The musical instruments collection of the Vienna Technical Museum,
alongside historical instruments of all kinds, also includes electronic
musical instruments. The collection offers a representative overview of nearly
100 years of history of electrically generated, amplified, or
synthesized sounds. A sample excerpt from the item inventory can be seen here.
The Beginnings—Electric Musical Instruments of the 1930s
In the 1920s and 1930s, the concept of using recently developed radio and amplifier technology for musical instruments as well was self-evident. Many new electric instruments emerged during this time, like the theremin, the trautonium, the Neo-Bechstein, and even the first electronic guitars.
A very special piano, it has a lightweight structure and no soundboard, and the sounds of the string vibrations are picked up using magnetic coils. Volume controls as well as combinations with radios and record players aimed to give musicians access to new possibilities.
This 1930s multimedia furniture was meant to represent the very latest in radio technology and still be less expensive than a regular piano. However, following very positive initial feedback from the press and experts, sale numbers remained well below expectations. Around 150 units were produced in total.
In 1932, Bohemian piano manufacturer Petrof based in Hradec Králové in the Czech Republic obtained the license to produce the Neo-Bechstein piano.
Rickenbacher A-22 Frying Pan (1934/1934) by Rickenbacher, AdolphTechnisches Museum Wien
The Frying Pan is the first mass-produced electric guitar. Its model name stems from the fact that it resembles a frying pan in its material and shape. The neck and body are a single workpiece made of cast aluminum.
In 1932, George Beauchamp filed a patent for the instrument. Although the Frying Pan was already being marketed and sold in ever-increasing numbers, the US Patent Office long questioned its suitability as a musical instrument. The patent was eventually granted in 1937. The electric guitar was a key part of the history of music in the 20th century.
Rickenbacher Lapsteel Silver Hawaiian (1939/1939) by Rickenbacher, AdolphTechnisches Museum Wien
One of its successor models, the Silver Hawaiian, was punched from brass sheet and plated in chrome. Lap steel or Hawaiian guitars are played lying on the ground.
A special feature of the early Rickenbacher electric guitars is the shape of the pickup: the strings run through a magnet in the shape of a horseshoe - "horseshoe-pickup" - which converts the vibrations of the strings into electromagnetic pulses by means of a coil.
The Trautonium is a creation by German electrical engineer Friedrich Trautwein from 1930. It uses an electronic oscillator to create vibrations. Their frequency can be adjusted using a resistor wire. This wire is fixed like a string over a board and is pressed down with the fingers. This lets players seamlessly change the pitch.
Lew Termen (1896–1993) built the first instrument of this type in 1919 in Petrograd. He later emigrated to the US where news spread of his design. He had it patented and sold the license to the RCA (Radio Corporation of America). Around 500 instruments were made under the RCA brand.
The journey of the theremin instrument is as remarkable as its inventor. It amazed audiences immediately with its contactless playability. Concerts with the New York Philharmonic Audience, its use in Hollywood movies of the 1940s and 1950s, and the Oscar for the movie soundtrack to Hitchcock's Spellbound were just some of the high points in the history of the theremin.
In the 1950s, Robert Moog (1934–2005) further developed the instrument, including as kit variants. Kit instructions appeared in magazines and electronics books. Through his interest and design improvements, Moog paved the way for the theremin into the 21st century.
The waves of Martenot: French music teacher and radio amateur Maurice Martenot (1898–1980) was inspired after meeting Lew S. Termen, the inventor of the theremin, to build his original Ondes Musicales musical wave instrument in 1923. However, it differed from Termen's concept in terms of its volume and frequency controls.
Pitches are changed using a drawstring, along which a rotatable resistor or capacitor can be moved. Since it is difficult to play without markers, the design was added to by an adjustment aid in the form of a plotted and later real claviature. It was still possible to seamlessly adjust the pitch, however. A drawstring is moved back and forth above the keys using a ring. Even microintervals can be played by simply adjusting the frequency.
Heliophon Wehrmann (1960/1960) by Wehrmann, WolfgangTechnisches Museum Wien
The Heliophon is a creation by Bruno Helberger. Together with physicist Peter Lertes, the pianist built an electronic musical instrument around the end of the 1920s that he called the Hellertion. Like the Trautonium, it had a fingerboard, so continuous tones could be created. The Heliophon is a derivative of the Hellertion.
