RU2724039C1 - Device for blocking unauthorized transmission of control information - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: invention relates to means of controlling mines and other explosive objects having radio fuses and is intended for protection against radio-controlled explosive devices. Device comprises a receiving antenna, a receiver, an amplifier, a first signal delay generating device, a first signal summator, a second signal delay generating device, a second signal summator, a periodic nonlinearly varying voltage generator, a voltage-controlled generator, two-position switch control device, second signals summator, band-pass filter, power amplifier and transmitting antenna. Device operation is based on formation of undetectable mixture from initial signals by multiple addition of phase-shifted fragments and mixing of sliding noise with amplitude excess.EFFECT: higher probability of guaranteed radio suppression at the same energy density of the interference signal in the protected range.1 cl, 1 dwg

Description

The invention relates to means of combating mines and other explosive objects having radio fuses and is intended to protect against radio-controlled explosive devices by blocking the unauthorized transmission of radio fuse control information over a radio channel, and can also be used to protect against unauthorized transmission of any information over a radio channel in a wide range in advance unknown radio frequencies.

Known protection devices that can be used to prevent the operation of radio fuses, for example [1], containing a serially connected frequency driver, a broadband power amplifier and a broadband antenna system that create a barrier in the wide frequency band in the form of amplified "white" noise. In this and similar devices, the power of the emitted interference at each specific suppressed frequency is small, since the integrated power of the transmitter is “washed out” over the entire wide spectrum of frequencies, as a result of which only very low-power unauthorized information transmitters can be suppressed.

A device for blocking radio fuses, containing several (n) modules of the same type, each of which includes a serially connected frequency driver, amplifier and antenna, while all modules simultaneously operate in non-overlapping subbands of the protected frequency range [2]. This known device allows you to radiate high power in each subband, sufficient to protect against radio-controlled explosive devices. One of the drawbacks of such a device for blocking radio fuses is an increased n-fold integrated radiation power, where n is the number of modules used. An increase in the integral power of the interference transmitter is undesirable, as due to a significant increase in power consumption, dimensions and mass.

A device for blocking radio fuses [3] (prototype), comprising n frequency drivers, a switch, a pseudo-random pulse train generator, a matching device connected between a broadband power amplifier and a broadband antenna system, and a performance regulator are known.

The algorithm of this device allows you to quickly adapt it to a change in the radio frequency environment.

However, the device cannot provide guaranteed protection in a given frequency range, because it takes time to monitor the radio environment and is in constant search, decision-making mode and blocking the values of the changing frequencies of functioning transmitters.

The objective of the present invention is to increase the reliability of protection against unauthorized transmission of radio fuse control information over a radio channel in a given range of protected radio frequencies without increasing the integrated output power of the device, its power consumption, dimensions and mass.

The technical result of the proposed device for protection against radio-controlled explosive devices is to increase the likelihood of guaranteed radio suppression at the same energy density of the interfering signal in the protected range, simplifying the device and increasing its reliability.

The technical result is achieved due to the fact that a bandpass filter, a first signal delay generating device, are introduced into the device for blocking unauthorized transmission of control information containing a receiving antenna, a receiver, an amplifier, a nonlinearly varying voltage generator and a voltage controlled generator, a power amplifier and a transmitting antenna , the second signal delay generating device, the first, second, third signal adders, the on-off switch, the on-off switch control device, the amplifier output is connected to the input of the first signal delay generating device and to the first signal input of the first signal adder, connected to the second signal input of the first signal adder the output of the first signal delay generating device, the output of the first signal adder is connected to the input of the second signal delay generating device and to the first signal input of the second signal adder, to the second at the signal input of the second signal adder is connected the output of the second signal delay generating device, the output of the second signal adder and the output of the second signal delay device are connected to the inputs of the on-off switch controlled by the control device, and the output of the on-off switch is connected to the first signal input of the third signal adder, the second signal the input of the third signal adder is connected to the output of the generator by a controlled voltage, the input of which is connected to the output of the non-linearly varying voltage driver, the output of the third signal adder is connected to the input of a bandpass filter, the output of which is connected to the input of the power amplifier, the output of which is connected to the input of the transmitting antenna, while the delay of the first signal delay generating device is less than the delay time of the second signal delay generating device.

New features ensuring the achievement of the technical result are the additionally introduced bandpass filter, the first signal delay generating device, the second signal delay generating device, the first, second, third signal adders, the on-off switch, the on-off switch control device, the amplifier output is connected to the input of the first forming device the delay of the signal and to the first signal input of the first signal adder, to the second signal input of the first signal adder is connected the output of the first signal delay generating device, the output of the first signal adder is connected to the input of the second signal delay generating device and to the first signal input of the second signal adder, to the second signal the output of the second signal delay shaping device is connected to the input of the second signal adder, the output of the second signal adder and the output of the second signal delay shaping device are connected are connected to the inputs of the on / off switch controlled by the control device, and the output of the on / off switch is connected to the first signal input of the third signal adder, the second signal input of the third signal adder is connected to the generator output by a controlled voltage, the input of which is connected to the output of the nonlinearly varying voltage driver, the output of the third signal adder connected to the input of the bandpass filter, the output of which is connected to the input of the power amplifier, the output of which is connected to the input of the transmitting antenna, while the delay time of the first signal delay generating device is less than the delay time of the second signal delay generating device.

Such a technical solution, together with new features and new connections between its elements and blocks, provides:

increasing reliability, reducing the number of functional units (lack of a full monitoring system, radio environment analysis system),

universality of suppression of all types of modulation, as the structure of the suppression signal corresponds to the structure of the suppressed signal,

reducing the dimensions, mass and power consumption of the device to achieve a given protection reliability, without increasing the integrated power,

increased probability of guaranteed radio suppression at the same energy density of the interfering signal,

simplification of the circuitry, and, consequently, the cost of the device.

