Motor drive device and motor system

What is claimed is: 1 . A motor drive device for driving a motor of multiple phases, the motor drive device comprising: an inverter unit which includes a plurality of high side transistors and low side transistors coupled to drive terminals of the multiple phases respectively, and applies drive voltages to the drive terminals, using a PWM (Pulse Width Modulation) signal; a back electromotive force voltage phase detection unit which detects each of back electromotive force voltage phases of the multiple phases; and a drive voltage phase generation unit which determines one of drive voltage phases in each of the multiple phases at the time of applying the drive voltages to the drive terminals so that each of drive current phases of the multiple phases has a phase variation opposite in direction and equal to each of relative phase variations of the back electromotive force voltage phases of the multiple phases. 2 . The motor drive device according to claim 1 , further comprising a phase error detection unit which determines, as a reference voltage phase, an average or representative phase of the back electromotive force voltage phases of the multiple phases detected by the back electromotive force voltage phase detection unit, and detects each of voltage phase error between each of the back electromotive force voltage phases of the multiple phases and the reference voltage phase, to each of the multiple phases. 3 . The motor drive device according to claim 2 , further comprising a drive current phase detection unit which detects a drive current phase of at least one of the multiple phases, and determines, as a reference current phase, an average or representative phase of the detected drive current phase, wherein the drive voltage phase generation unit comprises: a reference drive voltage phase generation unit which determines a reference drive voltage phase at the time of applying the drive voltage so that a phase difference between the reference voltage phase and the reference current phase is set to zero; and an interphase phase variation correction unit which corrects the reference drive voltage phase by reflecting one of the voltage phase errors in each of the multiple phases detected by the phase error detection unit, and thereby determines one of the drive voltage phases in each of the multiple phases at the time of applying the drive voltage. 4 . The motor drive device according to claim 3 , wherein the interphase phase variation correction unit comprises: a multiplier which multiplies one of the voltage phase errors in each of the multiple phases detected by the phase error detection unit by a gain parameter; and a plurality of adders which add multiplication results to each of the multiple phases calculated by the multiplier to the reference drive voltage phase, wherein the gain parameter is a coefficient indicating sensitivity of the drive voltage phase to a shift amount of the back electromotive force voltage phase, in a relational expression between the back electromotive force voltage phase and the drive voltage phase obtained in a state where the back electromotive force voltage phase is shifted and the drive current phase is shifted by the same amount as and in an opposite direction of the back electromotive force voltage phase with respect to a state where the back electromotive force voltage phase and the drive current phase match with each other. 5 . The motor drive device according to claim 3 , wherein the reference drive voltage phase generation unit comprises: a phase calculation unit which calculates the drive voltage phase for setting the phase difference between the reference voltage phase and the reference current phase to zero, based on a calculation expression using a current value of a drive current of the motor, an angular frequency of the motor, and a predetermined characteristic constant of the motor; and a phase correction unit which adds a correction value to the drive voltage phase calculated by the phase calculation unit, thereby generates the reference drive voltage phase, and updates magnitude of the correction value by feedback control so that the phase difference between the reference voltage phase and the reference current phase converges to zero. 6 . The motor drive device according to claim 2 , further comprising: a back electromotive force voltage amplitude detection unit which detects each of back electromotive force voltage amplitudes of the multiple phases; a drive current amplitude detection unit which detects each of drive current amplitudes of the multiple phases; and an interphase amplitude variation correction unit which determines one of drive voltage amplitudes in each of the multiple phases at the time of applying the drive voltages to the drive terminals so that each of the drive current amplitudes of the multiple phases has an amplitude variation that is a reciprocal of a relative amplitude variation to each of the back electromotive force voltage amplitudes of the multiple phases. 7 . The motor drive device according to claim 6 , further comprising a PLL control unit which generates a timing signal which periodically transitions, and controls the timing signal by a PLL (Phase Locked Loop) so that a phase difference between a phase of the timing signal and the reference voltage phase converges to zero, wherein the back electromotive force voltage phase detection unit detects a timing when a sampling voltage passes through a voltage zero-cross point, and thereby detects the back electromotive force voltage phase, while sampling a voltage at the drive terminal multiple times in a time series manner during a first period in a state where the drive terminal of a phase subjected to detection among the multiple phases is set to high impedance during the first period, wherein the back electromotive force voltage amplitude detection unit calculates a difference value based on sampling voltages for predetermined two times among sampling voltages for the multiple times acquired by the back electromotive force voltage phase detection unit, and detects the calculated difference value as the back electromotive force voltage amplitude, and wherein the first period is in a predetermined electrical-angle range on the basis of the timing signal by the PLL control unit. 8 . The motor drive device according to claim 6 , wherein the interphase amplitude variation correction unit comprises: an average value calculation unit which calculates an average value of the back electromotive force voltage amplitudes of the multiple phases detected by the back electromotive force voltage amplitude detection unit; and an amplitude ratio calculation unit which calculates “x/y” to each of the multiple phases and thereby determines one of the drive voltage amplitudes in each of the multiple phases, where ‘y’ denotes the back electromotive force voltage amplitude to each of the multiple phases and ‘x’ denotes the average value of the back electromotive force voltage amplitudes. 9 . A motor drive device for driving a motor of multiple phases provided outside, the motor drive device comprising: an inverter unit which includes a plurality of high side transistors and low side transistors coupled to drive terminals of the multiple phases respectively, and applies drive voltages to the drive terminals, using a PWM (Pulse Width Modulation) signal; a back electromotive force voltage amplitude detection unit which detects each of back electromotive force voltage amplitudes of the multiple phases; a drive current amplitude detection unit which detects each of drive current amplitudes of the multiple phases; and an interphase amplitude variation correction unit which determines one of dri