Electric switching device and associated switching system and method

The invention claimed is: 1. An electrical protection device comprising an input, an output, a control module and a switching module capable of channelling an electric current between the input and the output, the switching module comprising a first electrical circuit connecting the input to the output, the control module being configured to detect an electrical fault and to generate a first switching signal in the event of a fault being detected, the first circuit comprising, connected in series between the input and the output, at least two head-to-tail normally-on JFET transistors and a switching member comprising a first terminal, a second terminal, a first actuator and a first contact, the first actuator being configured to move the first contact between a first position and a second position in response to the first switching signal, the first contact channelling the current between the first terminal and the second terminal when the first contact is in the first position, the first contact being spaced from at least one of the first and second terminals when the first contact is in the second position, the switching module being configured so that, upon a switchover of the first contact from the first to the second position when the current flows between the first terminal and the second terminal, an electric arc is formed between the first contact and the second terminal, and so that the appearance of the electric arc generates an electrical signal transmitted to at least one of the at least two head-to-tail normally-on JFET transistors, the electrical signal driving the switching of said at least one of the at least two head-to-tail normally-on JFET transistors, the electrical protection device being capable of operating without auxiliary electrical power supply, by drawing some of the electrical energy from the electric arc that appears across the terminals of the switching member, wherein each transistor of the at least two head-to-tail normally-on JFET transistors comprises a source, a drain and a gate, the electrical signal being a voltage between the gate and the source of each transistor of the at least two head-to-tail normally-on JFET transistors, the voltage being such that a conductive channel between the source and the drain of each transistor of the at least two head-to-tail normally-on JFET transistors is pinched under the effect of the voltage, wherein the source of each transistor of the at least two head-to-tail normally-on JFET transistors is connected to a respective terminal from among the first terminal and the second terminal, the switching module comprises, for each transistor of the at least two head-to-tail normally-on JFET transistors, a second electrical circuit configured to electrically connect the gate of a transistor of the at least two head-to-tail normally-on JFET transistors under consideration to another terminal from among the first and the second terminal of the switching member so as to generate a voltage between the gate and the source of the transistor of the at least two head-to-tail normally-on JFET transistors under consideration in the event of an electric arc, wherein each of the second electrical circuits comprises a first ohmic conductor and a diode having a cathode and an anode, the first ohmic conductor being connected in series between the cathode and the terminal to which each of the second electrical circuits is configured to connect the gate, the anode being connected to the gate of a corresponding transistor of the at least two head-to-tail normally-on JFET transistors, wherein each of the second electrical circuits furthermore comprises a Zener diode and a second ohmic conductor that are connected in parallel between the gate and the source of a corresponding transistor of the at least two head-to-tail normally-on JFET transistors, wherein in each of the second electrical circuits an anode of the Zener diode is connected to the gate of the corresponding transistor of the at least two head-to-tail normally-on JFET transistors. 2. The electrical protection device according to claim 1 , furthermore comprising a member able to be actuated by an operator, in particular a rotary lever, so as to command switching of the first contact between the first and the second position. 3. The electrical protection device according to claim 1 , wherein the first switching signal is an electrical signal. 4. The electrical protection device according to claim 1 , wherein the control module comprises a magnetothermal detection module configured to detect a fault and to command the generation of each switching signal in response to the detection. 5. The electrical protection device according to claim 1 , wherein the first circuit furthermore comprises a disconnector connected in series with the at least two head-to-tail normally-on JFET transistors and with the switching member, the disconnector comprising a third terminal, a fourth terminal, a second contact, a second actuator, the second contact being able to move between a third position and a fourth position, the second contact channelling the current between the third terminal and the fourth terminal when the second contact is in the third position, the second contact being spaced from at least one of the third and fourth terminals when the second contact is in the fourth position, the second actuator being configured to move the second contact between the third position and the fourth position in response to a second switching signal generated by the control module in the event of a fault being detected. 6. The electrical protection device according to claim 5 , comprising a member able to be actuated by an operator, in particular a rotary lever, so as to command switching of the second contact between the third position and the fourth position. 7. The electrical protection device according to claim 1 , wherein the electrical protection device is capable of drawing some of the electrical energy from the electric arc that appears across the terminals of the switching member to control the first electrical circuit and therefore switch the at least two head-to-tail normally-on JFET transistors. 8. A switching system configured to transmit a plurality of currents between respective inputs and outputs, to detect an electrical fault relating to at least one of the plurality of currents, and to interrupt at least the corresponding current in the event of an electrical fault being detected, comprising a plurality of electrical protection devices according to claim 1 . 9. A method for switching a switching an electrical protection device as recited in claim 1 , the method comprising, in the switching module: switching the first contact from the first to the second position when the current flows between the first terminal and the second terminal, the appearance of an electric arc between the first contact and the second terminal, generating, using the electric arc, an electrical signal that is transmitted to at least one of the at least two head-to-tail normally-on JFET transistors, and switching at least one of the at least two head-to-tail normally-on JFET transistors in response to the receipt of the electrical signal. 10. An electrical protection device comprising an input, an output, a control module and a switching module capable of channelling an electric current between the input and the output, the switching module comprising a first electrical circuit connecting the input to the output, the control module being configured to detect an electrical fault and to generate a first switching signal in the event of a fault being detected, the first circuit comprising, connected in series between the input and the output, at least two