Power conversion device

The invention claimed is: 1. A power conversion device comprising: a main circuit including: a rectifier circuit to rectify alternating current supplied from an AC power source; an inverter to drive a motor; a diode, a cathode of which is connected to a positive-side power supply path formed between the rectifier circuit and the inverter; a switching element that is connected between a negative-side power supply path formed between the rectifier circuit and the inverter and an anode of the diode; a first terminal that is provided on the positive-side power supply path; a second terminal that is provided on a portion of the positive-side power supply path closer to the rectifier circuit than the first terminal and is configured to be directly connected to or disconnected from the first terminal by closing or opening the portion of the positive-side power supply path between the second terminal and the first terminal, respectively; and a third terminal that is led from a connection point between the diode and the switching element, wherein a reactor is connected with the main circuit between the second terminal and the third terminal when the second terminal is disconnected from the first terminal, so that the diode, the switching element, and the reactor are electrically connected to form a boost chopper circuit that boosts DC power supplied to the inverter, and a resistor is connected with the main circuit between the first terminal and the third terminal when the second terminal is connected to the first terminal, so that the diode, the switching element, and the resistor are electrically connected to form a brake circuit that consumes regenerative power generated by the motor. 2. The power conversion device according to claim 1 , wherein the main circuit includes an inrush current prevention circuit that prevents inrush current from being supplied to a smoothing capacitor smoothing a DC voltage applied to the inverter. 3. The power conversion device according to claim 2 , wherein the inrush current prevention circuit of the main circuit is provided closer to the rectifier circuit than the second terminal of the positive-side power supply path. 4. The power conversion device according to claim 2 , wherein the inrush current prevention circuit of the main circuit is provided closer to the inverter than the first terminal of the positive-side power supply path. 5. The power conversion device according to claim 2 , wherein the inrush current prevention circuit of the main circuit is provided on the negative-side power supply path. 6. The power conversion device according to claim 1 , wherein at least one among the diode and the switching element is formed from a wide band gap semiconductor. 7. The power conversion device according to claim 6 , wherein the wide band gap semiconductor is silicon carbide, a gallium nitride-based material, or diamond. 8. A power conversion device comprising: a main circuit including: a rectifier circuit to rectify alternating current supplied by an AC power source, an inverter to drive a motor, a first diode and a second diode, cathodes of which are connected to a positive-side power supply path formed between the rectifier circuit and the inverter, a first switching element that is connected between a negative-side power supply path formed between the rectifier circuit and the inverter and an anode of the first diode, a second switching element that is connected between the negative-side power supply path formed between the rectifier circuit and the inverter and an anode of the second diode, a first terminal that is provided on the positive-side power supply path, a second terminal that is provided on a portion of the positive-side power supply path closer to the rectifier circuit than the first terminal and is disconnected from the first terminal, a third terminal that is led from a connection point between the first diode and the first switching element, and a fourth terminal that is led from a connection point between the second diode and the second switching element; a reactor connected with the main circuit between the second terminal and the third terminal; and a resistor that is connected with the main circuit between the first terminal and the fourth terminal and is connected in series with the second diode, wherein the first diode, the first switching element, and the reactor form a boost chopper circuit that boosts DC power supplied to the inverter, and the second diode, the second switching element, and the resistor form a brake circuit that consumes regenerative power generated by the motor. 9. The power conversion device according to claim 8 , wherein the main circuit includes an inrush current prevention circuit that prevents inrush current from being supplied to a smoothing capacitor smoothing a DC voltage applied to the inverter. 10. The power conversion device according to claim 9 , wherein the inrush current prevention circuit of the main circuit is provided closer to the rectifier circuit than the second terminal of the positive-side power supply path. 11. The power conversion device according to claim 9 , wherein the inrush current prevention circuit of the main circuit is provided closer to the inverter than the first terminal of the positive-side power supply path. 12. The power conversion device according to claim 9 , wherein the inrush current prevention circuit of the main circuit is provided on the negative-side power supply path. 13. The power conversion device according to claim 8 , wherein at least one among the diode and the switching element is formed from a wide band gap semiconductor. 14. A power conversion device comprising: a main circuit including: a rectifier circuit to rectify alternating current supplied from an AC power source; an inverter to drive a motor; a diode, an anode of which is connected to a negative-side power supply path formed between the rectifier circuit and the inverter; a switching element that is connected between a positive-side power supply path formed between the rectifier circuit and the inverter and a cathode of the diode; a first terminal that is provided on the negative-side power supply path; a second terminal that is provided on a portion of the negative-side power supply path closer to the rectifier circuit than the first terminal and is configured to be directly connected to or disconnected from the first terminal by closing or opening the portion of the negative-side power supply path between the second terminal and the first terminal, respectively; and a third terminal that is led from a connection point between the diode and the switching element, wherein a reactor is connected with the main circuit between the second terminal and the third terminal when the second terminal is disconnected from the first terminal, so that the diode, the switching element, and the reactor are electrically connected to form a boost chopper circuit that boosts DC power supplied to the inverter, and a resistor is connected with the main circuit between the first terminal and the third terminal when the second terminal is connected to the first terminal, so that the diode, the switching element, and the resistor are electrically connected to form a brake circuit that consumes regenerative power generated by the motor. 15. The power conversion device according to claim 14 , wherein the main circuit includes an inrush current prevention circuit that prevents inrush current from being supplied to a smoothing capacitor smoothing a DC voltage applied to the inverter. 16. The power conv