Motor driving apparatus, motor control apparatus, conveyance apparatus and motor driving method

What is claimed is: 1. A motor driving apparatus for causing drive current to flow in first and second armature coils of two-phases, wound so as not to be coupled to each other, to rotate a rotator, comprising: a drive unit configured to give a first PWM pulse signal to each of both ends of the first armature coil, and give a second PWM pulse signal to each of both ends of the second armature coil, to cause the drive current to flow in the first and second armature coils, wherein the drive unit includes a first shift unit configured to, when a difference between pulse widths of the first PWM pulse signal given to one end of the first armature coil and of the first PWM pulse signal given to the other end is less than or equal to a first predetermined value, shift forward any one of pulses of the first PWM pulse signals given to the one end and the other end of the first armature coil, and a second shift unit configured to, in a case where the shift by the first shift unit is performed, when a difference between pulse widths of the second PWM pulse signal given to one end of the second armature coil and of the second PWM pulse signal given to the other end is less than or equal to a second predetermined value, shift backward any one of pulses of the second PWM pulse signals given to the one end and the other end of the second armature coil, along with the first shift unit. 2. A motor control apparatus comprising: the motor driving apparatus according to claim 1 ; and first and second H-bridge units coupled to the first and second armature coils, respectively, wherein the first and second H-bridge units include first and second electric current detectors configured to detect shunt electric current flowing in a ground side or power source side common bus, respectively. 3. The motor control apparatus according to claim 2 , wherein the first and second electric current detectors configured to sample the shunt electric current at a first timing in a section where logics of the first PWM pulse signals are different from each other, to detect a coil electric current of the first armature coil, and sample the shunt electric current at a second timing in a section where logics of the first PWM pulse signals are different from each other, to detect a coil electric current of the second armature coil. 4. The motor control apparatus according to claim 3 , wherein the first timing is a time of a changing point at which a duty of the first PWM pulse signal is 50% or a timing prior to the time of the changing point by a first predetermined time period, and the second timing is a timing at which a second predetermined time period has elapsed from a time of a changing point at which a duty of the second PWM pulse signal is 50%. 5. The motor control apparatus according to claim 2 , further comprising: an electric current control unit configured to control the pulse widths of the first and second PWM pulse signals so as to adjust a signal according to the coil electric currents detected by the first and second electric current detectors to a target value. 6. A conveyance apparatus comprising: first and second armature coils of two-phases, wound so as not to be coupled to each other; and a motor drive apparatus for causing drive current to flow in the first and second armature coils, to rotate a rotator, wherein the motor drive apparatus includes a drive unit configured to give a first PWM pulse signal to each of both ends of the first armature coil, and give a second PWM pulse signal to each of both ends of the second armature coil, to cause the drive current to flow in the first and second armature coils, wherein the drive unit includes a first shift unit configured to, when a difference between pulse widths of the first PWM pulse signal given to one end of the first armature coil and of the first PWM pulse signal given to the other end is less than or equal to a first predetermined value, shift forward any one of pulses of the first PWM pulse signals given to the one end and the other end of the first armature coil, and a second shift unit configured to, in a case where the shift by the first shift unit is performed, when a difference between pulse widths of the second PWM pulse signal given to one end of the second armature coil and of the second PWM pulse signal given to the other end is less than or equal to a second predetermined value, shift backward any one of pulses of the second PWM pulse signals given to the one end and the other end of the second armature coil, along with the first shift unit. 7. A motor driving method by a motor driving apparatus for causing drive current to flow in first and second armature coils of two-phases, wound so as not to be coupled to each other, to rotate a rotator, comprising: giving a first PWM pulse signal to each of both ends of the first armature coil, and a second PWM pulse signal to each of both ends of the second armature coil, to cause the drive current to flow in the first and second armature coils; shifting, when a difference between pulse widths of the first PWM pulse signal given to one end of the first armature coil and of the first PWM pulse signal given to the other end is less than or equal to a first predetermined value, forward any one of pulses of the first PWM pulse signals given to the one end and the other end of the first armature coil, and shifting, in a case where any one of pulses of the first PWM pulse signals is shifted, when a difference between pulse widths of the second PWM pulse signal given to one end of the second armature coil and of the second PWM pulse signal given to the other end is less than or equal to a second predetermined value, backward any one of pulses of the second PWM pulse signals given to the one end and the other end of the second armature coil, along with shifting any one of pulses of the first PWM pulse signals.