Control device for switched reluctance motor

What is claimed is: 1. A control device for a switched reluctance motor, the control device comprising an electronic control unit configured to execute a voltage drop control in which a voltage dropped to be lower than a voltage applied in a case where the switched reluctance motor is driven in a high-load region is applied to the switched reluctance motor, in a case where the switched reluctance motor is driven in a low-load region, the low-load region being a lower load region than the high-load region, wherein the electronic control unit is further configured to turn on a first switch and turn off a second switch to control a voltage of a battery to a power supply state for supplying power to the switched reluctance motor; the electronic control unit is further configured to turn off the first switch and turn on the second switch to control the voltage of the battery to a non-power supply state in which the switched reluctance motor is not supplied with power; and the voltage is dropped based on a ratio of time in the power supply state and time in the non-power supply state. 2. The control device according to claim 1 , wherein the low-load region is a drive region in which at least one of a case where a rotational speed of the switched reluctance motor is lower than a predetermined rotational speed and a case where a torque of the switched reluctance motor is smaller than a predetermined torque is satisfied. 3. The control device according to claim 1 , wherein the electronic control unit is further configured to gradually drop a voltage applied to the switched reluctance motor as an operation point of the switched reluctance motor changes from an operation point on a relatively high-load side to an operation point on a relatively low-load side within the low-load region when the voltage drop control is executed. 4. The control device according to claim 1 , wherein the electronic control unit is further configured to execute the voltage drop control and control an excitation width of a current caused to flow to the switched reluctance motor to a predetermined width, in a case where the switched reluctance motor is driven in a region on a relatively high-load side within the low-load region, and wherein the electronic control unit is further configured to execute the voltage drop control and execute an excitation width expansion control in which the excitation width of the current caused to flow to the switched reluctance motor is expanded more than the predetermined width, in a case where the switched reluctance motor is driven in a region on a relatively low-load side within the low-load region. 5. The control device according to claim 4 , wherein the electronic control unit is further configured to gradually expand the excitation width of the current as the operation point of the switched reluctance motor changes to the relatively low-load side within the low-load region when the excitation width expansion control is executed. 6. The control device according to claim 1 , wherein the electronic control unit is further configured to execute control in a current waveform in which a value of a current flowing through the switched reluctance motor continues to decrease in a state where a positive voltage is applied to the switched reluctance motor when the voltage drop control is executed. 7. The control device according to claim 6 , wherein the current waveform in which the value of the current continues to decrease is a current waveform in which the value of the current decreases more slowly than a current waveform in a state where a voltage applied to the switched reluctance motor is set to 0 V or a current waveform in a state where a negative voltage is applied to the switched reluctance motor.