Gate-blocking a DC/DC converter based upon output current of an AC reactor in a power conversion device

The invention claimed is: 1. A power conversion device provided between a DC power supply and an AC electric path and performing DC/AC power conversion in a state in which a DC voltage of the DC power supply is lower than a peak value of an AC voltage of the AC electric path, the power conversion device comprising: a DC/DC converter provided between the DC power supply and a DC bus; an intermediate capacitor connected to the DC bus and having such a small capacitance as not to smooth a pulsation that is included in a voltage of the DC bus and has a frequency twice as high as a frequency of the AC voltage; an inverter connected to the DC bus; a filter circuit provided between the inverter and the AC electric path and having an AC reactor and an AC-side capacitor; a current sensor configured to detect a current flowing through the AC reactor; and a control unit configured to perform control such that, for generating the AC voltage from the DC voltage, a period during which the DC/DC converter boosts the DC voltage and the inverter performs one of polarity non-inversion passing and polarity inversion passing, and a period during which the DC/DC converter is stopped and the inverter performs step-down operation and one of polarity non-inversion passing and polarity inversion passing, arise alternately in one AC cycle, wherein the control unit temporarily performs gate blocking for only the DC/DC converter, upon occurrence of a phenomenon in which, by start of power feeding to a load connected to the AC electric path, an absolute value of the current flowing through the AC reactor reaches a predetermined converter gate block threshold value lower than an instantaneous overcurrent protection threshold value. 2. The power conversion device according to claim 1 , wherein the control unit cancels the gate blocking, at next zero-crossing of a voltage outputted to the load, after the gate blocking is performed. 3. The power conversion device according to claim 2 , wherein the current sensor is provided between the load and the AC-side capacitor and connected in series to the load. 4. The power conversion device according to claim 2 , wherein the control unit repeatedly executes the gate blocking and the cancellation of the gate blocking until the phenomenon no longer occurs. 5. The power conversion device according to claim 4 , wherein the current sensor is provided between the load and the AC-side capacitor and connected in series to the load. 6. The power conversion device according to claim 1 , wherein the current sensor is provided between the load and the AC-side capacitor and connected in series to the load. 7. A control method for a power conversion device, the power conversion device being provided between a DC power supply and an AC electric path and performing DC/AC power conversion in a state in which a DC voltage of the DC power supply is lower than a peak value of an AC voltage of the AC electric path, the power conversion device including: a DC/DC converter provided between the DC power supply and a DC bus; an intermediate capacitor connected to the DC bus and having such a small capacitance as not to smooth a pulsation that is included in a voltage of the DC bus and has a frequency twice as high as a frequency of the AC voltage; an inverter connected to the DC bus; and a filter circuit provided between the inverter and the AC electric path and having an AC reactor and an AC-side capacitor, the control method comprising: performing control such that, for generating the AC voltage from the DC voltage, a period during which the DC/DC converter boosts the DC voltage and the inverter performs one of polarity non-inversion passing and polarity inversion passing, and a period during which the DC/DC converter is stopped and the inverter performs step-down operation and one of polarity non-inversion passing and polarity inversion passing, arise alternately in one AC cycle; and temporarily performing gate blocking for only the DC/DC converter, upon occurrence of a phenomenon in which, by start of power feeding to a load connected to the AC electric path, an absolute value of the current flowing through the AC reactor reaches a predetermined converter gate block threshold value lower than an instantaneous overcurrent protection threshold value. 8. A power conversion device provided between a DC power supply and an AC electric path and performing DC/AC power conversion in a state in which a DC voltage of the DC power supply is lower than a peak value of an AC voltage of the AC electric path, the power conversion device comprising: a DC/DC converter provided between the DC power supply and a DC bus; an intermediate capacitor connected to the DC bus and having such a small capacitance as not to smooth a pulsation that is included in a voltage of the DC bus and has a frequency twice as high as a frequency of the AC voltage; an inverter connected to the DC bus; a filter circuit provided between the inverter and the AC electric path and having an AC reactor and an AC-side capacitor; a current sensor configured to detect a current flowing through the AC reactor; and a control unit configured to perform control such that, for generating the AC voltage from the DC voltage, a period during which the DC/DC converter boosts the DC voltage and the inverter performs one of polarity non-inversion passing and polarity inversion passing, and a period during which the DC/DC converter is stopped and the inverter performs step-down operation and one of polarity non-inversion passing and polarity inversion passing, arise alternately in one AC cycle, wherein upon occurrence of a phenomenon in which, by start of power feeding to a load connected to the AC electric path, an absolute value of the current flowing through the AC reactor reaches a predetermined converter gate block threshold value lower than an instantaneous overcurrent protection threshold value, the control unit allows the inverter to perform switching operation without performing gate blocking for the inverter, and performs gate blocking for the DC/DC converter until next zero-crossing of a voltage outputted to the load.