SU1682788A2 - Indicator - Google Patents

Abstract

The invention relates to a measurement technique and can be used in indicator devices. The purpose of the invention is to enhance the functionality by increasing sensitivity and providing a visual assessment of the signal with combined linear frequency modulation and multiple phase modulation. The indicator device contains three cathode ray tubes that provide visualization of the parameters of the received signal with combined linear frequency modulation and multiple phase modulation. The first cathode-ray tube illuminates a pulse, the duration of which is proportional to the duration of the received signal, the amplitude is proportional to the rate of change of the frequency inside the pulse, and the area — oscillograms — the deviation of the frequency of the received signal. On the screen of the second cathode ray tube, the initial carrier frequency of the received signal. On the screen of the third cathode ray tube, an image is displayed in the form of several points located along the circumference. The number of these points determines the multiplicity of the phase modulation, and the angular distance between them is equal to the magnitude of the phase jumps of the received signal. 1 hp ff, 2 silt with

Description

The invention relates to a measurement technique, namely to indicator devices, and is an improvement of the device according to the authors. St. No. 1606859.

The purpose of the invention is to enhance the functionality by increasing sensitivity and providing a visual assessment of the signal with combined linear frequency modulation and multiple phase modulation.

FIG. 1 shows one of the possible variants of the proposed indicator device; in fig. 2 - its detector.

The indicator device comprises a sweep generator 1 connected to horizontally deflecting plates of a cathode ray tube 2 having vertically deflecting plates, a receiving antenna 3 connected to the input of a broadband amplifier 4, a frequency detector 5 and the first and second differentiating circuits 6 and 7. Input the first differentiating circuit 6 is connected to the output of the frequency detector 5. The output of the first differentiating circuit 6 is connected to the vertical deflection plates of the cathode ray tube 2 and is connected to

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cut the second differentiating circuit 7 with the input of the sweep generator 1,

The indicator device also includes a mixer 8 connected in series, an intermediate frequency amplifier 9, a first switch 10, a first frequency multiplier 11 by eight, a first band-pass filter 12, a first frequency divider 13 by eight and a second band-pass filter 14 through which broadband amplifier 4 is connected to a frequency detector 5, connected in series multiplier 15, third band-pass filter 16, second frequency multiplier 17 by eight, fourth band-pass filter 18, made narrow-band, frequency divider 19 by eight, fifth polo a new filter 20, made narrowband, a phase detector 21, a low-pass filter 22 and a driver control generator 23, a controllable delay element 24, a detector 25, a delay element 26, a second switch 27, a search block 28, a local oscillator 29, an additional frequency detector 30, a phase shifter 31, a reference voltage generator 32, and first and second additional cathode ray tubes 33 and 34.

The controllable delay element 24 is connected by an information input to a second band-pass filter 14, connected by a control input to an output of a control signal generator 23 and connected by an output to the first input of a multiplier 15. The multiplier 15 is connected by a second input to an intermediate-frequency amplifier 9 connected to information input 35 the detector 25. The detector 25 is connected by a reset input 36 to the output of the delay element 26 and connected to the control input of the first key 10, to the input of the delay element 26, to the control input second key 27, a vertically deflecting plates of the first additional cathode ray tube 33 and to the input of the search block 28. The search block 28 is connected by the first output to the horizontal deflection plates of the first additional cathode ray tube 33 and is connected by a second output through the local oscillator 29 to the input of the mixer 8. The third band-pass filter 16 is connected to the information input of the second key, the output of which is connected through an additional frequency detector 30 s modulating electrode of the second additional cathode-ray tube 34, connected horizontally by deflecting plates to the phase shifter 31 and connected by vertically deflecting plates generator of reference voltage 32, connected to the inputs of the phase detector 21 and phase shifter 31.

The detector 25 is provided with a first spectrum width meter 37 and a third frequency multiplier 38 connected in series by eight, a second spector width meter 39, a comparison unit 40 and a threshold unit 41 connected via a reset input to

0 to the output of the delay element 26, wherein the third frequency multiplier 38 is connected to the intermediate frequency amplifier 9 by means of the information input 35, which is connected via the first spectrum width meter 37 to the input of the comparison unit 40.

The operation of the indicator device proceeds as follows.

View the specified frequency range

0 is carried out using search block 28, which periodically re-tunes the frequency of the local oscillator according to the sawtooth law 29. At the same time, block 28 of the search forms a horizontal scan

5 of the first additional cathode ray tube 33, which is used as a frequency axis and corresponds to the viewing band of a given frequency range.

The received signal with combined linear frequency modulation and multiple phase modulation, coming from receiving antenna 3, passes through broadband amplifier 4 to mixer 8, to which also voltage of linearly varying frequency is applied from local oscillator 29. Mixer 8 produces voltages combinational frequencies supplied to the amplifier 9 intermediate frequency. The intermediate frequency amplifier 9 allocates the intermediate frequency voltage supplied to the detector 25 to the first spectrum width meter 37 and to the third frequency multiplier 38 by eight, acting on the second meter 39

5 spectral widths. Since the voltage of the first spectrum width meter 37 exceeds the voltage of the second spectrum width meter 39, the comparison unit 40 generates a positive pulse arriving at the threshold block 41, in which it is compared with the threshold voltage from the delay element 26.

In case of detection of the received signal, threshold block 41 of detector 25

5 generates a constant voltage, which is fed to the input of search block 28, translated into stop mode, to the input of delay element 26, to the control inputs of the first and second keys 10 and 27, opening them, and to vertically deflecting

sti. The number of points determines the multiplicity of the phase modulation, and the angular distance between them is equal to the magnitude of the phase jumps of the received signal.

