Yamaha DX7

Summary

The Yamaha DX7 is a synthesizer manufactured by the Yamaha Corporation from 1983 to 1989. It was the first successful digital synthesizer and is one of the best-selling synthesizers in history, selling more than 200,000 units.

Yamaha DX7
ManufacturerYamaha
DatesMay 1983–1989
Price$1,995 US
£1,495 GBP
¥248,000 JPY
Technical specifications
Polyphony16-voice
TimbralityMonotimbral
Bi-timbral (DX7 II)
Oscillator6 digital sine wave operators per voice, 32 patching algorithms[1]
Synthesis typeDigital linear frequency modulation /
Additive synthesis (alg. #32)
Filternone
Attenuator1 pitch envelope & 6 amplitude generators per voice
Aftertouch expressionYes (channel)
Velocity expressionYes
Storage memory32 patches in RAM (battery backup); front panel ROM/RAM cartridge port
Effectsnone
HardwareYM21280 (OPS) operator chip
YM21290 (EGS) envelope generator
Input/output
Keyboard61-note with velocity
and aftertouch sensitivity
Left-hand controlpitch-bend and modulation wheels
External controlMIDI in/out/thru, input for foot controller x2, input for foot switch x2, input for optional breath controller

In the early 1980s, the synthesizer market was dominated by analog synthesizers. FM synthesis, a means of generating sounds via frequency modulation, was developed by John Chowning at Stanford University, California. FM synthesis created brighter, glassier sounds, and could better imitate acoustic sounds such as brass and bells. Yamaha licensed the technology to create the DX7, combining it with very-large-scale integration chips to lower manufacturing costs.

With its complex menus and lack of conventional controls, few learned to program the DX7 in depth. However, its preset sounds became staples of 1980s pop music; in 1986, it was used in 40% of the number-one singles on the US Billboard Hot 100. Its electric piano sound was particularly widely used, especially in power ballads. The English producer Brian Eno was proficient at programming his own sounds, and it was instrumental to his work in ambient music. Chips based on the DX7 sound chip, such as the YM2612, were used in technologies such as the Sega Genesis game console.

The DX7 was succeeded by FM synthesizers including the DX1, DX21, DX27 and DX100. In later years, the DX7 sounds came to be seen as dated or clichéd and its use declined.

Development edit

By the mid-20th century, frequency modulation (FM), a means of carrying sound, had been understood for decades and was widely used to broadcast radio transmissions.[2] In the 1960s, at Stanford University, California, John Chowning developed FM synthesis, a means of using FM to generate sounds different from analog synthesis. In 1971, to demonstrate its commercial potential, Chowning used FM to emulate acoustic sounds such as organs and brass. Stanford patented the technology and hoped to license it, but was turned down by American companies including Hammond and Wurlitzer.[3] Chowning felt their engineers, who were used to analog synthesis, did not understand FM.[4]

At the time, the Japanese company Yamaha was the world's largest manufacturer of musical instruments but had little market share in the United States.[4] One of their chief engineers visited Stanford and, according to Chowning, "in ten minutes he understood ... I guess Yamaha had already been working in the digital domain, so he knew exactly what I was saying."[4] Yamaha licensed the technology for one year to determine its commercial viability, and in 1973 its organ division began developing a prototype FM monophonic synthesizer. In 1975, Yamaha negotiated exclusive rights for the technology.[3]

Ikutaro Kakehashi, the founder of the Japanese company Roland, was also interested in the technology, but met Chowning six months after Yamaha had agreed to the deal. Kakehashi later said Yamaha were the natural partners in the venture, as they had the resources to make FM synthesis commercially viable.[2]

 
John Chowning, who developed the frequency modulation technology used in the DX7

Yamaha created the first hardware implementation of FM synthesis.[4] The first commercial FM synthesizer was the Yamaha GS1, released in 1980,[5] which was expensive to manufacture due to its integrated circuit chips.[4] At the same time, Yamaha was developing the means to manufacture very-large-scale integration chips. These allowed the DX7 to use only two chips, compared to the GS1's 50.[4] Yamaha also altered the implementation of the FM algorithms in the DX7 for efficiency and speed, producing a sampling rate higher than Stanford's synthesizers. Chowning felt this produced a noticeable "brilliant" sound.[4]

Yamaha displayed a prototype of the DX7 in 1982, branded the CSDX in reference to the Yamaha CS range of analog synthesizers.[6] In late 1982, Dave Bristow and Gary Leuenberger, experts on the Yamaha CS-80, flew to Japan to develop the DX7's voices. They had less than four days to create the DX7's 128 preset patches.[7]

Features edit

 
The settings buttons include controls for effects such as portamento.

