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Coaxial loudspeaker

April 13, 2024

A coaxial loudspeaker is a loudspeaker system in which the individual driver units radiate sound from the same point or axis. Two general types exist: one is a compact design using two or three speaker drivers, usually in car audio, and the other is a two-way high-power design for professional audio, also known as single-source or dual-concentric loudspeakers.[1] The design is favored for its compactness and behavior as an audio point source.

Professional audio edit

 
The studio monitors over the window are a pair of UREI 813s, each of which has a horn driver for high frequencies (blue rectangle) and coaxial 15-inch coaxial driver beneath it and a plain 15-inch driver above.
 
Studio monitor loudspeaker from Tannoy (c. 1990) with a 12 inch (30 cm) bass driver having a second, independent 2-inch-driver for high frequencies in the center. The crossover frequency is 1.400 Hz.

Coaxial loudspeakers in professional audio enable sound from two drivers to come from one source. This characteristic allows a wider field of listening to a synchronized summation of speaker drivers than loudspeaker enclosures containing physically separated drivers. As well, the pattern of response is symmetric around the axis of the loudspeaker.[2]

Since the 1943 introduction of the Altec Lansing Duplex 601 coaxial driver, recording studio monitors have often been coaxial loudspeaker designs. In 1945 the improved Altec 604[3] was introduced, and it soon became the recording industry standard studio monitor in the U.S.[4] First shown in 1947 in England, the Tannoy Dual Concentric design assumed the same role across Europe from the 1950s onward. The Altec 604 combined a 15-inch (380 mm) woofer with a compression driver attached to a horn to carry the high frequencies. The Tannoy also used a 15-inch woofer and a compression driver for high frequencies, but differed in that the woofer itself served as the final horn flare for the high frequency driver.[5] Thus, its output pattern was radially symmetric, not just mirror-image symmetric as in the Altec. Both designs placed the high frequency driver behind the low frequency driver, and both were not initially time aligned. The high frequencies arrived at the listener's ear slightly later than the low frequencies.

One drawback of the design is the production line difficulty in mating the two drivers, and in replacing or reconing the woofer. Another drawback is that the low frequencies tend to modulate the high frequencies, causing greater intermodulation distortion.[6] The Tannoy style of coaxial, with the woofer forming part of the high frequency horn, had greater intermodulation distortion. Designs similar to the Altec 604 have further problems with diffraction of the low frequencies around the central horn, and with rearward emanations from the horn body reflected forward by the woofer out of time with direct sound. All of the problems with sound waves tend to increase with sound pressure level, causing significant shifts in tone as the loudspeaker changes volume.[7]

In the late 1970s, Bill Putnam of Universal Audio worked with Ed Long and his patented Time Alignment crossover design to fix the long-standing problem of the two bandpasses not being aligned in time at their crossover point. The Altec 604 was given this elaborate new crossover feature and incorporated into the UREI 813 studio monitor, which also had a second woofer physically separate from the coaxial pair. This design dominated recording studios of the 1980s, and time alignment became a feature of competing manufacturers.[5] In 1977, Bob Cavin of McCune Sound in San Francisco modified the Altec 604 for the McCune SM-4, a large proprietary stage wedge, using John Meyer's patented high-compliance compression driver diaphragm, a higher-power woofer, and processor-controlled bi-amplification with line-level all-pass time alignment.[8][9] The McCune SM-4 was the first multi-angle stage monitor, and was used by many McCune clients such as the Playboy Jazz Festival and the Monterey Jazz Festival. In the 2000s, digital signal processing (DSP) was used by Fulcrum Acoustic to reduce some of the coaxial drawbacks such the diffraction of the woofer's upper range around the central horn, by filling in this "shadow" with low frequency sound from the compression driver, and by countering the out-of-time reflections bouncing off of the woofer.[7]

Coaxial loudspeakers have been used in stage monitors, giving musicians a more even sound field because of the single-source characteristic. As well, the enclosure may be made more compact. In the 1980s, Professional Audio Systems (PAS), using Time Alignment technology from Ed Long, sold the popular SW series of compact stage wedges, offered with a 12- or 15-inch woofer, and having a projecting high-frequency horn as in the 604. Other stage monitors using coaxial designs are made by Clair Brothers, L-Acoustics, Radian Audio Engineering, RCF, Beyma, dB Technologies, Fulcrum Acoustic, and Rat Sound in partnership with Eastern Acoustic Works.[10]

