SU1688437A1 - A digital signal regenerator - Google Patents

Abstract

The invention relates to telecommunications and can be used in digital transmission systems over symmetric lines of communication. The purpose of the invention is to improve noise immunity. For this, the error detector 7, the averager 8, the maximum signal detection unit 9, the controlled resistor 10, the adjustable filter 11, the two-threshold comparator 12 and the source 13 of the reference signals are entered into the regenerator. Depending on the error rate at the outputs of the decision block 3, the passband of the filter 11 is changed so that this coefficient is minimized. 1 silt

Description

The invention relates to telecommunications and can be used in digital transmission systems on symmetrical communication lines.

The purpose of the invention is to increase the resilience of the house.

The drawing shows a structural electrical diagram of a digital signal regenerator.

The digital signal regenerator contains 10 correction amplifiers 1, a clock extractor 2, a deciding unit 3, an output signal shaper 4, an automatic signal equalizer 5 and a peak detector 6, as well as an error detector 7 side, an averager 8, and a maximum determination unit 9 a signal, a controlled resistor 10, an adjustable filter 11, a two-threshold comparator 12 and a source 13 of reference signals. 20

The digital signal regenerator operates as follows.

The input signal, distorted in the communication line, passes through an automatic signal equalizer 5, an adjustable filter 11 and 25 correction amplifier 1. Next, the corrected and amplified signal is supplied to the decision unit 3 and the isolator 2 clock pulses. The decisive unit 3 at time instants determined by the clock pulses 30 generated by the clock selector 2 restores the amplitude and duration of the digital signal packets, which are then summed and amplified by the output signal shaper 4. A peak 35 detector 6 generating voltage. proportional to the maximum of the additive mixture of the corrected signal and interference, controls the operation of the automatic equalizer 5, with which 40 the electric length of this section of the communication line is artificially aligned.

The output signal from the error detector 7, which is proportional to the error rate of the regenerator, is fed through averager 8 to block 9 for determining the signal maximum. The signal generated by this unit changes the resistance of the controlled resistor 10, and therefore the bandwidth of the adjustable filter 11 50 so that with a change in the length of the line section, or with a change in the level of transitional and other interference, the best noise immunity of the regenerator is ensured.

In the absence of a signal at the input 55 of the regenerator, and hence at the output of the correction amplifier 1, the signal maximum determining unit 9 from the peak detector 6 generates a signal at which the bandwidth of the adjustable filter 11 corresponds to the maximum length of the communication line section. In this case, the automatic equalizer 5 will introduce minimal attenuation. Upon receipt of a signal at the input of the regenerator at the output of the correction amplifier 1, a signal is prepared that significantly exceeds the nominal one. In this situation, under the influence of the changed signal from the output of the peak detector 6, the signal maximum determining unit 9 switches to the second operation mode, in which the shunt effect on the adjustable filter 11 increases, i.e. the bandwidth of the latter is increasing. As a result, the signal level at the output of the correction amplifier 1 will decrease until then. until it comes close to the nominal.

The broadening of the passband of the adjustable filter 11 leads to a decrease in intersymbol interference and an increase in crosstalk.

When approaching the voltage at the output of the correction amplifier 1 to the nominal. which is within the range of values specified by the source 13 of the reference signals, the two-threshold comparator 12 puts the block 9 determining the maximum signal in the third mode of operation, in which the voltage generated by this block is determined by the output signal of the averager 8. In this mode, the bandwidth of the adjustable filter 11 corresponds to the minimum error rate regenerator, i.e.

the optimal ratio between intersymbol and transition interference.

In the case of an increase in the length of the line section, the output voltage of the peak detector 6 decreases, which weakens the action of the automatic signal equalizer 5. As a result, the signal level at the output of the correction amplifier 1 tends to the nominal.

As calculations showed, it is most efficient to use the proposed regenerator in transmission systems via a symmetrical cable with the number of regenerators up to 10 and with an error coefficient within 10 ' ⁸ -10' ⁹ . In this case, the gain in noise immunity in comparison with the known regenerator can reach ~ 9 dB.

Claims (1)

Claim A digital signal regenerator containing a serially connected correction amplifier and a clock extractor, a serially connected decision block and an output signal shaper, an automatic signal equalizer and a peak detector, the output of which is connected to the first input of the automatic signal equalizer, the second input of which is the input of the regenerator, the output of which is the output driver output signal, while 5 the outputs of the clock selector are connected to the first inputs and a decision unit, the second input of which and the input of the peak detector are connected to the output of the correction amplifier, characterized in that. in order to increase noise immunity, a series-connected error detector and averager, a signal maximum determining unit, a controlled resistor, an adjustable filter, a two-threshold comparator and a reference signal source are introduced, the outputs of which are connected to the first inputs of the two-threshold comparator, the second input and output of which are connected respectively to the output of the correction amplifier and the first input of the unit determining the maximum signal. the second and third inputs of which are connected to the output of the averager and to the first input of an automatic signal equalizer, the output of which is connected to the first 10 input of an adjustable filter, the second input of which is connected through a controlled resistor to the output of the signal maximum determining unit, while the output of the adjustable filter and detector inputs 15 errors are connected respectively to the input of the correction amplifier and the outputs of the decisive block.