Analog timepiece and control method of analog timepiece

What is claimed is: 1. An analog timepiece which includes at least one indicating hand rotated by a unit step operation of a stepping motor, comprising: a rotor configured to rotate the at least one indicating hand, the rotor being configured to have opposite magnetic polarities; a stator configured to rotatably support the rotor and include more than one magnetic pole portion disposed around the rotor, wherein the more than one magnetic pole portion is arranged to provide the rotor with at least one stop position where potential energy is low; a coil configured to excite the more than one magnetic pole portion; and a control unit configured to control each unit step of the rotor by applying a series of consecutive electrical pulses to the coil, wherein the series of consecutive electrical pulses begins with a braking pulse applied to magnetize the more than one magnetic pole portion to hold the rotor at the at least one stop position, the braking pulse being immediately followed in the series of consecutive electrical pulses by at least one rotary pulse applied to magnetize the more than one magnetic pole portion to rotate the rotor to a next stop position. 2. The analog timepiece according to claim 1 , wherein the control unit is further configured to detect sufficiency of rotation of the rotor, wherein the control unit is configured to detect an inductive voltage induced in the coil by free vibrations of the rotor that take place when the rotor becomes stationary after application of the series of consecutive electrical pulses to the coil is lifted. 3. The analog timepiece according to claim 1 , wherein the more than one magnetic pole portion includes a first magnetic pole portion, a second magnetic pole portion, and a third magnetic pole portion arranged to surround the rotor, and wherein the coil includes a first coil that is magnetically coupled to the first magnetic pole portion and the third magnetic pole portion, and a second coil that is magnetically coupled to the second magnetic pole portion and the third magnetic pole portion. 4. The analog timepiece according to claim 3 , wherein the first magnetic pole portion and the second magnetic pole portion are positioned to face one of the opposite magnetic poles of the rotor, and the third magnetic pole portion is positioned to face the other of the opposite magnetic poles of the rotor when the rotor is placed at the at least one stop position, and wherein the braking pulse magnetizes the first magnetic pole portion and the second magnetic pole portion to a magnetic pole opposite to said one of the opposite magnetic poles of the rotor, and magnetizes the third magnetic pole portion to a magnetic pole opposite to the other of the opposite magnetic poles of the rotor, so that the braking pulse magnetizes the first, second and third magnetic pole portions to hold the rotor at the at least one stop position, and wherein the rotary pulse magnetizes one of the first magnetic pole portion and the second magnetic pole portion to the magnetic pole that repels said one of the opposite magnetic poles of the rotor to rotate the rotor. 5. The analog timepiece according to claim 2 , wherein in response to a detection of insufficient rotation of the rotor, the control unit is configured to apply a series of consecutive correction drive pulses to the coil to rotate the rotor further to the next stop position, wherein the series of consecutive correction drive pulses begins with a correction-purpose braking pulse to hold the rotation of the rotor, the correction-purpose braking pulse being followed in the series of consecutive correction drive pulses by at least one the correction-purpose rotary pulse applied to the coil to further rotate the rotor to the next stop position. 6. The analog timepiece according to claim 1 , wherein in a fast-forward mode, the control unit is programmed to a plurality of the series of consecutive electrical pulses to the coil to fast-forward the at least one indicting hand, wherein each of second and subsequent series of consecutive electrical pulses does not include the braking pulse and only include the at least one rotary pulse. 7. A method of controlling an analog timepiece that includes at least one indicating hand rotated by a unit step operation of a stepping motor, the analog timepiece including a rotor configured to rotate the at least one indicating hand, the rotor being configured to have opposite magnetic polarities, a stator configured to rotatably support the rotor and include more than one magnetic pole portion disposed around the rotor, wherein the more than one magnetic pole portion is arranged to provide the rotor with at least one stop position where potential energy is low, and a coil configured to excite the more than magnetic pole portion, the method comprising: controlling each unit step of the rotor by applying a series of consecutive electrical pulses to the coil, the series of consecutive electrical pulses begins with a braking pulse applied to magnetize the more than one magnetic pole portion to hold the rotor at the at least one stop position, the braking pulse being immediately followed in the series of consecutive electrical pulses by at least one rotary pulse applied to magnetize the more than one magnetic pole portion to rotate the rotor to a next stop position.