Electrical protection device, electrical installation and associated control method

1 . An electrical protection device, configured to be connected between a source and a load, the device comprising: a mechanical switch, configured to toggle between a closed configuration, wherein the mechanical switch conducts a current flowing between the source and the load, and an open configuration, wherein the mechanical switch does not conduct the current; a switching cell, connected in parallel with the mechanical switch, the switching cell comprising a plurality of switching modules, connected to each other, each switching module comprising: at least one semiconductor element; and a voltage limiting element, connected in parallel with each semiconductor element, each switching module having a limiting voltage, each switching module being configured to toggle between a conducting configuration, wherein the current flows through one or each of the semiconductor elements of the switching module, and a blocking configuration, wherein if the current flows through the switching module, the current flows through the voltage limiting element; a current sensor configured to measure a value of the current; a control unit comprising: a detection module configured to detect a short-circuit type electrical fault based on the value of the current measured by the current sensor; a mechanical switch control module, configured to command the mechanical switch to the open configuration when a short-circuit type electrical fault is detected; and a cell control module, configured to successively switch each switching module to the blocking configuration, one of the switching modules being commanded from the conducting configuration to the blocking configuration when a dielectric strength of the mechanical switch is greater than or equal to a sum of the limiting voltage of said switching module and the limiting voltages of the switching modules in the blocking configuration, wherein an input of the mechanical switch and an input of the switching cell are connected to each other by a non-switchable electrical connection and an output of the mechanical switch and an output of the switching cell are connected to each other by a non-switchable electrical connection. 2 . The device according to claim 1 wherein the switching modules are connected in series with each other. 3 . The device according to claim 2 wherein each switching module comprises two semiconductor elements that are unidirectional in current and connected to each other in anti-series, and for each semiconductor element, a diode is connected in anti-parallel with the semiconductor element. 4 . The device according to claim 2 wherein: the switching cell comprises two rectifying branches, the input and the output of the switching cell forming a midpoint of one of the rectifying branches respectively, each rectifying branch comprising two diodes arranged on either side of the midpoint, connected in anti-series with respect to each other; the switching modules are connected in parallel with the rectifying branches; and each switching module comprises a single semiconductor element connected in parallel with the voltage limiting element. 5 . The device according to claim 4 , comprising at least three switching modules. 6 . The device according to claim 1 , further comprising a disconnector, connected in series with the mechanical switch without being connected in parallel with the switching cell. 7 . The device according to claim 1 , wherein a tripping time between the detection of the short-circuit type electrical fault by the detection module and a transition of all switching modules to the blocking configuration is less than 1 ms. 8 . The device according to claim 1 , wherein a tripping time between the detection of the short-circuit type electrical fault by the detection module and a transition of all switching modules to the blocking configuration is less than 400 μs. 9 . The device according to claim 1 , wherein a tripping time between the detection of the short-circuit type electrical fault by the detection module and a transition of all switching modules to the blocking configuration is less than 200 μs. 10 . An electrical installation comprising a source, a load connected to the source, and an electrical protection device according to claim 1 , connected between the source and the load, with a nominal voltage of the current flowing between the source and the load being less than 1500 V. 11 . A method for controlling an electrical protection device, the electrical protection device being according to claim 1 , the method comprising at least the following steps: measurement of the value of the current by the current sensor; detection of a short-circuit type electrical fault by the control unit, based on the value of the current measured by the current sensor; when a short-circuit type electrical fault is detected, commanding the mechanical switch to the open configuration by the mechanical switch control module; and successively commanding each switching module to the blocking configuration, one of the switching modules being commanded from the conducting configuration to the blocking configuration when a dielectric strength of the mechanical switch is greater than or equal to the sum of the limiting voltage of said switching module and the limiting voltages of the switching modules in the blocking configuration.