An inverter device includes a power supply unit and a switch controller. The power supply unit supplies AC power to an AC motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics. The switch controller switch
An inverter device includes a power supply unit and a switch controller. The power supply unit supplies AC power to an AC motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics. The switch controller switches the electric characteristics of the AC motor. The switch controller executes switching control that alternately switches the electric characteristics of the AC motor between the low speed characteristics and the high speed characteristics on the basis of the rotation speed of the AC motor.
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1. An inverter device comprising: a power supply unit that supplies alternating-current (AC) power to an AC motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics; anda switch controller that switches the e
1. An inverter device comprising: a power supply unit that supplies alternating-current (AC) power to an AC motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics; anda switch controller that switches the electric characteristics of the AC motor,wherein the switch controller executes switching control that alternately switches the electric characteristics of the AC motor between the low speed characteristics and the high speed characteristics on the basis of the rotation speed of the AC motor in a case where the rotation speed of the AC motor is greater than a first reference rotation speed and less than a second reference rotation speed which is greater than the first reference rotation speed,wherein the electric characteristics of the AC motor are switchable by switching a winding state between a low speed winding and a high speed winding, andwherein the switch controller executes the switching control by alternately switching the winding state of the AC motor between the low speed winding and the high speed winding. 2. The inverter device according to claim 1, wherein the switch controller executes the switching control at a time ratio in accordance with the rotation speed of the AC motor. 3. The inverter device according to claim 1, wherein, in the case of transition of the electric characteristics of the AC motor from one characteristic state of the low speed characteristics and the high speed characteristics to the other characteristic state, the switch controller executes switching control that alternately switches the electric characteristics of the AC motor between the one characteristic state and the other characteristic state while shortening a time of the one characteristic state. 4. The inverter device according to claim 1, wherein the electric characteristics of the AC motor are switchable by switching the number of poles, andwherein the switch controller executes switching control that alternately switches the number of poles of the AC motor between the number of poles for low speed and the number of poles for high speed on the basis of the rotation speed of the AC motor. 5. The inverter device according to claim 1, wherein the power supply unit includes a power converter including a switching element, anda phase-width modulation (PWM) signal generator that outputs a PWM signal on the basis of a comparison between a voltage command and a carrier wave and controls the switching element, andwherein the switch controller executes the switching control in synchronization with the carrier wave. 6. The inverter device according to claim 5, further comprising a command generator that generates the voltage command from a torque command on the basis of setting data including a motor constant and a control parameter, wherein the switch controller obtains the setting data in accordance with the switching control by using a table or an arithmetic operation, and outputs the setting data to the command generator. 7. The inverter device according to claim 1, wherein the power supply unit includes a power converter including a switching element, anda phase-width modulation (PWM) signal generator that outputs a PWM signal on the basis of a comparison between a voltage command and a carrier wave and controls the switching element, andwherein the switch controller executes the switching control out of synchronization with the carrier wave. 8. The inverter device according to claim 1, wherein the switch controller executes the switching control at a frequency higher than an output frequency of the power supply unit. 9. The inverter device according to claim 1, further comprising: a constant switch connected to the switch controller so as to select and output a setting data in response to a winding switching signal from the switch controller to switch the winding state of the AC motor,wherein the constant switch selects and outputs the setting data among a low speed setting data for the low speed characteristics, a high speed setting data for the high speed characteristics, and a medium speed setting data for the switching control in response to the winding switching signal, andwherein the AC power is made based on the setting data. 10. A motor drive system comprising: an alternating-current (AC) motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics;a power supply unit that supplies AC power to the AC motor; anda switch controller that switches the electric characteristics of the AC motor,wherein the switch controller executes switching control that alternately switches the electric characteristics of the AC motor between the low speed characteristics and the high speed characteristics on the basis of the rotation speed of the AC motor in a case where the rotation speed of the AC motor is greater than a first reference rotation speed and less than a second reference rotation speed which is greater than the first reference rotation speed,wherein the electric characteristics of the AC motor are switchable by switching a winding state between a low speed winding and a high speed winding, andwherein the switch controller executes the switching control by alternately switching the winding state of the AC motor between the low speed winding and the high speed winding. 11. The motor drive system according to claim 10, wherein the switch controller executes the switching control at a frequency higher than an output frequency of the power supply unit. 12. The motor drive system according to claim 10, further comprising: a constant switch connected to the switch controller so as to select and output a setting data in response to a winding switching signal from the switch controller to switch the winding state of the AC motor,wherein the constant switch selects and outputs the setting data among a low speed setting data for the low speed characteristics, a high speed setting data for the high speed characteristics, and a medium speed setting data for the switching control in response to the winding switching signal, andwherein the AC power is made based on the setting data. 13. An inverter device comprising: power supply means for supplying alternating-current (AC) power to an AC motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics; andswitch control means for switching the electric characteristics of the AC motor,wherein the switch control means executes switching control that alternately switches the electric characteristics of the AC motor between the low speed characteristics and the high speed characteristics on the basis of the rotation speed of the AC motor in a case where the rotation speed of the AC motor is greater than a first reference rotation speed and less than a second reference rotation speed which is greater than the first reference rotation speed,wherein the electric characteristics of the AC motor are switchable by switching a winding state between a low speed winding and a high speed winding, andwherein the switch control means executes the switching control by alternately switching the winding state of the AC motor between the low speed winding and the high speed winding. 14. The inverter device according to claim 13, wherein the switch control means executes the switching control at a time ratio in accordance with the rotation speed of the AC motor. 15. The inverter device according to claim 13, wherein, in the case of transition of the electric characteristics of the AC motor from one characteristic state of the low speed characteristics and the high speed characteristics to the other characteristic state, the switch control means executes switching control that alternately switches the electric characteristics of the AC motor between the one characteristic state and the other characteristic state while shortening a time of the one characteristic state. 16. The inverter device according to claim 13, wherein the electric characteristics of the AC motor are switchable by switching the number of poles, andwherein the switch control means executes switching control that alternately switches the number of poles of the AC motor between the number of poles for low speed and the number of poles for high speed on the basis of the rotation speed of the AC motor. 17. The inverter device according to claim 13, wherein the power supply means includes power converting means including a switching element, andphase-width modulation (PWM) signal generating means for outputting a PWM signal on the basis of a comparison between a voltage command and a carrier wave and controlling the switching element, andwherein the switch control means executes the switching control in synchronization with the carrier wave. 18. The inverter device according to claim 17, further comprising command generating means for generating the voltage command from a torque command on the basis of setting data including a motor constant and a control parameter, wherein the switch control means obtains the setting data in accordance with the switching control by using a table or an arithmetic operation, and outputs the setting data to the command generating means. 19. The inverter device according to claim 13, wherein the power supply means includes power converting means including a switching element, andphase-width modulation (PWM) signal generating means for outputting a PWM signal on the basis of a comparison between a voltage command and a carrier wave and controlling the switching element, andwherein the switch control means executes the switching control out of synchronization with the carrier wave. 20. The inverter device according to claim 13, wherein the switch control means executes the switching control at a frequency higher than an output frequency of the power supply means. 21. The inverter device according to claim 13, further comprising: constant switch means connected to the switch control means so as to select and output a setting data in response to a winding switching signal from the switch control means to switch the winding state of the AC motor,wherein the constant switch means selects and outputs the setting data among a low speed setting data for the low speed characteristics, a high speed setting data for the high speed characteristics, and a medium speed setting data for the switching control in response to the winding switching signal, andwherein the AC power is made based on the setting data.
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