RU2702406C1 - Method of testing systems / devices for calling emergency operating services of vehicles for susceptibility to electromagnetic field - Google Patents

Abstract

FIELD: testing technology; transportation.

SUBSTANCE: invention relates to tests of vehicles. In method of testing systems/devices for calling emergency services of vehicles for susceptibility to electromagnetic field equipped with systems/devices for calling emergency operational services, vehicle is located in area protected from external factors, equipped with a base station simulator configured to generate from the transmitting devices of the GSM standard of the tested emitted signal system by predetermined power test conditions, as well as containing a radio channel of GSM standard, providing simulation of audio communication driver/passenger of vehicle with dispatcher of emergency operations services. In the process of testing communication between the driver/passenger of the vehicle, which is mediated by an audio link, is exchanged between the system/devices tested in the vehicle and the simulator of the basic station. During information exchange between the tested system and the simulator subjective acoustic assessment or measurement and recording of the levels of useful, uniquely identifiable, and noise, induced high-frequency electromagnetic field of GSM transmitting devices, signals detected in the acoustic channel of the tested system/devices for calling emergency operational services. Assessment of susceptibility of systems of calling emergency services of vehicles to effect of electromagnetic interference created by high-frequency electromagnetic field of own transmitting devices, comparing values of useful and noise signals recorded during testing with regulated levels of "signal/noise" ratios.

EFFECT: expansion of functional capabilities due to diagnostics of operability of audio channel of communication of driver/passenger of automatic telephone station with dispatcher of emergency operational services at influence of electromagnetic interferences created by high-frequency EMF of own transmitting devices of systems of call of emergency operational services of automatic telephone station.

1 cl, 1 dwg

Description

The invention relates to electromagnetic tests for susceptibility to the electromagnetic field (EMF) of emergency vehicle call systems (ATS), in particular to the effects of their own electromagnetic interference generated by high-frequency electromagnetic field transmitting devices of emergency call systems of automatic telephone systems.

From the article “Tests of the GLONASS Era System for Immunity”, A.S. Podgorny, P.A. Nikolaev, Technologies, Measurements and Tests in the Field of Electromagnetic Compatibility: Proceedings of the III All-Russian NTK "Techno-EMC 2016". - M .: Griffin, 2016, pp. 139-141, there is a known method for testing automatic telephone exchange systems for susceptibility to electromagnetic fields, in which the tested automatic telephone exchange, equipped with an emergency call system, is located in a special area (zone) protected from external factors, mainly in anechoic chamber, and subjected to high-frequency electromagnetic fields with specified parameters created by external field-forming systems (antennas or strip systems).

The process of assessing the health of the emergency call system consists of checking the system initialization process when the ignition of the automatic telephone exchange is turned on in the presence of an external high-frequency electromagnetic field.

The disadvantage of this method is the impossibility of real-time evaluation of the operability of the audio channel of the communication of the driver / passenger of the PBX with the operator of the dispatch services when exposed to electromagnetic interference from high-frequency electromagnetic fields.

From GOST R 51318.25-2012 there is a known method for testing automatic telephone exchanges, incorporating antenna-feeder systems, to the level of electromagnetic interference induced in antenna-feeder systems, in which the tested automatic telephone exchange is located in a special area (zone), protected from external factors, mainly in anechoic chamber, disconnect the antenna-feeder systems from the PBX transceivers and connect them to the measuring receiver, and then turn on all electrical equipment in the normal mode and measure the levels of electromagnetic interference, nnyh operating electrical PBX antenna sections of said PBX system.

Assessing the compliance of antenna-feeder systems with the regulated requirements consists in comparing the measured, as a result of tests, values of the induced electromagnetic interference at the outputs of the antenna-feeder systems in a given frequency range with regulated levels.

Hereinafter, the applicant refers to the derivatives of the term “regulation” as any contextual parameters whose values are established by international and / or national standards, as well as technical specifications for the test object or technical specifications for tests.

