SU1601758A1 - Am/fm transceiving system - Google Patents

Abstract

The invention relates to telecommunications and can be used, for example, in broadcasting to transmit stereo programs on the same frequency channel. The purpose of the invention is to increase noise immunity by reducing the mutual influence of transmitted signals. To achieve this goal, the first and second phase shifters 22 and 23 are introduced into the system on the transmitter side, and the phase detector 26, high-pass filter 31, subtractor 24, first amplifier 27, third low-pass filter 28, second adder 29, and generator 30, voltage-controlled, forming a phase locked loop, as well as a second amplifier 32, a third and fourth multipliers 33 and 35, and a fourth (narrowband) low-pass filter 34, forming an automatic amplitude parasitic detection compensator Odulov tion phase detector. 1 il.

Description

The invention relates to telecommunications and can be used, for example, in broadcasting to transmit stereo programs on one frequency channel,

The purpose of the invention is to increase noise immunity by reducing the mutual influence of the transmitted signals.

The drawing shows a structural electrical diagram of a system for transmitting and receiving signals with simultaneous amplitude and frequency modulation.

A system for transmitting and receiving signals with simultaneous amplitude and frequency modulation comprises, on the transmitting side, a carrier frequency generator 1, a first frequency modulator 2, a first amplitude modulator 3, a first 4 and a second 5 cosine converters, a second amplitude modulator 6, a first 7 and a second 8 sine converters and a second frequency modulator 9, and on the receiving side, the first 10 and second 11 multipliers, the first phase shifter 12, the first phase detector 13, the first low-pass filter 14, the amplitude detector 15, the generator 16 reference x oscillations, the first adder 17. the first 18 and second 19 variable phase shifters, the second phase detector 20 and the second low-pass filter 21, and also contains the first 22 and second 23 phase shifters on the transmitting side, and the subtractor 24, the second phase shifter 25 on the receiving side phase detector 26. first amplifier 27, third low-pass filter 28, second adder 29, voltage-controlled oscillator 30, high-pass filter 31, second amplifier 32, third multiplier 33, fourth low-pass filter 34 and fourth multiplier 35.

The system operates as follows. On the transmitting side, a message from the second signal input through the second phase shifter 23 and the second sine converter 8 is fed to the input of the second frequency modulator 9, which modulates the frequency generated by the carrier frequency generator 1. The obtained frequency-modulated signal is fed to the first input of the first frequency modulator 2, the second input of which receives a message from the first signal input, the first phase shifter 22 and the first sine converter 7. The received signal is fed to the first input of the second amplitude modulator 6, to the second input of which through the second cosine Converter 5 receives a message from the second signal input. The signal from the output of the second amplitude modulator 6 enters the first input of the first amplitude modulator 3, the second input of which receives a message from the first signal input through the first cosine converter 4.

At the output of the first amplitude modulator 3, a signal is generated with simultaneous frequency and amplitude modulation by two messages, which is fed to the linear output of the system.

On the receiving side, the signal from the linear input goes to the inputs of the amplitude 15 and phase 26 detectors. A phase-locked loop, including a detector 26, a high-pass filter 31, a subtractor 24, a first amplifier 27, a third low-pass filter 28, a second adder 29 and a voltage controlled oscillator 30, performs frequency demodulation of the received signal.

The conversion of the amplitude modulation of the signal to frequency (phase) in the voltage-controlled oscillator 30, which appears due to spurious detection of amplitude modulation by the phase detector 26, is eliminated by an automatic compensator consisting of a second amplifier 32, a third 33 and a fourth 35 multipliers, a fourth (narrow-band) filter 34 low pass and subtractor 24.

The signal from the output of the generator 16 of the reference oscillations is supplied to the corresponding (reference) inputs of the first and second multipliers 10 and 11, and due to the presence of the first phase shifter 12, the phases of the reference oscillations differ by 90 °. The other inputs of these multipliers receive signals, respectively, from the output of the amplitude detector 15 and the output of the subtractor 24. The phase of the last signal is adjusted by the second phase shifter 25. The output signals of the first 10 and second 11 multipliers are summed in the first adder 17 and the resulting adder signal is supplied to the first inputs of the first 13 and the second 20 phase detectors, the second inputs of which receive signals from the generator 16 of the reference oscillations, passed, respectively, the first 18 and second 19 variable phase shifters. The signals from the outputs of the phase detectors 13 and 20 after filtering them with the first 14 and second 21 low-pass filters are fed to the corresponding signal outputs of the system.

By changing the phase shift using the first variable phase shifter 18, you can tune to the maximum of the first message with the maximum suppression of the second message.

Similarly, using the second pen; second phase filter 21 at the output of the second low-pass filter 21, you can select the second message when compensating for the first.

The proposed system, compared with the known one, provides an increase in the accuracy of the reproduction of two messages transmitted in the same frequency channel while providing the possibility of changing the frequency of the carrier wave over a wide range.

Claims (1)

Claim A system for transmitting and receiving signals with simultaneous amplitude and frequency modulation, comprising on the transmitting side a carrier frequency generator, a first frequency modulator, a first amplitude modulator, a first and a second. a swarm of cosine converters, a second amplitude modulator, first and second sine converters and a second frequency modulator, the first and second inputs and output of which are connected respectively to the output of the carrier frequency generator, the output of the second sine converter and the first input of the first frequency modulator, the second input and output of which are connected to the output of the first sine converter and the first input of the second amplitude modulator, the second input and output of which are connected respectively to the output of the second cosine of the first converter and the first input of the first amplitude modulator, the second input of which is connected to the output of the first cosine converter, the input of which is the first signal input of the system, the second signal input and linear output of which are the input of the second cosine converter and the output of the first amplitude modulator, respectively, and on the receiving side - the first and second multipliers, the first phase shifter, the first phase detector and the low-pass filter connected in series, the amplitude detector, g reference oscillator, first adder, first and second variable phase shifters and a second phase detector and a low-pass filter connected in series, the output of which is the first signal output of the system, the second signal output and linear input are the output of the first low-pass filter and the input of the amplitude detector, the output of which connected to the first input of the first multiplier, the second input of which is connected to the output of the reference oscillator, the inputs of the first and second variable phase shifters and through the first phase shifter with the first input of the second multiplier, the output of which is connected to the first input of the first adder, the second input and output of which are connected respectively to the output of the first multiplier and the first inputs of the first and second phase detectors, the second inputs of which are connected to the outputs of the first and second variable phase shifters, characterized in that. that, in order to increase the noise immunity by reducing the mutual influence of the transmitted signals, the first and second phase shifters are introduced on the transmitting side, through which the inputs of the first and second sine converters respectively are connected to the inputs of the first and second cosine converters, and the subtractor is connected in series and a second phase shifter, a phase detector connected in series, a first amplifier and a third low-pass filter, a second adder, a generator, are controlled voltage, a high-pass filter, a second amplifier, a third multiplier and a fourth low-pass filter connected in series to the first input of the fourth multiplier, the second input of which and the first input of the third multiplier are connected to the output of the amplitude detector, the input of which is connected to the first input of the phase detector whose output through the high-pass filter is connected to the first input of the subtractor, the output of which is connected to the input of the second amplifier and the first input of the second adder, the second the input and output of which are connected, respectively, by the output of the third low-pass filter and the input of a voltage-controlled generator, the output of which is connected to the second input of the phase detector, and the outputs of the fourth multiplier, second amplifier, and second phase shifter are connected respectively to the second input of the subtractor, the second input of the third multiplier, and the second the input of the second multiplier.