Motor having non-circular stator

What is claimed is: 1 . A motor comprising: a rotor; and a stator, where the rotor is located at least partially in a rotor receiving area of the stator, where the stator comprises at least one coil winding and a stator member forming teeth, where the at least one coil winding is located on at least some of the teeth, where the teeth comprise a first set of the teeth and a second set of the teeth, where the teeth of the first set of teeth are longer in a radial direction from the rotor receiving area than the teeth of the second set of teeth, where at least some of the teeth taper in two orthogonal directions, where the stator member forms an outer perimeter wall at outer ends of the teeth and shoes at inner ends of the teeth, where top and bottom sides of the teeth are recessed relative to top and bottom sides of the outer perimeter wall and the shoes, where the top and bottom sides of the outer perimeter wall and the shoes have a substantially same height, where a top step is provided from respective top sides of the shoes down to the respective top sides of the teeth such that a top recess is provided on the teeth between an outward facing surface of a top wall of each shoe and an inward facing surface of a top portion of the outer perimeter wall, and where a bottom step is provided from the respective bottom sides of the teeth down to respective bottom sides of the shoes such that a bottom recess is provided on the teeth between an outward facing surface of a bottom wall of each shoe and an inward facing surface of a bottom portion of the outer perimeter wall. 2 . The motor as claimed in claim 1 where the outer perimeter wall has a shape as one of a substantial oval shape, a substantial triangle shape, a substantial square shape, a substantial rectangle shape or a substantial polygon shape. 3 . The motor as in claim 1 where the stator member comprises at least one component receiving area spaced from the rotor receiving area, where the at least one component receiving area is sized and shaped to have a component movably located therein. 4 . The motor as in claim 3 where the at least one component receiving area has a center axis which is parallel to a center axis of the rotor receiving area. 5 . The motor as in claim 4 where the at least one component receiving area has an open side at a lateral side of the perimeter wall of the stator member. 6 . The motor as in claim 4 where the at least one component receiving area is substantially closed except at top and bottom sides of the stator member. 7 . The motor as in claim 1 where the teeth extend radially inward towards the rotor receiving area, and where the teeth are not located on two opposite sides of the rotor receiving area along arcs of about 40-100 degrees. 8 . The motor as in claim 1 where the at least one coil winding is located on the first set of teeth and not located on the second set of teeth. 9 . The motor as in claim 1 where the at least one coil winding is located on the first and second sets of teeth, and where the at least one coil winding comprises more winding turns on the first set of teeth than the second set of teeth and/or where the at least one coil winding comprises thicker wire on the first set of teeth than the second set of teeth. 10 . The motor as in claim 1 where a gap is provided between the stator and the rotor at the rotor receiving area, where the gap has a shape which is not uniformly cylindrical. 11 . The motor as in claim 10 where the rotor comprises a first top side member and a second bottom side member, where the first top side member and the second bottom side member are separate members which have substantial cone shapes orientated in opposite directions. 12 . An apparatus comprising: the motor as claimed in claim 1 ; a drive shaft extending from the rotor; and a robot arm connected to the drive shaft. 13 . A method comprising: providing a rotor; and providing a stator, where the stator comprises at least one coil winding and a stator member forming teeth, where the at least one coil winding is located on at least some of the teeth, where the teeth comprise a first set of the teeth and a second set of the teeth, where the teeth of the first set of teeth are longer in a radial direction from a rotor receiving area of the stator than the teeth of the second set of teeth, where at least some of the teeth taper in two orthogonal directions, where the stator member forms an outer perimeter wall at outer ends of the teeth and shoes at inner ends of the teeth, where top and bottom sides of the teeth are recessed relative to top and bottom sides of the outer perimeter wall and the shoes, where the top and bottom sides of the outer perimeter wall and the shoes have a substantially same height, where a top step is provided from respective top sides of the shoes down to the respective top sides of the teeth such that a top recess is provided on the teeth between an outward facing surface of a top wall of each shoe and an inward facing surface of a top portion of the outer perimeter wall, and where a bottom step is provided from the respective bottom sides of the teeth down to respective bottom sides of the shoes such that a bottom recess is provided on the teeth between an outward facing surface of a bottom wall of each shoe and an inward facing surface of a bottom portion of the outer perimeter wall; and positioning the rotor in the stator, where the rotor is located at least partially in the rotor receiving area of the stator. 14 . The method as claimed in claim 13 where the providing of the stator comprises the outer perimeter wall of the stator having a shape as one of a substantial oval shape, a substantial triangle shape, a substantial square shape, a substantial rectangle shape or a substantial polygon shape. 15 . A motor comprising: a rotor; and a stator, where the rotor is located at least partially in a rotor receiving area of the stator, where the stator comprises at least one coil winding and a stator member forming teeth, where the at least one coil winding is located on at least some of the teeth, where the teeth comprise a first set of the teeth and a second set of the teeth, where at least some of the teeth taper in two orthogonal directions, where the stator member forms an outer perimeter wall at outer ends of the teeth and shoes at inner ends of the teeth, where top and bottom sides of the teeth are recessed relative to top and bottom sides of the outer perimeter wall and the shoes, where the top and bottom sides of the outer perimeter wall and the shoes have a substantially same height, where a top step is provided from respective top sides of the shoes down to the respective top sides of the teeth such that a top recess is provided on the teeth between an outward facing surface of a top wall of each shoe and an inward facing surface of a top portion of the outer perimeter wall. 16 . The motor as claimed in claim 15 where a bottom step is provided from the respective bottom sides of the teeth down to respective bottom sides of the shoes such that a bottom recess is provided on the teeth between an outward facing surface of a bottom wall of each shoe and an inward facing surface of a bottom portion of the outer perimeter wall.