Abstract: The invention relates to a method for detecting and locating a fault by reflectometry in an electrical circuit, such a method comprising the steps of: —emitting a reflectometry signal in a line of the circuit to be studied; —acquiring an electrical variable of the reflected signal passing through the network; —filtering the acquired signal so as to eliminate signals having a frequency lower than a cutoff frequency, the cutoff frequency having a value between 100 kHz and 1 GHz; —analysing an acquired signal so as to detect a fault.
Type:
Grant
Filed:
March 16, 2020
Date of Patent:
February 27, 2024
Assignees:
SAFRAN ELECTRICAL & POWER, WIN MS
Inventors:
Emmanuel Bussy, Sylvain Poignant, Marc Olivas, Patrick Depras, Soumaya Sallem Andasmas
Abstract: A method uses at least: one line made up of at least two conductors insulated by a material whose insulation impedance depends locally on the temperature, the line running through the installation; a reflectometer periodically transmitting a reflectometry signal at one end of the line, the signal being propagated along the line, the reflectometer measuring the echoes received and comparing the amplitudes of the echoes with a given reference; a hot spot being detected when the amplitudes of a given number of successive echoes are greater than the given reference, the echoes being provoked by a local reduction of the value of the insulation impedance.
Type:
Grant
Filed:
October 15, 2015
Date of Patent:
July 23, 2019
Assignee:
WIN MS
Inventors:
Laurent Sommervogel, Marc Olivas, Arnaud Peltier
Abstract: A complete injection signal is provided having a digital spectrum formed from components weighted by a set of coefficients, in a preliminary step, the coefficients of the components included within a frequency band are attenuated resulting in an incomplete digital spectrum being obtained; in a next step, the analog signal composed from the incomplete digital spectrum is injected into the electrical line; in a next step, the echo corresponding to the injected signal is measured; in a next step, the digital spectrum of the echo is calculated; in a next step, the digital spectrum of the echo of the complete analog signal if the latter had been injected is estimated, the kth component of the estimated complete digital spectrum being equal to the kth component of the digital spectrum of the echo received multiplied by the ratio between the kth component of the digital spectrum of the complete injection signal over the kth component of the incomplete digital spectrum; in a next step, the measurement of the reflecto
Abstract: The device comprises at least a first part intended to detect an electrical fault occurring in a network and a second part comprising at least one switch connecting the network to a power supply source, the first part comprising at least one reflectometry detection system capable of being coupled with the network, the system detecting and analyzing the impedance changes occurring in the network, a signal being sent by the system to trigger the opening of the switch when a detected impedance change is considered by the system to be an electrical fault.