The disadvantage of this method is that during the test, the antenna-feeder systems are disconnected from the receiving and transmitting devices of the telephone exchange and connected to the measuring receiver, as a result of which it is impossible to evaluate the performance of the acoustic channels of the transmitting and receiving devices of the telephone exchange when exposed to electromagnetic interference induced by the electrical equipment of the telephone exchange.

The prototype of the invention is adopted, known from UNECE Regulation No. 10, 2008, “Uniform provisions concerning the approval of vehicles with regard to electromagnetic compatibility” [Text] (Appendix 9, Revision 3), a method for testing susceptibility of vehicle systems / devices to EMF in which the test vehicle, equipped with emergency call systems / devices, is located in a special area (zone), protected from external factors, mainly in an anechoic chamber, and subjected to a high-frequency electromagnetic field with specified parameters created by external field-forming systems (antennas or strip systems).

The process of assessing the health of systems / devices for calling emergency services, in particular the audio communication channel of a driver / passenger of a telephone exchange with an operator of dispatch services, is carried out during or after exposure to an external electromagnetic field.

The disadvantage of this method is the impossibility of real-time evaluation of the operability of the audio channel of the communication between the driver / passenger of the PBX and the dispatcher of emergency services under the influence of electromagnetic interference generated by the high-frequency electromagnetic field of their own transmitting devices of the system / call devices of emergency telephone services of the PBX.

The objective of the invention is to provide a method for testing systems / devices for calling emergency telephone services of a telephone exchange for susceptibility to an electromagnetic field, which provides an assessment of the quality of the audio channel of communication between a driver / passenger of a telephone exchange and a dispatcher of emergency services when exposed to their own electromagnetic interference generated by high-frequency electromagnetic fields of transmitting devices of the emergency call system PBX services.

This problem is solved in a method of testing systems / devices for calling emergency telephone services of a telephone exchange for susceptibility to an electromagnetic field, in which a telephone exchange equipped with systems / devices for calling emergency services is located in a special area (zone) protected from external factors, mainly in an anechoic chamber .

This problem is solved by the fact that:

1. The zone protected from external factors is equipped in advance with a simulator (radio communicator) of the base station, configured to form, from the transmitting devices of the GSM standard a test system, an emitted GSM signal with a given variability of test conditions and a range of at least GSM signal power regulated by the range maximum regulated radiated power, as well as containing a radio channel of the GSM standard, providing a simulation of audio communication of the PBX driver / passenger with the supervisor operational services.

2 A GSM base station simulator is installed in a place where its location does not affect the picture of the distribution of the GSM field in the area of the tested PBX.

3. In the process of testing on the above-mentioned radio channel, the system being tested as part of the automatic telephone exchange (devices tested as part of the automatic telephone exchange) and the simulator (radio communicator) of the base station are connected when transmitting devices of the GSM standard of the tested system with a given, variability of test conditions and regulated range, power level, at least with the maximum regulated radiated power, and the exchange of information mediated by the audio channel of the driver / passenger PBX with the GSM base station between the system being tested as part of the ATC (devices tested as part of the ATC) and the base station simulator (radio communicator).

4. During the period of information exchange between the tested system / devices and the simulator, a subjective acoustic assessment or measurement and recording of the levels of useful and noise signals recorded in the acoustic channel of the tested system (test devices) for calling emergency services are performed. Where, the term “useful signal” means useful information transmitted from the simulator, which is unambiguously reproduced by the acoustic channel of the emergency call system / device; the term "noise signal" means electromagnetic interference induced by high-frequency electromagnetic fields of transmitting devices of the GSM standard of the emergency call system of automatic telephone exchanges.

5. The susceptibility of emergency call systems of automatic telephone exchanges to the effects of electromagnetic interference generated by high-frequency electromagnetic fields of their own transmitting devices is assessed by comparing the levels of useful and noise signals recorded in the acoustic channel of the emergency call system / device during information exchange between the system under test and the simulator .

