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Computone Wind Synthesizer Controller
(essentially a Lyricon II without synthesizer)

The Lyricon is an electronic wind instrument invented by Bill Bernardi and produced by Computone Inc. in small numbers from 1974 until roughly 1980. It was the first wind controller, and predated MIDI and widespread use of digital synthesizers.[1] Three models were developed: the Lyricon I, Wind Synthesizer Driver, and Lyricon II.

History

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The Lyricon was invented by Bill Bernardi (and co-engineered by Roger Noble and with the late Lyricon performer Chuck Greenberg[2][3]) of Shadowfax, filed for patent on October 5, 1971, by Computone Inc., patented under #US3767833 October 23, 1973,[4] and manufactured by Computone Inc. in Massachusetts in the early 1970s. The first Lyricon was completed in 1974, with Tom Scott being the first customer for the instrument.[5]

The Lyricon was available in two designs, the first being somewhat silver and resembling a soprano saxophone and the latter, black and resembling an alto clarinet. Using a form of additive synthesis, the player was allowed to change between types of overtones with a key switchable between fundamentals of G, Bb, C, Eb, and F (allowing the instrument to be used to play transposed parts written for saxophones, trumpets, etc.) and an octave range that could be switched between low, medium, or high. The instrument also had controls for glissando, portamento, and "timbre attack" (a type of chorusing). The Lyricon used a bass clarinet mouthpiece, with a sprung metal sensor on the (non-vibrating) reed that detected lip pressure.[6] Wind pressure was detected[6] by a diaphragm, which moved and changed the light output from an LED, which was in turn sensed by a photocell to give dynamic control. The Lyricon I was originally priced at $3,295[7] which was quite expensive for the time, also probably one of the reasons why the instrument was sold only in small numbers.

Two additional remodeled Lyricons were engineered over time.[8] The first was the "Wind Synthesizer Driver", which had control voltage outputs for lip pressure, wind pressure and pitch, to control the VCA and VCF and pitch of an external analog synthesizer. The second was the "Lyricon II", which included a two-oscillator synthesizer. All Lyricons used the same saxophone-style fingering system, with two octave keys above the left-hand thumb rest. The Wind Synthesizer Driver and the Lyricon II also had a transposition footswitch feature, where a foot pedal could be used to transpose the entire range up or down one octave. None of the Lyricons were engineered to use MIDI (which was introduced in 1982, while Yamaha started to develop their WX7 MIDI wind instrument[8]), although external MIDIfication modules were produced by JLCooper and STEIM. The design of the Lyricon controller was later borrowed to form the basis for Yamaha's WX-series MIDI wind controllers.

Approximately 200 units of the Lyricon I were handmade and approximately 2000 units of the driver and Lyricon II were manufactured.[8][9] However, since Computone went out of business in 1980 and Bernardi died in 2014, the number of functioning instruments has greatly reduced as few people have the know-how to repair them and spare parts are hard to obtain.

Prominent examples of a Lyricon's sound can be heard in Tom Scott's intros to Steely Dan’s 1977 song "Peg" and Michael Jackson's song "Billie Jean". Additionally, Gerry Rafferty's song "Night Owl" features Raphael Ravenscroft using the instrument.[7] Takeshi Itoh, the saxophonist of T-Square, also makes frequent use of the Lyricon, which was used frequently in T-Square's compositions in the 1970s and 1980s.

Prominent Lyriconists

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References

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Notes

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[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Lyricon

