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Methods and apparatus are provided for improving operational characteristics of a concentrated winding machine. According to an example embodiment, an apparatus comprises stator teeth having distal ends, the stator teeth arranged in an annular fashion about an axis to define stator slots between adj

Methods and apparatus are provided for improving operational characteristics of a concentrated winding machine. According to an example embodiment, an apparatus comprises stator teeth having distal ends, the stator teeth arranged in an annular fashion about an axis to define stator slots between adjacent teeth and slot openings between the distal ends of the adjacent teeth, the stator teeth structured to prevent relative movement between adjacent teeth. The apparatus further comprises magnetic wedges structured to be inserted between the distal ends of the adjacent teeth to close the slot openings.

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1. An apparatus comprising: stator teeth having distal ends extending from respective stator segments, each stator segment having a radial end, the stator teeth arranged in an annular fashion about an axis to define stator slots between adjacent teeth and slot openings between the distal ends of the

1. An apparatus comprising: stator teeth having distal ends extending from respective stator segments, each stator segment having a radial end, the stator teeth arranged in an annular fashion about an axis to define stator slots between adjacent teeth and slot openings between the distal ends of the adjacent teeth, the stator segments annularly positioned to fixedly contact the radial ends of adjacent stator segments to prevent relative movement between adjacent teeth; andmagnetic slot wedges structured to be inserted between the distal ends of the adjacent teeth to close the slot openings, wherein the magnetic slot wedges are asymmetric about planes that contain the axis and that lie equidistant between the ends of the corresponding magnetic slot wedge;wherein each of the magnetic slot wedges comprises at least two protrusions structured to engage respective grooves in the distal ends of adjacent teeth at different radial positions relative to the axis, and wherein the radial positions of the grooves partially overlap such that they are intersected by a single arc that is located at a fixed distance from the axis. 2. The apparatus of claim 1, the magnetic slot wedges comprising a powdered metal core type material. 3. The apparatus of claim 1, wherein a permeability of the magnetic slot wedges is less than a permeability of the stator teeth. 4. The apparatus of claim 3, wherein the permeability of the magnetic slot wedges is large enough to reduce a reluctance of a magnetic field in the slot openings. 5. A concentrated winding machine comprising: stator segments that form an annular stator yoke and stator teeth extending from an edge of the stator yoke to define stator slots between adjacent stator teeth and slot openings at distal ends of the stator teeth; andmagnetic slot wedges joined to the distal ends of the stator teeth to close the slot openings, each of the magnetic slot wedges including first and second protrusions that are structured to engage corresponding grooves on the distal ends of adjacent stator teeth, wherein the first protrusion is asymmetric relative to the second protrusion and is at a different radial position relative to second protrusion, and wherein the radial positions of the grooves partially overlap such that they are intersected by a single arc that is located a fixed distance from the axis of the stator;wherein the stator segments are positioned within the annular stator yoke to fixedly contact adjacent stator segments such that the stator segments and stator teeth form a fixed-tooth stator that does not allow for relative movement between adjacent stator teeth. 6. The concentrated winding machine of claim 5, wherein a permeability of the magnetic slot wedges is less than a permeability of the stator. 7. The concentrated winding machine of claim 6, wherein the permeability of the magnetic slot wedges is great enough to reduce the reluctance of a magnetic field in the slot openings. 8. The concentrated winding machine of claim 5, wherein the first protrusion is asymmetric relative to the second protrusion about a plane that passes midway between adjacent stator teeth. 9. The concentrated winding machine of claim 5, further comprising paper slot liners disposed around the stator teeth. 10. A system comprising: a stator having stator segments comprising stator teeth with distal ends, the stator teeth forming stator slots between adjacent stator teeth and slot openings between the distal ends of the adjacent stator teeth, the stator segments positioned within the annular stator yoke to fixedly contact adjacent stator segments; andmagnetic slot wedges, the magnetic slot wedges attached to distal ends of adjacent stator teeth to close the slot openings, the magnetic slot wedges comprising two protrusions that are structured to engage respective grooves in the distal ends of adjacent stator teeth at different radial positions on the stator teeth;wherein the radial positions of the grooves partially overlap such that they are intersected by a single arc that is located a fixed distance from the axis of the stator. 11. The system of claim 10, the stator further comprising stator segments, each of the stator segments including at least one of the stator teeth. 12. The system of claim 11, further comprising conductive windings wound about the stator teeth and occupying the stator slots, the conductive windings arranged such that a positive and a negative pole for each conductive winding are adjacent to each other. 13. The system of claim 12, further comprising paper slot liners disposed between the conductive windings and the stator teeth, the paper slot liners structured to be positioned on the stator teeth by sliding them over the distal ends of the stator teeth. 14. The system of claim 10, wherein the magnetic slot wedges comprise a first material having a first permeability, wherein the stator teeth comprise a second material having a second permeability, and wherein the first permeability is less than the second permeability. 15. The system of claim 10, each of the stator teeth comprising two grooves arranged on opposite sides of the stator tooth, each of the two grooves structured to engage one of the two protrusions on two different magnetic slot wedges, the two grooves offset on the stator tooth such that an overall reduction in a width of the stator tooth at any radial position is no greater than a depth of one of the two grooves.