SU944117A1 - Signal regenerator - Google Patents

Description

(5k) Binary Signal Regenerator

one

The invention relates to telecommunications and can be used in a system of pulse-code transmission of telephone signals, in particular in multi-channel communication systems.

Known regenerator containing amplifier-limiter, serially connected first matching transformer, threshold detector, output of the first matching transformer connected to the input of the first and second elements And, the output of each of which through the corresponding blocking generator connected to the input winding of the second matching transformer, the middle point of the output the windings of which and the middle point of the input winding of the first matching transformer are connected to the corresponding outputs of the remote unit power, sync block consisting of a first series connected rectifier, bandpass filter amplifier limiter, a second rectifier and clock drivers, which output is connected to the other inputs of the first and second AND 1.

However, this device has the following disadvantages: the presence of an analog frequency, the relative complexity, the Q of the analog frequency, the short length of the regenerative section, the presence of fluctuation of the threshold voltage under the influence of interference, the dependence of the channel stability of the syn, 5 of the synchronization on the unit density in the linear signal, the need for two regeneration channels, and when re, the input signal is generated using the gating method, only half of the pulse amplitude is effectively used, which is equivalent to a decrease in the signal-to-noise ratio.

The purpose of the invention is to improve the noise immunity. 3 For this, a binary signal regenerator containing a limiting amplifier, the first and second matching transformers, the last input is connected to the output of the output signal shaping unit, the input and output windings of the first and second matching transformers are connected respectively to the remote power supply unit, the synchronization unit consisting of a series-connected rectifier and bandpass filter, and a clock pulse shaping unit, the intersymbol distortion correction unit and the integrator are entered, and the synchronization filter is a low frequency filter and a phase shifter; the secondary winding of the first matching transformer is connected via a limiting amplifier to the first input of the integrator, the output of which is connected via the intersymbol correction unit through the output signal generator, another input of which is connected to the output of the integrator, the primary winding of the second matching transformer, and the output of the limiter amplifier is connected through the low-frequency filter to the rectifier input of the synchronization unit, the output is band-pass filter which is connected via a series-connected unit and forming fazovpaschafel Tacto O pulses to the other input of the integrator. The drawing shows a structural electrical circuit of the proposed regenerator. The regenerator contains the limiting amplifier 1, the first matching transformer 2, the second matching transformer 3, the integrator k, the output signal shaping unit 5, the intersymbol distortion correction unit 6, the remote power supply unit 7, the synchronization unit 8, the low-frequency filter 9, the rectifier 10, the bandpass the filter 11, the phase shifter 12 and the block 13 of the formation of clock pulses. The device works as follows. The input signal to be regenerated is fed to the input of amplifier 1, which compensates for attenuation on the communication line. From the output of amplifier 1, the signal goes in parallel to the integrator k and to the block 8 74 synchronization, specifically to the input of the filter 9 low frequency. The integrator decides on the sign of the input signal, and also makes an optimal comparison of signal energy and interference at the output of the limiting amplifier. The signal at the output of the integrator 4 is a sequence of pulses of different polarity, and the number of consecutive pulses of the same sign does not exceed two. The impulses at the integrator output carry not only sign but recovered time information. These pulses are fed to the input of the pulse output signal forming unit 5 and to the input of the correction unit 6. The shaping unit 5 directs the amplitude, shape, and duration of each pulse, amplifies them, and outputs standard shape pulses to the communication line. The normal operation of the shaping unit 5 is supported by the correction unit 6. The essence of the correction lies in the possibility of a change in the amplitude of the pulse at the moment of a jump in the phase of the modeling function. In this case, the minimum deviation of the zero-crossing points is ensured, and the total response from the previous pulses becomes approximately the same. Simultaneously, from the output of amplifier 1, the signal enters the synchronization unit 8, which allocates a clock frequency that provides control to the integrator. For this, the integrator k has an integrating circuit with a large constant charge time of the capacitor, which is discharged in accordance with the accepted decision input sign. Thus, due to the zero registration threshold of the input signal in the proposed regenerator, operation is ensured with significant fluctuations in the length of the regeneration section, and there is only one regeneration channel. The presence in the binary signal of obligatory alternations with a clock frequency significantly increases the synchronization stability without complication. The regenerator increases the noise immunity of the path from transient noise and doubles the length of the regenerative section. Invention The binary signal regenerator containing the amplifier-limiter, the first and second matching transformers, the input of the latter is connected to the output of the output signal shaping unit, the input and output windings of the first and second matching transformers are connected respectively to the remote power supply unit connected rectifier and bandpass filter, and a block of formation of clock pulses, which is characterized by the fact that, in order to increase the noise immunity, The mesential distortion correction unit and the integrator are included, and the low frequency filter and the phase shifter are in the synchronization unit, with the secondary winding of the first matching transformer through the amplifier-limb. The nickel is connected to the first input of the integrator, the output of which is connected via the intersymbol distortion correction unit via the output signal shaping unit, another input of which is connected to the integrator's output, to the primary winding of the second matching transformer, and the output of the amplifier-limiting amplifier is connected to the rectifier input a synchronization unit whose output of the bandpass filter is connected via a serially connected phase shifter and a clock pulse shaping unit to another input of the Tegrator. Sources. Information taken into account in the examination 1, V. Gurevich, et al. Impulse code - modulation in a multi-channel telephone network. And., Holy Hour, 1973, p. 183-192 (prototype).

Claims (1)

Claim A binary signal regenerator comprising an amplifier-limiter, first and second matching transformers, ₅ matrices, the input of the latter is connected to the output of the output signal generating unit, the input and output windings of the first and second matching transformers are connected respectively to the remote power supply unit synchronization unit, consisting of in series connected rectifier and a band-pass filter, and a block for generating clock pulses, about t ₁₅ characterized in that, in order to increase the noise immunity introduced block correction intersymbol distortion and an integrator, and to the synchronization unit - a low-pass filter and a phase shifter ', while the secondary winding of the first matching transformer through an amplifier ogre 17 6 the nickel is connected to the first input of the integrator, the output of which through the intersymbol distortion correction unit is connected through the output signal generating unit, the other input of which is connected to the integrator output, to the primary winding of the second matching transformer, and the output of the limiter amplifier is connected through the low-pass filter to the input a rectifier of the synchronization unit, the output of the band-pass filter of which is connected through a series-connected phase shifter and a block for generating clock pulses to another input egratora. Sources of information taken into account during the examination 1. Gurevich V. Э. Et al. Pulse code modulation in a multichannel telephone network, M., Communication, 1973, p. 183-192 (prototype).