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from Grokipedia
The Lyricon is an analog electronic wind synthesizer and the first commercially produced wind controller, invented in the early by Bill Bernardi and Roger Noble at Computone Inc. in . It resembles a in form and employs similar fingering with clarinet-style keys and octave rollers, but uses breath pressure for volume, lip pressure for pitch bend and , and finger position for note selection, converting these inputs via transducers into control voltages for sound synthesis. Patented in 1973 (US Patent #3,767,833), the instrument pioneered expressive electronic wind performance before the advent of technology. Computone produced three primary models: the original Lyricon I (circa 1971–1975), a hand-built unit with additive synthesis and a single oscillator, of which approximately 200–300 were made at a price of around $3,295; the Lyricon II (1975–1980s), a mass-produced version with two oscillators, a built-in filter, and low-frequency oscillator for enhanced sound design, totaling about 2,000–5,000 units; and the Wind Synthesizer Driver, a controller-only variant that interfaced with external analog synthesizers like Moog or Oberheim models, with around 200–2,000 produced. Unlike later digital MIDI controllers such as the Akai EWI or Yamaha WX series, the Lyricon relied on continuous analog voltages, limiting its polyphony but offering immediate, organic response suited to jazz and fusion improvisation. The instrument gained prominence in jazz-fusion and during the 1970s, with notable performers including Tom Scott (dubbed "Mr. Lyricon" for his extensive use), , and , who integrated it into live sets for its breath-controlled expressiveness. It appeared on recordings such as Steely Dan's "Peg" (1977, featuring Scott's solo) and Michael Jackson's "" (1982). Despite its innovation, the Lyricon declined in the amid the revolution and Computone's closure in the early 1980s; its inventor Bill Bernardi continued independent work until his death in 2014. It influenced subsequent wind controllers and remains a collector's item today, with ongoing enthusiast interest in maintenance and modifications as of 2025.

History

Invention and Development

The Lyricon, the first electronic wind controller, was invented in the early 1970s by Bill Bernardi, an electrical engineer and former musician, with engineering contributions from Roger Noble and assistance from performer Chuck Greenberg at Computone Inc. in . Bernardi's motivation stemmed from his background as a woodwind performer, aiming to create an instrument that combined the expressive playability of acoustic winds with the timbral versatility of analog synthesizers. Development began with research into wind pressure transduction, leading to a patent filing on October 5, 1971, for U.S. Patent 3,767,833, granted on October 23, 1973, to inventors Bernardi and Noble and assigned to Computone Inc. The patent detailed the core technology: a wind-sensing system using a to convert breath pressure into electrical signals for controlling sound generation and expression in an . This addressed the limitations of existing synthesizers by enabling continuous, nuanced control akin to traditional wind instruments. The first was completed in after several years of experimentation, incorporating a bass clarinet-style mouthpiece with a metal reed sensor and air pressure integrated with circuitry. Initial testing focused on the module, which used a single oscillator divided into selectable overtones (such as G, B, C, E, and F) to generate harmonic-rich tones responsive to the player's breath dynamics and fingering. This laid the groundwork for subsequent production models.

Production Timeline

Commercial production of the Lyricon began in 1974 under Computone Inc., marking the first widespread availability of an electronic wind synthesizer. The inaugural unit was sold that year to jazz musician Tom Scott, who featured it on his album Tom Cat. Priced at $3,295 upon release—equivalent to approximately $21,650 in 2025 dollars—the Lyricon I was a handcrafted instrument targeted at professional musicians, reflecting its premium status and complex additive synthesis design. Over the course of production, approximately 200 units of the original Lyricon I were handmade by Computone. This was followed by the development of the Wind Synthesizer Driver, a controller for external , and the Lyricon II, an integrated model with enhanced features; together, these latter variants accounted for about 2,000 units produced. Manufacturing occurred primarily in , with some licensing to Selmer for broader distribution, though output remained limited due to the instrument's niche appeal and high cost. By the late 1970s, Computone faced mounting challenges, including competition from emerging technologies and the demands of analog electronics, which hindered mass adoption. These issues culminated in the company's in 1982, leading to the shuttering of operations and the end of official Lyricon production.

Decline and Discontinuation

The Lyricon's commercial viability waned in the late and early , primarily due to its steep price of $3,295, which restricted sales to a narrow audience of woodwind players seeking hybrid electronic capabilities. The instrument's analog design also proved challenging to maintain, lacking modular presets and facing stiff competition from emerging digital synthesizers, including MIDI-compatible wind controllers like the Yamaha WX7 that debuted in and captured broader market interest with improved precision and integration. These factors contributed to limited adoption beyond professional and fusion circles, with total production reaching only about 200 original units and 2,000 subsequent drivers and second-generation models. Computone Inc. declared in 1982, forcing the closure of its facilities and immediately discontinuing all Lyricon production and official support services. The company's assets were subsequently auctioned, severing access to manufacturing resources and exacerbating the instrument's isolation in a rapidly evolving electronic music landscape. In the aftermath, co-inventor Bill Bernardi sustained the Lyricon's legacy through informal repairs conducted from his basement workshop, utilizing personal stockpiles of components until his death in February 2014 at age 79. This maintenance was essential, as no other technicians possessed comparable expertise in the device's analog circuitry. The scarcity of operational Lyricons today stems from their limited production run and the degradation of aging components, such as membranes that harden when unused and obsolete photocells that are no longer manufactured. With Bernardi's passing, replacement parts have become virtually unavailable, leaving most surviving units nonfunctional or dependent on collector-sourced spares, further diminishing the instrument's presence in contemporary music.

