RU2012107837A - METHOD FOR EVALUATING ELECTROMAGNETIC COMPATIBILITY OF ON-BOARD EQUIPMENT IN THE COMPOSITION OF THE AIRCRAFT IN THE RANGE OF FREQUENCIES FROM 10 kHz TO 400 MHz - Google Patents

Abstract

A method for assessing the electromagnetic compatibility (EMC) of on-board equipment in an aircraft in the frequency range from 10 kHz to 400 MHz, including the extreme values of the range, comprising sequentially turning on the radio transmitters of the on-board radio-electronic equipment to radiation, acting through the on-board transmitting antennas with radio interference on the tested on-board equipment (BO) ), evaluation of the operational efficiency of the BO before and after turning on the radio noise on board, characterized in that, in addition, after turning on the source of radiation the interference in the electrical circuit of the equipment under test sequentially measures the induced interference currents Im, for which an induction measuring current sensor is located at a distance of five centimeters from the input connector on the electrical circuit of the equipment under test, connected via a high-frequency cable to a spectrum analyzer that measures the level of interference voltage , and taking into account the transient impedance of the current sensor Z, the induced current level in the electric circuit is estimated according to the formula: Iom. = Uom.-Z, where Iom. - the level of the induced interference current in the electrical circuit, expressed in dB mA, Iom. [dB mA] = 201g Ip. [mA]; - the interference voltage level measured by the spectrum analyzer, expressed in dB Ohm, Up. [dB mV] = 201g Up. [mV]; Z is the transient impedance of the current sensor, expressed in dB Ohm, Z [dB OM] = 201g Z [OM]; compare Iom. at the operating frequency of the radio noise source with the maximum permissible current Idop., Idop. [dB mA] = 201g Idop. [mA]. corresponding to the level of tests for susceptibility to conduction interference, depending on a given category of the investigated BO before installation on the aircraft, while the category of

Claims (1)

A method for assessing the electromagnetic compatibility (EMC) of on-board equipment in an aircraft in the frequency range from 10 kHz to 400 MHz, including the extreme values of the range, comprising sequentially turning on the radio transmitters of the on-board radio-electronic equipment to radiation, acting through the on-board transmitting antennas with radio interference on the tested on-board equipment (BO) ), evaluation of the operational efficiency of the BO before and after turning on the radio noise on board, characterized in that, in addition, after turning on the source of radiation the interference in the electrical circuit of the equipment under test sequentially measures the induced interference currents Im, for which an induction measuring current sensor is located at a distance of five centimeters from the input connector on the electrical circuit of the equipment under test, connected via a high-frequency cable to a spectrum analyzer that measures the level of interference voltage , and taking into account the transient impedance of the current sensor Z, the induced current level in the electric circuit is estimated by the formula: Ipom. = Upom.-Z, where Ipom. - the level of the induced interference current in the electrical circuit, expressed in dB mA, Iom. [dB mA] = 201g Ip. [mA]; Uhhh. - the interference voltage level measured by the spectrum analyzer, expressed in dB Ohm, Up. [dB mV] = 201g Up. [mV]; Z is the transient impedance of the current sensor, expressed in dB Ohm, Z [dB OM] = 201g Z [OM]; compare Ipom. at the operating frequency of the radio noise source with the maximum permissible current Idop., Idop. [dB mA] = 201g Idop. [mA]. corresponding to the level of susceptibility tests to conductivity interference depending on the given category of the investigated BO before installation on the aircraft, the category of equipment is set before the installation of the BO on the aircraft in the technical task on the BO, and if the requirement for each measured electric circuit of the BO is satisfied by the following conditions: I add.-I room.> About and at the same time there is no violation of the operability of the equipment under test, then they conclude that the EMC is provided in the frequency range from 10 kHz to 400 MHz, and according to the results of current measurements in the electric circuits of the BO, the EMC safety factor is calculated by the formula: Δ [dB] = Idop.-Ipom., Where Δ is the EMC safety factor, expressed in decibels; according to the results of this assessment, they judge the need to develop additional measures to ensure EMC.