Motor drive device

The invention claimed is: 1. A motor drive device comprising: a multiplex winding motor having an armature iron core wound with armature windings including a plurality of winding sets each of which includes windings for a plurality of phases; voltage application means for applying voltages to the plurality of winding sets; and control means for calculating a voltage command for the plurality of winding sets and controlling the voltage application means based on the voltage command, wherein the control means controls the voltage application means so that induced voltages generated in the plurality of winding sets by rotation of the multiplex winding motor each have a trapezoidal waveform, and a phase difference between the voltages for the plurality of winding sets becomes a value that reduces torque ripple caused by the induced voltages. 2. The motor drive device according to claim 1 , wherein the phase difference has a value obtained by dividing 60 degrees by a divisor of the number of the winding sets excluding 1. 3. The motor drive device according to claim 2 , wherein, in a case where the number of the winding sets is four, the phase difference is 15 degrees for each winding set or 30 degrees on a two-set basis. 4. The motor drive device according to claim 1 , wherein the multiplex winding motor has field poles having a plurality of permanent magnets fixed at a surface of a field pole iron core, and h 2 /h 1 is 0.65 to 1.0, where h 1 is a thickness at a center of each permanent magnet and h 2 is a thickness at an end of each permanent magnet. 5. The motor drive device according to claim 4 , wherein the field poles have, between the permanent magnets, protrusions that protrude from a surface at which the permanent magnets are fixed, in a direction from a center of the field pole iron core toward the armature iron core. 6. The motor drive device according to claim 1 , wherein the multiplex winding motor has field poles having a plurality of permanent magnets fixed at a surface of a field pole iron core, in the field poles, the plurality of permanent magnets are fixed by being inserted into magnetic holes provided inside the field pole iron core, and in a case where a distance from a center of the field pole iron core to a farthest point of the field pole iron core is Rc, an outer circumference of the field pole iron core has, in a most region thereof, approximately an arc shape with a radius Rm, and Rm/Rc is 0.5 to 1.0. 7. The motor drive device according to claim 1 , wherein the multiplex winding motor has field poles at a surface of a field pole iron core, the field poles have permanent magnet portions as first field poles and salient pole portions as second field poles having a polarity opposite to that of the first field poles, the first field poles and the second field poles are respectively arranged at regular intervals in a circumferential direction of the field pole iron core, and in a case where an angle occupied in the circumferential direction of the field pole iron core by a pair of N pole and S pole of the field poles is defined as an electric angle of 360 degrees, a coil pitch of the windings is 180 degrees. 8. The motor drive device according to claim 1 , wherein the induced voltages each have a waveform containing, on a fundamental wave component thereof, a fifth-order harmonic component having a frequency component five times as high as that of the fundamental wave component of the induced voltage, and a seventh-order harmonic component having a frequency component seven times as high as that of the fundamental wave component of the induced voltage, at least one of the fifth-order harmonic component and the seventh-order harmonic component being superimposed so as to satisfy a predetermined phase difference condition and a predetermined amplitude condition that allow a peak of the fundamental wave component of the induced voltage to be higher than a peak of the induced voltage. 9. The motor drive device according to claim 8 , wherein, in a case where one cycle of a harmonic component is defined as 360 degrees, the fifth-order harmonic component has a phase difference by 150 degrees to 210 degrees with respect to the fundamental wave component of the induced voltage, and a ratio of an amplitude of the fifth-order harmonic component to an amplitude of the fundamental wave component of the induced voltage is 2 to 12%. 10. The motor drive device according to claim 8 , wherein, in a case where one cycle of a harmonic component is defined as 360 degrees, the fifth-order harmonic component and the seventh-order harmonic component each have a phase difference by 120 degrees to 240 degrees with respect to the fundamental wave component of the induced voltage, and a ratio of a sum of amplitudes of the fifth-order harmonic component and the seventh-order harmonic component to an amplitude of the fundamental wave component of the induced voltage is 2% to 36%. 11. The motor drive device according to claim 1 , wherein the control means calculates a current command indicating a value of current to flow in the armature windings, based on desired torque, and has a control loop for calculating the voltage command based on the current command, with a band of control response in the control loop set to be lower than 1200 Hz. 12. The motor drive device according to claim 1 , wherein the phase difference has a value that reduces torque ripple caused by the induced voltages and torque ripple caused by voltage or current having a trapezoidal waveform applied based on the voltage command. 13. The motor drive device according to claim 12 , wherein the voltage command or the current having the trapezoidal waveform is generated by at least one of a fifth-order harmonic component and a seventh-order harmonic component being superimposed on a fundamental wave component having a sine waveform. 14. The motor drive device according to claim 13 , wherein the control means calculates the voltage command in a rotational coordinate system, and the voltage command is generated by a sixth-order harmonic component being superimposed on the fundamental wave component having the sine waveform. 15. The motor drive device according to claim 13 , wherein the control means calculates the voltage command based on a current command in a rotational coordinate system, and the current command is generated by a sixth-order harmonic component being superimposed on the fundamental wave component having the sine waveform. 16. The motor drive device according to claim 13 , wherein resolution of the voltage command has a value that causes an amplitude of the fifth-order harmonic component or the seventh-order harmonic component to be divided into 40 to 400. 17. The motor drive device according to claim 13 , wherein resolution of the voltage command has a value that causes a sum of amplitudes of the fifth-order harmonic component and the seventh-order harmonic component to be divided into 80 to 800. 18. The motor drive device according to claim 13 , wherein resolution of the voltage command has a value that causes an output range of the fundamental wave component to be divided into 530 to 5300. 19. The motor drive device according to claim 1 , wherein the control means performs detection of current flowing in the armature windings, with a cycle of 350 μs or shorter. 20. The motor drive device according to claim 19 , wherein the control means performs the detection of current flowing in the armature windings, with a cycle of 140 μs or shorter.