RU2131645C1 - Device for locking radio proximity fuses - Google Patents

Abstract

FIELD: protection against radio-controlled mines. SUBSTANCE: device has n frequency oscillators, wide-band power amplifier, wide-band antenna system, commutator, which n signal inputs are connected to outputs of frequency oscillators, and which output is connected to input of wide-band power amplifier. In addition device has pseudorandom pulse sequence generator, which is connected to control input of commutator 4, and controlled interface, which is inserted between wide-band power amplifier and wide-band antenna system, and parameters regulator which is connected to control inputs of wide-band power amplifier, controlled interface and n frequency oscillators. In addition each of n frequency oscillators operates in overlapping adjacent frequency bands and is designed as serial circuit of generator of non-linear alternating voltage, and voltage-controlled generator. EFFECT: increased reliability of protection against unauthorized transmission of information through radio channel in wide band of unknown frequencies without increase in integral output device power, its power consumption, size and weight, possibility of its on-line adjustment to current frequency conditions without alteration of its circuits and design. 2 cl, 2 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 previously 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 blocking noise in a wide frequency band in the form of amplified "white" noise. In this and similar devices, the power of the emitted interference at each particular 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] (prototype). This known device allows you to radiate high power in each frequency subband, sufficient to protect against radio-controlled explosive devices. One of the disadvantages 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, both because of a significant increase in energy consumption, dimensions and mass, and mainly because of the difficulties in ensuring acceptable standards for the effect of radiation of such devices on the operators' bodies in accordance with GOST 12.1.006-84 and Sanitary rules and regulations of SanPiN 2.2.4 / 2.1.8.055-96.

 Another disadvantage of this device is that in sections of the frequency range between the sub-ranges of the radiation of the modules, the power of the interference signals is only 10. .. 20% of the signal power in the main sub-bands, which reduces the reliability of protection.

 Another disadvantage of this known device is the inability to quickly adapt it to a change in the radio frequency environment without changing the circuit and design. The fact is that, at each time interval, according to operational information, in one or another part of the frequency range, the probability of using such widespread radio means as radio telephones, transmitters for radio-controlled models and toys, pager transmitters, etc. increases for unauthorized transmission of information on the radio channel .p., the list of which and the radio frequencies used in them is constantly changing.

 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 wide range of previously unknown radio frequencies without increasing the integrated output power of the device, its power consumption, dimensions and mass, as well as providing the ability to quickly adapt it to change the radio frequency environment without changing the circuit and designs.

 The problem is solved in that in a device containing n frequency shapers, a broadband power amplifier and a broadband antenna system, a switch is additionally introduced, n signal inputs of which are connected to the outputs of n frequency shapers, and the output is connected to the input of a broadband power amplifier; a pseudo-random pulse train generator connected to the control input of the switch, as well as a controlled matching device connected between the broadband power amplifier and the broadband antenna system and a performance regulator connected to the control inputs of the broadband power amplifier, matching device, and n frequency shapers.

 In addition, each of the n frequency shapers operates in overlapping adjacent frequency subbands and is made in the form of a nonlinearly varying voltage shaper and a voltage controlled oscillator connected in series.

 The device uses the well-known frequency sweep method, which allows to radiate high power at each frequency sequentially in time. At the same time, at a certain frequency f (t), a signal of the required power sufficient for reliable protection is generated and emitted, and this frequency itself over a period of time depending on the number n of the frequency drivers and the frequency T of the frequency sweep T by one frequency driver varies over the entire range of protected frequencies , "running through" all the values from the bottom to the top. At the same time, a new set of features provides: firstly, a combination of a high power level characteristic of the frequency sweep method at each emitted frequency and the broadband inherent to the white noise method and the universality of suppressing all types of modulation, since with the pseudorandom nature of the switching of the frequency drivers by the switch, the output signal spectrum similar to the “white” noise in the protected frequency range, secondly, the possibility of a single-module device construction, which allows to reduce its dimensions, assu and energy consumption and not to increase the integrated power of the device to achieve the desired reliability of protection, thirdly, the ability to quickly adapt the output characteristic of the device to a changing radio frequency environment without changing the circuit and design, increasing the suppression in those parts of the range where the probability of unauthorized transmission of information in a given period According to operational information, the time is especially great. This is achieved both by superimposing the spectra of adjacent frequency drivers within the indicated sections of the frequency range, and by slowing down the rate of change of frequency within these sections, as well as by setting the required unevenness of the gain of the broadband power amplifier and the required unevenness of the amplitude-frequency characteristic of the broadband antenna system, which is ensured by synchronous operation shapers of non-linearly varying voltage, regulator of characteristics, controlled matching device and com utatora.

