RU177627U1 - NETWORK INTERFERENCE FILTER - Google Patents

Abstract

The utility model relates to the field of electrical and radio engineering and can be used as a device for suppressing electromagnetic interference to protect information processed by technical means (TS) and is a network noise filter installed in the power supply circuit of technical means to protect information from unauthorized activity from leakage through channels secondary electromagnetic radiation and interference (PEMIN), containing common-mode and antiphase chokes and capacitors, are made double metal screen, in one of which sections are separated by screens with bushing capacitors and interference-suppression chokes, the incoming and outgoing electrical cables are made with double-shielded, screening of conductors, neutral and a common screen. Moreover, these screens are isolated from each other. The device also uses an interference suppression filter with a separate protective grounding (PE) filter circuit, which is connected to the screens of the conductive wires of the incoming and outgoing cables. Different filter versions allow you to install them in single-phase and three-phase power circuits.

Description

The technical solution relates to the field of electrical engineering and radio engineering and can be used as a device for suppressing electromagnetic interference to protect information processed by technical means (TS), ensuring the prevention of information leakage from unauthorized activities on the power supply and grounding network due to the impact on the power supply network and grounding of informative collateral electromagnetic radiation and interference (PEMIN) in the processing of information.

A systematic approach to reducing PEMIN includes a list of technical measures, such as shielding, grounding, proper wiring, and filtering.

An effective way to suppress electromagnetic interference and prevent information leakage through the power and ground lines from the vehicle is to use electromagnetic interference suppression devices in the form of network noise suppression filters. Filtration as a means of reducing the vulnerability of telecommunication equipment

interference suppression filters, many publications have been devoted (for example, Kechiev LN, Stepanov PA “EMC and information security in telecommunication systems” M: Publishing House “Technologies”, 2005.)

Known single- and three-phase network noise filters of firms EPCOS, TE Connectivity.

Known network noise filter LFS 100-3F, designed to protect electronic devices and electronic components against information leakage due to pickups on three-phase power circuits with voltage up to 380 V, frequency 50 Hz with a maximum operating current of up to 100 A, as well as to suppress interference at a given (0.1-1000 MHz) frequency range. (http://gkshied-security.ru/catalog/lsf-100-3f.)

The Information Protection Device is also known (Patent RU 2533640, published November 20, 2014)

The above devices mainly contain noise suppression filters to reduce noise levels in power circuits with different PEMIN suppression efficiencies.

These filters do not address the issue of connecting and shielding communication lines.

The theoretical description of the operation of electromagnetic screens is based on the fact that their action is to reflect and direct the flow of energy created by the field sources, preventing it from entering the protected area of space. The mechanism of the reflecting and directing action of the screens on electromagnetic energy flows is inextricably linked with the appearance on the surface and in the thickness of the structures of the screens of charges, currents and polarizations. In the general case, the screen not only weakens, but also distorts the source field in the protected area; therefore, the screening efficiency turns out to be different for the electric and magnetic components of the electromagnetic field. An electromagnetic screen is a structure designed to attenuate electromagnetic fields created by sources in a certain area of space that do not contain these sources. In most cases, electromagnetic screens are made of metals.

A set of issues related to the development of effective screens and shielding systems for technical equipment operating in a wide frequency range, shielding materials and coatings, shielding of low-frequency magnetic fields, the design of shielding cases and their elements are described in detail in the literature (for example, Kechiev L.N. , Akbashev BB, Stepanov PV "Shielding of technical equipment and shielding systems" M .: 2010)

Network suppression filters and information protection devices are mainly used in power networks with a grounded neutral, the resistance of which has a certain value, which does not exclude the spread of PEMIN over it.

When connecting technical means, especially information systems, to the power supply networks, a separate protective grounding (PE) is provided (GOST R 50571.5.54-2013 / IEC 60364-5-54).

But even in this case, the protective earth circuit has a finite (certain) value of ohmic resistance, which does not exclude the spread of PEMIN.

Regular (unshielded) power cables, regardless of the presence of noise suppressing filters in their circuit, do not provide a sufficient reduction in the levels of induced signals, since there are extended parallel “runs” of current-carrying conductors and cable neutrals, leading to the creation of additional informative signals.

The objective of the technical solution is to reduce PEMIN by filtering and double shielding the housing, input and output cables, their special connection to the filters in conjunction with the use of a filter in the protective earth circuit.