Claims (2)

Claims 1. Indicator device according to ed. St. No. 1606859, characterized in that, in order to extend the functionality by providing a visual signal evaluation with a combined linear frequency modulation and multiple phase modulation, a series mixer, an intermediate frequency amplifier, a first key, a first frequency multiplier by eight are introduced into it, the first band-pass filter, the first frequency divider by eight and the second band-pass filter, through which the broadband amplifier is connected to a frequency detector, connected in series with resident, third band-pass filter, second frequency multiplier by eight, fourth band-pass filter, second frequency divider by eight, fifth band-pass filter, phase detector, low-pass filter and control signal generator, controllable delay element, detector, delay element, second a key, a search unit, a heteradin, an additional frequency detector, a phase shifter, a reference voltage generator, and the first and second additional cathode ray tubes, the controllable delay element being connected by information move to the second bandpass filter is connected to a control input from the output of the control signal and the output is connected to a first input multiplier, connected to the second input of the intermediate frequency amplifier connected to the data input of a detector which is connected to the reset input to the output the delay element and is connected to the control inputs of the first and second keys, with the input of the delay unit, with the vertical deflection plates of the first additional cathode ray tube and the input of the search block connected by the first output to the horizontal deflection plates of the first additional cathode ray tube and connected by a second output through the local oscillator to the input mixer, and the third bandpass filter is connected to the information input of the second key, the output of which is connected via an additional frequency detector with a modulating electrode of a second additional cathode ray tube connected horizontally by deflecting plates to the phase shifter and connected by vertical deflecting plates to a reference voltage generator connected to the inputs of the phase detector and phase shifter, 2. The device according to claim 1, wherein the detector is equipped with a first spectrum width meter and a third by eight frequency generator connected in series, a second spectrum meter, a comparison unit and a threshold unit connected by a reset input to the output of the delay element wherein the third frequency multiplier is connected to the intermediate frequency amplifier by means of an information input connected via the first spectrum width meter to the input of the comparison unit. the plates of the first additional cathode-ray tube 33. From this point on, the viewing of the specified frequency range and the search are stopped for the time of visual analysis of the main parameters of the detected received signal, which is determined by the delay element 26. In this case, a pulse is formed on the screen of the first additional cathode-ray tube 33, the position of which on the horizontal scan determines the initial carrier frequency of the detected received signal. When you stop viewing the specified frequency range by the intermediate frequency amplifier 9, stress is released, which through the first open key 10 is fed to the first frequency multiplier 11 by eight. The voltage generated by the first frequency multiplier 11 by eight is allocated by the first bandpass filter 12 and fed to the first frequency divider 13 by eight, the voltage of the first frequency divider 13 by eight, which is a signal with linear frequency modulation at an intermediate frequency, highlighted The second band-pass filter 14 and enters the frequency detector 5, producing a video pulse, the shape of which conforms to the law of linear frequency modulation. The video pulse of the frequency detector 5 is supplied to the first differential circuit 6, which generates a pulse supplied to the vertical deflection plates of the cathode ray tube 2 and to the second differentiating circuit 7, which forms short opposite polarity pulses. In this case, the positive pulses of the first differentiating circuit 7 trigger the sweep generator 1, and the negative pulses close it. The sawtooth voltage generated by the sweep generator 1 is applied to horizontally deflecting plates of the cathode ray tube 2, on the screen of which a pulse appears, the duration of which is proportional to the duration of the received signal. In this case, the amplitude is proportional to the rate of change of the frequency inside the pulse, and the area of the oscillogram is the deviation of the frequency of the received signal. The voltage allocated by the second band-pass filter 14 is also supplied to the information input of a controllable delay element 24 acting on a multiplier 15 on which the intermediate frequency voltage is supplied from the intermediate frequency amplifier 9. The multiplier 15 generates a beat voltage, which is a signal multiple phase modulation at the beat frequency. The beat voltage of multiplier 15 is allocated by the third band-pass filter 16 and is fed to the second frequency multiplier 17 by eight. The second frequency multiplier 17 at eight through the fourth filter 18 acts on the second frequency divider 19 at eight, the generating voltage, which is a harmonic oscillation at the beat frequency. The voltage of the second frequency divider 19 is divided by eight by the fifth band-pass filter 20 and is applied to the phase detector 21, to which the reference voltage is applied. 5 generator 32 reference voltage. In this case, the phase detector 21 forms a control voltage, the amplitude and polarity of which depend on the degree and direction of the beat frequency with respect to 0 of the frequency of the reference voltage of the generator 32 of the reference voltage. The control voltage of the phase detector 21 is extracted by a low-pass filter 22 and by means of a control signal generator 23 5 acts on the control input of the controllable delay element 24. For a visual assessment of the magnitude of the phase jumps and the multiplicity of the phase manipulation of the received signal, a second 0, an additional electron beam tube 34 is made with a circular scan, and a circular scan is formed using a reference voltage generator 32, the frequency of which is maintained equal to the beat frequency. The voltage at the beat frequency from the third band-pass filter 16 is supplied through the open second key 27 to the additional frequency detector 30, which forms a sequence of short alternating pulses, the temporal position of which corresponds to moments of abrupt change in the phase of the signal. At the same time, the voltage of the generator 32 of the reference voltage goes directly to the vertical deflecting plates of the second additional cathode ray tube 34, and to its horizontal deflecting plates through the phase shifter 31, which provides a shift of 90 °, a circular sweep on its screen . The sequence of short bipolar pulses from the additional frequency detector 30 is fed to the modulating electrode of the second additional cathode ray tube, providing modulation of its electron beam in brightness. At the same time, on the screen of the second additional cathode-ray tube 34, an image is formed in the form of several bright dots arranged in circumferentially