Gain - trim and fader relationship, Input trim input fader, High-pass filter – Sound Devices 552 User Manual

552 User Guide and Technical Information

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v. 1.4 Features and specifications are subject to change. Visit www.sounddevices.com for the latest documentation.

disabled, no voltage is applied to the microphone input. Do not apply power to ribbon microphones,

improperly wired cables can permanently damage the microphone.

Gain - Trim and Fader Relationship

The gain of an input is adjusted by two controls, Input Trim and Input Fader. This two-stage archi-

tecture is identical the to topology of mixing consoles and provides a great deal of flexibility. Input

Trim is often thought of as a course gain control and the Input Fader as the fine gain control.

Input Trim

The 552’s input sensitivity is set with the pop-up knob Trim control. With the Input Fader set to unity

gain (0 dB or 12 o’clock), make the appropriate adjustments using the Trim control. Once the coarse

gain is set to the desired level, recess the Trim control to hide it from the 552’s mixing surface. Trim

level is adjustable from 22 to 72 dB of gain.

Input Fader

The Input Fader is the primary control used during mixing operation. Use the Input Fader to make

fine gain adjustments during operation. The fader can be attenuated from off (full counter-clockwise

position) to +15 dB above the set Trim level (full clockwise position). To optimize gain structure for

the best noise performance operate input faders at or near the 0 dB (unity gain) position.

High-Pass Filter

Each input channel has an adjustable high-pass filter controlled by the High-Pass Filter pop-up knob.

High-pass (or low-cut/low roll-off) filters are useful for removing excess low frequency energy from

audio signals. Wind noise is a common unwanted low frequency signal that can be reduced with

the use of a high-pass filter. For most audio applications engaging the high-pass filter is beneficial,

because audio information below 100 Hz is rarely used, especially for speech reproduction.

The 552’s high-pass filter circuit features an adjustable corner (-3 dB) frequency over a range from 80

to 240 Hz. Below 80 Hz, the filter’s slope is 12 dB/octave. At higher corner frequency settings, the

slope is 6 dB/octave.

See Specifications.

The purpose for this compound slope is to give additional

roll-off at the 80 Hz setting to reduce wind noise and low frequency rumble. The higher settings can

be used to counteract the proximity effect of directional microphones where a more gentle slope is

desired.

When engaged or disengaged, the high-pass filter gradually fades into the selected state. This pre-

vents sudden obvious pops in the audio.

The 552’s high-pass filter circuit is unique because of its placement before any electronic amplifica-

tion. Most mixer’s high-pass filter circuits are placed after the microphone preamplifier, such that all

of the low-frequency signals get amplified. By virtue of the 552’s circuit cutting the low-frequency

signals before amplification, higher headroom is achieved in the presence of signals with significant

low-frequency energy.