Compared to the "warm" and "fuzzy" sounds of analog synthesizers, the digital DX7 sounds "harsh", "glassy" and "chilly",[8] with a richer, brighter sound.[9] Its presets constitute "struck" and "plucked" sounds with complex transients.[9] Its keyboard spans five octaves,[7] and the keyboard expression allows for velocity sensitivity and aftertouch.[7] The DX7 has 16-note polyphony, meaning 16 notes can sound simultaneously. It has 32 sound-generating algorithms,[1] each a different arrangement of its six sine wave operators.[9] The DX7 was the first synthesizer with a liquid-crystal display, and the first to allow users to name patches.[7]

Sales edit

The DX7 was the first commercially successful digital synthesizer[10][11][12] and remains one of the bestselling synthesizers in history.[11][13] According to Bristow, Yamaha had hoped to sell more than 20,000 units. Within a year, orders exceeded 150,000 units,[7] and Yamaha had sold 200,000 units after three years.[14]

The DX7 was the first synthesizer to sell more than 100,000 units.[7] Yamaha manufactured units on a scale American competitors could not match; by comparison, Moog sold 12,000 Minimoog synthesizers in 11 years, and could not meet demand.[14] The FM patent was for years one of Stanford's highest earning.[15] Chowning received royalties for all of Yamaha's FM synthesizers.[3]

According to Dave Smith, the founder of the synthesizer company Sequential, "The synthesizer market was tiny in the late 70s. No one was selling 50,000 of these things. It wasn't until the Yamaha DX7 came out that a company shipped 100,000-plus synths."[16] Smith said the DX7 sold well as it was reasonably priced, had keyboard expression and 16 voices, and was better at emulating acoustic sounds than competing products.[16] Chowning credited the success to the combination of his FM patent with Yamaha's chip technology.[4]

Impact edit

At the time of release, the DX7 was the first digital synthesizer most musicians had used.[8] It was very different from the analog synthesizers that had dominated the market.[17] According to MusicRadar, its "spiky" and "crystalline" sounds made it "the perfect antidote to a decade of analog waveforms".[17] It was praised for its accuracy in reproducing tubular bells, metallophones and the harpsichord, and took over the electric piano market.[18][19]

"Danger Zone", a 1986 single by Kenny Loggins, uses the DX7 "BASS 1" preset.

With complex submenus displayed on an LCD and no knobs and sliders to adjust the sound, many found the DX7 difficult to program.[20] MusicRadar described its interface as "nearly impenetrable", with "operators, algorithms and unusual envelopes ... accessed through tedious menus and a diminutive display".[17] Rather than create their own sounds, most users used the presets.[8]

The presets were widely used in 1980s pop music.[9] The "BASS 1" preset was used on songs such as "Take On Me" by A-ha, "Danger Zone" by Kenny Loggins, and "Fresh" by Kool & the Gang.[8] The "E PIANO 1" preset became particularly famous,[8][21] especially for power ballads,[22] and was used by artists including Whitney Houston, Chicago,[22] Phil Collins, Luther Vandross, Billy Ocean[8] and Celine Dion.[23] In 1986, it was used in 40% of the number-one singles on the US Billboard Hot 100, 40% of country number ones, and 60% of RnB number ones.[24] The preset imitates a Rhodes piano, prompting some to abandon the Rhodes in favor of the DX7.[25]

A few musicians skilled at programming the DX7 found employment creating sounds for other acts.[26] The English musician Brian Eno learned to program the DX7 in depth and used it to create ambient music on his 1983 album Apollo: Atmospheres and Soundtracks.[8] He shared instructions for recreating his patches in a 1987 issue of Keyboard.[20] Eno used the DX7 on records he produced by U2 and Coldplay.[8] In later years, the DX sounds came to be seen as dated or clichéd, and interest in FM synthesis declined, with second-hand digital synthesizers selling for less than analog.[8] The development of software synthesizers such as Native Instruments FM8 led to a resurgence in the popularity of FM synthesis.[27]