David Gunness and Fulcrum Acoustic have designed coaxial loudspeakers beginning in 2009, notably collaborating with PreSonus in 2013 to create the self-powered line of Sceptre S6 and S8 coaxial studio monitors,[11] and releasing Fulcrum's own FH15 full-range horn-loaded loudspeaker series in 2018.[12] All of the coaxial Fulcrum designs use digital signal processing to reduce distortion modes. Fulcrum's proprietary process is called Temporal Equalization (TQ).[13]

Home audio edit

Tannoy has produced coaxial loudspeakers, for the hi fidelity home consumer market since the early 1950s. Their "Dual Concentric" drivers early series included in order of introduction: Tannoy Blacks, Tannoy Silvers, Tannoy Reds, and Tannoy Golds. Jensen introduced several coaxial speakers in the 1950s including their highly regarded triaxial models. Several other manufacturers introduced coaxial speakers and drivers in the 1950s including University, however due to their higher cost most did not last in the consumer market. In 1988, KEF introduced an extension of the coaxial loudspeaker concept. Their Uni-Q driver is a coincident driver, where the two drivers share the same acoustic center and therefore are closer in time alignment. This was made possible by using the then newly affordable powerful yet small neodymium magnets for the tweeter making the whole tweeter assembly small enough, magnet included, to fit inside the woofer's voice coil. Other home audio speaker companies making coaxial speakers include TAD, Cabasse with their 4-way Concentric QC-55 Driver as seen in their flagship model - La Sphère, Hsu, Vandersteen, until recently Theil, and a budget speaker made a few years ago by Insignia.

Car audio edit

 
A car audio speaker with a coaxial tweeter in front of the woofer

Coaxial speakers in automobiles are 2- or 3-way loudspeakers in which the tweeter, or the tweeter and a mid-range driver, are mounted in front of the woofer, partially obscuring it. The advantage of this design is the ability to use a smaller area, hence their popularity in car audio. The low frequency sound waves from the woofer are not reduced too much by the drivers in their path. Without time-alignment correction, the sound from the tweeter may arrive slightly before the sound from the woofer; this misalignment is not generally addressed in automobile sound systems.

This design was popularized in the 1970s with Electronic Industries, Inc. of South Holland, Illinois introducing the general concept in May 1973,[14] and Jensen Loudspeakers introducing a retail model the next month.[15] This was followed by designs from Sparkomatic, Clarion, Infinity and others.

References edit

  1. ^ Eiche, Jon F. (1990). Guide to Sound Systems for Worship. Recording and Audio Technology. Hal Leonard Corporation. p. 92. ISBN 0-7935-0029-X.
  2. ^ Ballou, Glen (2005). Handbook for Sound Engineers. Focal Press, Gulf Professional Publishing. pp. 514–516. ISBN 0-240-80758-8.
  3. ^ Audioheritage. Altec Duplex
  4. ^ McGowan, Chris (November 15, 1980). "Sound Pioneers". Billboard. 92 (46). Nielsen Business Media: 42. ISSN 0006-2510.
  5. ^ a b Borwick, John (2001). Loudspeaker and headphone handbook (3 ed.). Focal Press. pp. 474–476. ISBN 0-240-51578-1.
  6. ^ Dupont, Edward; Lipshitz, Stanley P. (September 2010). "Modeling the Intermodulation Distortion of a Coaxial Loudspeaker". Audio Engineering Society. Retrieved May 1, 2011.
  7. ^ a b . Fulcrum Acoustic. 2009. Archived from the original on March 23, 2012. Retrieved May 1, 2011.
  8. ^ Maloney, Pat (December 1980). "Time Alignment of Sound Reinforcement Equipment" (PDF). Recording Engineer Producer. p. 54.
  9. ^ Harvey, Robert (August 1983). "The Venerable 604" (PDF). DB. p. 34.
  10. ^ Frink, Mark (April 7, 2011). "Monitor Wedge Tips: Tools Of The Trade To Have A Successful Show". ProSoundWeb. Retrieved May 1, 2011.
  11. ^ White, Paul (July 2014). "PreSonus Sceptre S6 & S8". Sound on Sound. Retrieved July 22, 2020.
  12. ^ Staff (May 23, 2018). "Fulcrum Acoustic Announces FH15 Full-Range Coaxial Horn Product Line". Lighting and Sound (America). Retrieved July 22, 2020.
  13. ^ Basnicki, Erica (March 25, 2013). "Dave Gunness: loudspeaker design comes full circle". Pro Sound News (Europe). Retrieved July 22, 2020.
  14. ^ "Car Speakers Hi-Fi Emphasis—Display Vital". Billboard. 85 (21). Nielsen Business Media: 37. May 26, 1973. ISSN 0006-2510.
  15. ^ "Car Stereo". Billboard. 85 (25). Nielsen Business Media: 68. June 23, 1973. ISSN 0006-2510.

