Apparatus for and method of enabling a two-stage inverter to switch between modes

What is claimed is: 1 . An apparatus for enabling a two-stage inverter to switch between modes, the apparatus comprising: a first inverter unit; a second inverter unit; a load connected between the first inverter unit and the second inverter unit; a mode switching unit connected between the load and the second inverter unit; and a control unit configured to drive the load in an one-stage inverter mode or a two-stage inverter mode by performing a control that turns on or off the mode switching unit. 2 . The apparatus of claim 1 , wherein the control unit is configured to: drive the load in the two-stage inverter mode by turning off the mode switching unit, and drive the load in the one-stage inverter mode by turning on the mode switching unit. 3 . The apparatus of claim 1 , wherein the mode switching unit includes three switches that are connected for phases U, V, and W, respectively, and wherein input terminals of the three switches are respectively connected to lines for phases U, V and W, and output terminals of the three switches are connected in a shared manner to each other. 4 . The apparatus of claim 1 , wherein switching elements that are used in the first inverter unit include a SiC MOSFET, and wherein switching elements that are used in the second inverter unit include a Si IGBT. 5 . The apparatus of claim 1 , wherein, when a current inverter driving mode is the one-stage inverter mode, a current temperature of a switching element is lower than a first reference temperature, and a modulation index is lower than a minimum value of a designated hysteresis loop, the control unit is configured to drive the two-stage inverter in the one-stage inverter mode, but using a space vector pulse width modulation (SVPWM). 6 . The apparatus of claim 1 , wherein, when a current inverter driving mode is the one-stage inverter mode, a current temperature of a switching element of the first inverter unit is lower than a first reference temperature , and a modulation index is higher than a minimum value of a designated hysteresis loop and is not lower than a maximum value of the designated hysteresis loop, the control unit is configured to drive the two-stage inverter in the two-stage inverter mode, but using a space vector pulse width modulation (SVPWM). 7 . The apparatus of claim 1 , wherein, when a current inverter driving mode is the one-stage inverter mode, a current temperature of a switching element of the first inverter unit is lower than a first reference temperature, and a modulation index is higher than a minimum value of a designated hysteresis loop and is lower than a maximum value of the designated hysteresis loop, the control unit does not change the current inverter driving mode. 8 . The apparatus of claim 1 , wherein, when a current inverter driving mode is not the one-stage inverter mode, and a current temperature of a switching element of the second inverter unit is not lower than a second reference temperature, the control unit is configured to drive the two-stage inverter in the two-stage inverter mode, but using a Discontinuous Pulse Width Modulation (DPWM). 9 . The apparatus of claim 1 , wherein, when a current inverter driving mode is not the one-stage inverter mode, a current temperature of a switching element of the second inverter unit is lower than a second reference temperature , and a modulation index is not lower than a maximum value of a designated hysteresis loop, the control unit is configured to drive the two-stage inverter in the two-stage inverter mode, but using a Space Vector Pulse Width Modulation (SVPWM). 10 . The apparatus of claim 1 , wherein, when a current inverter driving mode is not the one-stage inverter mode, a current temperature of a switching element of the second inverter unit is lower than a second reference temperature , a modulation index is lower than a maximum value of a designated hysteresis loop, and the modulation index is higher than a minimum value of the designated hysteresis loop and is not lower than the maximum value of the designated hysteresis loop, the control unit is configured to drive the two-stage inverter in the one-stage inverter mode, but using a Space Vector Pulse Width Modulation (SVPWM). 11 . The apparatus of claim 1 , wherein, when a current inverter driving mode is not the one-stage inverter mode, a current temperature of a switching element of the second inverter unit is lower than a second reference temperature, a modulation index is lower than a maximum value of a designated hysteresis loop, and the modulation index is higher than a minimum value of the designated hysteresis loop and is lower than the maximum value of the designated hysteresis loop, the control unit does not change the current inverter driving mode. 12 . A method of enabling a two-stage inverter to switch between modes, the method comprising: checking, by a controller of a two-stage inverter, whether or not a current inverter driving mode is an one-stage inverter mode; comparing, by the controller, a current temperature of a switching element of a first inverter unit with a first reference temperature; and driving, by the controller, the two-stage inverter in the one-stage inverter mode, but using a Discontinuous Pulse Width Modulation (DPWM) when the current temperature of the switching element of the first inverter unit is not lower than the first reference temperature. 13 . The method of claim 12 , the method further comprising: driving, by the controller, the two-stage inverter in the one-stage inverter mode, but using a Space Vector Pulse Width Modulation (SVPWM), when the current inverter driving mode is the one-stage inverter mode, the current temperature of the switching element of the first inverter unit is lower than the first reference temperature, and a modulation index is lower than a minimum value of a designated hysteresis loop. 14 . The method of claim 12 , the method further comprising: driving, by the controller, the two-stage inverter in a two-stage inverter mode, but using a Space Vector Pulse Width Modulation (SVPWM), when the current inverter driving mode is the one-stage inverter mode, the current temperature of the switching element of the first inverter unit is lower than the first reference temperature, and a modulation index is higher than a minimum value of a designated hysteresis loop and is not lower than a maximum value of the designated hysteresis loop. 15 . The method of claim 12 , the method further comprising: not changing, by the controller, the current inverter driving mode, when the current inverter driving mode is the one-stage inverter mode, the current temperature of the switching element of the first inverter unit is lower than the first reference temperature, and a modulation index is higher than a minimum value of a designated hysteresis loop and is lower than a maximum value of the designated hysteresis loop. 16 . The method of claim 12 , the method further comprising: driving, by the controller, the two-stage inverter in a two-stage inverter mode, but using the DPWM, when the current inverter driving mode is not the one-stage inverter mode, and a current temperature of a switching element of a second inverter unit is not lower than a second reference temperature. 17 . The method of claim 12 , the method further comprising: driving, by the controller, the two-stage inverter in a two-stage inverter mode, but using a Space Vector Pulse Width Modulation (SVPWM), when the current inverter driving mode is not the one-stage inverter mode, a current temperature o