SU640448A1 - Bipolar signal multilevel regenerator - Google Patents

Description

polarity, the input of the building block of a single positive polarity level is connected to the output of the corresponding positive threshold polarity block, and the information input of the strobe block of a single negative polarity level is connected to the output of the corresponding negative threshold negative block, the shaper of the multilevel positive polarity block is entered polarity generator and a multilevel sequence of negative polarity, with the information The input of the positive-polarity multilevel sequence shaper is connected to the output gate of a single-level positive polarity unit, and the information input of the negative-polarity multilevel sequence shaper unit is connected to the output of a negative polarity single-level gating unit, 1 is 1 additional inputs of the multilevel positive polarity shaper unit, and a negative polarity of the negative polarity unit connected to the outputs of the respective threshold blocks of positive polarity, and ha-1 additional inputs of the negative-polarity multilevel sequence generator are connected to the outputs and the corresponding negative polarity blocks, while the output of the multi-level positive polarity generator is connected to the first input of the adder, and the output of the multilevel negative polarity generator is connected to the second input of the adder .

FIG. 1 shows the structural layout of a multilevel regenerator; in fig. 2 - voltage diagrams, explaining the principle of its operation.

The multilevel bipolar regenerator contains an adder 1, an input amplifier 2, the output of which is connected to the input of an automatic gain control unit 3, an input of a 4 clock frequency selector and the corresponding inputs n of threshold blocks 5 of positive polarity and l threshold blocks 6 of negative polarity (where - the number of levels of the regenerator), while the output of the automatic gain control unit 3 is connected to the control input of the input amplifier 2, the output of the 4 clock frequency selector through the driver 7 strobir pulses are connected to the control input of the building block 8 of a unit level of positive polarity and with the adjusting input of the gate unit 9 of a single level of negative polarity, and the information input of the strobe block 8 of a single level of positive polarity is connected to the output of the corresponding threshold block of positive polarity, and the information input of the gating unit 9 of a single level of negative polarity

connected to the output of the corresponding negative polarity block (Fig. 1). 1In addition, the shaper iu of an extra-level sequence of positive polarity and

a negative polarity multilevel sequence generator 11, the information input of the form & 10 multilevel sequence of polarity polarity is connected to the output of the strobe unit 8 of a single positive polarity level, and the information input of the phase generator AND of a multilevel sequence of negative zero polarity is connected to the output

gating unit 9 of a single level of negative zero polarity, ha-1 additional inputs of the shaper 10 of a multilevel sequence of positive polarity are connected to the outputs

corresponding threshold blocks of positive polarity, and n-1 additional inputs of the driver AND a multilevel sequence of negative polarity are connected to the outputs

corresponding negative-polarity threshold blocks, while the output of the shaper 10 of the multilevel positive zero polarity is connected to the first input of the adder 1, and

the output of the generator 11 of a multilevel sequence of negative polarity is connected to the second input of the adder 1 (Fig. 1). The multilevel bipolar signal regenerator works as follows.

The input multilevel, for example a five-level, bipolar signal from the output of the input amplifier 2 (Fig. 2a) is supplied

on threshold blocks 5 and b, the task of which is to extract a double and unit amplitude from a mixture of a signal with noise noise (fig. 26 and fig. 2c), and a clock frequency selector 4, which, together with the gate driver 7, generates pulses to restore the time intervals (Fig. 2d), which is carried out in the single-level gate units 8 and 9 (Fig. 2e), which in turn control the operation of the formers 10 and AND of the multilevel sequence, to the other input Auxiliary voltage from the outputs of the threshold devices of the dual level. At the moments of coincidence in time of the control voltage and the restored gating blocks 8 and 9 of the unit level of the pulse sequence at the outputs

shapers 10 and 11 multilevel

a sequence of pulsed amplitude appearances. As a result, multilevel unipolar sequences (fkg. 2e n fig. 2g), reconstructed in duration, shape and amplitude, arrive at the input of adder 1, corresponding to negative and positive impulses of the input sequence, which are counter-phase summed, amplified and transmitted to the line.

The use of bipolar signals of multilevel sequence drivers in a multilevel regenerator made it possible to significantly simplify the regenerator circuit and improve the accuracy of signal recovery.

Claims (1)

Invention Formula A multilevel bipolar regenerator containing an adder, an input amplifier, the output of which is connected to the input of the automatic gain control unit, the input of the clock frequency selector and the corresponding inputs p positive polarity threshold blocks and negative polarity threshold blocks (where is the number of regenerator levels), while the output of the automatic gain control unit is connected to the control input of the input amplifier, the output of the clock separator through the gate generator pulses the control input of the single-gate strobe unit level of positive polarity and control;. the input of a single-level gating unit of negative polaroet, with the information input of the gating unit unit ypoSi-R 11о; 10 / k: 1 tel polarity is connected to the output of the corresponding threshold block of positive polarity, and the information input strobe | unit of a single negative polarity level is connected to c) the passage of the corresponding negative negative polarity block, characterized in that, in order to improve the accuracy of signal recovery, a multi-layer formatter is introduced into it: the first sequence of positive polarity and the multilevel consistency generator of negative polarity, while the information input of the multilevel sequence generator of positive polarity is connected to the output of the single-gate gating unit the positive polarity level, and the information input of the multilevel negative shaper sequence generator is connected to the output of the gating unit of a single negative polarity level, n-1 additional inputs of the multilevel positive shaper sequence generator are connected to the outputs of the corresponding threshold blocks of positive polarity, and i additional inputs of the multilevel sequence imager of the corresponding field with the outputs of the corresponding b negative polarity, and the output of the multilevel sequence generator of positive polarity is connected to the first input of the adder, and you - the multilevel nose generator of the negative polarity generator is connected to the second input of the adder. I I e, v Ujll one  j4  6 h - :: „. | 1 I g 1–1 7 ii i