Motor and method for using and making the same

What is claimed is: 1 . A motor, comprising: a rotor including magnetic poles; and a stator comprising a stator core and a winding wound on the stator core, the stator core comprising a first stator portion, a second stator portion and a plurality of tooth bodies connected between the first and second stator portions, the first stator portion comprising first and second arcuate regions facing the rotor, wherein the second stator portion comprises a plurality of segments assembled together, each tooth body comprises a first end portion connected with a corresponding one of the segments of the second stator portion, and the segment of the second stator portion is asymmetrical relative to the tooth body, and wherein, when the winding is not energized, a first magnetic coupling between said first arcuate region and a selected magnetic pole of said rotor is greater than a second magnetic coupling between said second arcuate region and the selected magnetic pole, the magnetic pole being offset from a selected tooth body in such a way as to enable movement of said rotor to initiate in either of two opposite directions relative to said selected tooth body upon energizing the winding. 2 . The motor of claim 1 , wherein the first end portion of the tooth body is connected with one end of the corresponding segment of the second stator portion. 3 . The motor of claim 2 , wherein the first stator portion comprises a plurality of segments disconnected by slots, each tooth body further comprises a second end portion connected with a corresponding one of the segments of the first stator portion. 4 . The motor of claim 3 , wherein a circumferential width of the slot to the width of a minimum air gap formed between outer surfaces of the magnetic poles of the rotor and an inner surface of the first stator portion of the stator is less than four. 5 . The motor of claim 1 , wherein: the rotor defines a central axis; the first arcuate region has a first radius uniform about the central axis; and the second arcuate region has a second radius about the central axis greater than the first radius. 6 . The motor of claim 1 , wherein, when the winding is not energized, a middle radial line of the magnetic pole is angularly offset from a middle radial line of the selected tooth body by a start up angle ranging from 45 to 135 degrees electrical angle. 7 . The motor of claim 1 , wherein the second arcuate region defines a recess, and the size of an air gap formed between the second arcuate region and the edge region of the rotor is greater than the size of the air gap between the first arcuate region and the edge region of the rotor. 8 . The motor of claim 1 , wherein: the rotor defines a central axis; the first arcuate region has a first radius uniform about the central axis; and the second arcuate region has a second radius uniform about the central axis, the second radius being equal to the first radius. 9 . The motor of claim 8 , wherein the second arcuate region defines a hole covered by an inner surface of the second arcuate region. 10 . A method for manufacturing a stator of a motor comprising first and second stator portions arranged about a central axis and one or more tooth bodies, the one or more tooth bodies extending radially about the central axis and between the first and second stator portions, the method comprising: winding a winding around a tooth body, the tooth body including first and second end regions, at least one of the first and second end regions being connected with a first segment of a segmented stator portion, the segmented stator portion including at least one of the first and second stator portions; and assembling the first segment with a second segment of the segmented stator portion to form the stator. 11 . The method of claim 10 , wherein: said winding includes winding the winding around the tooth body having the first end region connected with a first segment of the first stator portion, and the second end region connected with a first segment of the second stator portion; and said assembling includes assembling the first segment of the second stator portion and a second segment of the second stator portion to form the second stator portion.