SU508942A1 - Dual channel radio - Google Patents

Description

one

This invention relates to radio engineering and can be used in superheterodyne radio receivers to separate the main and mirror frequency reception channels.

A two-channel radio receiver is known, which in each channel contains a series of pre-detector signal processing, a detector, a comparison element, a horn element, and a common local oscillator.

However, the known receiver has a low reliability of the received information and low sensitivity.

The purpose of the invention is to increase the reliability of the received information and increase sensitivity.

For this, the element "OR, the main and auxiliary 1KEYS" are added to each channel, and the comparison element is made common for both channels, and a threshold element and one of the inputs of the comparison element are simultaneously connected to the detector output, and one of the outputs is simultaneously connected to the control the main key input and through the OR element with the control input of the auxiliary KEY of the same channel, and the other output is similarly connected to the keys of another channel, while the main control input Each channel key is connected to the auxiliary key output of another channel.

the output of the threshold element of each channel is simultaneously connected to the signal input of the auxiliary key and through the delay element to the signal input of the main key, and each output of the local oscillator frequency control unit is connected to another input of the corresponding element "OR.

The drawing shows a structural diagram of the proposed dual-channel receiver.

The receiver contains in each channel series-connected blocks 1 and 2 of the signal-processing signal, each of which contains filters 3 and 4, frequency converters 5 and 6, and intermediate frequency amplifiers 7 and 8, detector 9 and 10, threshold elements 11 and 12 , comparison element 13 and common local oscillator 14. In addition, each channel includes the elements "OR 15 and 16, the main 17 and 18 and auxiliary 19 and

20 keys, and the corresponding threshold elements 11 and 12 and one of the inputs of the comparison element 13 are simultaneously connected to the outputs of the detectors 9 and 10, one of the outputs of which is simultaneously connected to the control input of the main key 17 and through the OR 15 element with the control input of the auxiliary key 20 of the same channel, and the other output is similarly connected to the keys 18 and 19 of another channel, while

the control inputs of the main keys 17 and

18 of each channel, the outputs of the corresponding auxiliary switches 19 and 20 of another channel are connected, and the outputs of the threshold elements 11 and 12 are simultaneously connected to the signal input of the auxiliary switches

19 and 20 and through delay elements 21 and 22 to the signal input of the main switches 17 and 18, and each output of frequency control unit 23 of the local oscillator 14 is connected to another input of the corresponding elements OR 15 and 16.

The device works as follows.

When the receiver is turned on, the control unit 23 changes the frequency of the local oscillator 14 to the frequency to be set accordingly, closes one of the auxiliary switches 19 or 20, leaving the second open; the power of the local oscillator 14 is supplied to the transducers 5 and 6, where the frequencies of the input signals are converted to intermediate frequencies; Signals with intermediate frequencies are amplified in amplifiers 7 and 8, detected in detectors 9 and 10 and fed to the inputs of threshold elements I and 12. The latter are in standby mode and when the input signals reach the trigger threshold, output signals of the same duration are generated. These signals through delay elements 21 and 22 and normally open keys 17 and l8 are passed to the output of the receiver.

Comparison element 13 and the threshold schemes included therein are in standby mode. The incoming signals are compared by its subtraction circuit, and by the sign and magnitude of their difference, the blocking voltage for the keys 17, 20 or 18, 19 is formed.

In the absence of received signals, depending on the frequency of the local oscillator, one of the keys 20 or 19 is open, and the second is closed by the control voltage supplied from control unit 23.

Received signals with frequencies in the band-pass of filter 3 Slightly attenuated in this filter and significantly attenuated (In filter 4. A signal with a frequency in filter band 4, slightly attenuated in this filter, significantly attenuated in the band-frequency filter 3.

For signals with frequencies close to the boundary frequency of the filters 3, 4, their attenuation is close in magnitude.

For frequencies falling at a given LO frequency in the IF band, the ratio in the signal levels at the filter outputs is maintained to the outputs of the detectors 9 and 10.

If the video signal from the detector 9 is exceeded, a blocking voltage is formed for the keys 18 and 19 in the comparison element 13. The video signal passing through the public key 17 carries information about this; that the signal frequency is determined by the difference between the local oscillator frequency and the intermediate frequency.

If in this case the signal at the output of the threshold element 12, then it does not pass

to the output of the receiver and to the control input of the key 17, since the keys 18 and 19 are closed by a signal from the reference element 13.

If the video signal from the detector 10 is exceeded, a blocking voltage is formed for the switches 17 and 20 in the comparison element 13. The video signal passing through the open 18 switch 18 is determined by the sum of the local oscillator frequency and the intermediate frequency.

If there is a signal at the output of the threshold element 11, then it does not pass to the output of the receiver and to the control input of the key 18, since the switches 17 and 20 are closed by a signal from the comparison element 13.

If at the output of the detectors 9 and 10 the signals are close in level, the comparison element 13 does not generate inhibit signals for the keys 17-20 and the state of these keys is determined by the signals from the outputs of the heterodyne frequency control unit 23 and the outputs of the threshold elements I and 12. If since the local oscillator 14 is larger than the cutoff frequency, the signal from control unit 23 locks key 20, leaving key 19 open, and the signal from threshold element 12 through public key 19 enters key 17, closing it. The signal from the threshold element 11 does not pass through the private key 20 to the control input of the key 18.

As a result, the receiver output will pass a signal from threshold element 12 through delay element 22 and an open control key 18. When a signal appears at this output, the frequency of the input signal is determined by the sum of the local oscillator frequency and the intermediate frequency, which corresponds to the case when the local oscillator frequency exceeds the boundary frequency. If the control unit 23 sets the frequency of the local oscillator 14 to a smaller gr-frequency, the key is simultaneously closed

19 and the public key 20 remains. The signal from the threshold element 11 through the public key

20 enters key 18 and closes it. As a result, a signal from the threshold element I passes through the delay element 21 and the open control key 17 to the receiver output. When a signal appears on this output, the frequency of the input signal is determined by the difference between the local oscillator frequency and the intermediate frequency.

Thus, the passage of signals at the output of key 17 or 18 is uniquely determined by the frequency of the local oscillator 14 and the intermediate frequency, both for the case when the frequency of the input signals falls within the ambiguity zone or outside this zop.

Claims (1)

Invention Formula A two-channel radio receiver containing a serially connected pre-detector unit in each channel. signal processing, a detector, a reference element, a threshold element and a common local oscillator, characterized in that, in order to increase the reliability of received information, information and sensitivity, the element OR, the main and auxiliary switches are additionally introduced, and the comparison element is made common for both channels, the threshold element and one of the inputs of the comparison element are simultaneously connected to the detector output of each channel; one of the outputs of which is simultaneously connected to the control input of the main key a and through the element "OR to a control input of the auxiliary key the same channel and another output is similarly connected to the keys of another channel, while the 1K control input of the main key of each channel is connected to the output B1 of the auxiliary key of another channel, the output of the threshold element of each channel is simultaneously connected to the signal input of the auxiliary key and through the delay element to the signal input the main key, and each output of the oscillator frequency control unit is connected to another input of the corresponding element "OR. about