SU1309322A2 - Stereo signal transmission system - Google Patents

Abstract

The invention relates to radio. connection, is an improvement of the invention on a.w. St. No. 862372. The purpose of the invention is to reduce crosstalk. The system contains on the transmitting side two sensors of two channels, a multiplier, a nonlinear conversion unit, r-r intermediate frequency, two amplitude modulators, five adders, a phase-shifting unit (FS), two detectors, an amplitude modulators unit and r-th signal, and on the receiving side bandpass filter, limiting amplifier, two synchronous detectors, FS, amplitude detector, sum-difference converter, two quadrature detectors, phase inverter, adder, voltage divider, phase detector, three low filters frequency switch, controlled by rr, control unit and subtractor. The goal is achieved due to the fact that the phase of the reference oscillation is established with high accuracy by the equality of the amplitude of the tone signal in both channels and does not depend on the difference in signal levels in the stereo channels. Given il. performing the transmitting and receiving sides of the stereo transmission system. 2 Il. (L with with to N9

Description

The invention relates to a radio communication technique and is an improvement of the known system according to the author. No. 862372.

The purpose of the invention is to reduce crosstalk.

FIG. 1 is an electrical block diagram of the transmitting side of a stereo transmission system; Figs. 2 is an electrical block diagram of the receiving side of the stereo transmission system.

The system contains on the transmitter side sensors 1 and 2 of the first and second channels, multiplier 3, nonlinear conversion unit 4, intermediate frequency generator 5, amplitude modulators 6 and 7, adder 8, phase shifter 9, adders 10 and 11, detectors 12 and 13 , block 14 amplitude modulators, additional adders 15 and 16, signal tone generator 17, and on the receiving side - bandpass filter 18, amplifier-limiter 19, synchronous detectors 20 and 21, phase-shifting unit 22, amplitude detector 23, sum-difference converter 24, first 25 and in oproy 26 quadrature detectors, phase inverter 27, adder 28, voltage divider 29, phase detector 30, low pass filter 31, switch 32, controlled oscillator 33, first low pass filter 34, control unit 35, subtractor 36, second low filter 37 frequency, and the block of amplitude modulators 14 contains amplitude modulators 38-40.

The transmission system of stereo signals works as follows. The signals from sensors 1 and 2 of the first and second channels enter the multiplier 3, the signal being removed is subjected to conversion in block 4 of non-linear conversion. The signal from the output of the latter in the amplitude modulator 38 modulates in amplitude the intermediate frequency supplied through the phase-shifting (by 90) block 9 from the generator 5 of the intermediate frequency. The signals from sensors 1 and 2 of the first and second channels in the amplitude modulators 39 and 40 are modulated by

In the amplitude, the frequency arriving from the gene-55 comes from the output of divider 29.

Intermediate frequency ratora 5, In each-C outputs of the total differential predominant adder 10 and 11 are folded by the driver 24, the signals of the first amplitude-modulated signal and second channels are taken. First 34 and

quadratures, quad-second 37 low-pass filters

five

0

45

The field-modulated oscillations enter detectors 12 and 13. The detected signals arrive at the inputs of additional adders, 15 and 16, and are added to a 20 Hz tone signal from a tone generator 17.

The signal received in the additional adder 15 in the amplitude modulator 6 modulates the intermediate frequency from the generator 5 of the intermediate frequency. Similarly, in modulator 7 the amplitude is modulated by the intermediate frequency, shifted by 90 by the phase-shifting unit 9. The signals from the amplitude modulators 6 and 7 are added in the adder 8.

On the receiving side, the signal arrives at synchronous detectors 20 and 21, the amplitude detector 23 and the band-pass filter 18, which separates the intermediate frequency, to the output of which the amplifier is connected: limiter 19, connected by the output to the first input 5 of the phase detector 30, and the other input of which receives the reference frequency from the controlled oscillator 33. The output voltage taken from the phase detector 30 is proportional to 30 phase difference through the filter 31-low frequencies and the switch 32 is fed to the controlled oscillator 33. Generated after The same reference frequency coincides, with an accuracy of up to phase, with an intermediate 35 intermediate frequency and, besides the phase detector 30, goes directly to the input of the synchronous detector 20, and to the input of the synchronous detector 21 through the phase-shifting (by 90 °) unit 22. and 21 are connected to quadrature detectors 25 and 26 and to the first 34 and second 37 low-frequency filters.

The adder 28 receives signals from the quadrature detector 25 directly, and from the quadrature detector 26 through the phase inverter 27. The voltage divider 29 receives signals from the adder 28 and from the amplitude detector 23. The signal from the amplitude detector 23 is fed to the first input of the total difference converter 24 , and on the second entrance on 40

50

The 20 Hz tone signal is fed to the control unit 35 and to the subtractor 36. The differential signal from the output of the subtractor 36, through switch 32, is fed to the controllable oscillator 33. When the first filter leaves the output, 34 low frequencies the signal to the input of the control unit 35 from the output of the latter arrives at the control input W of the switch 32 and connects the input of the controlled generator 33 from the output of the low-pass filter 31 to the output of the subtractor 36,

The transmitter side in each channel is connected to the amplitude modulator via an additional adder, the second inputs of additional adders of both channels are combined and connected to the output of the tone generator, and on the receiving side the limiter amplifier is connected to the phase-shifting unit through serially connected phase detector, a low-pass filter, a switch, a controlled oscillator, the output of which is connected to the second input of the phase detector, and the input of the first quadrature phase of the reference oscillation is set - J5 detector is connected to the input of the pin with high accuracy by the equality of the amplitude of the tone signal in both channels and does not depend on the difference in signal levels in the stereo channels.

Claims (1)

Invention Formula Stereo audio transmission system by aut. St. No. 862372, in other words, in order to reduce crosstalk, on the low-pass filter, the output of which is connected to the input of the control unit, the output of which is connected to the second input of the switch, the third input 20 of which is connected to the output of the subtractor, the first input of which is connected to the input of the control unit, and the second input of the subtractor is connected to the output of the second low-pass filter, the input 25 which is connected to the input of the second quadrature detector. The transmitter side in each channel is connected to the amplitude modulator via an additional adder, the second inputs of additional adders of both channels are combined and connected to the output of the tone generator, and on the receiving side the limiter amplifier is connected to the phase-shifting unit through serially connected phase detector, a low-pass filter, a switch, a controlled oscillator, the output of which is connected to the second input of the phase detector, and the input of the first quadrature detector is connected to the input of the detector is connected to the input of the first low-pass filter, the output of which is connected to the input of the control unit, the output of which is connected to the second input of the switch, the third input which is connected to the output of the subtractor, the first input of which is connected to the input of the control unit, and the second input of the subtractor is connected to the output of the second low-pass filter, the input which is connected to the input of the second quadrature detector. fi-g. 2