SU1145484A1 - Device for checking side reception channel susceptibility of radio receiver - Google Patents

Abstract

A DEVICE FOR MONITORING THE RECEPTION OF RADIO RECEIVERS ON SIDE CHANNELS OF RECEPTION, containing a reference driver, an indicator, an amplitude comparator, a differentiating circuit, serially connected trigger pulse generator and binary tripper, serially connected control unit and signal generator, sequentially connected AI program, and sequential connected AI program. with the first output of the generator: signals, a new {) counter and a digital divider, connected in series to the generator frequency, the second key and the second counter, the output of which is connected to the second input of the digital divider, while the output of the monitored radio receiver is the first input of the amplitude comparator, and the control inputs of the first counter, digital divider, second counter and indicator are connected to the output of the differential circuit, in order to extend the functionality by simultaneously automatically measuring and recording the magnitude of the deviation of the susceptibility levels of a reference signal divider, a variable attenuator, serially connected frequency meter and digital multiplier, serially connected comparison unit and servo mechanism, serially connected angle-voltage converter and recorder, with the first output of the signal generator connected to the information input of the variable attenuator The information output of which is the input of a controlled radio (L receiver, the output of which is the first input of the comparison unit, you the driver of the reference signal is connected to the second input of the comparator unit and through the reference signal divider to the second input of the amplitude comparator, the output of which is connected to the control inputs of the first and second keys and the differential | In addition, the output of the second 4 key is connected to the information input of the frequency meter, the control input of which is connected to the output of the differentiating circuit and to the control input of the digital multiplier, the information input and output of which are connected respectively to the output of the digital splitter and the information input of the indicator , while the output of the binary trigger is connected to the input of the control unit, and the second output of the signal generator is connected to the Reset input of the binary trigger, and

Description

variable attenuator is mechanically connected to the servo and 1145484 angle converter - for example

The invention relates to a radio metering technique and can be used to automatically control the receptivity levels of radio receivers through side reception channels with simultaneous automatic measurement and recording of the levels and frequencies of side reception channels whose level does not meet the specified rate.

A device for controlling intermodulation and side channels in radio receivers is known, comprising a series-connected clock generator, a sawtooth generator, the input of which is also connected to a step voltage generator, a test signal generator, the first attenuator and the first adder, the second input of which is connected to the output the second attenuator, and the third attenuator, the output of which is connected to the radio receiver under study, the output of which is connected to the input of the Zyplitudnogo detector, the output of which is Inonii with the combined inputs of the amplifier and the threshold element whose vkody through mode switch connected to the input of the second adder, a second input and whose output is connected respectively to the output of the fourth attenuator and the first input of the electron beam of the indicator, the second input of which is connected to the output of the third adder Lit

However, the known device has a low level of confidence in monitoring intermodulation and side channels.

The closest to the proposed technical essence and the achieved result is a device for monitoring the susceptibility of radio receivers through side channels: Ma, containing the driver of the reference signal, the amplitude comparator indicator, a differentiating circuit, serially connected trigger generator and binary trigger, serially connected control unit and generator Signals connected in series with the first key, whose information input is connected to the first output of the signal generator the first counter and digital divider connected in series to the reference frequency generator, the second key and the second counter whose output is connected to the second input of the digital divider, while the output of the monitored radio receiver is the first input of the amplitude comparator, and the control inputs of the first counter, the digital divider , the second counter and the indicator are connected to the output of the differentiating circuit t2T.

However, this device has narrow functional capabilities.

The purpose of the invention is to expand the functionality by simultaneously automatically measuring and recording the value of the magnitude of the deviations of the levels of susceptibility of the side reception channels from a given norm.

