Switch apparatus

What is claimed is: 1. A switch apparatus comprising: a power semiconductor element connected between a first terminal on a high potential side and a second terminal on a low potential side; a capacitor; a charging circuit that charges the capacitor for at least a portion of an interval during which the power semiconductor element is OFF; a discharging circuit that causes the capacitor to discharge, in response to the power semiconductor element becoming ON; and a cutoff circuit that sets the power semiconductor element to an OFF state, in response to a voltage of the capacitor becoming lower than a threshold voltage; and a latch that is reset by a trigger signal and set in response to a timer signal indicating that the voltage of the capacitor has become lower than the threshold voltage, wherein the cutoff circuit sets the power semiconductor element to an OFF state in response to the latch being set. 2. The switch apparatus according to claim 1 , wherein the charging circuit charges the capacitor with a voltage from the first terminal. 3. The switch apparatus according to claim 2 , wherein the charging circuit includes a clamping circuit connected in parallel with the capacitor between the first terminal and a reference potential, and the capacitor is charged with a voltage clamped by the clamping circuit. 4. The switch apparatus according to claim 3 , wherein the clamping circuit includes a Zener diode connected in parallel with the capacitor between the first terminal and the reference potential. 5. The switch apparatus according to claim 4 , wherein the charging circuit further includes a first resistor connected between the first terminal and a terminal on the first terminal side of the capacitor and clamping circuit. 6. The switch apparatus according to claim 2 , further comprising: a trigger circuit that outputs the trigger signal, when in response to a control signal for controlling the power semiconductor element, the trigger signal becoming a higher voltage than a reference voltage, wherein the charging circuit further includes a switch circuit that cuts off a connection between the first terminal and the capacitor, in response to the trigger signal. 7. The switch apparatus according to claim 1 , wherein the cutoff circuit pulls down a gate of the power semiconductor element, in response to the voltage of the capacitor becoming lower than the threshold voltage. 8. The switch apparatus according to claim 1 , wherein the switch apparatus is an ignitor that controls a current flowing through an ignition coil connected to the first terminal, in response to a control signal for controlling the power semiconductor element. 9. A switch apparatus comprising: a power semiconductor element connected between a first terminal on a high potential side and a second terminal on a low potential side; a capacitor; a charging circuit that charges the capacitor for at least a portion of an interval during which the power semiconductor element is OFF; a discharging circuit that causes the capacitor to discharge, in response to the power semiconductor element becoming ON; and a cutoff circuit that sets the power semiconductor element to an OFF state, in response to a voltage of the capacitor becoming lower than a threshold voltage; a trigger circuit that outputs a trigger signal, when in response to a control signal for controlling the power semiconductor element, the trigger signal becoming a higher voltage than a reference voltage; and a latch that is reset by the trigger signal and set in response to a timer signal indicating that the voltage of the capacitor has become lower than the threshold voltage, wherein the charging circuit further includes a switch circuit that cuts off a connection between the first terminal and the capacitor, in response to the trigger signal, the cutoff circuit sets the power semiconductor element to an OFF state in response to the latch being set, and the charging circuit charges the capacitor with a voltage from the first terminal. 10. The switch apparatus according to claim 9 , wherein the trigger circuit and the latch operate using the control signal as a power source. 11. A switch apparatus comprising: a power semiconductor element connected between a first terminal on a high potential side and a second terminal on a low potential side; a capacitor; a charging circuit that charges the capacitor for at least a portion of an interval during which the power semiconductor element is OFF; a discharging circuit that causes the capacitor to discharge, in response to the power semiconductor element becoming ON; and a cutoff circuit that sets the power semiconductor element to an OFF state, in response to a voltage of the capacitor becoming lower than a threshold voltage; and a latch that is reset by a trigger signal and set in response to a timer signal indicating that the voltage of the capacitor has become lower than the threshold voltage, wherein the cutoff circuit sets the power semiconductor element to an OFF state in response to the latch being set, and the trigger that generates the trigger signal and the latch, operate using a control signal for controlling the power semiconductor element as a power source. 12. The switch apparatus according to claim 11 , wherein the charging circuit charges the capacitor with a voltage from the first terminal. 13. The switch apparatus according to claim 12 , wherein the charging circuit includes a clamping circuit connected in parallel with the capacitor between the first terminal and a reference potential, and the capacitor is charged with a voltage clamped by the clamping circuit. 14. The switch apparatus according to claim 13 , wherein the clamping circuit includes a Zener diode connected in parallel with the capacitor between the first terminal and the reference potential. 15. The switch apparatus according to claim 14 , wherein the charging circuit further includes a first resistor connected between the first terminal and a terminal on the first terminal side of the capacitor and clamping circuit. 16. The switch apparatus according to claim 12 , further comprising: a trigger circuit that outputs the trigger signal, when in response to the control signal for controlling the power semiconductor element, the trigger signal becoming a higher voltage than a reference voltage, wherein the charging circuit further includes a switch circuit that cuts off a connection between the first terminal and the capacitor, in response to the trigger signal. 17. The switch apparatus according to claim 11 , wherein the cutoff circuit pulls down a gate of the power semiconductor element, in response to the voltage of the capacitor becoming lower than the threshold voltage. 18. The switch apparatus according to claim 11 , wherein the switch apparatus is an ignitor that controls a current flowing through an ignition coil connected to the first terminal, in response to the control signal for controlling the power semiconductor element.