Design and Technology

Physical Components

The Lyricon instrument features a body design that closely resembles a or , providing a familiar ergonomic form for woodwind players while incorporating electronic components for control. Constructed primarily from chrome-plated , the body combines metal durability with relative lightweight portability, weighing approximately 14 pounds (6.4 kg) to facilitate extended performance sessions. This hybrid structure allows for easy handling without the heft of traditional acoustic instruments. At the proximal end, the mouthpiece adopts a configuration, utilizing a fibercane reed that directs airflow while remaining non-vibrating to avoid acoustic production. Integrated into this setup is a sprung metal lip pressure sensor mounted on the reed, which detects variations in the player's to generate control signals for pitch bend, , and expression. This sensor enables nuanced dynamic adjustments akin to traditional reed instruments but translated into electronic parameters. Wind pressure detection occurs through a dedicated system featuring a flexible diaphragm that responds to breath force and attack . As the player blows, the diaphragm modulates the intensity of emitted by an adjacent LED, with the varying illumination captured by a photocell to produce proportional electrical signals for volume and articulation control. This optoelectronic mechanism ensures responsive and accurate translation of breath nuances into inputs. The fingering mechanism follows a standard saxophone-style layout, optimized for intuitive playability among and woodwind musicians, complete with roller-linked keys for smooth transitions. Positioned above the left-hand thumb rest are two dedicated keys, allowing seamless register shifts across the instrument's six-octave range. Lyricons are manufactured in multiple transpositions, with key switchable fundamentals including G, Bb, C, Eb, and F to accommodate various ensemble roles.

Sound Generation and Controls

The Lyricon primarily employed for sound generation, particularly in its original model, where a single oscillator was divided into multiple overtones to construct complex waveforms mimicking acoustic wind instruments. This method allowed performers to build harmonic content by adjusting the relative strengths of individual partials, enabling a wide palette of timbres from flute-like to brassier tones. Key controls facilitated expressive real-time manipulation, including dedicated knobs for and to enable smooth pitch transitions, as well as attack adjustments that introduced chorusing effects for added depth. Breath modulation played a central role, with governing and attack characteristics, while lip input influenced pitch bend and , integrating physical playing gestures directly into synthesis parameters. Octave range options enhanced playability across the instrument's overall six- span, with selectable low, medium, and high settings—differentiated by an octave each—accessible via thumb keys or foot pedals to suit different musical contexts without excessive finger stretching. The Lyricon lacked built-in capabilities, as it predated the standard's introduction in 1983; subsequent aftermarket modifications, such as JL Cooper's MIDI Wind Driver and STEIM's MIDIfication modules, were developed to interface with digital systems, though these conversions often proved unreliable in practice.

Models and Variants

The Lyricon wind synthesizer was produced in three primary models during the 1970s, each representing an evolution in design to address limitations in synthesis capabilities and compatibility with external equipment. The original Lyricon I, introduced in 1974, was a fully integrated instrument featuring an additive synthesis module with a single voltage-controlled oscillator that could be split into multiple overtones for timbre generation. This model, handcrafted by Computone Inc. under inventors Bill Bernardi and Roger Noble, used exponential voltage scaling per octave and incorporated transducers to convert breath pressure, lip force, and key positions into control signals for pitch, volume, and harmonics. Approximately 200 to 300 units were produced, making it a rare prototype-like instrument limited in its interoperability with other analog synthesizers due to its proprietary voltage system. In the mid-1970s, Computone released the Wind Synthesizer Driver, a controller-only variant designed to output control voltages compatible with external modular synthesizers such as those from Moog, ARP, or Oberheim. This model shifted to a linear 1-volt-per-octave standard for pitch control, along with separate outputs for breath (volume) and lip pressure (filter or modulation), allowing greater flexibility but requiring an additional sound module. Around 2,000 units were manufactured, reflecting its appeal for integration into broader studio setups. The Lyricon II, developed in the late and mass-produced by Selmer, built on the Driver's compatibility while reintegrating a dedicated section with two oscillators, a , and a low-frequency oscillator (LFO) for enhanced variation and parallel interval generation. It retained the linear voltage system and added a footswitch for transposition across octaves, enabling performers to access a full six-octave range more efficiently. Approximately 2,000 to 5,000 units were made, marking a progression from the single-oscillator design of the Lyricon I to multi-oscillator synthesis for richer, more versatile sounds, alongside improved production stability through standardized manufacturing.

