Mechatronic circuit breaker device and associated tripping method and use thereof in interrupting a high direct current

The invention claimed is: 1. A mechatronic circuit-breaker device adapted to break an electrical current flowing through electrical power transmission means, the device comprising: a main branch comprising at least one main module comprising at least one sub-branch comprising at least one mechanical switch-disconnector connected in series with at least one breaker cell constituted of at least one power semiconductor element with controlled duty ratio; an auxiliary branch electrically in parallel with the main branch and comprising: at least one first sub-branch, called the timing sub-branch, and comprising at least one first breaker cell comprising a plurality of power thyristors in cascade, at least one of the timing sub-branches further comprising at least one first switching-assistance module with at least one first capacitor, electrically in parallel with its discharge resistance and a voltage surge limiter; and a second sub-branch, called the arming sub-branch, electrically in parallel with the timing sub-branch and comprising at least one second breaker cell constituted of a plurality of power thyristors in cascade and at least one second switching-aid module with at least one second capacitor electrically in parallel with its discharge resistor; and at least one main voltage surge limiter electrically in parallel with the main branch. 2. A mechatronic circuit-breaker according to claim 1 , wherein each sub-branch of a main module comprises at least one mechanical switch-disconnector connected in series between two breaker cells connected in anti-parallel with each other and using power semiconductors. 3. A mechatronic circuit-breaker according to claim 1 , further comprising a rate of voltage increase limiter electrically in parallel with each breaker cell of a main module, the rate of increase limiter being comprising a diode electrically in series with a capacitor itself electrically in parallel with its discharge resistor. 4. A mechatronic circuit-breaker according to claim 1 , further comprising a voltage surge limiter electrically in parallel with each breaker cell of a main module. 5. A mechatronic circuit-breaker according to claim 1 , wherein each breaker cell of a sub-branch of a main module comprises at least one power semiconductor element with a controlled rate of conduction and wherein each sub-branch of a main module comprises a diode connected in anti-parallel with a breaker cell. 6. A mechatronic circuit-breaker according to claim 1 , wherein the power semiconductor component with control duty ratios of a breaker cell of a main module is an insulated gate bipolar transistor (IGBT). 7. A mechatronic circuit-breaker according to claim 1 , wherein the controlled duty ratio power semiconductor element of a breaker cell of a sub-branch of a main module comprises at least one field-effect transistor and an insulated gate bipolar transistor (IGBT) connected electrically in series with the field-effect transistor by connecting the drain of the field-effect transistor to the emitter of the IGBT transistor, their gates G being connected to a control circuit ensuring switching behavior of the cascode circuit type. 8. A mechatronic circuit-breaker according to claim 1 , wherein the main branch comprises a plurality of main modules electrically in parallel with each other. 9. A mechatronic circuit-breaker according to claim 1 , wherein each main module includes a plurality of sub-branches electrically in parallel with each other. 10. A mechatronic circuit-breaker according to claim 1 , wherein the auxiliary branch comprises at least two timing sub-branches electrically in parallel with each other, the second timing sub-branch comprising at least one third breaker cell comprises a plurality of power thyristors in cascade and at least one third switching-aid module with at least one third capacitor, at least one third inductor, and at least one third resistor electrically in series with the third capacitor, itself electrically in parallel with its discharge resistor and a voltage surge limiter itself in series with a resistor. 11. A mechatronic circuit-breaker according to claim 1 , wherein each mechanical switch-disconnector of each sub-branch of each main module comprises two vacuum interrupters electrically in series. 12. A set of electrical switchgear intended to be installed in high-voltage alternating current or direct current electrical energy transmission means, comprising a mechatronic circuit-breaker according to any preceding claim and at least one electrical grounding switch connected in series with each of the two terminals of the mechatronic circuit-breaker. 13. A set of electrical switchgear according to claim 12 , comprising a bridging switch connected electrically in parallel to the terminals of the mechatronic circuit-breaker and adapted on command and for a particular time period to cause a transient current greater than the breaking capacity of the mechatronic circuit-breaker to flow from one terminal to the other of the circuit-breaker without passing therethrough. 14. A set of electrical switchgear according to claim 12 , comprising on either side of the terminals of the hybrid circuit-breaker a disconnector electrically in series with the mechatronic circuit-breaker and externally of the electrical connecting terminals of the grounding switches. 15. A set of electrical switchgear according to claim 14 , comprising, between an electrical connecting terminal of a grounding switch and a disconnector, a switch for inserting an electrical resistor in electrical series with said disconnector. 16. A set of electrical switchgear according to of claim 12 , comprising an additional circuit-breaker electrically in series with the mechatronic circuit-breaker device, the additional circuit-breaker being adapted to break low currents. 17. A set of electrical switchgear according to claim 16 , wherein the additional circuit-breaker is a metallic return transfer breaker (MRTB). 18. A set of electrical switchgear according to claim 16 , wherein the additional circuit-breaker is of the mechanical arc-extinction type. 19. A set of electrical switchgear according to claim 12 , wherein the switchgear and additional circuit-breaker are of modular design individually or in combination. 20. A method triggering a mechatronic circuit-breaker device according to claim 1 , wherein only in the presence of a steady current in the main branch, and in the absence of a specific instruction, each switch-disconnector is maintained in the closed position and the set or sets of controlled duty ratio power semiconductors in the ON state and the set of power thyristors of the auxiliary branch in the OFF state, and wherein either in the event of a current surge in the main branch of the device or on reception of a specific instruction, it comprises the following steps: a) switching from the ON state to an OFF state of the controlled duty ratio power semiconductor element or elements whilst maintaining each switch-disconnector closed so as to divert all of the current into the at least one timing sub-branch for a time period necessary for each mechanical switch-disconnector to open; b) synchronously with the step a), switching power thyristors of at least one timing sub-branch from the OFF state to an ON state to achieve a voltage level at the terminals of the main branch and of the auxiliary branch enabling current to flow neither in the main branch nor in the arming branch nor in the voltage surge limiter, to enable subsequent switching f