VT33N3 PERKINELMER [PerkinElmer Optoelectronics], VT33N3 Datasheet - Page 66

VT33N3

Manufacturer Part Number

VT33N3

Description

Photoconductive Cells and Analog Optoisolators (Vactrols)

Manufacturer

PERKINELMER [PerkinElmer Optoelectronics]

Datasheet

1.VT33N3.pdf (76 pages)

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Application Notes—Analog Optical Isolators

Gating and Muting

Background noise becomes very objectionable when a signal level in a

program is low. Noise is any unwanted sound and may be due to tape

hiss or amplifier hum. These noises can be eliminated by selective use

of gating and muting, that is, turning the amplifier on when the signal

level is high and off when it is low. This technique can also remove or

reduce unwanted echo, print through, presence or any other distracting

signal during portions of a program which are normally silent. The

gating circuit must be completely transparent to the listener, having a

smooth, rapid operation with no signal distortion.

A practical gating circuit having these features is shown in Figure 3.

The circuit has five basic sections: the threshold adjustment, a high AC

gain stage, full-wave rectifier, LED driver and an electrically controlled

voltage divider. When the signal is below the threshold level, the

voltage divider consisting of the AOI and R

attenuation. When the signal exceeds the threshold, the voltage divider

allows the signal to pass through.

The circuit operation is as follows. The THRESHOLD potentiometer

applies a portion of the signal to the high gain AC amplifier consisting

of op-amp A

signal is full-wave rectified by diodes D

, resistors R

and R

and capacitor C

and D

together with op-amp

. The amplified

has maximum

Figure 3. Audio Sound Gate

of the rectifying diodes, the voltage drop across R

of the LED. This voltage is 2.5 – 3.0V and when referred to the input

gives a threshold of 2.5 – 3.0 mV at the amplifier.

The circuit can be set up for a specified threshold voltage. Release

time is usually determined empirically. A typical set up procedure uses

an audio signal containing spoken dialog. Initially, the THRESHOLD

adjustment is set to the maximum and the RELEASE is set to the

minimum. The program is turned on and the THRESHOLD is

decreased until the audio starts coming through, but sounds chopped

up. The chopping occurs because the circuit is too fast on release. The

RELEASE is increased until the audio is smoothed out and sounds

normal. Setting of the two controls needs to be made carefully. A

threshold set too high cuts off the quieter sounds, while a setting which

is too low allows more of the noise to come through. Short release time

causes more chopping of the audio and can create some distortion at

the lower frequencies. Long release time keeps the gate open too long

allowing noise to come through after the signal is gone. Adjustments

should be made incrementally and worked between the two controls

until the best sound is achieved.

, the LED driver. The threshold voltage is a sum of the forward drop

which inverts the negative half of the signal. The rectifier charges

used for RELEASE TIME control and drives the base of transistor

, V

or Q

and V

VT33N3 PERKINELMER [PerkinElmer Optoelectronics], VT33N3 Datasheet - Page 66

VT33N3

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