Short-circuit protection circuit for self-arc-extinguishing type semiconductor element

The invention claimed is: 1. A short-circuit protection circuit for a self-arc-extinguishing semiconductor element, the self-arc-extinguishing semiconductor element including a first main electrode, a second main electrode, and a control electrode, and is configured to be switched on to be conductive between the first main electrode and the second main electrode or switched off to be non-conductive between the first main electrode and the second main electrode, in response to a drive voltage supplied between the control electrode and the first main electrode, the short-circuit protection circuit comprising: a first protection circuit configured to be in an operating state that reduces a voltage between the control electrode and the first main electrode when overcurrent flowing between the first main electrode and the second main electrode is detected; and a second protection circuit including: a gate current detection circuit configured to detect current flowing in an interconnection adapted to supply the drive voltage; an operation determination circuit configured to determine, based on the detected current, whether the first protection circuit is in the operating state; and a gate block circuit configured to change, when the first protection circuit is in the operating state, the drive voltage to turn off the self-arc-extinguishing semiconductor element. 2. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 1 , wherein the drive voltage is supplied from a drive circuit connected through a control interconnection to the control electrode of the self-arc-extinguishing semiconductor element, the second protection circuit further includes a gate resistance element disposed on the control interconnection, and the operation determination circuit is configured to determine whether the first protection circuit is in an operating state, based on a voltage generated at the gate resistance element. 3. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 2 , wherein the operation determination circuit includes: a delay circuit configured to output a voltage which is changed with a delay relative to a change of the voltage generated at the gate resistance element; and a determination circuit configured to determine that the first protection circuit is in an operating state, when the voltage which is output from the delay circuit exceeds a threshold voltage. 4. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 3 , wherein the operation determination circuit further includes a voltage limitation circuit provided between the gate resistance element and the delay circuit and configured to limit a magnitude of a voltage which is input from the gate resistance element to the delay circuit. 5. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 3 , wherein the delay circuit is configured as an RC filter circuit including a resistance element and a capacitor, and the RC filter circuit is configured to have a smaller time constant when the capacitor is being discharged relative to a time constant when the capacitor is being charged. 6. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 3 , wherein the operation determination circuit further includes a voltage reduction circuit provided between the delay circuit and the determination circuit and configured to reduce a magnitude of a voltage which is input from the delay circuit to the determination circuit. 7. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 2 , wherein the drive circuit is configured to output the drive voltage for switching on the self-arc-extinguishing semiconductor element and output the drive voltage for switching off the self-arc-extinguishing semiconductor element, in response to an ON signal and an OFF signal, respectively, and the operation determination circuit includes: a determination circuit configured to determine that the first protection circuit is in an operating state, when the voltage generated at the gate resistance element exceeds a threshold voltage; and a mask circuit provided between the gate resistance element and the determination circuit, and configured to mask the voltage generated at the gate resistance element for preventing the voltage from being input to the determination circuit during a predetermined mask period from a time when an input to the drive circuit is switched from the OFF signal to the ON signal to an end of the mask period. 8. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 1 , wherein the drive voltage is supplied from a drive circuit connected through a control interconnection to the control electrode of the self-arc-extinguishing semiconductor element, the drive circuit includes: a first semiconductor switching element connected between a first power supply node and the control interconnection; and a second semiconductor switching element connected between a second power supply node and the control interconnection, the drive circuit is configured to output the drive voltage for turning on the self-arc-extinguishing semiconductor element, when the first semiconductor switching element is in an ON state, and output the drive voltage for turning off the self-arc-extinguishing semiconductor element, when the second semiconductor switching element is in an ON state, and the second protection circuit further includes a gate resistance element connected between the first power supply node and the control interconnection, and the operation determination circuit is configured to determine whether the first protection circuit is in an operating state, based on a voltage generated at the gate resistance element. 9. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 8 , wherein the operation determination circuit includes: a delay circuit configured to output a voltage which is changed with a delay relative to a change of the voltage generated at the gate resistance element; and a determination circuit configured to determine that the first protection circuit is in an operating state, when the voltage which is output from the delay circuit exceeds a threshold voltage. 10. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 9 , wherein the operation determination circuit further includes a voltage limitation circuit provided between the gate resistance element and the delay circuit and configured to limit a magnitude of a voltage which is input from the gate resistance element to the delay circuit. 11. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 9 , wherein the delay circuit is configured as an RC filter circuit including a resistance element and a capacitor, and the RC filter circuit is configured to have a smaller time constant when the capacitor is being discharged relative to a time constant when the capacitor is being charged. 12. The short-circuit protection circuit for a self-arc-extinguishing semiconductor element according to claim 9 , wherein the operation determination circuit further includes a voltage reduction circuit provided between the delay circuit and the determination circuit and configured to reduce a magnitude of a voltage which is input from the delay circuit to the