Playing Technique

Ergonomics and Fingering

The Lyricon employs a modified Boehm fingering system, closely resembling that of the , which facilitates familiar playing techniques for woodwind instrumentalists transitioning to electronic instruments. This system uses 13 finger keys arranged in a conventional layout, including chromatic keys for sharps and flats, ensuring uniform note production across registers without the need for position changes typical in some acoustic winds. The design incorporates mechanical key actions for precise and rapid response, supporting fast passages while maintaining intonation accuracy. Octave selection is handled by two dedicated keys positioned above the left-hand thumb rest, allowing performers to shift seamlessly across three primary registers—spanning a total range of up to six octaves when combined with optional foot pedals—by simply engaging one or both keys without disrupting primary fingering. This mechanism provides quick access to higher or lower octaves, enhancing fluidity in performance compared to fixed-range acoustic counterparts. The instrument's are optimized for extended play, with a tubular body modeled after the or , including a standard woodwind-style mouthpiece and thumb rest for balanced support during standing or seated positions. Breath pressure, detected via a flexible in the mouthpiece, serves as the primary control for volume and dynamics, offering continuous variability akin to acoustic reeds. Complementing this, lip pressure on a specialized reed armature modulates pitch bends and through an , delivering expressive responsiveness that mirrors traditional techniques.

Performance Controls

The Lyricon employs breath control through a wind that converts the force and flow of air from the player's breath into continuous control voltages, enabling dynamic adjustments to , pitch bending, and intensity. This system allows performers to achieve nuanced expression, where increased breath amplifies the sound output and subtle variations introduce pitch inflections or oscillations, mimicking the responsiveness of acoustic instruments. A lip sensor, integrated into the bass clarinet-style mouthpiece via a sprung metal plate on a non-vibrating reed, detects pressure from the player's to modulate and attacks. This feature facilitates real-time tonal shifts, such as brighter or more nasal qualities through varying lip force, enhancing the instrument's capacity for articulate phrasing and emotional depth in performance. The Lyricon II model includes a transposition footswitch, permitting performers to shift the entire pitch range up or down by an using a connected pedal, which supports key changes without altering fingerings. This addition streamlines live adjustments, allowing seamless transitions across musical registers during performances. Despite its expressive capabilities, the Lyricon's analog-based controls present challenges in response time and stability when compared to modern digital wind controllers. The continuous voltage outputs provide fluid responsiveness superior to MIDI's discrete steps, but susceptibility to environmental factors like temperature fluctuations and component wear—such as hardening—can lead to inconsistent sensitivity and signal drift over extended use.

