Processor Types
169
01V—Owner’s Manual
THRESHOLD
—This determines the level at which the gate closes, cutting off the sig-
nal. Signals above the threshold level pass through unaffected. Signals at or below the
threshold, however, cause the gate to close. The trigger signal is sourced using the KEY
IN parameter.
RANGE
—This determines the level to which the gate closes. Think of it as a brick hold-
ing a garden gate open so that a certain amount of signal always flows through. For a
setting of –70 dB, the gate closes completely when the input signal falls below the
threshold. For a setting of –30 dB, however, the gate half closes. For a setting of 0 dB,
the gate has no effect. When signals are gated abruptly, the sudden disappearance can
sometimes sound odd. This parameter causes the gate to reduce the signal level rather
than cut it completely.
HOLD
—This determines how long the gate stays open once the trigger signal has fallen
below the threshold level.
ATTACK
—This determines how fast the gate opens when the signal exceeds the thresh-
old level. Slow attack times can be used to remove the initial transient edge of percussive
sounds. Too slow an attack time makes some sounds appear backwards.
DECAY
—This determines how fast the gate closes once the hold time has expired. A
longer decay time produces a more natural gating effect, allowing the natural decay of
an instrument to pass through. With a maximum decay time of between 42 and 63 sec-
onds, you could even use this for fade-outs.
DUCKING
Ducking is commonly used for voice-over
applications in which the background music
level is reduced automatically when an
announcer speaks. Ducking is achieved by
triggering a compressor with a different
sound source. For example, a ducker is
patched into the background music channel,
and the KEY IN signal is sourced from the
announcer’s microphone channel. When the
announcer’s microphone level exceeds the
specified threshold, the background music
level is reduced automatically, allowing the
announcer to be heard clearly. The same
technique can also be used for vocals in a mix.
For example, ducking backing sounds such as rhythm guitar and synth pad during
vocal phrases allows the vocals to be heard more clearly. This can also be used to bring
solo instruments up in a mix.
THRESHOLD
—This determines the level of trigger signal (KEY IN) required to acti-
vate ducking. Trigger signal levels below the threshold do not activate ducking. Trigger
signals at and above the threshold level, however, activate ducking, and the signal level
Parameter
Range
THRESHOLD
–54 dB to 0 dB (55 steps)
RANGE
–70 dB to 0 dB (71 steps)
HOLD
0.02 ms–1.96 s (fs = 48 kHz)
0.02 ms–2.13 s (fs = 44.1 kHz)
ATTACK
0–120 ms (1 ms steps)
DECAY
5 ms–42.3 s (fs = 48 kHz)
6 ms–46 s (fs = 44.1 kHz)
–70
–60
–50
–40
–30
–20
–10
0
+10
+20
–70
–60
–50
–40
–30
–20
–10
0
+10
+20
Input Level (dB)
Output Level (dB)
Range = –30dB
Threshold = –20dB
Summary of Contents for 01V
Page 18: ...8 Chapter 1 Welcome to the 01V 01V Owner s Manual ...
Page 22: ...12 Chapter 2 Getting Started 01V Owner s Manual ...
Page 36: ...26 Chapter 3 Touring the 01V 01V Owner s Manual ...
Page 48: ...38 Chapter 4 Getting Around the User Interface 01V Owner s Manual ...
Page 116: ...106 Chapter 9 Aux Sends 01V Owner s Manual ...
Page 124: ...114 Chapter 10 Bus Outs 01V Owner s Manual ...
Page 170: ...160 Chapter 12 Effects 01V Owner s Manual ...
Page 192: ...182 Chapter 13 Dynamics Processors 01V Owner s Manual ...
Page 262: ...252 Chapter 18 System Examples 01V Owner s Manual ...
Page 270: ...260 Appendix A General 01V Owner s Manual ...
Page 282: ...272 Appendix B Specifications 01V Owner s Manual ...
Page 302: ...292 Appendix D Resources 01V Owner s Manual ...