Electrical device for protecting an electrical power supply installation

1 . An electrical device for the protection of an electrical installation intended to be placed between an electrical power supply and an electrical load, the electrical power supply comprising positive and negative terminals, the device comprising: a power contactor comprising a first contact intended to be connected to the positive terminal of the electrical power supply and a second contact intended to be connected to the negative terminal of the electrical power supply; at least two Hall effect sensors configured to measure the electrical currents flowing between the electrical power supply and the power contactor; a pre-charging electrical circuit comprising input terminals intended to be placed between the electrical power supply and the power contactor and output terminals intended to be connected to the electrical load; a relay configured to connect or disconnect the pre-charging electrical circuit; a pyrotechnic electrical breaking device intended to be connected to the negative terminal of the electrical power supply and to the second contact of the power contactor, and a controller configured to receive the electrical currents measured by the Hall effect sensors and to trigger an opening or closing of the power contactor and of the relay. 2 . The electrical protection device as claimed in claim 1 , also comprising a fuse intended to be connected to the positive terminal of the electrical power supply and to the first contact of the power contactor. 3 . The electrical protection device as claimed in claim 1 , also comprising a magnetic probe, placed between the pyrotechnic electrical breaking device and the second contact of the power contactor, configured to detect a short-circuit and trigger the opening of the pyrotechnic electrical breaking device. 4 . A high-voltage DC power distribution board comprising the protection device as claimed in claim 1 and an electrical circuit for energizing an electrical load. 5 . A method for controlling the electrical protection device as claimed in claim 1 comprising: the closing of the relay to connect the pre-charging circuit to the electrical load; the closing of the power contactor; the opening of the relay to make an electrical current flow from the electrical power supply to the electrical load; and the measurement of an electrical current flowing through the protection device by the Hall effect sensors, the comparison of the measured electrical current to two predetermined thresholds and the opening of the power contactor if the measured current is between these two predetermined thresholds or the opening of the pyrotechnic electrical breaking device if the measured current is greater than the two predetermined thresholds. 6 . The control method as claimed in claim 5 , wherein the measurement of the electrical current flowing through the protection device is also performed by a magnetic probe. 7 . An aircraft comprising an electrical protection device as claimed in claim 1 or a high-voltage DC power distribution board comprising the electrical protection device and an electrical circuit for energizing an electrical load. 8 . An aircraft comprising an electrical protection device as claimed in claim 1 and a high-voltage DC power distribution board comprising the electrical protection device and an electrical circuit for energizing an electrical load.