Successors edit

According to Sound on Sound, throughout the mid-1980s, "Yamaha flooded the market with a plethora of low-cost FM synths."[6] In 1987, Yamaha released the DX7II, which did not match the success of the DX7.[7] Further successors included the TX81Z, DX1, DX11, and DX21.[6] Yamaha manufactured reduced versions of the DX7 sound chip, such as the YM2612, for use in technologies such as the Sega Genesis game console.[28] In 2015, Yamaha released a smaller FM synthesizer, the Reface DX.[29]

References edit

  1. ^ a b "Chapter 2: FM Tone Generators and the Dawn of Home Music Production". History, Yamaha Synth 40th Anniversary. Yamaha Corporation. 2014. Archived from the original on October 23, 2014. At that time, a number of Yamaha departments were developing different instruments in parallel, ... the direct forerunner of the DX Series synths was a test model known as the Programmable Algorithm Music Synthesizer (PAMS). In recognition of this fact, the DX7 is identified as a Digital Programmable Algorithm Synthesizer on its top panel. / As its name suggests, the PAMS created sound based on various calculation algorithms—namely, phase modulation, amplitude modulation, additive synthesis, and frequency modulation (FM)—and from the very start, the prototype supported the storing of programs in memory. However, this high level of freedom in sound design came at the price of a huge increase in the number of parameters required, meaning that the PAMS was not yet suitable for commercialization as an instrument that the average user could program. / In order to resolve this issue, the Yamaha developers decided to simplify the synth's tone generator design by having the modulator and carrier envelope generators share common parameters. They also reduced the number of algorithms—or operator combination patterns—to 32.
  2. ^ a b "The History Of Roland: Part 2". Sound on Sound. Retrieved February 5, 2020.
  3. ^ a b c Reid, Gordon (September 2015). "John Chowning". Sound on Sound. Retrieved October 19, 2018.
  4. ^ a b c d e f g h Darter, Tom. "John Chowning" (PDF). Stanford University.
  5. ^ Curtis Roads (1996). The computer music tutorial. MIT Press. p. 226. ISBN 0-262-68082-3. Retrieved June 5, 2011.
  6. ^ a b c Gordon Reid (September 2001). "Sounds of the '80s Part 2: The Yamaha DX1 & Its Successors (Retro)". Sound on Sound. Archived from the original on September 17, 2011. Retrieved June 29, 2011.
  7. ^ a b c d e f g Vail, Mark (2014). The Synthesizer. Oxford University Press. p. 59. ISBN 978-0195394894.
  8. ^ a b c d e f g h i "The 14 most important synths in electronic music history – and the musicians who use them". FACT Magazine: Music News, New Music. September 15, 2016. Retrieved October 19, 2018.
  9. ^ a b c d Brøvig-Hanssen, Ragnhild; Danielsen, Anne (February 19, 2016). Digital Signatures: The Impact of Digitization on Popular Music Sound. MIT Press. ISBN 9780262034142.
  10. ^ Edmondson, Jacqueline, ed. (2013). Music in American Life: An Encyclopedia of the Songs, Styles, Stars, and Stories that Shaped our Culture [4 volumes]. ABC-CLIO. p. 398. ISBN 9780313393488. In 1967, John Chowning, at Stanford University, accidentally discovered frequency modulation (FM) synthesis when experimenting with extreme vibrato effects in MUSIC-V. ... By 1971 he was able to use FM synthesis to synthesizer musical instrument sounds, and this technique was later used to create the Yamaha DX synthesizer, the first commercially successful digital synthesizer, in the early 1980s.
  11. ^ a b Shepard, Brian K. (2013). Refining Sound: A Practical Guide to Synthesis and Synthesizers. Oxford University Press. ISBN 9780199376681. The first digital synthesizer to make it into the studios of everyone else, the Yamaha DX7, became one of the most commercially successful synthesizers of all time.
  12. ^ Pinch, T. J.; Bijsterveld, Karin (July 2003). ""Should One Applaud?" Breaches and Boundaries in the Reception of New Technology in Music". Technology and Culture. 44 (3): 536–559. doi:10.1353/tech.2003.0126. S2CID 132403480. By the time the first commercially successful digital instrument, the Yamaha DX7 (lifetime sales of two hundred thousand), appeared in 1983 ... (Note: the above sales number seems about whole DX series)
  13. ^ Holmes, Thom (2008). "Early Computer Music". Electronic and experimental music: technology, music, and culture (3rd ed.). Taylor & Francis. p. 257. ISBN 978-0415957816. Retrieved June 4, 2011.
  14. ^ a b Weiner, Sophie (October 20, 2017). "Minimoog: The First Truly Portable Synthesizer". Red Bull Music Academy Daily. Archived from the original on October 19, 2023. Retrieved October 19, 2023.
  15. ^ Pinch, Trevor; Trocco, Frank (2002). Analog Days: The invention and impact of the Moog synthesizer. Harvard University Press. p. 6. ISBN 0674008898.
  16. ^ a b "Dave Smith". KeyboardMag. Retrieved October 20, 2018.
  17. ^ a b c "The top 10 classic synth presets (and where you can hear them)". MusicRadar. Retrieved October 19, 2018.
  18. ^ Russ, Martin (2012). Sound Synthesis and Sampling. CRC Press. p. 356. ISBN 9781136115103.
  19. ^ Biedny, David (February 2007). "Native Instruments FM8 – Get Your Synth On". MacLife. p. 84. Retrieved December 13, 2023.
  20. ^ a b "Sound like Brian Eno with his Yamaha DX7 synth patches from 1987". FACT Magazine: Music News, New Music. May 12, 2017. Retrieved October 19, 2018.
  21. ^ "The top 10 classic synth presets (and where you can hear them)". MusicRadar. Retrieved October 19, 2018.
  22. ^ a b Simpson, Dave (August 14, 2018). "More synthetic bamboo! The greatest preset sounds in pop music". the Guardian. Retrieved October 19, 2018.
  23. ^ Saxelby, Ruth. "Borne into the 90s [pt.1]". DMY. Archived from the original on January 28, 2023. Retrieved June 14, 2023.
  24. ^ "Yamaha's DX7 synthesiser changed modern music". The Economist. December 31, 2020.
  25. ^ Verderosa, Tony (2002). The Techno Primer: The Essential Reference for Loop-based Music Styles. Hal Leonard Corporation. p. 120. ISBN 978-0-634-01788-9.
  26. ^ Roger T. Dean, ed. (September 16, 2009). The Oxford Handbook of Computer Music. Oxford University Press. p. 81. ISBN 9780199887132.
  27. ^ Stevens, Blake (August 16, 2021). Teaching Electronic Music: Cultural, Creative, and Analytical Perspectives. Routledge. ISBN 978-1-000-41727-2.
  28. ^ Stuart, Keith (February 13, 2020). "Super Sonic: creating the new sound of Sega's hedgehog hit". The Guardian. ISSN 0261-3077. Retrieved February 14, 2020.
  29. ^ Goldman, Dan 'JD73' (October 13, 2015). "Yamaha Reface DX review". MusicRadar. Retrieved February 2, 2020.{{cite web}}: CS1 maint: numeric names: authors list (link)

