SU287143A1 - - Google Patents

Description

The invention relates to the field of telecommunications, in particular to the field of receiving signals on optical communication lines.

Devices are known for automatically adjusting the gain of an optical signal receiver, comprising an adjustable amplifier to which the received signal is fed through a polaroid, a photodetector, and a gain control circuit including an amplifier and a control element.

When transmitting signals via optical communication lines (RL), the linear path introduces absorption that continuously changes in time. The absorption fluctuations of the linear pathway manifest as a multiplicative disturbance. The optical modulation of optical radiation multiplicative interference is also the noise of an optical quantum generator (JAG).

The fluctuations of the absorption of the linear tract have a spectrum from zero to hundreds of hertz, and the spectrum of the oscillations of the power of a laser contains frequencies from zero to several megahertz.

Due to the large frequency range, the multiplicative interference of the FMR is in the spectrum band of the transmitted signals, therefore, the use of well-known automatic gain control (AGC) schemes in which the detected voltage of the received signal controls the gain of the receiver in the frequency range of the multi-click interference, leads to the receiving amplifier receiving impossible to get rid of. If the AGC scheme does not work out all the frequency components of multiplicative interference, then the acceptability noise immunity decreases.

In order to suppress multiplicative noise in their entire frequency range and increase the noise immunity of optical linkages in the proposed device, the amplitude modulation of the optical carrier in the optical signal path is inserted in front of the polaroid at the receiving station, the main splitter is dropped on the information channel n AGC channel with the control circuit of the gain of the information signal amplifier, performed on the second photodetector, the amplifier and the control element.

Pa drawing shows a structural diagram of the proposed device AGC receiver optical signals.

The device contains a splitter (translucent mirror) /, polaroid 2, a photodetector 3 for the gain control circuit, an amplifier 4 for the gain control circuit, a control element 5 ,.

a control signal amplifier 7, the gain control circuit of the information amplifier 8.

The proposed device works as follows.

When modulating optical radiation with Kerr or Pockels modulators, modulation of polarization occurs at the output of the modulator, the optical power does not depend on the voltage applied to the modulator, and fluctuations of the received optical signal are determined at the reception site before the polarization only multiplicative interference of the linear path and the laser. Since in the proposed scheme the splitter is set up to a polaroid, an optical signal enters the gain control circuit, the power of which changes according to the law of change of multiplicative interference. As a result, the voltage controlling the gain of the information amplifier is determined only by multiplicative interference. The spectral components of the information signal are separated after the polarity, therefore, they will not fall into the automatic adjustment circuit, and the information amplifier is not excited. .Sectional multi-interference interference occupies a smaller band compared to the frequency spectrum of the information signal. The bandwidth of the photodetector and the control circuit amplifier is determined by the spectrum of this interference and does not depend on the frequency band occupied by the information signal.

The optical signal from the splitter goes in parallel to the polaroid and to the photodetector of the gain control circuit, to the output of which is connected the amplifier of the control loop control circuit connected to the input of the control element. The information optical signal falls on the photodetector of the information signal, to

the output of which is connected to the amplifier information signal.

The multiplier interference suppressor device of the FMR operates as follows.

A small part of the received light power, coupled to the polaroid by means of a splitter (translucent mirror), falls on the photodetector of the gain control, the output of which creates a variable voltage proportional to changes in the received light power caused by fluctuations of linear path absorption and oscillation mi light power quantum generator. This violation is amplified in the amplifier of the gain control circuit, goes to the control element, and the gain of the information signal amplifier changes in time with interference.

The proposed scheme is used when transmitting analog, discrete, and multichannel messages over the RL. This device eliminates the effect of multiplicative interference on the operation of optical communication lines and thereby increases their noise immunity.

Subject invention

A device for automatically adjusting the gain of an optical signal receiver, comprising an adjustable amplifier to which the received signal is fed through a polaroid and a photodetector, as well as a gain control circuit including an amplifier and a control element, characterized in that multiplicative interference, on the path of the received signal in front of the polaroid, a mirror of the opacity is installed, reflecting a part of the received signal to the additional photodetector, the output of which is connected to input gain control circuit.