User Manual
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MOMENTARY PITCH SWEEP TIME
When in momentary mode, by default, the pitch changes instantly to the set
interval upon pressing the footswitch, and changes instantly back to the bypass
signal upon releasing the footswitch. The IHM includes an option to slow down
the pitch sweep time when pressing and releasing the footswitch.
To enable this option, rst hold down the MOMENT illuminated button for about
two seconds. Release MOMENT after it starts blinking. While MOMENT is blinking,
the IHM will be in momentary mode. All knobs and switches will still work as
usual, except the VOL knob. While the MOMENT button is blinking, the VOL knob
adjusts the sweep time. As you turn the VOL knob clockwise, the sweep time
increases. Turning the knob all the way counterclockwise will result in there
being no sweep (the default setting).
To save the sweep time setting, hold down the MOMENT button again until it
stops blinking. Now pressing the footswitch in Momentary mode will result in
pitch sweeps with the set sweep time. The IHM stores your Momentary mode
sweep time setting into internal memory and recalls your setting on each
power cycle.
Tips
Selecting the Key: While in Intelligent Mode, if you are having a hard time
generating the correct harmony notes you want for a specic line, try playing
with the key setting. Different keys generate different harmonies for specic
notes, sometimes the harmony notes you want to generate are technically in
a different key (or scale) than what you would initially assume.
Signal Path Placement: Experiment with where you place the IHM in your
signal path, especially when it comes to distortion pedals. Placing the IHM
after distortion will lead to a more “realistic” sound as far as multiple guitars
playing together. Placing the IHM before distortion will “glue” the harmonies
together more, making it sound more like one unied instrument.
Notes and Specications
t Audio input impedance at INPUT jack: 2.2MΩ
t Audio output impedance at OUTPUT and DRY OUT jacks: 680Ω
t Current draw: 26mA at 9.0VDC
t Maximum input signal: +4.0 dBu