The Heliophon created in 1960 is a partially polyphonic instrument and a full-transistor variant of Helberger's instrument which was still operated using tubes. It was developed and patented by Viennese electrical engineer Wolfgang Wehrmann but did not go into production. Contact sequencing is used on the boards to create a moveable splitting point, so two voices with two tones can be set per keyboard via filters. As a result, it is possible to play using a total of four different voices. However, each individual keyboard is monophonic.
Sampling
Musical samples are sound extracts, and sampling is the technique of playing back these sound extracts and reusing them in a different musical context.
The Superpiano was based on the principle of the optical siren. Emerich Moses Spielmann presented the instrument in Vienna in 1929. For this early form of the sampler, sounds from desired sources were stored on disks using optical technology and scanned using lights and photo resistors while playing.
After the assumption of power by National Socialism, Emerich Spielmann fled with his daughter to the US, where his older son had already been living since 1936. His wife died in December 1938 while she was still in Vienna.
The Superpiano exhibited in the Vienna Technical Museum, made in 1933, was sold to the museum by Viennese piano builder Julius Carl Hofmann in 1947. It is unclear whether Hofmann rightly came to own the instrument, and its provenance is being investigated by the Vienna Technical Museum.
The Optigan (OPTIcal orGAN) is a later descendent of optical sound instruments. One of seven chords or different drums or effects are selected via knobs with the left hand, while an accompanying melody can be played on the three-octave piano with the right.
The Optigan's sound data carrier is a rotating disk which is scanned using photocells. There are 57 different concentric sound tracks for melodies and accompanying instruments included on the 12-inch plastic disk.
The Mellotron can reproduce any stored sound by playing back tape strips when one of its keys are pressed. By exchanging the tapes it is possible to load different sound inventories. The length of the tape sections only permits sound sequences of around 8 seconds. The Mellotron was a popular instrument on stage. The Beatles used it in their song Strawberry Fields Forever, as well as other tracks.
These electronic drums use modern sound storage technology—namely, semiconductor memory. The pads have pressure-sensitive sensors which trigger the playback process of the stored sound in the sound module. Stored samples can easily be exchanged.
With accessible technology becoming available, sampling was now affordable for a wider range of clients and hobby musicians at the start of the 1980s. In 1985, Casio launched sampling keyboard SK-1 in this customer segment with huge success.
Akaphon (1964/1965) by Gottwald, HellmutTechnisches Museum Wien
The Sound Machines of the Vienna Academy
In the 1960s, the Institute of Electroacoustics at the Vienna Conservatory experimented with electronically generated sounds.
The Akaphon is an invention by Helmut Gottwald, former director from 1963 of the Institute of Electroacoustics at the Vienna Conservatory (now the University of Music and Performing Arts). Light bulbs and photo resistors simulate attack and decay behavior. The Akaphon is an example of the early use of germanium transistors in electronic musical instruments.
The AKA 2000 was designed and constructed from 1975 to 1985 in the Institute of Electroacoustics at the Vienna Conservatory. The starting point of their efforts was the creation of a universal system for sound synthesis, sound processing, and sound analysis, which did not rely too heavily on a specific technical development standard.
Form follows function
In an ideal scenario, this guiding principle from architecture and product design should also apply to the external design of electronic musical instruments.
The huge success of the Minimoog, in addition to its handheld size, is also thanks to its classic slim design and simple operation. For example, built-in thumb wheels—two control wheels for modulating sound to assist while playing—were located to the left of the keyboard. Due to its low-pass filter with 24 dB/octave, the sound of the Minimoog is rich and powerful, particularly in the bass range. Today, it serves as a benchmark which even current synthesizers need to meet.
Slim, stylish (and small) keyboard instrument with 64 keys and a pedal. Sounds are created by striking a metal tongue with a felt hammer head. In contrast to the Fender Rhodes which only had a bounce mechanism, the Wurlitzer includes a built-in mechanism that also produced a triggering action. The sound is picked up by capacitor plates which create an electrical field.
The Wurlitzer electric piano can be easily disassembled and packed into a small, handheld suitcase.
In 1978, Roland launched the CompuRhythm-78 drum computer, which was intended to be used mainly as an accompanying instrument for electronic organs. The CR-78 is an analog rhythm device with 34 pre-defined rhythms which can be selected using buttons.
The Multimonica is one of the earliest mass-produced analog synthesizers. The synthesizer can be played above the top board. The bottom board is an electric harmonium keyboard: a blower organ.
The elegant and small Clavioline was invented in 1947 by Constant Martin and is a precursor to the analog synthesizer. The sounds imitate string and wind instruments, and their timbre can be changed using the switches on the front side of the instrument. A knee lever is used to regulate the volume.
