SU649141A1 - Apparatus for transmitting and receiving speech signals in communication telephone channels with compounding - Google Patents

Claims (2)

It is connected to the control inputs of the compressor, and on the receiving side it contains serially connected first bandpass filter, first converter, fading controller, expander, demodulator and amplifier, as well as a second band filter and serially connected second converter, limiter and frequency discriminator, the output of which is connected to another expander input, while the input of the first band-pass filter is connected to the input of the second band-pass filter, a constant-frequency generator is inserted on the transmitting side The output of which is connected to the third input of the adder, and at the receiving side a compensator is inserted, the input of the compensator is connected to the output of the second bandpass filter, and the output is connected to the input of the second converter, the compensator made in the form of serially connected first low-frequency converter, low-pass filter and the second low-frequency converter, while the input of the first low-frequency converter is the input of the compensator, and the output of the second low-frequency converter is you the course of the compensator. The drawing shows a structural electrical circuit of the device described. A device for transmitting and receiving speech signals in companded telephone channels contains, on the transmitting side 1, a serially connected converter 2, a compressor 3, a demodulator 4, and a low-pass filter 5, the output of which is connected to the first input of the adder 6, as well as the first connected detector 7, Л (Lari () manic amplifier 8, second detector 9 and generator 10 of frequency-modulated oscillations, the output of which is connected to the second input of the adder 6, while another output of the compressor 3 is connected to the input n The first detector 7, the auxiliary output of which is connected to the control inputs of the compressor 3, and on the receiving side 11 is connected in series the first iicwio filter 12, the first converter 13, the fading controller 14, the expander 15, the demodulator 16 and the amplifier 17, and the second bandpass filter 18 and the second converter 19 connected in series, limiter 20 and frequency discriminator 21, the output of which is connected to another input of the expander 15, while the input of the first band pass 1ltra 12 is connected to the input of the second band pass filter 18, in addition to the transmitting side 1 contains a generator 22 constant frequency, the output of which is connected to the third input of the adder 6, and on the receiving side 11 of the compensator 23, while the compensator 23 is connected to the output of the second band-pass filter 18, and the OUTPUT is connected to the input of the second Converter 19, and the compensator 23 is made in the form of serially connected the first low-frequency Converter 24, the lowpass filter 25 and the second low-frequency Converter 26, while the input of the first low-frequency Converter 24 is the input of the compensator 23, and the output of the second low-frequency converter 26 is the output of the compensator 23, and the compensator 3 is a serially connected first controlled attenuator 27, amplifier 28 and second controlled attenuator 29. The device operates as follows. On the transmitting side 1, the speech signal is transferred by means of the converter 2 to the region of the above-tone frequencies. From the output of converter 2, the signal enters the first controlled attenuator 27 and is transformed so that the dynamic range of the signal's envelope at its output is halved compared to the dynamic range of the signal's envelope at its input. This signal is linearly amplified by amplifier 28 and fed to a second controlled attenuator 29, the electrical processes in which are similar to those described above in the attenuator 27, and its effect on the signal is such that its signal is received at its output. fully aligned envelope. At the same time, the signal from the second detector 9 changes the frequency of the generator 10 frequency-modulated oscillations. The signals from the output of the generator 10, from the output of the generator 22 of a constant frequency and from the output of the low-pass filter 5 are fed to the adder 6. At the time when the frequencies of the transmitting side 1 and the receiving side 11 for some reason or other receive deviations of A F from their nominal values, the same deviation is obtained and the frequencies formed by oscillators 10 and 22, as a result of which the difference between the frequencies P post-Pfcr remains significant. This difference is formed in the first low-frequency converter 24 of the compensator 23, is extracted by the filter 25 and using the second low-frequency converter 26 leads to the frequency of the generator 10 of the frequency-modulated oscillations. Thus, at the output of the frequency discriminator 21, the voltage is determined only by the frequency of the generator 10 frequency-modulated oscillations and does not depend on the frequency instability of the communication channel. As a result, the signal level at the output of the expander 15 does not depend on the frequency instability of the communication channel. Claim 1. Device for transmitting and receiving speech signals in companded telephone channels containing on the transmitting side serially connected converter, compressor, demodulator and low pass filter, the output of which is connected to the first input of the adder, as well as serially connected first detector , a logarithmic amplifier, a second detector and a generator of frequency-modulated oscillations, the output of which is connected to the second input of the adder, while the other compressor output is connected To the input of the first detector, the auxiliary output of which is connected to the control inputs of the compressor, and on the receiving side it contains serially connected first bandpass filter, first converter, fading controller, expander, demodulator and amplifier, as well as a second band filter and serially connected the second converter, limiter and frequency discriminator, the output of which is connected to another expander input, while the input of the first band-pass filter is connected to the input of the second band-pass filter. characterized in that, in order to reduce the effect of the frequency instability of the communication channel on the quality of speech signals, a constant frequency generator is inputted on the transmitting side, the output of which is connected to the third input of the adder, and a compensator is inputted on the receiving side, while the compensator input is connected to the output of the second bandpass filter, and the output is connected to the input of the second converter. 2. A device according to claim 1, characterized in that the compensator is made in series of a first low-frequency converter, a low-pass filter and a second low-frequency converter, the input of the first low-frequency converter is the input of the compensator, S OUTPUT of the second low-frequency converter is the output of the compensator . Sources of information taken into account during the examination 1. Application No. 2420034/09, cl. H 04 B 1/64, 1976, according to which the decision to issue an author's certificate was made.  18 - 24 - G5 - ZS 13 20 - 21