Multi-phase motor control apparatus and electric power steering apparatus using the same

The invention claimed is: 1. A multi-phase motor control apparatus comprising: a driving section comprising pairs of upper-stage arm switching elements and lower-stage arm switching elements, and driving a multi-phase motor; a single type current detection circuit detecting current values of said multi-phase motor; a PWM-signal generating section generating plural first each-phase PWM-signals within two control periods based on said current values detected by said current detecting circuit and a carrier signal; a phase shift control section shifting a first PWM-signal of a predetermined phase, which is generated in said PWM-signal generating section, by gradually changing a phase shift amount within two control periods, and outputting said shifted first PWM-signal to said driving section; and a current detection observer estimating a current estimation value of said multi-phase motor based on said current values detected by said current detection circuit; wherein said PWM-signal generating section generates plural second each-phase PWM-signals within two control periods based on said current estimation value and said carrier signal; and wherein in a case that a phase shift amount of a predetermined phase in a just before control period is zero and a phase shift amount of a predetermined phase in a present control period is not zero, said phase shift control section gradually increases said phase shift amount from zero in said present control period and a next control period, and uses said second each-phase PWM-signals in said next control period. 2. The multi-phase motor control apparatus according to claim 1 , wherein said phase shift control section calculates a phase shift amount to a final shift position of said first PWM-signal, and shifts by “phase shift amount/n” as a shift number is n times. 3. The multi-phase motor control apparatus according to claim 2 , wherein with respect to said phase shift of said determined phase, shift times m (<n) are performed in said present control period and rest (n-m) times are performed in said next control period. 4. The multi-phase motor control apparatus according to claim 1 , wherein said current detection observer estimates a current value in said present control period based on a current value detected in a previous control period. 5. An electric power steering apparatus provided with said multi-phase motor control apparatus according to claim 1 . 6. A multi-phase motor control apparatus comprising: a driving section comprising pairs of upper-stage arm switching elements and lower-stage arm switching elements, and driving a multi-phase motor; a single type current detection circuit detecting current values of said multi-phase motor; a PWM-signal generating section generating plural first each-phase PWM-signals within two control periods based on said current values detected by said current detecting circuit and a carrier signal; a phase shift control section shifting a first PWM-signal of a predetermined phase, which is generated in said PWM-signal generating section, by gradually changing a phase shift amount within two control periods, and outputting said shifted first PWM-signal to said driving section; and a current detection observer estimating a current estimation value of said multi-phase motor based on said current values detected by said current detection circuit; wherein said PWM-signal generating section generates plural second each-phase PWM-signals within two control periods based on said current estimation value and said carrier signal; and wherein in a case that a phase shift amount of a predetermined phase in a just before control period is not zero and a phase shift amount of a predetermined phase in a present control period is zero, said phase shift control section gradually decreases said phase shift amount to zero in said present control period and a next control period, and uses said second each-phase PWM-signals in said next control period.