RU19176U1 - DEVICE FOR DETECTING A RADIOMICROPHONE (OPTIONS) - Google Patents

Abstract

1. A device for detecting a radio microphone containing a low-frequency amplifier, an acoustic emitter, a series-connected antenna, a high-frequency amplifier, a detector, characterized in that an analog bandpass filter is introduced, connected in series to the first low-frequency generator, with a given sound frequency f, and an oscilloscope with a scan in rectangular coordinates, the input of which is connected along the first coordinate with the output of a low-frequency amplifier, the input of which is connected to the output of an analog band-pass a scanning filter, the input of which is connected to the detector output, the oscilloscope input is connected to the first low-frequency generator and an acoustic emitter along the second coordinate, the analog band-pass filter has a given operating frequency f equal to a given sound frequency f of the first low-frequency generator. 2 . A device for detecting a radio microphone containing a low-frequency amplifier, an acoustic emitter, a series-connected antenna, a high-frequency amplifier, a detector, characterized in that a switched band-pass filter is introduced with a given operating frequency f, a first low-frequency generator and a sweep oscilloscope are connected in series in rectangular coordinates, the input of which at the first coordinate is connected to the output of a low-frequency amplifier, the input of which is connected to the output of a switched band-pass lowering a filter having a first input connected to the output of the detector and a second input coupled to the input of the second coordinate oscilloscope and an acoustic emitter connected to the output of the first generator

Description

RADIO MICROPHONE DETECTION DEVICE

(OPTIONS)

The device relates to the field of radio engineering, in particular to devices for detecting a radio microphone.

A device for indicating microwave radiation, comprising a series-connected antenna, modulator, receiver and a first indicator, a modulating generator, a first threshold element, a matching unit and a registrar. The device also contains a second integrator, first and second charging keys, first and second analog inverters, an analog adder, a differentiator, a second threshold element, an OR element, a discharge key, and a counting trigger. RF patent N 2040005, G 01 S 13/00, B.I. N20, 1995 p. 199.,

A device for detecting a microphone amplifier, which contains a radio frequency transmitter emitting a signal into the studied region of space, an audio tone generator emitting signals into the same region of space, and a radio frequency receiver receiving signals from the studied region from a microphone amplifier, which has an impedance, time-varying. US patent No. 5023616, G 01 S 13/74, Inventions of the world No. 3, issue. 85, 1993 pg. 31.

As a prototype, a device was selected - a direct amplification radio receiver, consisting of a selective element, a high-frequency amplifier, a detector, a low-frequency amplifier, a loudspeaker. Functional diagrams of transistor receivers. Handbook of small-sized radios, L.I. Svetlyakov, DOSAAF Publishing House, Moscow, 1966.

The pedagogue of the prototype is the inability to ensure the secrecy of the detection of radio microphones without reducing the sensitivity to the input signal.

The technical task to be solved is to ensure the reliability of detecting a radio microphone with a significant reduction in the requirements for the input receiving circuits of the device for selectivity and sensitivity.

The technical problem to be solved in the first embodiment of a device for detecting a radio microphone containing a low-frequency amplifier, an acoustic emitter, a series-connected antenna, a high-frequency amplifier, a detector is achieved by introducing an analog band-pass filter, connected in series with the first low-frequency generator, with a given sound frequency and an oscilloscope with a scan in rectangular coordinates, the input of which is connected along the first coordinate with the output of a low-frequency amplifier, whose input connected to the output of an analog band-pass filter, the input of which is connected to the output of the detector, the input of the oscilloscope along the second coordinate is connected to both the first low-frequency generator and an acoustic emitter, the analog band-pass filter has a given operating frequency equal to a given sound frequency f of the first generator low frequency.

The technical problem to be solved in the second embodiment of a device for detecting a radio microphone containing a low-frequency amplifier, an acoustic emitter, a series-connected antenna, a high-frequency amplifier, a detector is achieved by introducing a switched band-pass filter with a predetermined operating frequency f in series with the first low-frequency generator , with a given sound frequency f and an oscilloscope with a scan in rectangular coordinates, the input of which is connected to the output along the first coordinate For low frequency, the input of which is connected to the output of a switched bandpass filter, the first input of which is connected to the output of the detector, and the second input is connected to the input in the second coordinate with an oscilloscope and with an acoustic emitter connected to the output of the first low-frequency generator, the specified sound frequency f of which is equal to a given operating frequency f of a switched bandpass filter.

The acoustic emitter for all variants of the proposed technical solution is made in the form of a speaker.

In FIG. 1 is a functional diagram of a first embodiment of a device for detecting a radio microphone.

In FIG. 2 shows a functional diagram of a second embodiment of a device for detecting a radio microphone.

A device for detecting a radio microphone, its first variant (Fig. 1), contains: a low-frequency amplifier 1, an acoustic emitter 2, a series-connected antenna 3, a high-frequency amplifier 4, a detector 5, an analog band-pass filter 6, connected in series with the first low-frequency generator frequency 7, with a given sound frequency f, and an oscilloscope 8 with a scan in rectangular coordinates, the input of which is connected along the first coordinate with the output of the low-frequency amplifier 1, the input of which is connected to the analog input - a transmission filter 6, the input of which is connected to the output of the detector 5, the input of the oscilloscope 8 is connected along the second coordinate with the first low-frequency generator 7 and with an acoustic emitter 2, the analog band-pass filter 6 has a given operating frequency f equal to a given sound frequency f of the first low frequency generator 7.

