Jump to content

Korg Polysix

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Fyrael (talk | contribs) at 07:04, 21 November 2016 (Disambiguating links to Steve Morris (link changed to Steve Morris (producer)) using DisamAssist.). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Polysix
KORG Polysix
ManufacturerKorg
Dates1981
PriceUS$1095
UK£899
Technical specifications
Polyphony6 voice
TimbralityMonotimbral
Oscillator1 VCO with 1 sub-oscillator per voice
LFO1
Synthesis typeAnalog Subtractive
FilterResonant low-pass
Attenuator1 x ADSR
Aftertouch expressionNo
Velocity expressionNo
Storage memory32 patches
Input/output
Keyboard61-key
External controlCV/Gate

The Korg Polysix is a six-voice programmable polyphonic analog synthesizer released by Korg in 1981.

Features

The synthesizer's main features are six-voice polyphony (with unison and chord memory voice assignment modes), 32 memory slots for patches and cassette port for backing up patches, and an arpeggiator.

At the time of its release, the Polysix, along with the contemporary Roland Juno-6, was one of the first affordably priced polyphonic analog synthesizers. It cost about twice as much as the competing Juno-6 but had more features and 'real' VCOs in place of the Juno's DCOs. It also had on-board patch storage and backup which the cheaper Juno lacked until the upgraded Juno-60 model.

Korg developed the Polysix with an eye on the Sequential Circuits Prophet 5, trying to provide some of the features found on the more expensive synth in a compact, reliable and much cheaper design. While not as powerful, it used SSM2044 4-pole voltage-controlled filters, giving the Polysix a warm, rounded, and organic sound.

Although the Polysix only had one oscillator per voice, it also featured built in chorus, phaser, and 'ensemble' effects (using a 'bucket brigade' analog delay line design), to provide a fuller sound.

Audio path

The Polysix had a straightforward synthesis architecture. Each voice had one oscillator with sawtooth wave, variable pulse wave, or PWM outputs. The PWM section had its own LFO. In addition, there is a sub-oscillator that allows the addition of a square wave either one or two octaves below the main VCO pitch.

The filter has controls for cutoff frequency, resonance, envelope amount and keyboard tracking. The envelope control has a center zero, letting the user select either a normal or an inverted envelope. The envelope is an ADSR type.

The VCA can be operated from either the envelope or a gate signal.

The mixed sound of all the voices can be sent to an effects section, which offers three modulated delay-based effects (Chorus, Phase or Ensemble setting). This acts to fatten the sound considerably, and was a key feature at the time of release.

Modulation

The LFO (known here as a 'modulation generator') is a simple triangle wave that can be routed to the VCO, VCF or VCA. It has a variable delay before it is triggered.

Reliability

Although built into a substantial (and heavy) chipboard case, the Polysix has some reliability problems.

Like other programmable synthesizers of the era, it had a rechargeable nickel-cadmium battery that powered the memory when the unit was switched off. The original batteries are now well past their designed lifespan and thus prone to failure, leaving the instrument unable to recall user designed patches from its memory. More seriously, if the battery is not replaced, it can leak and corrode the circuits. Unfortunately for the Polysix, this battery is mounted on the main processor board and corrosion here can be fatally damaging to the circuitry of the instrument.

Some instruments of its era had begun the move towards digital technology by using DCOs or microprocessor-generated envelopes. The Polysix, however, used a separate analog VCO, VCF and envelope generator for each voice. Whilst this might have benefits for the richness of the sound, the extra complexity also brings greater tuning problems and more possibilities for failure.

The Polysix keyboard used a light plastic keyboard with conductive rubber contacts. These contacts are often the source of 'dead' keys on the keyboard. This is probably the most common problem on old Polysix units, and one shared with some other Korg instruments that used the same keyboard, such as the Poly-61 and Mono/Poly.

The patch recall buttons also have a tendency to fail.

Software

There is a software emulator of the Polysix included in the KORG Legacy Collection called Polysix Legacy Edition. This software is a full digital replica (emulation) of the hardware Polysix. And was also part of the LAC-1 expansion for the Korg OASYS and is one of the Korg Kronos sound engines. More recently, KORG introduced a mobile iOS application for iPad ( iPolysix ), which faithfully reproduces the dynamics of the original.

In July 2013, KORG introduced a PolySix instrument for Propellerhead Reason 7.

Notable users

Sources