Initial setup and checkout, Theory, 77ie need for gain control – Ashly LIMITER/COMPRESSORS CL-100 User Manual

INITIAL SETUP AND CHECKOUT

Exact control of system headroom requires defining the clipping point of

the amplifiers in relation to the nominal zero VU of the mixing console. A

signal generator and oscilloscope would be helpful in determining this point

Since many people do not have the facilities or time to set up their systems in

this way, an alternate approach is suggested.

* First, realize that the sound system may have several different “0 dB"

levels, especially if equipment of different manufacturers are being mixed.

0 VU on the mixer’s meters may or may not correspond to a 0 dB V level of

.778 Volts. Also, note that input sensitivities of power amplifiers also vary.

1. Begin by turning the crossover level controls down.

2. Switch the unites LIMIT switch to the OUT position.

3. Set both the GAIN and OUTPUT level controls to 0 dB.

4. Set the RATIO control to 10 and adjust the ATTACK and RELEASE

controls to a relatively fast setting.

5. Plug a good quality music source into the mixing console and adjust

the console so that its meter peaks at around 0 VU.

6. Look at the LED display on the CLr50E and adjust the GAIN control

so that the yellow THRESHOLD LED lights only on peaks.

7. Note the new position of the GAIN control and adjust the OUTPUT

control inversely. That is, if you increased the Gain control to +10 dB

in order to light the Threshold LED, then decrease the Output control
to-10 dB. Or, if you had to decrease the Gain control to light the
Threshold LED, then increase the Output by an equal amount. You

have rww gotten the console and the compressor/limiter into relative
agreement over what is a maximum permissible signal level; as long
as the console’s output meter stays out of the red, little or no limiting

will occur. At or above console 0 VU, limiting will take place.

8. Turn the input volume control of your electronic crossover up to its

nominal zero point fforAshly crossooers this is it 7). Turn the
OUTPUT level controls of the crossover up until you achieve a good

musical balance of low and high frequencies, and continue to increase
the output volume controls until the soimd system just begins to sound
a little distorted. Since audible distortion may already be around 5%,
its a good idea to back off the output volume controls just a touch after

you first begin to hear any distortion. All elements of the sound system

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are now in agreement. Console OVU - Limiter Threshold = onset of
clipping in your power amplifiers. If you wish to allow extra
headroom in the system between console OVU and the onset of
dipping, turn down the ClrSOHs OUTPUT volume control by 5 dB,

10 dB, or whatever saftty margin you desire. (You can turn the music

down now.)

9. Start with alms. ATTACK time, a.5 sec, RELEASE time, and a

RATIO of 10. Adjust these parameters according to the type of
program material, and firmness of control desired.

10. Activate the compressor/limiter by depressing the LIMIT IN/OUT

switch. Now, bud bursts of energy above 0 VU will cause little or no
dipping in the system. □

THEORY

77ie

Need For Gain Control

The human ear excels in its ability to detect an extremely wide range of

loudness levels, fix}m the quietest whisper to the roar of a jumbo jet. When

we attempt to reproduce this dynamic range, by means of amplifiers, tape

recorders, records, or radio transmitters, we run into one of the fundamental

limitations of these electronic media: limited dynamic range. Amplifier

dynamic range is quite good, and is adequate for most musical program

material. However, some types of audio equipment, such as cassette tape

recorders, have a very narrow useful dynamic range.

What is it that compromises the dynamic range of this equipment? The

useftil operating region of a piece of audio equipment is squeezed in between

noise and distortion. As program level decreases, it approaches what is

known as the “noise floor”, and if the volume of the program material goes

lower still, it is engulfed by the noise. The noise floor, or minimum constant

noise level, will consist of hiss, hum, transistor noise, record scratches, tape

hiss, buzz and whatever noises are inherent in the medium. When the

program level is considerably higher than the noise floor, our hearing masks

the noise, and it is not a problem. However, when listening to very quiet

sections of a program for example, a pause between movements of a string

quartet the noise can become very bothersome.

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