Conversion device for converting voltage in a non-insulated manner and method for controlling the same

The invention claimed is: 1. A conversion device which converts a DC voltage inputted from a DC power supply, to an AC voltage in a non-insulated manner and supplies the AC voltage to a load, the conversion device comprising: a filter circuit connected to the load and including an AC reactor and a first capacitor; a DC/AC conversion unit provided between the filter circuit and a DC bus; a second capacitor connected to the DC bus; a DC/DC conversion unit provided between the DC bus and the DC power supply and including a DC reactor; and a control unit configured to control the DC/AC conversion unit and the DC/DC conversion unit, wherein the control unit determines duties of control for the DC/AC conversion unit and the DC/DC conversion unit by considering electric influences of the filter circuit, the second capacitor, and the DC reactor for an output voltage command value for supplying the AC voltage to the load, controls the DC/DC conversion unit to convert the DC voltage into a DC bus voltage waveform alternately having a period of a pulsating current waveform corresponding to an absolute value of the AC voltage and a period of the DC voltage as a pulsating current minimum value, and controls the DC/AC conversion unit to perform step-down operation during the period of the DC voltage and thus perform conversion into a waveform of the absolute value of the AC voltage corresponding to the period of the DC voltage, and also to perform polarity inversion per one pulsating current cycle, wherein the control unit at least executes: a calculation for obtaining an AC reactor current command value on the basis of the output voltage command value by considering a current flowing through the first capacitor; a calculation for obtaining a voltage command value for the DC bus on the basis of the output voltage command value by considering a voltage change due to the AC reactor and a voltage change due to the DC reactor; a calculation for obtaining a reference wave threshold value for the DC/AC conversion unit on the basis of the AC reactor current command value; a calculation for obtaining a DC reactor current command value on the basis of a reactive power due to a current flowing through the second capacitor and a power of the DC/AC conversion unit; and a calculation for obtaining a reference wave threshold value for the DC/DC conversion unit on the basis of the DC reactor current command value. 2. A control method for a conversion device which converts a DC voltage inputted from a DC power supply, to an AC voltage in a non-insulated manner and supplies the AC voltage to a load, the conversion device including: a filter circuit connected to the load and including an AC reactor and a first capacitor; a DC/AC conversion unit provided between the filter circuit and a DC bus; a second capacitor connected to the DC bus; a DC/DC conversion unit provided between the DC bus and the DC power supply and including a DC reactor; and a control unit configured to control the DC/AC conversion unit and the DC/DC conversion unit, the control method being executed by the control unit and comprising: a calculation step of determining duties of control for the DC/AC conversion unit and the DC/DC conversion unit by considering electric influences of the filter circuit, the second capacitor, and the DC reactor for an output voltage command value for supplying the AC voltage to the load; a first conversion step of controlling the DC/DC conversion unit to convert the DC voltage into a DC bus voltage waveform alternately having a period of a pulsating current waveform corresponding to an absolute value of the AC voltage and a period of the DC voltage as a pulsating current minimum value; and a second conversion step of controlling the DC/AC conversion unit to perform step-down operation during the period of the DC voltage and thus perform conversion into a waveform of the absolute value of the AC voltage corresponding to the period of the DC voltage, and also to perform polarity inversion per one pulsating current cycle, wherein the calculating step includes: a calculation for obtaining an AC reactor current command value on the basis of the output voltage command value by considering a current flowing through the first capacitor; a calculation for obtaining a voltage command value for the DC bus on the basis of the output voltage command value by considering a voltage change due to the AC reactor and a voltage change due to the DC reactor; a calculation for obtaining a reference wave threshold value for the DC/AC conversion unit on the basis of the AC reactor current command value; a calculation for obtaining a DC reactor current command value on the basis of a reactive power due to a current flowing through the second capacitor and a power of the DC/AC conversion unit and a calculation for obtaining a reference wave threshold value for the DC/DC conversion unit on the basis of the DC reactor current command value.