Use in Music

Notable Performers

Tom Scott, a prominent jazz-fusion saxophonist and leader of the L.A. Express, was the first to purchase a Lyricon in 1974 after spotting an advertisement in magazine while touring with . His adoption of the instrument stemmed from a desire to explore new tonal colors in his studio and live performances, integrating its electronic capabilities into jazz-fusion arrangements for multitracked fanfares and expressive solos that blended acoustic nuance with synthetic flexibility. Scott's pioneering use helped establish the Lyricon as a viable tool for session musicians seeking novel sounds in the evolving jazz landscape. Raphael Ravenscroft, a Scottish renowned for his versatile work across pop and genres, incorporated the Lyricon into his applications during the late 1970s. His style, characterized by melodic fluidity and emotive phrasing honed through collaborations with artists like , lent itself to the instrument's breath-controlled expressiveness, allowing him to adapt its electronic timbres to polished, accessible jazz contexts. Bennie Maupin, a multireedist and innovator known for his contributions to Herbie Hancock's band and era, adopted the Lyricon in the mid-1970s as part of his exploration of electronic woodwinds. Maupin's approach, emphasizing manipulation and dynamic range on and saxophones, influenced his use of the instrument for live synthesiser integration, where he favored its ability to produce control voltages for complex electronic textures in jazz-fusion settings. Wayne Shorter, the acclaimed jazz composer and saxophonist central to Miles Davis's Second Great Quintet and co-founder of , acquired a Lyricon shortly after its 1974 debut to expand his sonic palette in improvisational contexts. His adoption reflected a stylistic evolution toward electronic experimentation, utilizing the instrument's full —particularly its low-end capabilities—to create layered, atmospheric sounds that complemented 's fusion explorations. Sonny Rollins, a legendary saxophonist known for his improvisational mastery, experimented with the Lyricon in the 1970s alongside his work, incorporating it into live performances and recordings to explore electronic extensions of traditional expression. His use highlighted the instrument's potential for dynamic, breath-controlled solos in and fusion contexts. Rahsaan Roland Kirk, a and innovator famous for playing multiple instruments simultaneously, integrated the Lyricon into his eclectic live sets during the late 1970s, valuing its expressive capabilities to enhance his experimental and soulful performances. Ian Anderson, frontman and flautist of the band Jethro Tull, integrated the Lyricon into his repertoire during the late 1970s, adapting it to the group's theatrical rock sound. Anderson's idiosyncratic style, blending folk, classical, and elements with flute-driven melodies, prompted his use of the instrument to introduce electronic effects that enhanced Jethro Tull's live and recorded adaptations of dynamics. Jay Beckenstein, co-founder and saxophonist of the jazz-fusion band Spyro Gyra, employed the Lyricon extensively in the 1980s to enrich the group's rhythmic, Latin-inflected grooves. His adoption aligned with Beckenstein's focus on fluent, sinuous solos within Spyro Gyra's pop-jazz fusion framework, where the instrument's versatile timbres added depth to ensemble performances driven by polyrhythms and keyboard interplay.

Iconic Recordings and Appearances

One of the most prominent early showcases of the Lyricon occurred on Steely Dan's 1977 album Aja, particularly in the track "Peg," where Tom Scott delivered a distinctive solo using the instrument's breathy, synthesizer-like tone to introduce the song. This appearance highlighted the Lyricon's ability to blend woodwind expressiveness with electronic textures, contributing to the track's polished jazz-rock fusion sound. The Lyricon's subtle yet atmospheric role is evident in Michael Jackson's 1982 hit "Billie Jean" from the album Thriller, where Tom Scott added layered wind controller elements that enhanced the song's tension and groove without overpowering the production. Scott's contribution, arranged by Quincy Jones, demonstrated the instrument's versatility in pop contexts, providing ethereal synth-like swells during instrumental sections. In Gerry Rafferty's 1978 album Night Owl, the title track features a memorable melody line played on Lyricon by Raphael Ravenscroft, known for his saxophone work on Rafferty's earlier hit "Baker Street." Ravenscroft's solo infuses the song with a haunting, flute-like quality that complements the soft rock balladry, marking one of the instrument's standout melodic uses in mainstream recordings. Beyond these studio highlights, the Lyricon appeared in jazz-fusion contexts during the late 1970s, including Wayne Shorter's contributions to 's album , where he employed the instrument for its dynamic tonal range in ensemble improvisations. Shorter also incorporated the Lyricon into live jazz-fusion performances with during this period, expanding its application in experimental group settings. Sonny Rollins featured the Lyricon on his 1975 album Nucleus, where it contributed to electronic textures in tracks alongside collaborators like Bennie Maupin, showcasing its role in bridging acoustic with synthesizer experimentation. Rahsaan Roland Kirk prominently used the Lyricon on his 1977 live album Kirkatron, including the track "Lyriconon," which highlighted the instrument's expressive potential in his multi-instrumental -fusion performances recorded at the . Ian Anderson of Jethro Tull utilized the Lyricon in select tracks and performances, integrating it into the band's sound to add electronic wind elements alongside his work.

