SU1007208A1 - Device for monitoring pulse of signal receivers - Google Patents

Abstract

A DEVICE TO CONTROL RECEIVERS OF PULSE OPTICAL SIGNALS containing an optical radiation source with a current modulator, a test signal sensor, as well as a recording unit and a light guide. connected, respectively, to the output and input of the monitored receiver, characterized in that, with the aim of increasing the control accuracy, additional sources of optical radiation are introduced by current modulators, a linear filter unit, an optical mixer, and a pulse distributor consisting of series-connected meters; and a switch, the outputs of which through a block of linear filters are connected to the inputs of the corresponding current modulators, the outputs of which are connected to the inputs of the respective optical radiation sources, the outputs of which through an optical mixer are connected to the input of the optical fiber, and the output of the sensor (L of the test signal is connected to the corresponding counter and switch inputs.

Description

The invention relates to an optical communication technique and can be used in setting up and testing receivers of optical communication systems. An arbitrary device that simulates a source waveform with a pulse distortion, containing a semiconductor source of optical radiation coming into the receiver under study and an optical modulator excited by a signal having random variations characteristic of the optical link, the system for monitoring the instability of the parameters of the radiation pulses and the recording system connected to the output of the investigated receiver l. However, when testing receiver parameters that characterize its operation under interference conditions of receiving optical pulses caused by dispersion distortions of the signal, this device does not provide sufficient measurement accuracy. This is caused by the nonlinearity of the modulation characteristics of semiconductor optical sources, which leads to a nonlinear law of power addition from the overlapping modulating pulses, while in real fibers the dispersion distortions are linear in power. The closest to the proposed technical essence is a device for monitoring receivers of pulsed optical signals containing an optical radiation source with a current modulator, a test signal sensor, and a recording unit and a light guide connected respectively to the output and input of the controlled receiver 2. However, the known device has a low control accuracy. The purpose of the invention is to improve the accuracy of control. The goal is achieved by adding additional sources to the receiver's monitoring device for pulse optical signals containing an optical radiation source with a current modulator, a test signal sensor, and a recording unit and a light conductor connected respectively to the output and input of the monitored receiver. optical radiation with current modulators, a linear filter unit, an optical mixer and a pulse distributor, consisting of a series-connected counter and switch, the outputs of which are through b A linear filter box is connected to the inputs of the corresponding current modulators, the outputs of which are connected to the inputs of the corresponding optical sources, the outputs of which are connected via an optical mixer to the light guide input, and the sensor output of the test signal is connected to the corresponding inputs of the core and the switch. The drawing shows a structural electrical circuit of the proposed device. The device for monitoring the receivers of pulsed optical signals contains a sensor 1 of the test signal, a distributor of 2 pulses consisting of counter 3 and switch 4, and an optical mixer 5, connector b, recording unit 7, block 8 of linear filters 9, sources 10 of optical signals with their own modulators 11 current, the light guide 12, in addition, the drawing shows the checked receiver 13. The device operates as follows. The sequence of pulses from the output of sensor 1, which models the linear signal of the communication system, is fed to the distributor 2 pulses. The distributor 2 pulses consists of a counter 3 s. coefficient of recounting ;; one equal to N and switch 4 to N outputs, controlled by signals from the bits of counter 2, and at the switch output, the pulses are distributed alternately and fed to the inputs of filters 9 of block 8. Frequency response of linear filters simulates the frequency response of the fiber power and takes into account pulse distortions when modulating the radiation of sources 10. The power of the emitted pulses is added in an optical mixer 5, which, in particular, can use N + 1 optical fiber segments, interconnected, the first of N. twisted segments are docked to sources 10, and the latter is connected to connector b. When measuring, the checked receiver is connected to the connector b of the transmitting part through the light guide 12, and the recording unit 7 to the output of the checked receiver 13. Thus, the proposed device allows checking the parameters of the checked receiver characterizing its operation under dispersive conditions. distortions of optical signals. Dispersion distortions are modeled by electrical signals with you. In this case, the distribution of pulses over several sources 10 and the addition of emitted signals in an optical mixer ensures the linearity of the power generation of individual pulses and, consequently, increases the accuracy of modeling the characteristics of the fiber.

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Claims (1)

DEVICE FOR MONITORING RECEIVERS OF 'PULSE OPTICAL SIGNALS ^ containing an optical radiation source with a current modulator, a test signal sensor, as well as a recording unit and an optical fiber connected respectively to the output and input of the monitored receiver, characterized in that, in order to increase the accuracy of control,' additional optical radiation sources by current modulators, a line filter unit, an optical mixer and a pulse distributor, consisting of commutators connected in series with counters an ora, the outputs of which through a block of linear filters are connected to the inputs of the corresponding current modulators, the outputs of which are connected to the inputs of the corresponding optical radiation sources, the outputs of which are connected through the optical mixer to the input of the fiber, and the output of the test signal sensor is connected to the corresponding inputs of the counter and switch. _m SU 1007208>