X-ray computed tomography apparatus and X-ray generation apparatus

What is claimed is: 1. An X-ray computed tomography apparatus comprising: an X-ray tube configured to generate X-rays; an inverter high voltage generator configured to generate a high voltage to be applied to the X-ray tube; an X-ray detector configured to detect X-rays generated by the X-ray tube; a supporting mechanism that supports the X-ray tube and the X-ray detector; and a reconstruction circuitry configured to reconstruct image data based on output data of the X-ray detector, wherein the inverter high voltage generator comprises: a DC power supply configured to generate a direct current; an inverter configured to convert the direct current from the DC power supply to an alternating current by switching; a high voltage converter configured to convert the alternating current from the inverter to a high voltage to be applied to the X-ray tube; a tube voltage detector configured to detect a measured tube voltage value; a discharge detector configured to detect an electrical discharge that has occurred in the X-ray tube; and a controller configured to control, upon detection of the electrical discharge, switching of the inverter to change a pulse width or a frequency of the alternating current from the inverter so as to gradually increase the measured tube voltage value of the X-ray tube up to a target tube voltage value. 2. The X-ray computed tomography apparatus according to claim 1 , wherein the controller performs feedback control so that the measured tube voltage value of the X-ray tube is immediately adjusted to be equal to the target tube voltage value, when no electrical discharge is detected. 3. The X-ray computed tomography apparatus according to claim 1 , wherein the inverter comprises a plurality of switches to convert the direct current from the DC power supply to the alternating current, and the controller changes a switching timing for each of the plurality of switches as time passes upon detection of the electrical discharge so that the measured tube voltage value of the X-ray tube gradually increases up to the target tube voltage value. 4. The X-ray computed tomography apparatus according to claim 1 , wherein the inverter comprises a plurality of switches to convert the direct current from the DC power supply to the alternating current, wherein the controller further comprises a determination circuitry configured to determine a tube voltage control level in accordance with a deviation between the measured tube voltage value and the target tube voltage value, and a switch driver configured to switch the plurality of switches individually in accordance with the tube voltage control level, wherein the inverter high voltage generator further comprises a gate circuitry configured to switch the switch driver between active and inactive, wherein the switch driver is connected to the gate circuitry that switches the switch driver between active and inactive, and wherein the gate circuitry continues activating the switch driver even if the electrical discharge is detected. 5. The X-ray computed tomography apparatus according to claim 1 , further comprising: a correction circuitry configured to correct output data in a discharge view section which includes a view in which the electrical discharge is detected, based on at least one of output data in a view section temporally preceding the discharge view section and output data in a view section temporally subsequent to the discharge view section. 6. The X-ray computed tomography apparatus according to claim 1 , wherein the reconstruction circuitry reconstructs the image data based on output data in a view section other than a discharge view section that includes a view in which the electrical discharge is detected. 7. The X-ray computed tomography apparatus according to claim 1 , wherein the controller changes an amount of time required for the measured tube voltage value to recover to the target tube voltage value after the electrical discharge is detected, in accordance with a scanning mode. 8. An X-ray generation apparatus, comprising: a DC power supply configured to generate a direct current; an inverter configured to convert the direct current to an alternating current by switching; a high voltage converter configured to convert the alternating current to a high voltage; an X-ray tube configured to generate X-rays by receiving the high voltage; a tube voltage detector configured to detect a measured tube voltage value; a discharge detector configured to detect an electrical discharge that has occurred in the X-ray tube; and a controller configured to control, upon detection of the electrical discharge, switching of the inverter to change a pulse width or a frequency of the alternating current from the inverter so as to gradually increase the measured tube voltage value of the X-ray tube up to a target tube voltage value.