This goal is achieved in that the device for monitoring the susceptibility of radio receivers via side reception channels contains a reference signal transmitter, an indicator, an amplitude comparator, an differentiating circuit, serially connected trigger driver and binary trigger, serially connected control unit and a signal generator, sequentially connected first the key, the information input of which is connected to the first output of the signal generator, the first counter and the digital divider, the follower The connected generator, the reference frequency, the second key and the second counter, the output of which is connected to the second input of the digital divider, while the output of the monitored radio receiver is the first input of the amplitude commulator, and the control of the inputs of the first counter, digital divider, second counter and the indicator are connected to the output of the differentiating circuit; a reference signal divider, a variable attenuator, a series connected frequency counter and a digital multiplier, serially connected comparison unit and A servo-mechanism connected in series with an angle-voltage converter and a recorder, the first output of the signal generator being connected to the information input of a variable attenuator, whose information output is the input of a controlled radio receiver whose output is the first input of the comparison unit, the output of the reference signal conditioner is connected to to the second input of the comparison unit and through the divider of the reference signal to the second input of the amp capacitor comparator, the output of which is connected to the control inputs of the first and the second key and to the input of the differentiating circuit, in addition, the output of the second key is connected to the information input of the frequency meter, the control input of which is connected to the output of the differentiating circuit and to the control input of the digital multiplier, the information input and output of which are connected respectively to the output of the digital divider and with the information input of the indicator, the output of the binary trigger is connected to the input of the control unit, and the second output of the signal generator is connected to the Reset input of the binary trlgger, and the variable att The fan is mechanically connected to the servo and the angle-voltage converter. The drawing shows a structural electrical circuit of the proposed device. A device for monitoring the receptivity of radio receivers via side reception channels contains the first and second keys 1.1, 1.2, first and second counters 2.1, 2.2, digital divider 3, digital multiplier 4, frequency meter 5, differentiating circuit 6, indicator 7, generator 8 of reference frequency , angle-voltage converter 9, recorder 10, amplitude comparator 11, signal generator 12 variable attenuator 13, start pulse generator 14, comparison block 15, reference signal divider 16, control block 17, servo 18, Signal, binary trigger 20, the drawing also shows a controlled radio receiver 21. YcTpojiCTBO works as follows: The signal generator 12 is tuned to the lower frequency f of the control range and the signal level is set at its output (with the attenuation of the variable attenuator 13 derived) corresponding to XM the susceptibility level of the monitored radio receiver 21 through side reception channels. At the second input of the amplitude comparator 11, the signal Mo is set equal to the output signal of the monitored radio receiver 21, with k torus is measured by its sensitivity Xd. At the initial moment of time, binary trigger 20 is located at 10. In this case, the initial state of its inverse output produces a voltage U ,, 0. From the pulse shaper 14, the voltage Ug is applied to the unit input of binary trigger 20, which transfers it to position 01. The output of the binary trigger 20 generates a voltage and # 0, which by means of the control unit 17 performs a smooth tuning of the generator of the 12 signals in the frequency range of the contact / t N role f - f. if the levels of susceptibility of the monitored radio receiver 21 are through side reception channels. If the specified signal is not satisfied, then when the signal of generator 12 hits the beginning of the passband of the first of these side reception channels, the signal Vo is outputted at the output of the monitored radio receiver 21. A positive voltage drop is generated at the output of the amplitude comparator 11. The voltage from the amplitude comparator 11 opens the first and second keys 1.1 and 1.2, through which oscillations of the generator 12 and the generator 8 of the reference frequency arrive at the first and second counters 2.1 and 2.2, respectively. With further tuning of the signal generator 12, the output signal of the monitored radio receiver 21 is increased to a level and the distractive signal e1 from the output of the S1 15 unit matches the input to the servo-mechanism 18, which changes the attenuation of the variable attenuator 13 so that the output signal of the monitored radio receiver 21 N hundred equal to Un voltage, the angle-voltage generated by the converter 9 and proportional to the attenuation 5 introduced by the variable attenuator 13 is recorded on the recorder 10, Since the signal torus 12 is tuned in frequency, then the change in the value of the attenuation introduced by the variable attenuator 13, respectively, the voltage variation Un- corresponds to the amplitude-frequency characteristic of the side reception channel, the susceptibility level of which does not meet the specified norm, and the maximum voltage recorded on the recorder 10 determines magnitude well this inconsistencies. When the generator 12 signal leaves the sideband reception channel, the output signal of the monitored radio receiver 21 M becomes NO again. A negative voltage drop is formed at the output of the amplitude comparator 11, and the first and second keys 1.1 and 1.2 close. The rear edge of the pulse from the amplitude comparator is differentiated by differentiating circuit 6, forming a negative pulse Uc, by which the counting results of the first and second counters 2.1 and 2 are transmitted to the digital divider 3, and the first and second counters 2.1 and 2.2 are returned to their initial state. The result of dividing n (where nf g and nf is the number of oscillation periods, respectively, of the reference frequency generator 8 and the signal generator 12 during the frequency of the generator 12 in the passband of the side reception channel) is transmitted to the digital multiplier 4, to which the measured value is fed to frequency counter 5 frequency fj of the generator 8 of the reference frequency. The output of the digital multiplier 4 forms the frequencies of the detected side reception channel f e (nf (/ nf 5), which is fixed by the indicator 7. 4 When the signal of the generator 12 hits the passband The following side reception channel, the level of susceptibility of which does not satisfy the specified norm, repeats the whole process, and a differential pulse from the leading edge of the Uj signal of the amplitude comparator 1 1 converts the digital divider 3, digital multiplier 4, frequency meter 5 and indicator 7 to its original state At the end of the control range at the frequency f, from the control output (from the limit switch) of the signal generator 12 to the input, the reset of the binary trigger 20 is energized by the SW, which returns it to the outcome th state 10, is generated on its output voltage U 0 and rearrangement of generator 12 signals in frequency, and hence the measurement process is stopped. If the susceptibility levels of the monitored radio receiver 21 through the side reception channels satisfy the specified norm, the tuning of the signal generator 12 in the control frequency range f -f condition will be fulfilled only if the frequency of the generator signal 12 is in the bandwidth of the main reception channel of the monitored radio receiver 11. At the same time, on the recorder 10 and the indicator 7, the amplitude-frequency characteristic and frequency of only the main channel, reception of the monitored radio receiver are recorded. 21. Fixed At the recorder 10, the maximum voltage U | 7cx corresponds to the sensitivity of the monitored radio receiver 21 measured relative to the set power level of the generator 12. For example, if the power level of the generator 12 is minus 50 dBW and the magnitude of the registered voltage U corresponds to the input variables attenuator 13 damping 60 dB, then the sensitivity of the controlled radio receiver 21 will be minus. 110 dBW Thus, while monitoring the susceptibility of a monitored radio receiver, it is also possible to simultaneously monitor its

