The beginning of the LFO cycle is normally synchronized with
When this parameter is on, the LFO cycle always begins from the peak of a positive
When LFO KEY SYNC is OFF, the LFO cycle starts from a random point when a key is played. This is the ideal setting when the LFO is being used to create natural
9: PITCH MODULATION SENSITIVITY
This parameter sets the sensitivity of all operators to pitch modulation applied either via the LFO PMD parameter, above, or via the modulation wheel or breath controller. The data range is from 0 to 7. At 0, no pitch modulation can be applied, and at 7 the maximum pitch modulation can be achieved. When LFO PMD, above, is set to 99, a setting of 7 produces a ±800 cents pitch variation.
10: AMPLITUDE MODULATION SENSITIVITY
This sets the operator’s sensitivity to LFO effects applied via the LFO PMD or AMD functions, or via the modulation wheel or breath controller.
The application of LFO modulation to a carrier results in tremolo, and applied to a modulator the result is a periodic variation in timbre similar to wah effects. Applied to a modulator, the result is brilliance control.
The data range is from 0 to 3. At 0, amplitude modulation sensitivity is OFF and no LFO effects can be applied to the selected operators. A setting of 3 produces maximum sensitivity and therefore maximum effect depth.
The operators to which modulation sensitivity is to be applied are selected using buttons BANK A through BANK D. The four
11: EG BIAS SENSITIVITY
This sets the operator’s sensitivity to EG BIAS effects applied via the breath con- troller. EG bias changes the overall output level from the operator. The harder you blow into the breath controller, the higher the maximum envelope level. When EG BIAS is applied to a carrier via the breath controller, the result is volume (expression) control. Applied to a modulator, the result is brilliance control.
The data range is from 0 to 7. At 0, EG BIAS sensitivity is OFF and no EG BIAS
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