Motor control apparatus and method for controlling motor

What is claimed as new and desired to be secured by Letters Patent of the United States is: 1. A motor control apparatus comprising: a voltage regulator configured to execute a voltage increase mode to increase a voltage applied to an induction motor from a lower limit of a first predetermined range over time; a frequency regulator configured to execute a frequency decrease mode to decrease a frequency of the applied voltage from an upper limit of a second predetermined range over time, the frequency regulator being configured to limit decrease of the frequency when a bus voltage of a bus exceeds a first threshold in the frequency decrease mode, the bus supplying DC power to an inverter to drive the induction motor; a mode changer configured to alternatively change the voltage increase mode and the frequency decrease mode so as to control the induction motor to change from a free running state to a state in which the applied voltage and the frequency satisfy a predetermined relationship; and a determinator configured to determine whether the applied voltage and the frequency satisfy the predetermined relationship, wherein the frequency regulator is configured to: gradually increase the frequency over time in response to a determination that the bus voltage exceeds the first threshold and an amount of change in the bus voltage per predetermined period of time is a positive value, or maintain the frequency at a constant value over time in response to a determination that the bus voltage exceeds the first threshold and an amount of change in the bus voltage per predetermined period of time is zero or a negative value. 2. The motor control apparatus according to claim 1 , wherein the frequency regulator is configured to increase the frequency when the bus voltage exceeds the first threshold and when an amount of change in the bus voltage per predetermined period of time is a positive value. 3. The motor control apparatus according to claim 1 , wherein the frequency regulator is configured to maintain the frequency when the bus voltage exceeds the first threshold and when an amount of change in the bus voltage per predetermined period of time is not a positive value. 4. The motor control apparatus according to claim 1 , wherein when the bus voltage becomes smaller than a second threshold smaller than the first threshold, the frequency regulator is configured to resume decreasing the frequency while making an amount of decrease of the frequency per predetermined period of time smaller than an amount of decrease of the frequency per predetermined period of time corresponding to time before the frequency regulator limited the decrease of the frequency. 5. A method for controlling a motor, the method comprising: alternatively changing a voltage increase mode executed by a voltage regulator and a frequency decrease mode executed by a frequency regulator, the voltage increase mode being for increasing a voltage applied to an induction motor from a lower limit of a predetermined range over time, the frequency decrease mode being for decreasing a frequency of the applied voltage from an upper limit of a predetermined range over time; limiting decrease of the frequency so as to control the induction motor to change from a free running state to a state in which the applied voltage and the frequency satisfy a predetermined relationship when a bus voltage of a bus exceeds a first threshold in the frequency decrease mode, the bus supplying DC power to an inverter to drive the induction motor; maintaining or increasing the frequency over time when the bus voltage exceeds the first threshold by: gradually increasing the frequency over time with the frequency regulator in response to a determination that the bus voltage exceeds the first threshold and an amount of change in the bus voltage per predetermined period of time is a positive value, or maintaining the frequency at a constant value over time with the frequency regulator in response to a determination that the bus voltage exceeds the first threshold and an amount of change in the bus voltage per predetermined period of time is zero or a negative value; and determining whether the applied voltage and the frequency satisfy the predetermined relationship. 6. A motor control apparatus comprising: a voltage regulator configured to execute a voltage increase mode to increase a voltage applied to an induction motor from a lower limit of a first predetermined range over time; frequency regulating means for executing a frequency decrease mode to decrease a frequency of the applied voltage from an upper limit of a second predetermined range over time, the frequency regulating means being for limiting decrease of the frequency when a bus voltage of a bus exceeds a first threshold in the frequency decrease mode, the bus supplying DC power to an inverter to drive the induction motor; a mode changer configured to alternatively change the voltage increase mode and the frequency decrease mode so as to control the induction motor to change from a free running state to a state in which the applied voltage and the frequency satisfy a predetermined relationship; and determining means for determining whether the applied voltage and the frequency satisfy the predetermined relationship, the frequency regulating means being for: gradually increasing the frequency over time in response to a determination that the bus voltage exceeds the first threshold and an amount of change in the bus voltage per predetermined period of time is a positive value, or maintaining the frequency at a constant value over time in response to a determination that the bus voltage exceeds the first threshold and an amount of change in the bus voltage per predetermined period of time is zero or a negative value. 7. The motor control apparatus according to claim 1 , wherein the determinator determines whether the applied voltage and the frequency satisfy the predetermined relationship by comparing relative magnitudes of the applied voltage and the frequency. 8. The motor control apparatus according to claim 1 , wherein the voltage regulator increases the voltage applied to the induction motor while the frequency of the applied voltage is held constant. 9. The motor control apparatus according to claim 1 , wherein the frequency regulator decreases the frequency of the applied voltage while the voltage applied to the induction motor is held constant. 10. The method for controlling a motor according to claim 5 , wherein the determining whether the applied voltage and the frequency satisfy the predetermined relationship is performed by comparing relative magnitudes of the applied voltage and the frequency. 11. The method for controlling a motor according to claim 5 , wherein the executing the voltage increase mode increases the voltage applied to the induction motor while the frequency of the applied voltage is held constant. 12. The method for controlling a motor according to claim 5 , wherein the executing the frequency decrease mode decreases the frequency of the applied voltage while the voltage applied to the induction motor is held constant. 13. The motor control apparatus according to claim 6 , wherein the determinator determines whether the applied voltage and the frequency satisfy the predetermined relationship by comparing relative magnitudes of the applied voltage and the frequency. 14. The motor control apparatus according to claim 6 , wherein the voltage regulator increases the voltage applied to the induction motor while the frequency of the applied voltage is held constant. 15. The motor control apparatus a