6. A decision is made on the adequacy of the noise immunity of systems / devices for calling emergency telephone services of automatic telephone exchanges to the effects of electromagnetic interference generated by high-frequency electromagnetic fields of their own transmitting devices, from the condition that the acoustic signal channel of the emergency services call system has a regulated signal-to-noise ratio.

The invention is illustrated by the following drawing of FIG. 1, where are schematically shown:

1 - Zone / test (anechoic) chamber protected from external factors;

2 - tested ATS;

3 - a system / device for calling emergency telephone exchange of a telephone exchange, comprising a transmitting device, which provides regular communication with a GSM base station;

4 - a system / device containing an audio channel for communication of a driver / passenger of a telephone exchange with a dispatcher of emergency operational services;

5 - simulator (radio communicator) of the GSM base station;

6 - a receiving antenna of the GSM simulator standard (radio communicator);

7 - transmitting antenna of the GSM standard simulator (radio communicator);

8 - shielded room.

The invention can be implemented in a test chamber 1, mainly anechoic, comprising a receiving 6 and transmitting 7 GSM antennas connected to a simulator 5 (radio communicator) located in a shielded room 8 of a GSM base station, as well as installed in a test chamber on test period for a motor vehicle 2 containing a system / device 3 for calling emergency services, equipped (s), in turn, with a system / device 4 containing an audio communication channel for the driver / pa sazhira PBX manager of emergency services.

According to the invention, ATS 2 equipped with 3.4 emergency call systems / devices is installed in the test chamber 1 with a regulated distance relative to the receiving 6 and transmitting 7 antennas of the simulator 5 of a GSM base station.

After this, carry out preliminary preparation of systems / devices 3, 4 call emergency operational services of the ATS for testing, which consists in providing radio communication with simulator 5 of the base station of the GSM standard. During the entire time of communication over the GSM channel, data is exchanged between the simulator 5 of the base station and the audio channel 4 of the system / device for calling emergency telephone exchanges. In this case, as data participating in the exchange between the simulator and the audio channel of the system under test, signals containing uniquely identifiable audio information are used.

The claimed technical solution is based on the fact that the susceptibility (sufficient noise immunity) assessment of systems / devices 3, 4 of emergency telephone calls of automatic telephone exchanges is performed when they are affected by their own electromagnetic interference caused by high-frequency electromagnetic fields of their GSM transmitting devices, the power of which, preferably, varies from minimum to maximum values by forming the appropriate level of the GSM field created by the simulator 5 (radio communicator) of the GSM base station. With a strong GSM signal from simulator 5 of the base station, the transmitting devices of the emergency telephone system of the PBX reduce the level of the transmitted signal by reducing the input power to the antenna (s) of the PBX 2 (not shown). If the GSM signal from the base station simulator 5 is weak, the transmitting devices of the emergency telephone system of the PBX increase the level of the transmitted signal by increasing the input power to the antenna (s) of the PBX 2 (not shown).

Automatic telephone exchange emergency call systems / devices are considered to satisfy the requirements of noise immunity if, at the maximum level of the GSM signal transmitted by them, their own electromagnetic interference, having, respectively, the maximum level induced in the electrical circuits, does not affect the quality of the systems / devices of the driver’s audio communication channel / ATS passenger with the dispatcher of emergency operational services.

Tests, in their fullest extent, are carried out as follows:

1. Carry out and maintain, during the entire time of testing, radio communication between the simulator 5 of the base station of the GSM standard and devices 3, 4 of the emergency call system of the telephone exchange. Between the simulator 5 of the base station and the acoustic channel 4 of the GSM system call emergency operating services ATS exchange data containing uniquely identifiable audio information.

2. At the initial time of testing in the area of the PBX, using the simulator 5 of the base station, set the maximum level of the GSM field corresponding to the reliable reception of the radio signal and evaluate the audio channel 4 of the communication between the driver / passenger of the PBX and the dispatcher of emergency services.

