Serge synthesizer


The Serge synthesizer is an analogue modular synthesizer system originally developed by Serge Tcherepnin, Rich Gold and Randy Cohen at CalArts in late 1972. The first 20 Serge systems were built in 1973 in Tcherepnin's home. Tcherepnin was a professor at CalArts at the time, and desired to create something like the exclusively expensive Buchla modular synthesizers "for the people that would be both inexpensive and powerful." After building prototypes, Tcherepnin went on to develop kits for students to affordably build their own modular synthesizer, production taking place unofficially on a second floor Calarts balcony. This led to Tcherepnin leaving CalArts in order to produce kits commercially, starting in 1974.
After leaving CalArts, Serge had a small factory on Western Avenue in Hollywood. He relocated to a three-story Victorian house on Haight Street in 1980. While the synthesizers were inexpensive compared to Moog, Buchla, and other manufacturers, Serge Tcherepnin's emphasis was always on providing musicians with quality equipment.
While Serge synthesisers have been compared to Buchlas, their underlying philosophies are very different. Serge modules were designed to bring many aspects of the circuits out to the front panel so modules can be patched in unusual and creative ways beyond the “normal” functions of that type of module. In contrast, Buchla modules were optimised to do one thing very well, even using different connector types for audio and control.
Serge synthesizers have been used by composers such as Michael Stearns and Kevin Braheny. Serge synthesizers are known for their flexibility, audio quality and relative compactness. Other well-known musicians using Serge synthesizers include: Malcolm Cecil, whose studio was used in Stevie Wonder albums; Gary Chang, movie composer; Roger Powell, keyboard player for Todd Rundgren; John Adams, composer; Ingram Marshall, composer; and many experimental and electronic musicians such as Jim O'Rourke, Sarah Davachi, R. Luke DuBois, Keith Fullerton Whitman and Paolo Tofani of the italian free-jazz and experimental group Area.
Commercial builds and DIY kits of Serge synthesizers are currently available under license from a number of manufacturers.

Overview

Originally, the module configuration for Serge systems could be selected by the user. 4U panels with module widths typically ranging from 1" to 3", several modules could then be arranged on a 17-inch-wide panel, resulting in a custom built panel. These were originally arranged by applying paper graphics to the metal panel, which became metal self-applied graphics in the early 1980s and finally graphics printed directly onto the metal panel.
Early systems could have custom graphics—or no graphics—depending upon the whims of the artist. Serge adopted a series of geometric designs denoting signal types, input, outputs, and triggers. Colored 4 mm sockets were used for most connections – blue, black, and red jacks; blue for control voltages, black for bipolar signals and red for pulse/gate signals, although these were not rigidly enforced. Later, other colors were introduced, e.g. yellow for triggers. By keeping output impedances low, Serge largely avoided the need for screened cables. 3.5 mm sockets were used for some audio interfacing to external equipment.
Serge modules did not separate audio signal and control voltage jacks, all signals were patched from module to module via banana patch cords. Banana cables are most flexible in electronic patching and offer quick patching with a secure connection, most banana jacks can be stacked as well. The banana leads supplied by Serge and STS are 4 mm Pomona made heavy insulated in silicone cable. With a simple ground connection made between different units cross connection/modulation can be made between units.
One of the first Serge Modular synthesizer created became the machine used on the first Greenpeace anti-whaling expedition by William Jackson, to approximate whale sounds and broadcast them to whales in the open Pacific.
In the early 1990s the business was transferred to Rex Probe who renamed it Sound Transform Systems. A number of changes were made over the years including the end of systems being sold as kits and user selectable module arrangements. STS moved onto 17" pre-configured 'Shop' panels and then the half sized 'M-Class panel. These are smaller 8" panels, allowing a user more variety than the Shop Panels but less than custom. These panels come with a black 1" center panel for power distribution.

Modules

(1973)

The first generation of modules consisted of:
The Negative and Positive Slews, were able to function as envelope followers, crude low pass filters, modulating waveforms, subharmonic generators, and audio oscillators. The Programmer served as the performance interface, being a manually controllable sequencer. It could be patched to the sequencer - in some early systems they were hard-wired together. These systems were essentially DIY.

(1974/5)

Serge set up SMMS in 1974 and set about extending and upgrading the range. Systems would contain first and second generations modules, and built or DIY. The second generation of modules included:
He also upgraded the mixer, dual processor, Send & Return, Oscillator etc. The circuit boards could serve several roles, so for example the Smooth & Stepped circuit board was also used in the Random Voltage Generator, the Dual VC Slope Generator, the Rate-Controlled S&H etc. There were probably other custom modules made during this period, but information is scarce.
As well as working on the modular range Serge worked with others. He designed and built custom modules for Malcolm Cecil and Robert Margouleff's TONTO system, and worked with Frank Eventoff on his Sonica and Rainmaker instruments.