Consisting of a keyboard and amplifier unit, the unit is mounted onto a piano or electric organ as an additional device or played as a standalone instrument.
The Bateleur is the name of a product line of modular synthesizers by start-up company birdkids, founded in Vienna in 2015. At the modular system's core is the VCO: a temperature-stabilized analog oscillator that can create sine, triangle, sawtooth, and pulse wave forms. This is a prototype of this product line.
The Creation of the Wind Synthesizer
With electric wind instruments, sounds range from imitations of traditional wind or string instruments to diverse synthetic mixtures. Development on this instrument group began around 1940. Benjamin F. Miessner performed experiments with electrifying the clarinet.
The first fully electronic instruments existed from the 1950s, and the first marketed instrument, the Hohner Electra-Melodica, was sold in Germany from 1967. The keyboard and mouthpiece were taken from the piano 36 acoustic melodica by Hohner. Six different tones (clarinet, brass, strings, oboe, flute, saxophone), a wah-wah effect, and frequency vibrato can be selected.
The Pianix is an electronic wind instrument from the late 1960s/early 1970s with a wind controller. It was developed alongside the German Hohner Electra-Melodica. The Pianix keyboard is polyphonic and can produce multiple combinable sounds. It has a generator with filters for string, clarinet, and flute tones. The filter can also be turned on at the same time to create mixtures. The wind controller can be disabled. The instrument can therefore be played on a stand or while lying down.
With the arrival of the MIDI (Musical Instrument Digital Interface) standard from 1981/82, the analog wind synthesizer was developed into the digital MIDI-capable breath controller.
The Variophon is a wind instrument synthesizer developed at the Institute of Music Science at the University of Cologne in the 1970s and 1980s. It was based on a synthesizing principle that was completely new at the time: pulse shaping. The core idea of this principle is that any wind instrument sound can essentially be traced back to its stimulating pulse—the vibrations of the reed or lips.
The wind controller and synthesizer unit are separate and connected by a cable. The wind controller is used to control the synthesizer unit. This generates the sound and allows the player to set different tone parameters.
Records with explanations and example sounds for learning and practicing.
A multitude of wind instruments can be simulated by changing the sound module: saxophone, trumpet, trombone, oboe, clarinet, bassoon, or pan flute.
A digital wind instrument that is held like an acoustic saxophone. Saxophone sounds (soprano, alto, tenor, baritone), clarinet, flute, trumpet, but also string instruments and synthesizer sounds can be selected. The volume and tone can be adjusted through a mouthpiece by controlling the airflow and mouth position.
MIDI !!!
In the 1980s, MIDI revolutionized the music world. The digital interface made it possible to exchange musical control information between musical instruments and audio devices. Even traditional instruments like the accordion can be upgraded with MIDI controllers, while at the opposite end of the spectrum, the complex sound structures of acoustic instruments can be converted into MIDI information.
The acoustic part of the Yamaha Disklavier is combined with digital controls. The piano can record playing. This includes not just the audio signal but also the action triggered by the keys and pedals. The data created is saved in MIDI format.
This traditional, diatonic, bisonoric Styrian Harmonika has been upgraded with a pickup system and made MIDI-capable. The band Attwenger used the instrument from 2001 to 2011 for concerts and numerous sound recording sessions.
Homemade, Toy, Art Object
The Technical Museum collects examples of the existence of DIY and artistic electronic musical instruments.
The VL-1 toy synthesizer by Casio. All five tones are poor imitations of real instruments, and the sixth ADSR mode lets the user program their own sounds. Using a slider, all tones can be played across a total of four octaves.
In the 1970s, building an electronic organ yourself was a popular pastime. Components and instructions were provided by various companies. With business offices as their bases, a hobby builder scene grew.
Net clothing with synthesizer controls built into the breast area. Two synthesizers were operated using this controller for the show Monster Woman (Monsterfrau). Additional sound sources were directly controlled by the artist from a desk. A disk is affixed to the back of the clothing. The individual design elements are mounted onto the clothing using two component silicone. On the clothing itself there is also a wireless MIDI transmitter, a headset microphone, and two audio transmitters in addition to the controller elements and cables.
The pressure sensors in these gloves turn fingers into keyboard keys and detect the tone struck. The fingers must be pressed onto a fixed surface. The small box serves as a loudspeaker and control element. The gloves can also be connected to a stereo system. Octave can be switched between using sensors on the hand edges. Different effects can be turned on at the box.
Vienna Technical Museum (Technisches Museum Wien)
Caroline Haas