Owner's manual

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6 Linear Input :

This is the Linear Control Voltage Input. Acceptable input voltage range is +/- 5V. This is a

more subtle modulation eect which varies the oscillator pitch by up to +/- 7 notes

depending upon the setting of the Linear CV Level Control (7)

7 Linear CV Level :

Controls the amount of Linear Modulation applied to the oscillator core from the Linear

CV Input (6)

8 Sync Input :

A rising pulse waveform of +/- 5V (e.g. the Saw waveform from another MiniMod VCO)

can be applied to this input to prematurely reset (synchronise) the oscillator waveform for

interesting sonic results. The sync eect is very level sensitive and is set using the Sync

Threshold control (9).

If it is desired to use a falling ramp waveform from a dierent oscillator for sync it will

need to be fed through an invertor to convert it to the rising ramp waveform required for

eective triggering.

9 Sync Threshold :

The Sync eect is very level sensitive and the waveform level from the Sync Input (8))

presented to the oscillator core can be set using this control. Start with the control fully

counter clockwise and gradually increase it until the desired eect is obtained. The

frequency relationship between this oscillator and the synchronising oscillator plays a

large part in the resulting sounds created. Experiment!

10 Sync Type :

This switches between two dierent sync types. With the switch “down” regular sync is

eective, which can be used to create ripping “laser harp” type sounds. With the switch

“up” a ramp rather than short pulse is applied to the oscillator core reset transistor and

some interesting harmonic and stepped frequency eects can be created. Dierent Sync

threshold levels are required for the “up” and “down” Sync switch positions.

11 Saw Output :

Rising ramp waveform output. It has a level of +/-5 volts centred around 0v. The output

impedance is 1Kohm.

12 Triangle Output :

Triangle wave output. It has a level of +/-5 volts centred around 0v. The output impedance

is 1Kohm.

13 Shark Output :

The famous “Sharktooth” waveform from the early Model D synthesiser. It has an output

level of +/-5 volts centred around 0v. The output impedance is 1Kohm.

14 Square Output :

Square wave output. It has a level of +/-5 volts centred around 0v. The duty cycle

(amount of time the waveform is “high” against “low”) can be varied with the Manual

PWM control (15) or under voltage control (16). The output impedance is 1Kohm.

15 PWM Shape :

Adjusts the duty cycle of the square wave between approximately 10% and 90%. When

set to the half way (12 o’clock) position the duty cycle is 50%, which creates a regular

square wave.

16 PWM Control :

A control voltage can be applied to the PWM CV Input to vary the PWM duty cycle. The

control voltage range should be between +/- 5volts and the intensity can be controlled

between 0% to 100% with the PWM CV rotary control knob. A low frequency triangle

wave to the PWM CV Input will give the classic sweeping PWM eect. The PWM Shape

Control is still eective when using PWM CV and it changes the oset level.