SU1457167A1 - Device for suppressing interference of adjacent channel - Google Patents

Abstract

This invention relates to radio engineering and can be used in radio receivers. The purpose of the invention is to increase the power ratio of the useful signal to the power of amplitude modulated interference of the adjacent channel at the output of the device, as well as under the condition of fading of this interference. The device contains a subtractor 1, multipliers 2, 6, 8, 10, 15, 17 and 18, bandpass filters 3, 7, 9, 16 and 20, delay element 4, amplitude demodulator 5, low pass filters 11 and 19, g- ry 12 and 13 and carrier regenerator 14. The input of the device receives a mixture of signal voltage with interference from radio stations operating on adjacent channels when working on radio lines, or from transmissions carried out in adjacent bands when transmitting through other lines. From this mixture of voltages is a multiplier 2 converts the voltage frequency to the last intermediate frequency band. The signal is then filtered, delayed and fed through subtractor 1 to the output of the device. The goal is achieved by forming the voltage of the interference, which is fed to the subtractor 1, to another input of which the sum of the signal voltage with interference is applied, which is delayed by means of the elec- tion 4 delays during the processing time of the interference voltage. Thus, at the output of the device, the voltage of the signal is obtained without interference. 1 hp f-ly, 1 ill. R (L f ate h 0 h

Description

The invention relates to radio engineering and can be used in radio receivers for various purposes.

The purpose of the invention is to increase the signal power to the power of the amplitude-modulated interference of the adjacent channel at the output of the device,

The drawing shows a structural electrical circuit of the adjacent channel interference suppression device.

The interference suppressor of the adjacent channel contains a subtractor 1, the first multiplier 2, the first band-pass filter 3, delay element 4, the amplitude demodulator 5, the second multiplier 6, the second band-pass filter 7, the third multiplier 8, the third band-pass filter 9, the fourth multiplier 10, first low pass filter 11, first oscillator -12, second oscillator 13, tunable in frequency, carrier regenerator 14, fifth multiplier 15, fourth band-pass filter 16, seventh transponder 17, sixth multiplier 18, second fil There are 19 low frequencies, the fourth band-pass filter 20.

The interference suppression device of the adjacent channel operates as follows.

A mixture of signal voltage with the noise generated by radio stations operating on adjacent channels when working on radio links or from transmissions,. carried out in adjacent bands when transmitted via other lines, is fed to the input of the device.

The voltage of the signal mixture with interference from adjacent channels is supplied to the breakers 2 and 15. In the multiplier

2, by using the frequency of the generator 12, the voltage frequency is converted into the last intermediate frequency band that is filtered by a bandpass filter

3 and through series-connected elements 4 and subtractor 1 enters

to the device output.

 The voltage from the input of the subtractor 1 is fed to the multiplier 15, to the other input of which voltage is supplied from the generator 13 (tunable), and the frequency of the input interference voltage is converted to the last intermediate iacTOTy, which is filtered by the band-pass filter 16. The frequencies of the generators 12 and 16 are different on the frequency of the detuning of the adjacent channel.

The voltage from the output of the bandpass filter 16 is supplied to the regenerator 14 of the carrier noise and the amplitude demodulator 5, which causes a manipulative noise voltage. A regenerated carrier noise with a constant amplitude from the output of the regenerator 14 is fed to a multiplier 18, to another input of which a voltage is applied to the noise from the output of the bandpass filter 16. The voltage from the output of the multiplier 18 is fed to the filter 19, which results in a fading interference noise. The average frequency for filter 19 is selected below the lowest frequency component of the interference. This at its output ensures the complete suppression of the components of the noise and the useful signal passing to the output of multiplier 18. The voltage from the output of filter 19 is fed to the multiplier 17, to the other input of which the voltage of the regenerated carrier noise is applied. Thus, at the output of the bandpass filter 20, a carrier noise is obtained, the fading of which corresponds to the actual fading in the radio canapes.

The voltage from the output of the bandpass filter 20 is applied to a multiplier 6, to the other input of which a manipulated interference voltage is applied. At the output of the bandpass filter 7, an interference voltage is obtained equivalent to the voltage at the output of the radio transmitter of the adjacent radio channel. Only this interference voltage is generated at the frequency of the wanted signal. To transfer this voltage to the frequency of the adjacent channel, i.e. At the same frequency at which it hits the device, the voltage from the output of the bandpass filter 7 is fed to the multiplier 8, to another input of which the voltage of the difference frequency is applied, obtained by multiplying the voltages of the generators 12 and 13 in the multiplier 10 and filtering out the high-frequency components of the filter 11,

After transforming the voltages with the multiplier 8, the interference voltage is filtered by a band-pass filter 9, which by its characteristics is equivalent to a band-pass filter 3

The interference voltage generated in this way is fed to the subtractor 1, to another input of which the sum of the signal voltage with the interference delayed by element 4 for the processing time of the interference voltage is applied. Thus, at the output of the subtractor, the voltage of the signal is obtained without interference.

Claims (2)

1. An adjacent channel noise suppression device comprising a first 15 low pass filter connected in series with a first | 51y oscillator, a first multiplier, another input of which is a device input, and a first band pass filter connected 20 in series to a second multiplier second band filter, third pass the multiplier and the third bandpass filter, the fourth and fifth multipliers, including the amplitude demodulator, and the carrier oscillator, the output of which is connected to the second input of the second multiplier, connected by A delay element, the input of which is connected to the output of the first field filter, and a subtractor, the other input of which is connected to the output of the third bandpass filter, and the output of the device, the output of the second generator is connected to the first input of the fifth multiplier, whose second input connected to the input of the device, and the first input of the fourth multiplier, the second input of which is connected to the output of the first generator, the input and output of the first filter of the lower frequencies are connected to the output of the fourth and second input of the third s respectively. 2. A device according to claim 1, characterized in that, in order to increase the power ratio A swarm generator, made by a tuned signal to an amplitude-amplified frequency, characterized in that, in order to increase the ratio of the signal power to the power of the amplitude-modulated interference of the adjacent channel at the output of the device, an amplitude demodulator, the output of which is connected to the first input of the second multiplier, connected in series. Only the fourth band-pass filter, whose input is connected to the output of the fifth multiplier, and the output from the intermodulated adjacent channel interference if it is fading, the output of the carrier regenerator is connected to the second input of the second multiplier through a sixth multiplier connected in series, the other input is connected to the fourth output bandpass filter, second low pass filter, seventh multiplier 35 another input of which is connected to the output of the carrier regenerator, and a quarter bandpass filter. 0 five home amplitude demodulator, and carrier regenerator, the output of which is connected to the second input of the second multiplier, serially connected to the delay element, the input of which is connected to the output of the first bandpass filter, and a subtractor, the other input of which is connected to the output of the third bandpass filter, and the output is output device, the output of the second generator is connected to the first input of the fifth multiplier, the second input of which is connected to the input of the device, and the first input of the fourth multiplier, whose second input connects ene vvsodom with the first generator, the input and output of the first lowpass filter connected to the output of the fourth input of the third and second multipliers respectively. 2. The device according to claim 1, characterized in that, in order to increase the ratio of the power of the useful signal to the power of the amplitude-modulated interference of the adjacent channel under the condition of its fading, the output of the carrier regenerator is connected to the second input of the second multiplier through the sixth multiplier connected in series, another input which is connected to the output of the fourth band-pass filter, the second low-pass filter, the seventh multiplier, 35 another input of which is connected to the output of the carrier regenerator, and the fourth band-pass filter.