RU2702407C1 - Method for testing antenna cables of vehicles for noise immunity to electromagnetic interference - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to tests of vehicles for electromagnetic compatibility. In the method of testing antenna cables of vehicles for susceptibility to an electromagnetic field, a vehicle is installed with a tested antenna-feeder system into an anechoic chamber and subjected to an electromagnetic deterministic broadband field, the spectrum of which overlaps the frequency range specified by the test procedure, and the levels of electromagnetic interference induced by the electromagnetic field are measured at the output of the antenna-feeder system. Level of induced electromagnetic interference is measured for two antenna-feeder system configurations. One of the configurations includes a receiving antenna and an antenna cable of a motor vehicle, and other of configurations includes equivalent resistance of receiving antenna or fully protected from electromagnetic field receiving antenna and antenna cable of vehicle. Antenna cable is considered to satisfy requirements of noise immunity if difference of spectral characteristics induced by electromagnetic field to antenna-feeder system of vehicles, obtained after tests of two described configurations, is not less than 6 dB.

EFFECT: technical result when implementing disclosed solution is creation of method, which enables to diagnose noise immunity of antenna cable of vehicles.

1 cl, 4 dwg

Description

The invention relates to electrical testing of vehicle antenna cables (ATS) for compliance with electromagnetic compatibility (EMC) parameters, in particular to the effect of a high-frequency electromagnetic field and can be used to evaluate the noise immunity of ATS antenna cables of high-frequency electromagnetic interference (EMF).

From GOST 29157-91, there is a known installation containing a grounded metal base on which the tested system (product) is located with wiring harnesses coming from it, which are connected to a power source and electrical peripheral elements of the product, while the wiring harnesses pass through a capacitive device, input which is connected to the noise generator, and the output to an electrical load.

From the aforementioned source, a method for testing vehicle cables for noise immunity to electromagnetic interference, which is realized by means of a capacitive electromagnetic interference device in the wire harnesses passing through it, is known that is implemented by the above-described installation.

The disadvantages of this method are the effect of EMF on a particular section of the tested system, which does not allow us to estimate the induced level of EMF on the entire system as a whole, as well as the test of the test system not included in the on-board network of the automatic telephone exchange, which does not allow taking into account the specific features of the distribution of EMF in the automatic telephone .

From GOST 29157-91, there is known an installation containing a shielded camera, an article with wiring harnesses coming from it that are connected to a power source and peripheral elements of the article, while the wire harnesses pass through an inductive current injector, the input of which is connected to an interference generator.

From the aforementioned source, a method for testing motor vehicle cables for noise immunity to electromagnetic interference, implemented by the above-described installation, is known, which consists in inducing electromagnetic interference current through an inductive injector in wire harnesses passing through it.

The disadvantages of this method is the impact of the EMF on a single section of the harness of the tested system, which does not allow to evaluate the induced level of EMF on the whole system as a whole.

The prototype of the present invention adopted the well-known from GOST R 51318.25-2012 method of testing the antenna-feeder systems of vehicles for noise immunity to electromagnetic interference, in which a telephone exchange incorporating an antenna-feeder system is installed in a test chamber, mainly anechoic. A measuring receiver is connected to the output of the antenna-feeder system using a matching device, they act on the antenna-feeder EMF system, which is created by the on-board electrical systems, the operation mode of which is determined by the regulatory testing documentation, and the noise level is measured at the output of the antenna-feeder system. The test results are compared with the control values, and according to the results of the comparison, a conclusion is made about the compliance of the tested antenna-feeder system with regulatory requirements.

The disadvantage of this method is the non-deterministic nature of the impact of EMF from electrical systems of the ATS on the antenna-feeder system, which does not allow us to unambiguously compare the noise immunity of the cable (cable sections) of the antenna-feeder path.

The objective of the proposed solution is to create a method for testing antenna cables of a telephone exchange for noise immunity to EMF, which allows to assess compliance with the EMC parameters of the cable (cable sections) of the antenna-feeder path and, based on the test results, take measures to increase the noise immunity of the antenna-feeder path.

This problem is solved in the method of testing the antenna cables of the telephone exchange for noise immunity to the electromagnetic field, in which the output of the antenna-feeder system of the automatic telephone exchange located in the test chamber, mainly anechoic, is connected using a matching device and noise-proof cable to the measuring receiver, and then act on the antenna-feeder EMF system.

