Sync master additive oscillators with 16 triangle partials. Fixed range from fundamental frequency up to 16th harmonic. BC Pipe inputs for external control of partial levels.
Sync slave additive oscillators with 16 triangle partials. Fixed range from fundamental frequency up to 16th harmonic. BC Pipe inputs for external control of partial levels.
Slave sine additive OSC with 1 partial size. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
sine additive OSCs with 1 partial size. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
Master sine additive OSCs 4 partial sizes. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
Slave sine additive OSCs with 4 partial sizes. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
sine additive OSCs with 4 partial sizes. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
Master sine additive OSCs with 8 partial sizes. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
Slave sine additive OSCs with 8 partial sizes. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
sine additive OSCs with 8 partial sizes. Individual level controls which can be switched bi-polar for phase inversion and partial frequency multiplier settings from 0-64.00x. Can be combined for larger scale additive oscillators. Both sync and non-sync varieties are provided. Inharmonic and subharmonic (1/n) scale settings tend to yield better results with the non-sync versions.
Produces white noise that has been filtered through a band-pass filter with adjustable cutoff. The filtered and unfiltered signal is available at separate outputs. More Info
This oscillator produces a continuous waveform that changes (morph) from sine to pulse. The morph factor and the pulse width can each be controlled. More Info
This oscillator produces a continuous waveform that changes (morph) from sine to saw. The morph factor and the pulse width can each be controlled. More Info
LFO with switchable waveform between sine, triangle, square, saw up, saw down, and random (S&H). The frequency of the LFO is auto switching between internal and external depending on connection state of the frequency socket. Two pitch modulators with bi-polar depth control are built in. The waveform can be retriggered and the LFO output can be controlled by a simple internal envelope generator. More Info
LFO with switchable waveform between sine, triangle, square, saw up, saw down, and random (S&H). The frequency of the LFO is auto switching between internal and external depending on connection state of the frequency socket. The waveform can be retriggered and the LFO output can be controlled by a simple internal envelope generator. More Info
Sync master multimode oscillator with a choice of 5 waveforms and ext audio pass through. A modulation input is provided for pulse width of square waveform. More Info
Sync slave multimode oscillator with a choice of 5 waveforms and ext audio pass through. A modulation input is provided for pulse width of square waveform. More Info
Master Multi OSC with individual outputs for Pulse, Sawtooth and Triangle waveforms.
Controls for DC Offset of Pulse and Sawtooth and variable sawtooth direction. These modules require amplification.
Slave Multi OSC with individual outputs for Pulse, Sawtooth and Triangle waveforms.
Controls for DC Offset of Pulse and Sawtooth and variable sawtooth direction. These modules require amplification.
A new version of the Wavetable Draw oscillator which can now store up to 32 waveforms per preset. A Pipe64 input is provided for external control of the waveform shape. More Info
basic synth using the Waldorf Wavetable Oscillator. If you don't have Max For Live, you can still use this patch, just re-patch the MIDI input into the MVC, instead of the MIDI Out of the SS16. BC Forum
OSC
Description
Oscillator ModulesModules
Screen
SS-Waldorf [Example OSC ScopeSync Control]
basic synth using the Waldorf Wavetable Oscillator. If you don't have Max For Live, you can still use this patch, just re-patch the MIDI input into the MVC, instead of the MIDI Out of the SS16. BC Forum