials allow the siren s frequency to be determined During the 19th century sirens were among the few sources of sound having a known frequency Hence they were used in research on hearing and sound See John Robison Encyclopaedia Britannica 3rd ed 1799 Temperament of the scale of music in John Robison with David Brewster and James Watt ed s A System of Mechanical Philosophy Edinburgh Scotland 1822 vol 4 pages 404 405 Archived 2022 11 13 at the Wayback Machine Ernst Robel Die Sirenen Ein Beitrag zur Entwickelungsgeschichte der Akustik Sirens A contribution to the history of the development of acoustics Berlin Germany R Gaertners 1891 part 1 pages 7 10 Archived 2022 11 13 at the Wayback Machine Charles Cagniard de la Tour 1819 Sur la Sirene nouvelle machine d acoustique destinee a mesures les vibrations de l air qui contient la son On the siren new acoustic machine to be used for measuring the vibrations of sound in air Annales de chimie et de physique vol 12 pages 167 171 For descriptions of Robison s and de la Tour s sirens see Robert T Beyer Sounds of Our Times Two Hundred Years of Acoustics New York Springer Verlag 1998 page 30 Archived 2022 11 13 at the Wayback Machine De la Tour s siren is illustrated on page 31 De la Tour s siren is also illustrated on page 12 Archived 2022 11 13 at the Wayback Machine of Hermann von Helmholtz On the Sensations of Tone as a Physiological Basis for the Theory of Music 3rd ed London England Longmans Green and Co 1875 Reprinted in 1954 by Dover Publishing Inc of N Y N Y The rotating disk of such a siren is driven by air pressure alone The holes in each disk are not drilled perpendicularly to the disk Instead the holes slope in a clockwise direction in one disk and counterclockwise in the other To escape the flowing air must therefore change direction sharply driving the rotating disk like a turbine See Robert T Beyer Sounds of Our Times Two Hundred Years of Acoustics New York Springer Verlag 1998 page 30 See also Michael Lamm Feel the noise The art and science of making sound alarming Invention and Technology Magazine vol 18 no 3 pages 22 27 Winter 2003 Lamm s article is available on line at American Heritage Archived 2008 02 18 at the Wayback Machine See Adolphe Ganot translator Edmund Atkinson Elementary Treatise on Physics Experimental and Applied 8th ed N Y N Y Wm Wood and Co 1877 pages 188 189 J H Poynting and J J Thomson Sound London Charles Griffin and Co 1899 page 37 Archived 2022 11 13 at the Wayback Machine de la Tour 1819 Sur la Sirene nouvelle machine d acoustique destinee a mesures les vibrations de l air qui contient la son Annales de chimie et de physique vol 12 page 171 Archived 2015 10 15 at the Wayback Machine Original Si l on fait passer de l eau dans la sirene au lieu d air elle produit egalement le son lors meme qu elle est entierement immergee dans ce fluide et les memes nombres de chocs produisent les memes nombre de notes par l air C est a cause de cette propriete d etre sonore dans l eau que j ai cru pouvoir lui donner le nom sous lequel elle est designee Translation If one runs water through the siren instead of air it still produces sound even though it is fully immersed in this fluid and the same number of shocks produce the same number of audible vibrations as in air It is because of this property of making sound in water that I thought I could give it the name by which it is designated Some sirens have two pairs of slotted cylinders allowing such a siren to produce two tones having a musical interval of a minor or a major third Alan Renton Lost Sounds The Story of Coast Fog Signals Latheronwheel Scotland Whittles Publishing 2001 page 51 Archived 2022 11 13 at the Wayback Machine For a brief biography of George Slight see the Spanish Wikipedia article George Slight in Spanish See David A Stevenson 1887 Ailsa Craig lighthouse and fog signals Archived 2022 11 13 at the Wayback Machine Minutes of the Proceedings of the Institution of Civil Engineers vol 89 pages 297 303 Regarding the siren see pages 300 and 301 Frederick A Talbot Lighthouses and Lightships Philadelphia Pennsylvania J B Lippincott amp Co 1913 page 62 Archived 2022 11 13 at the Wayback Machine Wayne Wheeler The history of fog signals part 1 The Keeper s Log vol 6 no 4 pages 20 23 Summer 1990 and The history of fog signals part 2 The Keeper s Log vol 7 no 1 pages 8 17 Fall 1990 See especially page 11 of part 2 Brian Clearman Transportation markings A Historical Survey 1750 2000 St Benedict Oregon Mount Angel Abbey 2002 pages 170 171 Available on line at University of Oregon Archived 2016 03 03 at the Wayback Machine Lighthouse Encyclopaedia Britannica 1911 11th ed vol 16 page 647 Archived 2022 11 13 at the Wayback Machine Ronald H Chapman and Charles W Stephens Electronic siren including a shock excited resonant circuit Archived 2017 02 06 at the Wayback Machine U S Patent no 3 324 408 filed Nov 23 1965 published June 6 1967 Varese and his Fire Siren Not So Wild The Washington Post 27 January 1978 Retrieved 15 September 2019 Aronson Marc 1998 Art Attack A Short Cultural History of the Avant Garde Boston MA Houghton Mifflin Harcourt p 84 ISBN 9780395797297 Cal Code Regs Tit 13 1028 Performance Requirements LII Legal Information Institute Retrieved 2022 11 13 Little R A 1970 Siren Standards Office of Justice Programs NCJRS J1849 202002 Emergency Vehicle Sirens SAE International www sae org Retrieved 2022 11 13 Catchpole K Mckeown D 2007 08 01 A framework for the design of ambulance sirens Ergonomics 50 8 1287 1301 doi 10 1080 00140130701318780 ISSN 0014 0139 PMID 17558670 S2CID 28283263 Catchpole Ken Denis Mckeown 8 June 2007 A framework for the design of ambulance sirens Ergonomics 50 8 1287 1301 doi 10 1080 00140130701318780 PMID 17558670 S2CID 28283263 Alarms and Sirens Physics org Retrieved 25 October 2012 Riach Douglas 2003 01 01 Emergency vehicle siren noise A potential for hearing loss Theses Doctorates and Masters Thesis Retrieved 2022 11 13 External links edit nbsp Wikimedia Commons has media related to Warning sirens Various examples Regulatory requirements for sirens on California licensed vehicles Author California Highway Patrol PDF Archived from the original PDF on 2007 02 06 206 KiB Whistle Museum Pictures of Siren whistles The Siren Archive pictures of fire sirens Retrieved from https en wikipedia org w index php title Siren alarm amp oldid 1191916619, wikipedia, wiki, book, books, library,

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