Method and Circuit for Detecting an Electric Arc in a Circuit, and Switching Device Using Such a Circuit

1 .- 7 . (canceled) 8 . A method for detecting an electrical arc in an electrical circuit supplied with alternating current according to a power supply period, comprising: measuring at least one input signal (S) from between a power supply current (I) and a power supply voltage (U) to the electrical circuit; supplying a warning signal (A 1 ) indicating that an electrical arc is occurring when the input signal (S) is constant over at least a part of the power supply period; digitally sampling the input signal (S) when it is measured according to predetermined levels; determining over a predetermined time window the frequency at which each level is reached by the input signal (S) to identify that the input signal (S) is constant; comparing the frequency of each level with a predetermined warning threshold; and, delivering the warning signal if the frequency of at least one of the levels is greater than the warning threshold. 9 . The method according to claim 8 , further comprising a frequency memory for storing the frequencies of the levels, the frequency memory comprising registers and a first address bus (Addr 1 ) receiving the sampled value of the input signal (S), addition means for incrementing by 1 one of the registers to which the value supplied on the first address bus (Addr 1 ) points, a first in-first out memory receiving the sampled value of the input signal (S) on an input and supplying a shifted value (D) on an output, a second address bus (Addr 2 ) of the frequency memory receiving the shifted value (D), and subtraction means for decrementing by 1 the register to which the shifted value on the second address bus (Addr 2 ) points, the addition, the subtraction and the shift in the first in-first out memory being carried out within the same cycle. 10 . The method according to claim 8 , further comprising: establishing other warning signals according to at least one of detection by spectral analysis, detection by interpolation filter, or time differentiation method; and combining the other warning signals to determine a turn-off command for the electrical circuit. 11 . The method according to claim 10 , wherein the input signal (S) includes the current signal (I), the determination of the turn-off command (C) taking into account an intensity of the current signal (I) during the warning period, a frequency of the warning signals (N), and an average duration (t arc ) of the warning signal. 12 . The method according to claim 11 , wherein a cut-out command is issued if a pair frequency (N) of the warning signals and average duration (t arc ) of the warning signals is above a first curve with a decreasing hyperbolic form, or if a pair warning current intensity and average duration is above a second curve with a decreasing hyperbolic form. 13 . A detection circuit for detecting the presence of an electrical arc in an electrical circuit powered with alternating current according to a power supply period, the detection circuit comprising: measurement means for establishing at least one input signal (S) from between a voltage signal (U) and a current signal (I) respectively representative of the voltage (U) and of the current intensity (I) supplying the electrical circuit, the detection circuit being configured for delivering a warning signal (A 1 ) indicating that an electrical arc is occurring when the input signal (S) is constant over at least a part of the power supply period, sampling means for digitally sampling the input signal (S) when it is measured according to predetermined levels; processing means for identifying that the input signal (S) is constant, determining the frequency at which each level is reached by the input signal (S) over a predetermined time window, comparing the frequency of each level with a predetermined warning threshold, and delivering the warning signal if the frequency of at least one of the levels is greater than the warning threshold. 14 . An electrical switching device comprising switching means for opening and closing an electrical circuit powered with alternating current according to a power supply period and a detection circuit for controlling the switching means, wherein the detection circuit comprises the detection circuit according to claim 13 .