This problem is solved by the fact that:

1. The antenna-feeder device of the tested ATS is affected by a simulating emitter source (s) of a deterministic broadband signal that covers a given frequency range, and the level of induced electromagnetic fields is measured at the output of the antenna-feeder system.

2. The noise immunity of the antenna cables of the telephone exchange to the EMF in a given frequency range is evaluated in comparison with the general level of induced EMF at the output of the antenna-feeder system.

3. The noise immunity assessment includes a mode in which all sources of the electromagnetic field of the telephone exchange are turned off, and at least one generator with an antenna is used as the source (sources) of the electromagnetic field, creating a deterministic broadband signal that covers a given frequency range.

4. The source (s) of the EMF, which creates a deterministic broadband signal that covers a given frequency range, is installed in a place regulated by the test documentation.

5. Measurements of the level of induced EMF are carried out with two configurations of the antenna-feeder system. The first configuration includes a receiving antenna and a PBX antenna cable. The second configuration includes the equivalent impedance of the receiving antenna or a receiving antenna fully protected from EMF and the antenna cable of the telephone exchange.

6. The assessment of the sufficiency of noise immunity of antenna cables is carried out from the condition:

U _A (f _i ) -U _K (f _i ) ≥6 dB, where

- U _A (f _i ) is the voltage of the induced interference at a frequency f _i at the output of the antenna-feeder system in a configuration that includes a receiving antenna and an antenna cable of the telephone exchange;

- U _K (f _i ) is the voltage of the induced interference at a frequency f _i at the output of the antenna-feeder system in a configuration that includes the equivalent resistance of the receive antenna or a receive antenna fully protected from EMF and the ATC antenna cable;

- f _i - the frequency at which measurements of induced EMF are carried out.

The invention is illustrated by the following drawings:

FIG. 1, where schematically shown: 1 - test chamber (anechoic chamber); 2-ATS with the tested antenna-feeder system; 3 - EMF source that creates a deterministic broadband signal that covers a given frequency range and is installed in a place regulated by test documentation.

FIG. 2, where schematically shown: 4 - the receiving antenna of the exchange; 5 - test antenna cable of the telephone exchange; 6 - matching device; 7 - interference-free cable connecting the matching device and the measuring receiver; 8 - measuring receiver; 9 - shielded camera for placement of measuring equipment.

FIG. 3, where are schematically shown: 10 - equivalent resistance of the receiving antenna of the exchange.

FIG. 4, which shows: 11 is a spectral characteristic of the induced interference at the output of the antenna-feeder system in a configuration that includes a receiving antenna and an antenna cable of the telephone exchange; 12 is a spectral characteristic of the induced noise at the output of the antenna-feeder system in a configuration including the equivalent resistance of the receiving antenna and the antenna cable of the telephone exchange; 13 - the difference of the spectral characteristics of 11 and 12.

The invention can be implemented in a test chamber, mainly anechoic, containing an EMF source that generates a deterministic broadband signal that overlaps the frequency domain specified by the regulatory documentation, measuring equipment (measuring receiver) with a matching device and noise-proof cable, and also installed in the test chamber for the test period of a pre-prepared vehicle with a tested antenna-feeder system. Where the source of the electromagnetic field generating the deterministic broadband signal is installed in a place regulated by the test documentation.

After this, carry out preliminary preparation of the ATS for testing, which consists of:

- in connecting to the antenna-feeder system of the automatic telephone exchange a matching device and noise-protected cable;

- connecting measuring equipment (measuring receiver) to the output of the noise-protected cable;

- in the installation, after the first test in accordance with the first configuration of the antenna-feeder system of the automatic telephone exchange, instead of the receiving antenna of equivalent resistance or in the installation on the receiving antenna of a device for protecting the antenna from electromagnetic interference.

The claimed technical solution is based on the fact that the evaluation of the noise immunity of the antenna cable is carried out by comparing the spectral characteristics of the noise induced in the antenna-feeder ATC system, which were obtained after testing in the two above-described configurations of the antenna-feeder ATC systems. According to the first configuration, the integrated level of the induced EMF is measured in a given frequency range for the antenna and the antenna cable of the telephone exchange. According to the second configuration, the EMF receptor in the form of an antenna is excluded and the level of induced EMF is measured only on the antenna cable, while the electrical parameters of the antenna-feeder ATC system remain identical compared to the first configuration.