3. Consistently reduce the level of the GSM field generated by the simulator 5 of the base station, until the loss of radio communication between the simulator 5 of the base station of the GSM standard and the system / devices 3, 4 of emergency telephone calls of automatic telephone exchanges, which corresponds to the conditions of uncertain reception of the radio signal. In the process of reducing the GSM level, the fields of the simulator 5 carry out a subjective acoustic assessment or, more preferably, measure the level of acoustic noise (noise) induced by high-frequency electromagnetic fields of GSM transmitting devices included in the system / devices for calling emergency telephone exchanges.

4. During, or after the end of the test, evaluate the signal-to-noise ratio and compare it with the regulated ratio.

5. Based on the test results, a conclusion is made about the noise immunity of systems / devices for calling emergency operational services of automatic telephone exchanges and, in case of non-compliance with the requirements, measures are taken to increase their noise immunity.

The guaranteed criterion for a positive conclusion is the absence of acoustic interference (noise) from induced electromagnetic interference under conditions of uncertain reception of the GSM radio signal, which corresponds to the case of maximum induced electromagnetic interference generated by high-frequency electromagnetic fields of GSM transmitting devices included in emergency call systems / devices ATS 2 that operate at maximum power.

The method of testing the systems / devices for calling emergency medical services of vehicles for susceptibility to the electromagnetic field proposed in the invention provides an assessment of the quality of the audio communication channel of the driver / passenger of the vehicle with the dispatcher of emergency services under the influence of electromagnetic interference generated by the high-frequency electromagnetic field of their own transmitting devices of the call systems / devices emergency operational services of automatic telephone exchanges and in case of non-compliance with the specified requirements, carry out their refinement with the purpose of increasing their noise immunity.

Claims (1)

A method of testing systems / devices for calling emergency services of vehicles for susceptibility to an electromagnetic field, in which a vehicle equipped with systems / devices for calling emergency services is located in a zone protected from external factors, characterized in that the zone protected from external factors is equipped in advance base station simulator, configured to form a test system of the emitted signal from the side of the GSM transmitting devices GSM la with a given variability of test conditions and a regulated range of power levels, as well as containing a radio channel of the GSM standard, which imitates the audio connection of the driver / passenger of the vehicle with the dispatcher of emergency operational services, the GSM base station simulator is installed in a place where its location does not affect the picture the distribution of the GSM field in the field of the tested vehicle, during the tests on the above-mentioned radio channel, the connection of the tested when the vehicle of the system / device and the base station simulator, when the GSM transmitting devices of the test system are operating with the given test conditions variability and a regulated range of power levels, an information channel is exchanged between the driver / passenger of the vehicle and the GSM base station GSM information between the test vehicle system / devices and simulator of the base station, during the period of time exchange of information between the tested s the system / devices and the simulator carry out a subjective acoustic assessment or measure and record the levels of useful and noise signals recorded in the acoustic channel of the tested systems / emergency call devices, where the term “useful signal” means useful information transmitted from the simulator that is unambiguously reproduced by the acoustic channel emergency call systems / devices; the term "noise signal" means electromagnetic interference induced by the high-frequency electromagnetic field of the transmitting devices of the GSM system standard / emergency vehicle call devices of the vehicle, an assessment of the susceptibility of the emergency call systems of the vehicle to the effects of electromagnetic interference generated by the high frequency electromagnetic field of their own transmitting devices, carried out by comparing the levels of the useful and noise signal c) registered in the acoustic channel of the emergency call systems / devices during the exchange of information between the tested system / devices and the simulator, the decision is made on the adequacy of the noise immunity of the vehicles / emergency call systems / vehicles against electromagnetic interference caused by the high-frequency electromagnetic field of their own transmitting devices produced from the condition of providing in the acoustic channel of the system / emergency call devices operational services of the regulated signal-to-noise ratio.

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