This technical solution is aimed at increasing the likelihood of guaranteed radio suppression in the protected band due to the destruction of the information part of the signal / signals while maintaining the structure of the suppressed signals, and the destruction of the information part of the signal / signals when individual fragments of the structure of these signals / signals are destroyed, with the same energy density as prototype in the protected range.

Thus, the destruction of the information part of the signal / signals, the destruction of individual fragments of the signal / signal structure together with the amplitude excess allows increasing the probability of radio suppression

The use of the method of fragmented destructuring and deformation of signals increases the likelihood of suppressing functioning transmitters, which was confirmed experimentally.

In FIG. 1 shows a structural diagram of the inventive device.

The device comprises a receiving antenna 1, a receiver 2, an amplifier 3, a first signal delay generating device 4, a first signal adder 5, a second signal delay generating device 6, a second signal adder 7, a periodic non-linearly varying voltage generator 8, a voltage controlled oscillator 9 (VCO) ), a control device 10 by a two-position switch 11, a second signal adder 12, a band-pass filter 13, a power amplifier 14 and a transmitting antenna 15.

The operation of the claimed device for blocking is as follows.

The signals are received by antenna 1, processed by receiver 2 and amplified by the first amplifier 3. From the output of the first amplifier 3, the signal is fed to the first input of the first adder 5 signals and to the input of the first delay device 4 signals (can be made in the form of a delay line). The output signal of the first adder 5 signals is fed to the first input of the second adder 7 signals and to the input of the second delay device 6 signals.

The signal from the output of the delay device 6 and the signal from the output of the second adder 7 of the signals are fed to the inputs of the on-off switch 11, which is controlled by the control device 10.

The signal from the output of the on-off switch 11 is fed to the first input of the third adder 12 of the signals, the second input of the on-off switch 11 receives a signal from the generator 9, controlled by the voltage excited by the shaper of the periodic non-linearly varying voltage 8.

The output signal of the third adder 12 is sequentially supplied to a band-pass filter 12, a power amplifier 14 and a transmitting antenna 15.

The band-pass filter 13 and receiver 2 are tuned to the range of protected frequencies from the lower frequency fн to the upper frequency fв. The voltage-controlled oscillator 9, excited by the generator of a periodic non-linearly varying voltage 8, also provides the generation of harmonic signals in the range of protected frequencies “running through” from the lower frequency fн to the upper frequency fв.

The voltage-controlled generator 9 generates a signal whose frequency f continuously changes over a period of time T according to the law determined by the generator 8 of the periodic changing voltage. The receiving and transmitting antennas are sufficiently decoupled.

Adding the original signal with its time-shifted copy allows you to save the structure of the signal, but change (destroy) its information part. Since the inventive device performs such an operation twice: on the adder 7, and then on the adder 8, the output signal of the adder 8 is a practically undetectable mixture with the structure of the source signals. In addition to this mixture, a sliding noise from the generator 9 controlled by voltage in the same frequency range is mixed in, deforming both the structure and the information part of the fragments of the input signal. After such transformations to the mixture with the structure of the initial signal, the detection of the output signal becomes impossible.

Filtered to the boundaries of the range of protected frequencies from the lower frequency fn to the upper frequency fv signal with excess power after the amplifier 13 is supplied to the transmitting antenna 14.

The choice of device duration values is due to maximum changes in the information part of the received signals precisely at these values and the simplicity of the implementation of the concept.

Thus, changing the information part of the signal / signals, destroying, deforming and replacing individual fragments of the structure of the signal a / signals together with the amplitude excess allows increasing the probability of radio suppression, and due to the new combination of features and the interaction algorithm of nodes corresponding to the declared features, simplifies the device , a decrease in its overall dimensions, while increasing the efficiency of radio suppression.

Sources of information

1. Ivliev S., Maistrenko N. et al. Search and disposal of explosive devices. - M.: Fund for Economic Security, 1996.

2. Petrenko E.G., Linkok A.A., Yakubchik A.Yu. Device for blocking radio fuses, patent N 2100752 from 11.22.96, MKI F41H 11/12, publ. BI N 36, part 11, 1997, p. 391.

3. Battalov A.M., Gordon O.I., Konoplev V.A., Odnopalov I.A. Device for blocking radio fuses patent N 2131645 from 1998-05-26, MKI F41H 11/12, H04K 3/00.

Claims (1)

A device for blocking unauthorized transmission of control information comprising a receiving antenna, a receiver, an amplifier, a non-linearly varying voltage driver and a voltage controlled generator, a power amplifier and a transmitting antenna, characterized in that a bandpass filter, a first signal delay generating device, and a second device are introduced signal delay generation, first, second, third signal adders, on-off switch, on-off switch control device, amplifier output connected to the input of the first signal delay formation device and the first signal input of the first signal adder connected to the second signal input of the first signal adder signal delay generation, the output of the first signal adder is connected to the input of the second signal delay formation device and to the first signal input of the second signal adder, to the second signal input the output of the second signal adder is connected to the inputs of the on-off switch controlled by the control device, and the output of the on-off switch is connected to the first signal input of the third signal adder, the second signal input of the third adder the signal is connected to the output of the generator by a controlled voltage, the input of which is connected to the output of the driver of a non-linearly varying voltage, the output of the third signal adder is connected to the input of the bandpass filter, the output of which is connected to the input of the power amplifier, the output of which is connected to the input of the transmitting antenna, while the delay time of the first device generating a delay signal is less than the delay time of the second device forming a delay signal.

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