User manual

Typical Voltage Controlled Triangle Function (Triangle LFO)

Set CH. 1 (or 4) to Cycle. Set Rise and Fall Panel Control to 12:00,

Vari-Respnose to Linear. Set CH. 2 Attenuverter to 12:00. Patch SUM

Output to Both Control Input. Optionally, apply any desired frequency

modulation to the CH. 3 Signal Input and slowly turn it’s attenuator

clockwise. Increase the CH. 2 Attenuverter to change the Frequency.

Output is taken from the Signal Output of associated Channel. Setting

Rise and Fall parameters further clockwise provides longer cycles.

Setting these parameters further counter clockwise provides short

cycles, up to audio rate. The resulting function may be further

processed with attenuation and/or inversion by the associated

Attenuverter. Alternatively, take output from the Cycling Channel's

UNITY Output and patch the Variable Outputs to the Rise or Fall CV

Input to morph LFO shapes with the CH 1 (or 4) Attenuverter.

Typical Voltage Controlled Ramp Function (Saw/ Ramp LFO)

Same as above, only the Rise parameter is set full counter clockwise,

Fall parameter is set to at least 12:00.

Voltage Controlled Transient Function Generator (Attack/ Decay

EG)

A pulse or gate applied to the Trigger Input of CH. 1 or 4 starts the

transient function which Rises from 0V to 10V at a rate determined by

the Rise parameter and then falls from 10V to 0V at a rate determined

by the Fall parameter. This function is re-trigger-able during the falling

portion. Rise and Fall are independently voltage controllable, with

variable response from Log through Linear to Exponential, as set by

the Vari-Response panel Control. The resulting function may be

further processed with attenuation and/or inversion by the

Attenuverter.

Patch Ideas: Analog Signal Processing, Voltage MATHS!