Thyristor circuit and thyristor protection method

The invention claimed is: 1. A thyristor circuit, comprising: at least one branch comprising at least one thyristor; a thyristor control circuit for selectively triggering the thyristor; and a current detector configured to detect a current value representative of an electrical current flowing through the thyristor and to input the detected current value into the thyristor control circuit, wherein the thyristor control circuit is configured to determine a fault condition in which the detected current value exceeds a predetermined current threshold based on a deteriorated blocking ability of the thyristor, and, dependent on the determination result, to trigger the thyristor into a conductive state. 2. The thyristor circuit according to claim 1 , wherein the deteriorated blocking ability of the thyristor is dependent on a junction temperature of the thyristor. 3. The thyristor circuit according to claim 1 , wherein triggering the thyristor into the conductive state comprises continuously triggering the thyristor into the conductive state. 4. The thyristor circuit according to claim 1 , wherein the predetermined current threshold is set based on a junction temperature characteristic of the thyristor. 5. The thyristor circuit according to claim 1 , further comprising a circuit breaker, wherein the thyristor control circuit is further configured, when it continuously triggers the thyristor, to control the circuit breaker to interrupt the electrical current. 6. The thyristor circuit according to claim 1 , wherein triggering the thyristor into the conductive state includes continuously triggering the thyristor for at least 50 ms. 7. The thyristor circuit according to claim 1 , wherein the thyristor circuit comprises a plurality of branches, each branch of the plurality of branches comprising at least one thyristor. 8. The thyristor circuit according to claim 7 , wherein the thyristor control circuit is further configured to determine the fault condition when, in at least one of the plurality of branches, the detected current value exceeds the predetermined current threshold. 9. The thyristor circuit according to claim 7 , wherein the thyristor control circuit is further configured to trigger the at least one thyristor of each branch into the conductive state dependent on the fault condition. 10. The thyristor circuit according to claim 1 , wherein the at least one branch comprises a stack of thyristors. 11. The thyristor circuit according to claim 10 , wherein the thyristor control circuit is further configured to trigger all thyristors of the stack in a respective branch into the conductive state dependent on the fault condition. 12. The thyristor circuit according to claim 10 , wherein the at least one branch comprises a plurality of branches, each branch of the plurality of branches comprising a stack of thyristors, and wherein the thyristor control circuit is further configured to trigger all thyristors of each stack in all branches into the conductive state dependent on the fault condition. 13. The thyristor circuit according to claim 1 , further comprising a network interface for connecting at least one of the thyristor control circuit and the current detector to a network, wherein the network interface is configured to transceive a digital signal between the thyristor control circuit and/or the current detector and the network, and wherein the digital signal includes an operational command. 14. A thyristor protection method for protecting a thyristor in at least one branch of a thyristor circuit, the method comprising: detecting a current value representative of an electrical current flowing through the thyristor; determining whether the current value exceeds a predetermined current threshold based on a blocking ability dependent on a junction temperature of the thyristor; and dependent on the determination result, triggering the thyristor into a conductive state. 15. The method of claim 14 , wherein triggering the thyristor into the conductive state comprises continuously triggering the thyristor into the conductive state. 16. The method of claim 15 , wherein the thyristor circuit further includes a circuit breaker, and wherein the method further comprises: controlling the circuit breaker to interrupt the electrical current while continuously triggering the thyristor into the conductive state. 17. The method of claim 15 , wherein continuously triggering the thyristor into the conductive state further comprises: continuously triggering the thyristor for at least 50 ms. 18. A method of protecting a thyristor in at least one branch of a thyristor circuit, the method comprising: detecting a current value representative of an electrical current flowing through the thyristor; determining, based on a deteriorated blocking ability of the thyristor, whether the detected current value exceeds a predetermined current threshold; and triggering the thyristor into a conductive state in response to determining that the detected current value exceeds the predetermined current threshold. 19. The method of claim 18 , wherein the deteriorated blocking ability of the thyristor is dependent on a junction temperature of the thyristor. 20. The method of claim 18 , wherein the thyristor circuit further includes a circuit breaker, and wherein the method further comprises: controlling the circuit breaker to interrupt the electrical current while continuously triggering the thyristor into the conductive state.