Circuit interruption device

The invention claimed is: 1. An extinguishing branch for an electrical circuit, the extinguishing branch comprising: a snubber circuit including an energy storage limb, wherein the energy storage limb includes first and second energy storage limb portions separated by a first junction to define a first voltage divider, and each energy storage limb portion includes at least one energy storage device; and an arrester limb connected across the energy storage limb, wherein the arrester limb includes first and second arrester limb portions separated by a second junction to define a second voltage divider, and each arrester limb portion includes at least one arrester element, wherein the first and second junctions are connected to define a voltage divider bridge, and the voltage divider bridge is electrically coupleable to the electrical circuit for providing, in use, a driving voltage to drive the electrical circuit, wherein a first voltage division ratio of the first voltage divider is equal to a ratio of an impedance of the first energy storage limb portion to a sum of impedances of the first and second energy storage limb portions, and a second voltage division ratio of the second voltage divider is equal to a ratio of an impedance of the first arrester limb portion to a sum of impedances of the first and second arrester limb portions, and wherein the first voltage division ratio is different in magnitude to the second voltage division ratio and/or wherein the impedance of the first energy storage limb portion is larger than the impedance of the second energy storage limb portion. 2. An extinguishing branch according to claim 1 wherein the second voltage division ratio is in the range of 1:100 to 1:50. 3. An extinguishing branch according to claim 2 wherein the second voltage division ratio is 1:70. 4. An extinguishing branch according to claim 1 wherein the snubber circuit further includes: a passive current check element connected in series with the energy storage limb; and a resistive element connected across the passive current check element. 5. A switching element comprising: an extinguishing branch according to any preceding claim; a switching branch including at least one semiconductor switch switchable to selectively allow current to flow in the switching branch or commutate current from the switching branch to the extinguishing branch in order to absorb and dissipate energy; and an auxiliary switching control unit to control the switching of the or each semiconductor switch, wherein the voltage divider bridge is electrically coupled to the auxiliary switching control unit so as to provide, in use, a driving voltage to drive the auxiliary switching control unit. 6. A switching element according to claim 5 wherein the switching branch includes a plurality of semiconductor switches, and the auxiliary switching control unit controls the switching of the plurality of semiconductor switches to selectively turn on the plurality of semiconductor switches either all simultaneously or one at a time. 7. A switching element according to claim 6 further including at least one current sensor to measure a current flowing through each semiconductor switch. 8. A circuit interruption device comprising: a main branch; an auxiliary branch; and first and second terminals for connection, in use, to an electrical network, wherein the main and auxiliary branches extend between the first and second terminals, wherein the main branch includes a switching apparatus switchable to selectively allow current to flow in the main branch in a first mode of operation or commutate current from the main branch to the auxiliary branch in a second mode of operation, and the auxiliary branch includes at least one switching element according to claim 5 , wherein the switching branch of the or each switching element includes at least one semiconductor switch switchable to selectively allow current to flow in that switching branch in the second mode of operation or commutate current from that switching branch to the corresponding extinguishing branch in order to absorb and dissipate energy in the second mode of operation. 9. A circuit interruption device according to claim 8 further including a plurality of passive current check elements connected in parallel with the auxiliary branch to define a full-bridge arrangement between the first and second terminals. 10. A circuit interruption device according to claim 8 or further including a main switching control unit to control the switching of the switching apparatus, wherein the main and auxiliary switching control units respectively control the switching of the switching apparatus and the or each semiconductor switch to selectively perform a status check procedure in which the main switching control unit switches the switching apparatus to commutate current from the main branch to the auxiliary branch, followed by the or each auxiliary switching control unit turning on the or each semiconductor switch of the auxiliary branch to determine whether that semiconductor switch is operational. 11. A circuit interruption device according to claim 10 wherein the auxiliary branch includes a plurality of switching elements and/or at least one switching element with a switching branch that includes a plurality of semiconductor switches, and the or each auxiliary switching control unit controls the switching of the or each corresponding semiconductor switch to selectively turn on the plurality of semiconductor switches of the auxiliary branch either all simultaneously or one at a time. 12. A circuit interruption device according to claim 10 or wherein the main and auxiliary switching control units respectively control the switching of the switching apparatus and the or each semiconductor switch to selectively repeat the status check procedure at a predetermined interval of time. 13. A circuit interruption device according to claim 12 wherein the predetermined interval of time is less than a hold-up time of the first energy storage limb portion of the corresponding first voltage divider.