RU79213U1 - DEVICE FOR INFLUENCE ON EQUIPMENT - Google Patents

Abstract

The utility model is aimed at expanding the arsenal of technical means, at identifying the true reasons for the absence of protective devices in various specific applications, as well as for disrupting the operation of specific equipment (for example, terrorists by special services). It is a device consisting of a pulse signal source block, an external segment of a transmission line of three parallel conductors in a dielectric filling, an apparatus block with an internal segment of a transmission line of three parallel conductors in a dielectric filling, characterized in that the difference in linear delays of the even and odd modes of the external segment selected greater than the total duration of the pulse signal and equal, taken with the opposite sign, the difference in the running delays of the even and odd modes of the internal segment. The specified technical result is achieved by the fact that a high-voltage pulse is supplied to a multi-wire transmission line, the pulse is decomposed into N pulses of much lower amplitude at the junction of the series-connected segments of the multi-wire transmission line and, by changing the parameters of the final segment (by increasing the relative permittivity of the outer dielectric layer or by introducing an additional layer with a large value of relative dielectric constant) is restored at the end of the final cutting, disabling equipment. This method is characterized in that it is possible unhindered passage of high voltage pulses through protective devices at the joints of segments of multi-wire transmission lines.

Description

The utility model is aimed at expanding the arsenal of technical means, at identifying the true reasons for the absence of protective devices in various specific applications, as well as for disrupting the operation of specific equipment (for example, terrorists by special services).

The problem of electromagnetic compatibility (EMC) takes place in various fields of radio engineering, electronics and electrical engineering. The miniaturization of equipment, as well as its increasing complexity, integration and interaction - all this makes electronic systems and components more vulnerable to electromagnetic influences. In the current decade, EMC experts have been studying the problem of electromagnetic terrorism very intensively. One of its most dangerous factors is ultrashort pulses that appear in the conductors of the equipment due to deliberate conductive or radiated electromagnetic modal effects.

Let us explain the principle of modal impact: studies of the propagation of a pulse in two series-connected segments of a two-wire (third wire reference) line show that at the junction of the segments the pulse can decompose into two pulses and recover at the end of the structure in one pulse. The results of computer simulation of the decomposition phenomenon and subsequent pulse recovery using the example of a microstrip line (usual in the first segment and with a covering dielectric layer in the second) are shown in Fig. 1.

Note that for the complete decomposition of the pulse, it is necessary that its duration be less than the difference in the delay of the modes of the first segment, and for the most complete restoration, the simultaneous arrival of the modes at the end of the second is necessary. (The lengths of the segments of figure 1 were chosen precisely from these conditions). It is noteworthy that the initial pulse is decomposed into pulses of approximately 2 times smaller amplitude, and restored up to the previous one.

A similar simulation (but with a triangular pulse) was performed for the segments of a three-wire flat network power cable with different values of the relative permittivity of the external insulation (figure 2).

As can be seen from figure 2, and in such a structure, it is possible to decompose the initial pulse into two pulses of half the amplitude and the subsequent restoration in one pulse of the same amplitude.

If at the junction of the segments a protective device is connected between the signal and the common conductor, shorting the circuit when a certain voltage is exceeded on it, then almost 2 times the voltage at the beginning of the structure may be on the load at the end of the structure, and the protective device will not work. Thus, there is reason to believe that this phenomenon of decomposition and restoration of the pulse can take place in real structures and be one of the reasons for the lack of response of protective devices. In addition, if someone knows the parameters of section 2 and controls the parameters of section 1, then he can organize a deliberate intentional force exposure using electromagnetic terrorism methods, bypassing the protection of critical equipment in this way.

The practical implementation of the modal effect is possible using the proposed device impact on the equipment.

The device impact device is a device consisting of a pulse signal source block, an external segment of a transmission line of three parallel conductors in dielectric filling, an equipment block with an internal segment of a transmission line of three parallel conductors in dielectric filling, characterized in that the difference in linear delays is even and the odd mode of the outer segment is chosen greater than the total duration of the pulse signal and equal, taken with the opposite sign, to the difference in linear inputs rods even and odd modes of the internal section (3).

The closest of the analogues to the claimed device is a similar device with an external segment of the transmission line, consisting of three conductors, which also allows force action using pulse signals. But in it, the attenuation of impulse signals occurs only due to losses.

The inventive device impact device operates as follows: a high-voltage pulse from the source block of the pulse signals is supplied between the two conductors of the external segment of the three-wire transmission line, at the end of this segment, the pulse is decomposed into two pulses of much lower amplitude and restored at the end of the internal segment, disabling the equipment. This device is characterized by the possibility of unhindered passage of high-voltage pulses through protective devices at the junction of the external and internal segments.

Claims (1)

A device consisting of a pulse signal source block, an external segment of a transmission line of three parallel conductors in dielectric filling, an apparatus block with an internal segment of a transmission line of three parallel conductors in dielectric filling, characterized in that the difference in the running delays of the even and odd modes of the external segment is selected greater than the total duration of the pulse signal, and equal, taken with the opposite sign, the difference in the running delays of the even and odd modes of the inner segment.