A device for detecting a radio microphone, its second variant (FIG. 2), comprises a low-frequency amplifier 1, an acoustic emitter 2, a series-connected antenna 3, a high-frequency amplifier 4, a detector 5; switched bandpass filter 9, with a given working frequency f, 11 first connected low-frequency generator 7, with a given sound frequency f equal to a given working frequency of switched bandpass filter 9, and an oscilloscope 8 with a scan in rectangular coordinates, input which along the first coordinate is connected to the amplifier output. 11ya low frequency 1, the input of which is connected to the output of the switched bandpass filter 9, the first input of which is connected to the output of the detector 5, and the second input with is single with the second coordinate input with an oscilloscope 8 and with an acoustic emitter 2 connected to the output of the first low-frequency generator 7.

The acoustic emitter 2 for all the proposed options is made in the form of a speaker.

Consider the operation of the proposed device, its first option (Figure 1). When you turn on the device, the first low-frequency generator 7 begins to work in the audio frequency range. This signal is simultaneously fed to acoustic emitter 2 and the second horizontal input X of the oscilloscope 8. Sound vibrations from acoustic emitter 2 are fed to a radio microphone and modulate its carrier frequency, which is radiated into the surrounding space and then received on antenna 3, high-frequency amplifier 4, is detected in detector 5, through an analog band-pass filter 6, an embedded low-frequency signal is amplified in low-frequency amplifier 1 and is fed to the vertical input Count 8, at its entrance at its first coordinate. In this case, a Lissajous figure appears on the screen of oscilloscope 11. 8, which clearly and clearly indicates that the information signal relayed by the radio microphone is identical to the signal emitted by the acoustic emitter 2, which confirms the presence of an unauthorized radio microphone in the immediate environment. The presence of an analog bandpass filter 6 tuned to the frequency of the first low-frequency oscillator 7 makes it possible to significantly reduce the influence of the noise components of the input oscillations on the image stability of the Lissajous figure on the oscilloscope screen;

Consider the work of the proposed second embodiment of a device for detecting a radio microphone (Figure 2). In this embodiment, a digital correlation filter, a switched bandpass filter, is used as a bandpass filter. In this case, the significant difference is the control of the acoustic emitter 2 and the switched correlation filter 9, the oscilloscope 8 from one of the first low-frequency oscillator 7. This creates optimal conditions for the operation of the switched bandpass filter 9, the principle of its operation is based on correlation, i.e. coincidence of the control signals and input 2 // b7 G /

signals according to the given parameters, in this case it is frequency and phase. The control signal and the signal received from the radio microphone have exactly the same frequency and phase difference, since they are generated from one first low-frequency generator 7. Using the proposed structure of the inventive device allows you to use 9 type device - synchronous filter (switched filter) as a switched band-pass filter , see for example, Basic properties and characteristics of a synchronous filter. Radio engineering t. XI, N 9, 1956 These devices allow you to shoot useful signals, the level of which is significantly lower than the level of noise and interference. Thus, the proposed device has a significantly l5D1shim ratio of signal to noise, due to the existence of synchronization of control signals of a switched bandpass filter 9 and input signals. In this embodiment, the requirements for input circuits are significantly reduced in terms of selectivity and sensitivity, which greatly simplifies the device while maintaining the overall high sensitivity of the device and the reliability of determining the radio microphone in the presence of strong interference.

Claims (2)

1. A device for detecting a radio microphone containing a low-frequency amplifier, an acoustic emitter, a series-connected antenna, a high-frequency amplifier, a detector, characterized in that an analog bandpass filter is introduced, connected in series to the first low-frequency generator, with a given sound frequency f, and an oscilloscope with a scan in rectangular coordinates, the input of which is connected along the first coordinate with the output of a low-frequency amplifier, the input of which is connected to the output of an analog band-pass skayuschego filter having an input connected to the output of the detector, the input of the oscilloscope is connected as the second coordinate to the first low-frequency generator and an acoustic transducer, an analog bandpass filter has a predetermined operating frequency f, equal to a predetermined sound frequency f of the first low-frequency generator. 2. A device for detecting a radio microphone containing a low-frequency amplifier, an acoustic emitter, a series-connected antenna, a high-frequency amplifier, a detector, characterized in that a switched band-pass filter is introduced with a given operating frequency f, a first low-frequency generator and an oscilloscope are connected in series with a scan in rectangular coordinates, the input of which at the first coordinate is connected to the output of a low-frequency amplifier, the input of which is connected to the output of a switched strip a pass filter, the first input of which is connected to the detector output, and the second input is connected to the second coordinate input with an oscilloscope and an acoustic emitter connected to the output of the first low-frequency generator having a given sound frequency f equal to a given working frequency f of a switched bandpass filter .