 The simultaneous use of superposition of spectra, slowing down the speed, and correcting the non-uniformity of amplification of the broadband power amplifier and the amplitude-frequency characteristics of the broadband antenna system allows to increase the suppression efficiency in these sections of the range by 15 ... 18 dB, as it was experimentally established, while separately each of these measures gives a gain of no more than 2 ... 3 dB.

 The drawings show: in FIG. 1 is a structural diagram of the described device, FIG. 2 is a diagram of the frequency sweep in time at the output of the switch.

 The device contains n frequency shapers 1 frequencies (1-a, 1-b, ... 1-n), each of which operates in overlapping adjacent frequency subbands and is made in the form of non-linearly varying voltage shaper 2 connected in series (2-a, 2- b, ... 2-n) and voltage controlled oscillator 3 (3-a, 3-b, ... 3-n). The outputs of all n frequency shapers are connected to n signal inputs of the switch 4, the output of which, in turn, is connected to the input of a broadband power amplifier 5 connected via a controlled matching device 6 to a broadband antenna system 7.

 The characteristics regulator 8 is connected to the control inputs of a broadband power amplifier 5, a controlled matching device 6 and non-linearly varying voltage generators 2, and a pseudo-random pulse train generator 9 is connected to the control input of the switch 4.

 The operation of the claimed protection device is as follows.

The entire range of protected frequencies from the lower frequency f _n to the upper frequency f _{in is} divided into n subbands (Δf _a , Δf _b , .. Δf _n ), the number of which is equal to the number of drivers of f frequencies. The subbands partially overlap each other, as shown in the diagram depicting the process of frequency sweep in time at the output of the switch 4. For clarity, the sequence of alternating subbands is shown conditionally.

Each of the n voltage-controlled oscillators 3 generates a signal whose frequency f continuously changes over a period of time T according to the law determined by the non-linearly changing voltage generator 2 under the action of the characteristics regulator 8. Generator 3a, for example, scans the frequency into the subband Δf _a , generator 3b - in the subband Δf _b , while in the frequency range Δf _ab, each frequency value appears twice during the period from to to tn. The same can be said about frequency sections Δf _cd ... Δf _n (n-1). Thus, the superposition of the spectra is to a certain extent equivalent to a decrease in the period of appearance of the interference frequency within the indicated sections, that is, a decrease in the “erosion” of the interference power in time. A similar effect is also obtained by a decrease in the rate of change of frequency within the indicated sections.

 The switch 4 sequentially in time connects each of the n voltage-controlled oscillators 3 to the input of the broadband power amplifier 5 according to the law determined by the pseudo-random pulse train generator 9. From the output of the power amplifier 5, the amplified signal is fed to the input of the controlled matching device 6, and from its output to the input of the broadband antenna system 7. The controller 8 of the characteristics determines the given non-uniformity of the gain of the broadband power amplifier 5 with an increased gain in specified sections of the range of protected frequencies and a given the unevenness of the amplitude-frequency characteristics of the broadband antenna system 7 using a managed matching device 6.

 Thus, the proposed device due to the new set of features provides the ability to quickly adapt it to changes in the radio frequency environment without changing the circuit and design, provides increased reliability of protection against unauthorized transmission of control information of radio fuses via a radio channel in a wide range of previously unknown radio frequencies without increasing the integrated output power of the device, its energy consumption, dimensions and mass, and ensures compliance with sanitary standards radiation to the operator's body in accordance with GOST 12.1.006-84 and SanPiN 2.2.4 / 2.1.8.055-96.

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 F 41 H 11/12, publ. BI N 36, part 11, 1997, p. 391.

Claims (2)

 1. Device for blocking radio fuses, containing n frequency drivers, a broadband power amplifier and a broadband antenna system, characterized in that it further includes a switch, n signal inputs of which are connected to the outputs of the frequency drivers, and the output is connected to the input of a broadband power amplifier, generator a pseudo-random pulse sequence connected to the control input of the switch, as well as a controlled matching device connected between the broadband amplifier a power amplifier and a broadband antenna system, and a performance regulator connected to the control inputs of a broadband power amplifier, matching device, and n frequency drivers.  2. The device according to claim 1, characterized in that each of the frequency shapers is configured to operate in overlapping adjacent frequency subbands and consists of a non-linearly varying voltage shaper and a voltage controlled oscillator connected in series.

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