Dynamics Parameters
229
LS9-16/32 Owner’s Manual
Appendices

Input channels provide DYNAMICS section 1 and DYNAMICS section 2. Output channels provide

DYNAMICS section 1. An input channel’s DYNAMICS section 1 provides the following four types: GATE,

DUCKING, COMPRESSOR, and EXPANDER. An input channel’s DYNAMICS section 2 provides the fol-

lowing four types: COMPRESSOR, COMPANDER-H (Compander Hard), COMPANDER-S (Compander

Soft), and DE-ESSER. An output channel’s DYNAMICS section 1 provides the following four types:

COMPRESSOR, EXPANDER, COMPANDER-H (Compander Hard), and COMPANDER-S (Compander

Soft).

GATE • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •

A gate attenuates signals below a set THRESHOLD level by a specified amount (RANGE).

DUCKING • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •

Ducking is commonly used for voice-over applications in which the background music level is reduced automatically when an
announcer speaks. When the KEY IN source signal level exceeds the specified THRESHOLD, the output level is attenuated by a
specified amount (RANGE).
Dynamics Parameters
Parameter Range Description
THRESHOLD (dB) –54 to 0 (55 points) This determines the level at which the gate effect is applied.
RANGE (dB) , –69 to 0 (71 points) This determines the amount of attenuation when the gate closes.
ATTACK (ms) 0–120 (121 points) This determines how fast the gate opens when the signal exceeds the threshold
level.
HOLD (ms) 44.1kHz: 0.02 ms – 2.13 sec
48kHz: 0.02 ms – 1.96 sec (160 points)
This determines how long the gate stays open once the trigger signal has fallen
below the threshold.
DECAY (ms) 44.1kHz: 6 ms – 46.0 sec
48kHz: 5 ms – 42.3 sec (160 points)
This determines how fast the gate closes once the hold time has expired. The value
is expressed as the duration required for the level to change by 6 dB.
Parameter Range Description
THRESHOLD (dB) –54 to 0 (55 points) This determines the level of trigger signal (KEY IN) required to activate ducking.
RANGE (dB) –70 to 0 (71 points) This determines the amount of attenuation when ducking is activated.
ATTACK (ms) 0–120 (121 points) This determines how soon the signal is ducked once the ducker has been triggered.
HOLD (ms) 44.1kHz: 0.02 ms – 2.13 sec
48kHz: 0.02 ms – 1.96 sec (160 points)
This determines how long ducking remains active once the trigger signal has fallen
below the THRESHOLD level.
DECAY (ms) 44.1kHz: 6 ms – 46.0 sec
48kHz: 5 ms – 42.3 sec (160 points)
This determines how soon the ducker returns to its normal gain once the trigger sig-
nal level drops below the threshold. The value is expressed as the duration required
for the level to change by 6 dB.
Input Level Time Time
Output Level
Input Level
Output Level
I/O Characteristics Time Series Analysis
RANGE
THRESHOLD
THRESHOLD
RANGE
Input Signal Output Signal
ATTACK DECAY
HOLD
Input Level Time Time
Output Level
Input Level
Output Level
I/O Characteristics Time Series Analysis
RANGE
THRESHOLD
THRESHOLD
RANGE
Input Signal Output Signal
ATTACK DECAY
HOLD