An antenna cable is considered to meet the requirements of noise immunity if the difference in spectral characteristics induced by the electromagnetic field on the antenna-feeder system of the automatic telephone exchange obtained after testing in the two above-described configurations of antenna-feeder systems is not less than 6 dB. The above indicates that the voltage induced by the EMF on the antenna cable is at least two times less than the voltage induced by the EMF on the ATS antenna.

The tests are carried out as follows:

1. On a PBX with an antenna-feeder system installed in accordance with the first configuration, a deterministic broadband signal that covers a given frequency range generated by an EMF source placed in the test chambers is exposed. By means of a measuring receiver, a predetermined frequency range is scanned and the level of the electromagnetic fields induced on the antenna-feeder system is measured in it. Based on the measurement results, the spectral characteristic of the induced EMF voltage is built.

2. After taking measurements in accordance with the first configuration of the antenna-feeder system, prepare for EMF measurements according to the second configuration. To do this, instead of the receiving antenna, an equivalent resistance is installed or a device for protecting the antenna from EMF is installed on the receiving antenna. After preparation, a repeated exposure is carried out with a deterministic broadband signal that covers a predetermined frequency range by means of an EMF source. The measuring receiver scans a given frequency range and measures the level of the electromagnetic field induced on the antenna-feeder system in it. Based on the measurement results, the spectral characteristic of the induced EMFs is constructed for the second configuration of the antenna-feeder system.

3. After the tests, the spectral characteristics of the induced EMFs measured in two configurations of the antenna-feeder systems of the automatic telephone exchange are analyzed.

4. Based on the test results, a conclusion is made about the noise immunity of the ATC antenna cable and, in case of non-compliance with the requirements, measures are taken to increase the noise immunity of the antenna-feeder path.

An antenna cable is considered to satisfy the requirements of noise immunity if the difference in the spectral characteristics induced by the EMF on the antenna-feeder system of the automatic telephone exchange obtained after testing in the two above-described configurations of the antenna-feeder system is not less than 6 dB.

Claims (5)

A method of testing vehicle antenna cables for immunity to electromagnetic interference, in which the output of the vehicle’s antenna-feeder system, located mainly in an anechoic test chamber, is connected using a matching device and a noise-proof cable to the measuring receiver, and then it is applied to the antenna -feeder system with an electromagnetic field, characterized in that I act on the antenna-feeder device of the tested vehicle t with an electromagnetic deterministic broadband field signal that overlaps the frequency domain specified by the test regulations and measure the levels of electromagnetic interference induced by the electromagnetic field at the output of the antenna-feeder system, the noise immunity of antenna cables in a given frequency range is evaluated in comparison with the total level of induced electromagnetic interference at the output antenna-feeder system, the noise immunity assessment includes a mode in which all sources of the electromagnetic field are tested the vehicle is turned off, and at least one generator with an antenna is used as the source of the electromagnetic field, creating a deterministic broadband signal that covers the frequency range specified by the test regulations, an electromagnetic field source that creates the deterministic broadband signal that covers the specified frequency range, is placed in the test schedule location, the level of induced electromagnetic interference is measured with two antenna-feeder configurations second system, the first configuration includes a receiving antenna and antenna cable of the vehicle, and the second configuration includes the equivalent resistance of the receiving antenna or completely protected from exposure to the electromagnetic field receiving antenna and antenna cable of the vehicle, evaluating adequacy noise immunity antenna cables produced from the condition: U _A (f _i ) - U _K (f _i ) ≥ 6 dB, where - U _A (f _i ) is the voltage of the induced noise at a frequency f _i at the output of the antenna-feeder system in a configuration that includes a receiving antenna and an antenna cable of the telephone exchange; - U _K (f _i ) is the voltage of the induced interference at a frequency f _i at the output of the antenna-feeder system in a configuration that includes the equivalent resistance of the receiving antenna or a receiving antenna fully protected from EMF and the antenna cable of the telephone exchange; - f _i - the frequency at which measurements of induced EMF are carried out.

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