Science fiction and synthesizer enthusiasts alike will agree that making contact and communicating with life from another planet would almost certainly involve the use of a large, complicated synthesizer. Something metallic and sexy, with tons of sliders, knobs, and lights blinking purposefully into the cosmos.
Perhaps the most famous example of this can be found in Steven Spielberg’s Close Encounters of the Third Kind from 1977. The synthesizer featured at the heart of that film’s alien communication was the incredible ARP 2500. Phil Dodds, ARP’s VP of Engineering, was responsible for setup of the synthesizer on set and actually made an appearance as its operator in the scene.
But beyond this notable film appearance, the ARP 2500 remains a fascinating synthesizer in a number of ways. Today, we're taking a closer look at this model, its history, and the inner workings that made it such a compelling instrument.
Early History and Early Adopters of the ARP 2500
ARP Instruments, Inc. was named for Alan R Pearlman who, along with David Friend, founded the company in New England in 1969. ARP’s first instrument was the model 2002 followed by the 2003, commonly known as the ARP 2500 in 1970.
Like the famous and elegant modular systems from Moog and Buchla that came before it, the ARP 2500 was a versatile, expensive, and rare piece of technology that few could afford.
Produced from 1970–1981, the ARP 2500 was the more fully featured and over–engineered brother to the famous ARP 2600. The smaller ARP 2600 was used by countless artists and composers throughout the ‘70s and beyond and was even responsible for the voice of R2D2.
Only about 100 ARP 2500 systems were made with an estimated 50 remaining in working condition today. Because of their scarcity, any unit you can find will sell for well over its initial list price, which already ranged from $7,180–$20,000.
French composer Elian Radigue worked exclusively with the ARP 2500 as her main sound source for nearly all of her electronic compositions.
A student of musique concrète innovator Pierre Schaeffer and assistant to Pierre Henry, Radigue’s compositional practice not only incorporated the techniques of musique concrète but grew to include more experimental tape manipulation, microphone techniques, and painstaking sound design on the ARP 2500.
Radigue credits Schaeffer for encouraging her to think beyond 12–tone musical composition and to explore new sound worlds of microtonality — something modular synthesizers are perfectly suited for.
An early adopter of the 2500 in the popular music world was The Who’s Pete Townshend. The 2500 can be heard all over the band’s Quadrophenia album.
Many of those parts were recorded in Townshend’s own home studio, as the unwieldiness of the instrument made it difficult to transport and set up in multiple locations.
The ARP 2500’s Many Configurations
The 2500 was available to customers as a configurable 15–module console or main cabinet with one–, two–, three–, or four–voice keyboards and optional eight–module wing cabinets. There are also some systems that exist with smaller main cabinets.
People familiar with modular synthesizers will understand the basics of most module operations. However, there are a few standouts that are crucial to defining the unique sound of the 2500.
Like the Moog modular and most other analog synthesizers of the ‘70s, the 2500 utilizes a 1v/octave pitch control, meaning that for every volt of DC control signal, the oscillators would increase an octave in pitch.
Compared to the scaled–down ARP 2600 and many other analog synthesizers, the 2500’s oscillators are somewhat more complex, boasting both a sawtooth and triangle core. When calibrated and tuned, they are extremely stable.
There are several types of oscillator modules in the 2500 system, but they all share the same main VCO circuit that produces typical sine, triangle, pulse, and sawtooth waveforms.
A Switch Matrix and Defining Modules
Instead of patch cables, the 2500 uses an alternative design that incorporates a large switch matrix to make connections. While these switch matrixes are known for dirty connections and cross–talk, they were an interesting alternative to a mess of patch cables that can sometimes obscure panel controls.
The inputs and outputs are marked on the module faces, and the keyboard cv and gate signals are normalled to the top patchbay rows for easy signal routing.
The other module responsible for much of the 2500’s unique tone is the 1047 Multi–Mode Filter/Resonator. This two–pole, 12db/octave filter has lowpass, highpass, bandpass, and notch responses.
It also includes an extra "keyboard percussion" circuit that, when pinged with a trigger and gate from a keyboard or sequencer, creates a percussive resonant attack.
The triggering scheme of the 2500 uses 10v gates as well as 10v trigger pulses. The envelopes can be set to "single" position, where only an incoming square wave–type gate signal will trigger the envelope.
In "multiple" position, the envelopes can be triggered by a gate that is held (e.g. a note being held down) and then re–triggered by incoming trigger pulses from other notes to make for interesting articulation control.
Another uncommon addition to the filter is the resonance–limiting circuit. Enabled by a switch, this circuit limits the resonance gain to unity causing the frequency response to fall off more sharply on either side of the center frequency — somewhat like the "surgical mode" found in modern digital EQ plugins.
When overdriven on the input, the character of the 1047 really stands out as one of the best–sounding analog filters ever found in a synthesizer.
The 2500 offers a relatively typical three–channel, 10–step sequencer for generating melodic patterns or repeating control voltages, but some systems also included a rare mix sequencer module.
This module is composed of two independent four–channel audio mixers with gates on each channel that are controlled by a clock sequencer. The sequencing of the mixers can be combined in different ways to sequentially enable channels.
This allows rapid waveform switching and the ability to sequence up to eight different sound channels. It is a module that has yet to be copied or found in another system.
The ARP 2500 Today
The ARP 2500 is a rare synth but can still be found in several universities and music studios around the world. The photos in this article are of the 2500 at the Virginia Center for Computer Music lab at the University of Virginia.
Jack Dangers of Meat Beat Manifesto and Aphex Twin are notable current users of the 2500, and one can be spotted and heard in use by Jean Michelle Jarre during his recent live Oxygene performances.