April 13, 2024
coaxial, loudspeaker, coaxial, loudspeaker, loudspeaker, system, which, individual, driver, units, radiate, sound, from, same, point, axis, general, types, exist, compact, design, using, three, speaker, drivers, usually, audio, other, high, power, design, prof. A coaxial loudspeaker is a loudspeaker system in which the individual driver units radiate sound from the same point or axis Two general types exist one is a compact design using two or three speaker drivers usually in car audio and the other is a two way high power design for professional audio also known as single source or dual concentric loudspeakers 1 The design is favored for its compactness and behavior as an audio point source Contents 1 Professional audio 2 Home audio 3 Car audio 4 ReferencesProfessional audio edit nbsp The studio monitors over the window are a pair of UREI 813s each of which has a horn driver for high frequencies blue rectangle and coaxial 15 inch coaxial driver beneath it and a plain 15 inch driver above nbsp Studio monitor loudspeaker from Tannoy c 1990 with a 12 inch 30 cm bass driver having a second independent 2 inch driver for high frequencies in the center The crossover frequency is 1 400 Hz Coaxial loudspeakers in professional audio enable sound from two drivers to come from one source This characteristic allows a wider field of listening to a synchronized summation of speaker drivers than loudspeaker enclosures containing physically separated drivers As well the pattern of response is symmetric around the axis of the loudspeaker 2 Since the 1943 introduction of the Altec Lansing Duplex 601 coaxial driver recording studio monitors have often been coaxial loudspeaker designs In 1945 the improved Altec 604 3 was introduced and it soon became the recording industry standard studio monitor in the U S 4 First shown in 1947 in England the Tannoy Dual Concentric design assumed the same role across Europe from the 1950s onward The Altec 604 combined a 15 inch 380 mm woofer with a compression driver attached to a horn to carry the high frequencies The Tannoy also used a 15 inch woofer and a compression driver for high frequencies but differed in that the woofer itself served as the final horn flare for the high frequency driver 5 Thus its output pattern was radially symmetric not just mirror image symmetric as in the Altec Both designs placed the high frequency driver behind the low frequency driver and both were not initially time aligned The high frequencies arrived at the listener s ear slightly later than the low frequencies One drawback of the design is the production line difficulty in mating the two drivers and in replacing or reconing the woofer Another drawback is that the low frequencies tend to modulate the high frequencies causing greater intermodulation distortion 6 The Tannoy style of coaxial with the woofer forming part of the high frequency horn had greater intermodulation distortion Designs similar to the Altec 604 have further problems with diffraction of the low frequencies around the central horn and with rearward emanations from the horn body reflected forward by the woofer out of time with direct sound All of the problems with sound waves tend to increase with sound pressure level causing significant shifts in tone as the loudspeaker changes volume 7 In the late 1970s Bill Putnam of Universal Audio worked with Ed Long and his patented Time Alignment crossover design to fix the long standing problem of the two bandpasses not being aligned in time at their crossover point The Altec 604 was given this elaborate new crossover feature and incorporated into the UREI 813 studio monitor which also had a second woofer physically separate from the coaxial pair This design dominated recording studios of the 1980s and time alignment became a feature of competing manufacturers 5 In 1977 Bob Cavin of McCune Sound in San Francisco modified the Altec 604 for the McCune SM 4 a large proprietary stage wedge using John Meyer s patented high compliance compression driver diaphragm a higher power woofer and processor controlled bi amplification with line level all pass time alignment 8 9 The McCune SM 4 was the first multi angle stage monitor and was used by many McCune clients such as the Playboy Jazz Festival and the Monterey Jazz Festival In the 2000s digital signal processing DSP was used by Fulcrum Acoustic to reduce some of the coaxial drawbacks such the diffraction of the woofer s upper range around the central horn by filling in this shadow with low frequency sound from the compression driver and by countering the out of time reflections bouncing off of the woofer 7 Coaxial loudspeakers have been used in stage monitors giving musicians a more even sound field because of the single source characteristic As well the enclosure may be made more compact