SU1277410A1 - Device for separating and repeating signals for plant intercommunication in transmission systems with pulse-code modulation - Google Patents

Abstract

The invention relates to communication technology. The purpose of the invention is to improve the quality of transmission by equalizing the frequency response of the tone frequency channels. The device contains a signal converter 1, two switches (K) 2 and 11, two low pass filters 3 and 7, two HanpattiiHut ntpeOaval low frequency amplifier 4 and 8, two matching blocks 5 and 6, a differential amplifier 9, a modulator 10, a sampling block - storage (BVH) 12, paths 13 and 14 receive and transmit. The quantized amplitude-modulated pulses arriving at the input of the path 13 are passed through K 11 to the IED 12, where the amplitude of the incoming pulse is fixed and stored until the next pulse arrives. This generated continuous quantized signal representing the original signal passes through the differential amplifier 9 and the modulator 10, as a result of which the amplitude-modulated pulse signal, which arrived at the input of the path 13, is restored. by means of which the group channel signals are received at an intermediate point and transferred to transmit them to the other intermediate points included in this channel. 1 il. eOaval (L 1C 4

Description

The invention relates to communication technology and can be used in the equipment of transmission systems with pulse code modulation at intermediate stations.

The purpose of the invention is to improve the transmission quality by equalizing the amplitude-frequency characteristic of the voice frequency channels.

The drawing shows a structural diagram of the signal allocation and retransmission of signals for operational and technological communication in transmission systems with pulse-code modulation.

The device contains a signal converter 1, the first switch 2, the first low-pass filter (LPF), the first low-frequency amplifier 4, the first matching unit 5, the second matching unit 6, the second low-pass filter 7, the second low-frequency amplifier 8, the differential amplifier 9, the modulator 10, the second switch 11, the block 12 sample-storage path 13 of the reception, the path 14 of the transmission.

The device works as follows.

The digital signal coming from the line to the input of the signal converter 1 is converted into quantized amplitude-pulse signals of each channel and in this form is fed to the input of the receive path 13.

In the reception path 13, the pulses of each channel are allocated by the first switch 2, controlled by the signals of the signal converter 1, and the initial telephone signal is generated using the first low-pass filter 3. The required signal level at the output of the reception path 13 is provided by the first low-frequency amplifier 4 and the first matching unit.

Simultaneously, the quantized amplitude modulated pulses arriving at the input of the receive path 13 pass through the second switch 11, controlled by the same signals of the signal converter 1 as the first switch 2, and arrive at the sampling-storage unit 12, where the amplitude value is fixed received pulse, which persists until the next pulse arrives.

Thus, a continuous quantized signal is formed at the first input of the differential amplifier 9, which displays the original signal that passes through the differential amplifier 9 and enters the input of the pulse amplitude modulator 10, where it is sampled at the frequency of the pulses fed to the control of the pulse amplitude module torus 10 from the signal converter.

As a result, the amplitude-pulse signal, which has come to the input of the reception path 13, is restored at the output. The reconstructed signal enters the signal converter 1, where it is digitized and transmitted further to the communication line.

This is how the group channel signals are received at an intermediate point and received for transmission to the communication line to other intermediate points included in this channel.

The transmission of signals from the 1st point is carried out as follows.

The signals at the input of the transmission path 14 pass through the second matching unit 6, which provides the required level at the input of the second low pass filter 7. The second filter 7 limits the frequency spectrum of the transmitted signal to the tone channel range. The signal is then fed to a second low-frequency amplifier 8, which provides the required amplitude of the signal at the input of the signal converter. The signal is fed to the input of the modulator 10, where it is sampled using control pulses from the converter 1 of the signals.

The amplitude-modulated pulse signal thus generated is fed to a signal converter 1, where it is digitized and transmitted to a line.

Thus, the reception, transmission and transit of signals in the equipment of the intermediate station in both directions of transmission can be carried out by the introduction of two devices for separation and retransmission.

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Claims (1)

Invention Formula Signal isolation and retransmission device for operational and technological communication in transmission systems 5, a simplex-code modulation comprising a signal converter, the first input and the first output of which are connected to the communication channel, and the second 3 1277 input and the second output of the signal converter are connected respectively to the transmission path and the receive path, the receiving path comprising serially connected first switch , a low-pass filter, a low-frequency amplifier and a matching unit, and the transmission path contains a modulator, as well as series-connected second matching unit, a low-JQ filter and a low-frequency amplifier Oy, the synchronization outputs of the signal converter are connected to the control inputs of the first switch and the modulator, I can tell you that, in order to improve the quality of the transmission by equalizing the amplitude-frequency characteristic of the tone frequency channels, a second switch connected in series, a sample-storage unit and a differential amplifier, the second input of which is connected to the output of the second low-frequency amplifier, and the output of the differential amplifier is connected to the input of the modulator, channeling inputs of the second switch are connected to respective first inputs of the gate kbmmutatora.