SU1383234A1 - Method of testing electronic equipment for susceptibility to short-time impulse noise in power supply mains - Google Patents

Abstract

The invention can be used to test susceptibility of electronic equipment to - short-term impulse noise in a power network. The purpose of the invention is to increase the reliability of tests and reduce the time of tests. The product under test is connected to the power supply, after which the grid site, connected to the product under test, is disconnected from the rest of the network. And the disconnected part of the network should be as high as possible. The impulse noise simulator outputs are connected to all conductors of the network section near the disconnection point and near the ends of all branches of the network section. A series of pulsed voltages with alternating polarity is then produced and distinguished in phase. After that, the test product is turned on in the test control mode and at the same time the pulse repetition period is changed at least twice. with

Description

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The invention relates to a measurement technique and can be used to test electronic equipment for susceptibility to short-term pulse interference in a power supply network.

The aim of the invention is to increase the reliability of the tests by taking into account the effect of resonant effects in the supply circuit of the test object and reducing the time of the tests due to the possibility of simultaneous excitation of interference between all network conductors.

The method consists of the following sequence of operations.

The test product is connected to the mains directly at the site of its further operation. After that, the network section connected to the tested product is disconnected from the rest of the network, and the disconnected network section should be as high as possible. The impulse noise simulator outputs are connected to all conductors of the network section near the disconnection point and near the ends of all branches of the network section. Then, generate a jag with a help of an impedance noise simulator of a series of impulse voltages, with 11pulse voltages having alternating polarity and dissipating in phase. After that, the test product is turned on in the test control mode and at the same time the pulse period is changed at least twice.

At the same time, the detachable part of the network should be as large as possible. Networks that are connected to the network without taking into account high-frequency matching form a set of complexly connected resonant systems, the effect of which is possible only if the properties of the circuit adjacent to the tested product are most accurately preserved during time-testing. Additionally, when testing, it is possible to include a filter of the lower frequencies in the gap between the network section and the rest of the network in order to attenuate in the external network the impulse noise generated by the interference simulator. Connecting the outputs of the noise simulator, which has a pulse voltage with different phases, to all conductors of the account: the network is close to the disconnecting point W ;; and the connection to the filter, the bottom of the clock

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Claims (1)

The one and near the ends of the branches allows the creation of pulse voltages applied not only between the common bus and each of the conductors of the network section, but also between each pair of conductors, and at the same time. If the network section contains the resonant sections of the lines, they are excited by the corresponding impulse voltage. At a constant frequency of the exciting pulses, resonance phenomena in such sections of the lines may not be detected. Therefore, it is necessary to continuously vary the pulse frequency. The change in the frequency of the pulses is two times enough so that at least one harmonic component of the pulsed excitation effect is close to the arbitrary resonant frequency of the line segment and excites it. When the resonating sections of the network are excited, electrical oscillations propagate along the line sections and enter the device under test. If it operates in the test control mode and at the same time has noise immunity insufficient for arising interference, a failure will be registered. By setting a certain amplitude of exciting w-1 pulses and measuring the number of failures for a predetermined time, you can determine the degree of impulse noise immunity. if it is insufficient, take measures to improve it. Invention Formula The method of testing electronic equipment for susceptibility to short-term impulse noise in the power supply network, which consists in supplying a pulse voltage to the input — a part of the power supply network connected to the test object — reads the number of failures of the test object at a given level of pulse voltage amplitude by which is judged on the noise immunity of the control object, differing in that. what . In order to increase the reliability and shorten the test time, the pulse voltage is applied to the most distant terminals of the power supply section, the pulse voltage is two-polar, and the pulse voltage period during the test monitoring of the KOHTDOJTH object is monotonously changed at least twice.