In the 1980s Professional Audio Systems PAS using Time Alignment technology from Ed Long sold the popular SW series of compact stage wedges offered with a 12 or 15 inch woofer and having a projecting high frequency horn as in the 604 Other stage monitors using coaxial designs are made by Clair Brothers L Acoustics Radian Audio Engineering RCF Beyma dB Technologies Fulcrum Acoustic and Rat Sound in partnership with Eastern Acoustic Works 10 David Gunness and Fulcrum Acoustic have designed coaxial loudspeakers beginning in 2009 notably collaborating with PreSonus in 2013 to create the self powered line of Sceptre S6 and S8 coaxial studio monitors 11 and releasing Fulcrum s own FH15 full range horn loaded loudspeaker series in 2018 12 All of the coaxial Fulcrum designs use digital signal processing to reduce distortion modes Fulcrum s proprietary process is called Temporal Equalization TQ 13 Home audio editTannoy has produced coaxial loudspeakers for the hi fidelity home consumer market since the early 1950s Their Dual Concentric drivers early series included in order of introduction Tannoy Blacks Tannoy Silvers Tannoy Reds and Tannoy Golds Jensen introduced several coaxial speakers in the 1950s including their highly regarded triaxial models Several other manufacturers introduced coaxial speakers and drivers in the 1950s including University however due to their higher cost most did not last in the consumer market In 1988 KEF introduced an extension of the coaxial loudspeaker concept Their Uni Q driver is a coincident driver where the two drivers share the same acoustic center and therefore are closer in time alignment This was made possible by using the then newly affordable powerful yet small neodymium magnets for the tweeter making the whole tweeter assembly small enough magnet included to fit inside the woofer s voice coil Other home audio speaker companies making coaxial speakers include TAD Cabasse with their 4 way Concentric QC 55 Driver as seen in their flagship model La Sphere Hsu Vandersteen until recently Theil and a budget speaker made a few years ago by Insignia Car audio edit nbsp A car audio speaker with a coaxial tweeter in front of the wooferCoaxial speakers in automobiles are 2 or 3 way loudspeakers in which the tweeter or the tweeter and a mid range driver are mounted in front of the woofer partially obscuring it The advantage of this design is the ability to use a smaller area hence their popularity in car audio The low frequency sound waves from the woofer are not reduced too much by the drivers in their path Without time alignment correction the sound from the tweeter may arrive slightly before the sound from the woofer this misalignment is not generally addressed in automobile sound systems This design was popularized in the 1970s with Electronic Industries Inc of South Holland Illinois introducing the general concept in May 1973 14 and Jensen Loudspeakers introducing a retail model the next month 15 This was followed by designs from Sparkomatic Clarion Infinity and others References edit Eiche Jon F 1990 Guide to Sound Systems for Worship Recording and Audio Technology Hal Leonard Corporation p 92 ISBN 0 7935 0029 X Ballou Glen 2005 Handbook for Sound Engineers Focal Press Gulf Professional Publishing pp 514 516 ISBN 0 240 80758 8 Audioheritage Altec Duplex McGowan Chris November 15 1980 Sound Pioneers Billboard 92 46 Nielsen Business Media 42 ISSN 0006 2510 a b Borwick John 2001 Loudspeaker and headphone handbook 3 ed Focal Press pp 474 476 ISBN 0 240 51578 1 Dupont Edward Lipshitz Stanley P September 2010 Modeling the Intermodulation Distortion of a Coaxial Loudspeaker Audio Engineering Society Retrieved May 1 2011 a b Building a Better Coax Fulcrum Acoustic 2009 Archived from the original on March 23 2012 Retrieved May 1 2011 Maloney Pat December 1980 Time Alignment of Sound Reinforcement Equipment PDF Recording Engineer Producer p 54 Harvey Robert August 1983 The Venerable 604 PDF DB p 34 Frink Mark April 7 2011 Monitor Wedge Tips Tools Of The Trade To Have A Successful Show ProSoundWeb Retrieved May 1 2011 White Paul July 2014 PreSonus Sceptre S6 amp S8 Sound on Sound Retrieved July 22 2020 Staff May 23 2018 Fulcrum Acoustic Announces FH15 Full Range Coaxial Horn Product Line Lighting and Sound America Retrieved July 22 2020 Basnicki Erica March 25 2013 Dave Gunness loudspeaker design comes full circle Pro Sound News Europe Retrieved July 22 2020 Car Speakers Hi Fi Emphasis Display Vital Billboard 85 21 Nielsen Business Media 37 May 26 1973 ISSN 0006 2510 Car Stereo Billboard 85 25 Nielsen Business Media 68 June 23 1973 ISSN 0006 2510 Retrieved from https en wikipedia org w index php title Coaxial loudspeaker amp oldid 1190875316, wikipedia, wiki, book, books, library,

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