(1976)

Around 1976, Serge started to replace some of his old designs with a new generation of state-of-the-art designs, pioneered highly accurate 1V/Oct oscillators and high dynamic range VCAs which enabled a new filter technology with low-noise and mixers with equal power multi-channel panning. A new, simpler panel graphics style was also introduced, losing most of the geometric designs, just retaining a box around the outputs.
In addition to fully featured standard synthesis modules such as voltage controlled oscillators, filters, and envelope generators, the Serge system includes esoteric audio signal processors such as a Wave Multiplier, a multipurpose slew / envelope module and a very flexible touch-sensitive keyboard controller combined with a 16-stage analogue sequencer, known as the TKB. The new modules included:
He also extended the range of mixers and CV processors. Many of the circuit boards could by used or combined in a variety of ways, and an exhaustive list of modules would be difficult to compile. Filter banks were made in small numbers, but it is uncertain if any of the hex panners shown in the catalogue were ever built. All the filters were 2 pole state variable, 12dB/octave.
While some earlier modules remained in production, the new modules replaced many of the older modules. These new designs remain at the heart of Serge Modular systems to the present day.

(1979)

Around 1979, a fourth generation of modules started to appear, complementing the 1976 modules and replacing some earlier modules. The current Serge panel graphics style also appeared around this time. The new modules included:
Also, new electronics were designed for the audio mixer/processor/scaling/buffering modules and the VCA/panners, and the "paper face" panel graphics were replaced with metallized plastic film. Throughout this period, systems were available built or as kits - boards supplied pre-built and tested but you wire the panels up yourself. In 1979, Serge offered a standard module configuration - the "System 79".
The N voice controller was a polyphonic interface which worked with a modified Casio keyboard. Sadly it appeared around 1982, just before MIDI.

(early 1990s)

The 1980s were not good times for modular synthesizer manufacturers, and no further Serge modules appeared after 1983. In the early 1990s, Sound Transform Systems took over the range and added a few of their own designs to the range. These included:
They also introduced new variations on existing modules such as the VC Timegen Osc/clock/dual VC clock, and were able to use better quality parts and quality control. Affordable component quality improved massively through the 1980s, especially good quality, cheap potentiometers.
STS gradually phased out custom panels in favor of standardized "Shop Panels". One and two panels systems were available.
Around 2010, STS introduces half-width M-Class panels. Two panels could be mounted either side of a 1" black power distribution strip in a Serge "boat". These allowed greater customization than shop panels. Panels include:
Etc.

Licensing (2010s)

By the late 1990s, Serge kits were no longer produced, and with no schematics available, "support" usually meant sending panels to STS - expensive and inconvenient for customers outside the USA. With prices high and only full panels available from STS, there was also interest in obtaining individual modules. This led a small group of enthusiasts to research schematics to support their own instruments, which led to small scale production of DIY Serge circuit boards for their own use, particularly for early discontinued models. Eventually Serge Tcherepnin was contacted and his interest in his synths was renewed.
From that beginning, Serge became actively involved, and Serge designs have been licensed to kit and module manufacturers such as CGS, Random*Source, ELBY Designs, Loudest Warning, and 73-75. Some of these modules are also available in the Eurorack format. As of 2018, Serge himself is actively collaborating with Random*Source as "Chief Innovation Officer" and developing new circuits.

General

Panels - Originally Serge panels had all possible hole positions punched, and the panel labels covered over unused holes. While this was very versatile and allowed for upgrading or changing modules, it could look a bit scruffy. Paper labels were replaced by metalised labels around 1981. When STS took over in the early 1990s, they printed graphics directly onto their panels, giving a more solid, professional look but sacrificing the ability to change modules. They also introduced a range of standard "shop panel" configurations. More recently, STS introduced smaller M modules, where two narrower pre-configured panels fit each side of a center power modules.
Power - There is very little information about early Serge power supplies, but Serge soon settled upon commercial Power One supplies set for +/-12v. Some first generation modules also required a +6v supply, initially provided by a 6v regulator on the supply but as these modules became fewer the regulators were mounted near the modules before dying out completely around 1980. The n-voice controller was unique in requiring a supply with an additional 5v supply for its computer board. At some point, Condor supplies were used instead - these were almost identical to Power One supplies. Early supplies used a 4-pin Cinch Jones type connector, but sometime in the mid/late 1970s these were superseded by 5-pin XLR connectors. Power distribution in Serge panels were never as good as it perhaps should have been, but gradual improvements were made – distribution modules being introduced in the mid 1970s and the STS black panel for m-modules in recent times.