Claims (1)

DEVICE FOR CONTROLLING SUSCEPTIBILITY OF RADIO RECEIVERS BY RECEIVING CHANNELS OF RECEIVING, containing a driver of a reference signal, an indicator, an amplitude comparator, a differentiating circuit, series-connected driver-pulse shaper and ^{: a} binary trigger, series-connected control unit and signal generator, which is connected in series with the first switch. connected to the first • output of the generator: signals, the first counter and a digital divider, series-connected generator standard frequency, the second key and the second counter, the output of which is connected to the second input of the digital divider, while the output of the monitored radio is the first input of the amplitude comparator, and the control inputs of the first counter, digital divider, second counter and indicator are connected to the output of the differentiating circuit, characterized in that, in order to expand the functionality by simultaneously automatically measuring and recording the value of the deviation of the susceptibility levels of the side channels mA from a given norm, a reference signal divider, a variable attenuator, a frequency meter and a digital multiplier connected in series, a comparison unit and a servo mechanism connected in series, an angle-voltage converter and a recorder connected in series, the first output of the signal generator is connected to the information input of the variable attenuator, information the output of which is the input of the controlled radio, the output of which is the first input of the comparison unit, the output of the op The main signal is connected to the second input of the comparison unit and through the reference signal divider to the second input of the amplitude comparator, the output of which is connected to the control inputs of the first and second keys and to the input of the differentiating circuit, in addition, the output of the second key is connected to the information input of the frequency meter, the control the input of which is connected to the output of the differentiating circuit and to the control input of the digital multiplier, the information input and output of which are connected respectively with the output of the digital divider and with the information an indicator input, while the output of the binary trigger is connected to the input of the control unit, and the second output of the signal generator is connected to the Reset input of the binary trigger, and the variable _t attenuator is connected to the servo mechanism by a mechanical angle converter.