Legacy

Technical Influence

The Lyricon pioneered the integration of into a wind-controlled format, utilizing a single oscillator that could be split into selectable overtones (fundamentals in G, B♭, C, E♭, and F) via key switches, enabling players to shape dynamically through breath pressure and fingering. This analog approach demonstrated the potential for real-time harmonic manipulation in portable wind instruments, influencing later hybrid analog-digital designs by highlighting the advantages of gesture-based synthesis over traditional keyboard controls. The instrument's ergonomic and control innovations were similar to those in subsequent wind controllers, including the Electronic Valve Instrument (EVI) developed by Nyle Steiner at Steiner-Parker in the mid-1970s, which used breath-to-voltage transduction for trumpet-like valve fingering to achieve similar expressive pitch and control. Similarly, Yamaha's WX series, beginning with the WX7 in , replicated the Lyricon's saxophone-style body, single-reed mouthpiece, and roller-bar octave keys, essentially "MIDI-fying" the original design to interface with digital synthesizers while preserving its fluid playability. The Lyricon's breath , employing a with a flexible , LED source, and photocell to convert air pressure into precise control voltages for and modulation, set foundational standards for expressive wind interfaces in . This sensitivity to nuances like attack and via lip pressure influenced the development of modern Electronic Wind Instruments (EWIs), such as the EWI series, which incorporate comparable breath sensors for MIDI-compatible dynamic control, enabling woodwind players to access vast synthesizer palettes with acoustic-like responsiveness. Despite lacking in its original models, the Lyricon's patented wind-sensing technology—detailed in U.S. 3,767,833 (filed 1971, granted 1973) by inventors Roger R. Noble and William A. Bernardi—remains a cornerstone for breath transduction methods, informing non-digital implementations in hybrid controllers that prioritize analog expressivity over protocol-based .

Collectibility and Modern Interest

The Lyricon has become a highly sought-after vintage instrument among collectors and synthesizer enthusiasts due to its limited production run and the scarcity of functional examples today. Approximately 200 units of the original Lyricon I were handcrafted, while around 2,000 units each of the Lyricon II and the separate wind driver were produced by Computone, making the total output relatively small for an electronic instrument from the 1970s. With the cessation of official support following the 2014 death of inventor Bill Bernardi, many surviving units require specialized repairs, resulting in a limited number of fully operational instruments worldwide, which intensifies collector interest. Vintage Lyricons command premium prices on the , reflecting demand from musicians and collectors drawn to its unique analog sound and historical significance. Well-restored examples, such as a fully functional Lyricon I serviced by David O'Brien, have sold for around €2,200 (approximately $2,400 USD), while a Lyricon II listed through official channels fetched $3,100 including shipping. Units in varying conditions typically range from $2,000 to $3,000, with higher values for those verified as playable by experts, appealing to synth aficionados seeking rare wind controllers. Following Bernardi's passing on February 2, 2014, after a battle with cancer, the electronic wind instrument has stepped up efforts to maintain and modernize existing Lyricons, including sourcing obsolete parts and performing custom modifications. Previously, Bernardi handled most repairs personally, but post-2014, hobbyists and technicians have focused on units with interfaces to integrate them into contemporary setups, building on earlier 1980s conversions like the JL Cooper retrofit kit. For instance, modified Lyricon wind drivers now include built-in and CV outputs for compatibility with modular systems, allowing players to control modern synthesizers while preserving the instrument's breath-sensitive expression. These -driven initiatives, shared through online forums and repair networks, have extended the Lyricon's usability despite the lack of original parts. As of , efforts continue with custom and CV modifications for integration into modular systems like , and new driver units with updated logic have been announced. The Lyricon has experienced a cultural revival in circles and electronic production, highlighting its enduring appeal beyond vintage status. In 2013, saxophonist and improviser Jorrit Dijkstra performed on a restored Lyricon at the Non-Event series in , blending its analog tones with contemporary to evoke its woodwind-synthesizer hybrid origins. Additionally, recordings featuring the instrument, such as Tom Scott's Lyricon solo on Steely Dan's 1977 track "Peg," have been sampled in later electronic works, including De La Soul's 1989 hip-hop single "," introducing its distinctive timbre to newer generations of producers. This resurgence underscores the Lyricon's role in bridging acoustic nuance with electronic innovation, inspiring ongoing interest in live performances and sample libraries among electronic musicians.

References

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