Further reading edit

  • "Yamaha DX7IID/FD Synthesizers". Music Technology. March 1987. p. 30. ISSN 0957-6606. OCLC 24835173.

External links edit

  • "Yamaha DX7 Digital programmable algorithm synthesizer". Yamaha Black Boxes.
  • Lavengood, Megan L. (2021). "The Yamaha DX7 in Synthesizer History".
  • Lavengood, Megan L. (2019). ""What makes it sound '80s?": The Yamaha DX7 Electric Piano Sound" (PDF). Journal of Popular Music Studies. 31 (3): 73–94. doi:10.1525/jpms.2019.313009. S2CID 203055819.
  • Shirriff, Ken (November 2021). "Reverse-engineering the Yamaha DX7 synthesizer's sound chip from die photos".
    • — (November 2021). "The Yamaha DX7 synthesizer's clever exponential circuit, reverse-engineered".
    • — (December 2021). "Part III: Inside the log-sine ROM".
    • — (December 2021). "Part IV: how algorithms are implemented".
    • — (February 2022). "Part V: the output circuitry".
    • — (February 2022). "Part VI: the control registers".
  • US Expired 4554857A, Tetsuo Nishimoto, "Electronic musical instrument capable of varying a tone synthesis operation algorithm", issued 1985-11-26, assigned to Yamaha