The problem is solved due to the fact that the network noise suppression filter installed in the power supply circuit of technical equipment to protect information from unauthorized activity from leakage through the channels of side electromagnetic radiation and interference (PEMIN), containing common-mode and antiphase chokes and capacitors, is made with a double metal screen, in one of which there are sections separated by screens with feed-through capacitors and noise suppressing chokes, input and output power cables tions are made with double screening, screening of conductors, neutral and a common screen, and these screens are insulated from each other, wherein the device uses a noise filter to a separate chain filtration protective earth (PE), which is connected lived incoming and outgoing cables to the screen conductor. Filter options allow you to install them in single-phase and three-phase power circuits.

Mains suppression filters can be used in versions with different values of rated load currents (10, 16, 25, 40, 63, 100, 200 A) and, accordingly, the value of the introduced attenuation by voltage in the suppression band (60, 80, 90 dB) for installation in single-phase and three-phase power supply circuits.

The input cable consists of conductive conductors of phase conductors and neutral, each of which has an insulated screen, and a common screen that covers all conductive and shielded cable elements.

The common screen of the input cable is attached to the metal casing. The screens of the conductive conductors and the neutral of the input cable from the side of the connection to the line filter and the filter of the protective ground circuit are combined at a common point and connected to the input of the protective ground filter.

The outputs of the line filter are connected to the conductive veins of the output cable and are connected to technical means. The screens of the conductive conductors and the neutral of the output cable from the side of the connection to the outputs of the line filter are combined and connected to the output of the protective earth filter.

The common screen of the output cable from the connection to the filters is connected to the metal casing of the network noise filter.

The screens of the conductive conductors and neutral from the side of connection to the technical means are combined and connected to the protective earth (PE) of the technical means.

The technical result is an increase in the security index of the information processed by the TS, a decrease in the level of PEMIN and an extension of the suppression band of information pickups in the low-frequency region.

The technical solution is illustrated by the drawing (Fig. 1)

The input cable consists of four conductive cores, with cores 11, 12, 13 - all phase, 14 - neutral; each core has an insulated screen 1. The common screen 2 of the cable covers all conductive and shielded cable elements and is connected to the metal casing 3 of the network noise filter. The core 11 of the input cable is connected to the phase 11 of the filter (6), and, accordingly, the core 12 to the phase 12, the core 13 to the phase 13, the core 14 to the neutral 14 of the filter (6).

The screens of all the conductive wires of the input cable from the side of the connection to the filters (6) and (5) are combined at a common point and connected to the input 15 of the filter (5) and are designated as protective earth (PE) according to GOST R 50571.5.54-2013

The outputs of the filter (6) are connected to the conductive cores of the output cable to points 21, 22, 23 and 24., respectively. The output cores of the cable are connected to the technical means. The screens of all conductive veins of the output cable from the side of the connection to the filter outputs (6) are combined and connected to the output 25 of the filter (5).

The common screen of the input and output cables from the connection to the filters is connected to the metal casing 3 of the network noise filter.

Depending on the number of filtering stages, the metal filter housing (6) is divided into the corresponding number of shielded sections with noise suppressing chokes (in our example, there are two of them and are designated 61 and 62). The metal filter housing (5) is shown in the example as a single-section and its section is designated 51. The inputs and outputs of the filters (6) and (5), as well as the connection between the filter sections, are carried out through standard passage capacitors 4.

For single-phase applications, the connection diagram remains the same, only in the design of the cable and filter 6 there is one phase.

The technical feasibility of the utility model follows from the description of the network noise filter in statics and dynamics with the practical achievement of the specified technical result.

Claims (1)

1. Network noise filter installed in the power supply circuit of technical equipment to protect information from unauthorized activity from leakage through the channels of secondary electromagnetic radiation and interference (PEMIN), containing common-mode and antiphase chokes and capacitors, characterized in that the network noise filter is made with a double metal screen, in one of which there are sections divided by screens with feed-through capacitors and noise suppressing chokes, input and output cable power supply adapted to double-shielded, screening of conductors, neutral and a common screen and the screens are insulated from each other, wherein a noise filter is used with a separate filter chain protective earth (PE), which is connected lived incoming and outgoing cables to the conductive screens.

Images