SU1438011A1 - Method of checking the linear path of digital transmission system - Google Patents

Abstract

) The invention relates to the field of telecommunications and m. used in the development of digital transmission systems. The purpose of the invention is to reduce the time and ensure the security of the cont. roll The linear path is monitored by receiving electromagnetic radiation at a frequency equal to the frequency of the linear signal passing through the controlled points of the linear path, detecting the deformation spectrum of this radiation, onpeja, e-ling duration, and particular repetition of the detection of deformations. The device implementing the method comprises an antenna 1J input unit 2, a limiting amplifier 3, a tunable band-pass filter 4 with an adjustable bandwidth and average frequency, a detector 5, a low-pass filter 6 with constant-time adjustment, a forming unit 7, counter 8 failures, indicator 9, reference Mr. 10, SS shaper 11 time stamps, shaper pulses reset 12. 1 Il. (L

Description

The invention relates to electro ™ communication and can be used in the development of digital transmission systems (DSP).

The chain of invention is to reduce time and ensure safety of control.

The drawing shows a structural diagram of a device for implementing the proposed method.,

The device comprises an antenna 1, an input unit 2, an amplifier-limiter

3, tunable bandpass filter

4, with adjustable bandwidth and average frequency, detector 5, low-pass filter (FIC) 6 with time constant adjustment, generating unit 7, failure counter, indicator 9, reference generator 10-, driver 11 time stamps and driver 12 pulses reset.

The essence of the method is as follows.

The control of the linear path is carried out by receiving electromagnetic radiation of a linear signal, detecting a deformation of the spectrum of this radiation, determining the duration and, in particular, repeating the detection of deformations.

A device for implementing the proposed method works as follows,

The linear signal of the controlled DSP, passing through an input-cable device or terminal station, causes electromagnetic radiation, the level of which is sufficient to use the near range of the antenna. In this case, the transmitting antenna is the installation of an intermediate or terminal station. After the transmitting antenna, the radiation acts on the receiving antenna, inducing in it the voltage of the linear group signal. Antenna I is a frame fixed on a special holder, which must be installed in close proximity to cable entries, linear boxes or other points of collection of information about a linear signal. This voltage then comes from the input unit 2, similar to the input stage of the radio receiver, which provides preliminary? amplification and filtering of the input signal and communication of the antenna with the amplifier-limiter 3 "The input unit 2 is a preliminary broadband low-noise amplifier, which ensures matching of the antenna 1 with the input of the amplifier-limiter 3, as well as protection of the device from dangerous and disturbing influences. The amplified signal of normalized amplitude from the output of the amplifier-limiter 3 is fed to a tunable band-pass filter 4, which is designed to isolate the frequency components that appear in the spectrum of a linear signal in the event of malfunctions. An analysis of the energy spectra of two- and three-level linear signals showed that in the event of failures of these signals leading to a violation of the linear code algorithm, an aperiodic change (deformation) of the energy spectrum of the group signal occurs, which can be detected by filtering the group signal to isolate a component with a frequency equal to the clock frequency, and subsequent amplitude detection of the frequency component selected by the band-pass filter, Depending on the type of linear signal ala (OMS, ChPI, MCH11I, etc.), and the nature of its failures, the average frequency and passband of the band-pass filter 4 are selected, as well as the time constant on _; Booting detector 5, as a low-pass filter is used b "low-frequency component of the signal carries information about the quality and particular sequence of linear signal failures allocated LPF 6 and arrives at a block 7 forming _e forming direct coal pulses with a normalized amplitude and duration, zayisyaschey the duration interfering exposure, Each such impulse corresponds to the appearance of a single fault in a linear signal or a group (packet) of faults that follow in a row. The output signal of the threshold element is supplied to the counter 9 failures, which is a binary-decimal counter, the output of which is connected to the indicator 9. 'Indicator 9 is made on the basis of an LED matrix having control circuits that provide periodic display of the number of pulses on the light board, which was registered by the counter . 8 failures.

To ensure a clear display of readings at different values of the error coefficient, the indicator must have at least four digits: one- ₍ faces, tens, hundreds and thousands, which>.

allows you to control the error rate in the range from 10 ~ 'to 10 ~ ⁵ . The counter of 8 faults is periodically reset (it is set to the zero state), for which the corresponding signal from the output of the shaper 12 of the reset pulses is periodically fed to the counter reset input. Shaper 12 pulses of the reset generates pulses 15 of the reset by the commands received from the output of the shaper 11 "

As the reference oscillator 10, a harmonic oscillator on a transistor 20 with quartz frequency stabilization can be used. . Harmonic oscillation from the output of the reference generator 10 is supplied to a shaper 11, which generates a sequence of rectangular pulses, which then arrives at the shaper 12 of the reset pulses.

Claims (1)

Claim The method of controlling the linear path of the digital transmission system, which consists in detecting failures of the linear signal at the controlled points of the path, recording and counting the number of failures detected during a predetermined time interval, characterized in that, in order to reduce the time and ensure the security control, failures are detected electromagnetic radiation at a frequency equal to the clock frequency of the linear signal passing through the controlled points of the linear path.