A stator includes an elongate core defining an inner volume to receive a rotor of an electric machine. The core includes a yoke and an array of teeth extending from the yoke toward the inner volume. The array of teeth defines slots between each pair of adjacent teeth in the array. Each slot includes
A stator includes an elongate core defining an inner volume to receive a rotor of an electric machine. The core includes a yoke and an array of teeth extending from the yoke toward the inner volume. The array of teeth defines slots between each pair of adjacent teeth in the array. Each slot includes a first slot region adapted to hold at least a portion of a conductive winding and a second slot region adapted to hold at least a portion of a conductive winding. The first slot region is defined by two non-parallel opposing slot side portions, and the second slot region is defined by two parallel opposing slot side portions.
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1. A stator of an electrical machine, the stator comprising: an elongate core defining an inner volume to receive a rotor of an electric machine;the core comprising a yoke and an array of teeth extending from the yoke toward the inner volume, the array of teeth defining slots between each pair of ad
1. A stator of an electrical machine, the stator comprising: an elongate core defining an inner volume to receive a rotor of an electric machine;the core comprising a yoke and an array of teeth extending from the yoke toward the inner volume, the array of teeth defining slots between each pair of adjacent teeth in the array, each slot comprising: a first slot region adapted to hold at least a portion of a conductive winding and defined by two non-parallel opposing slot side portions, anda second slot region adapted to hold at least a portion of a conductive winding and defined by two parallel opposing slot side portions; anda plurality of conductive coils residing in the slots, a first subset of the conductive coils comprising random-wound windings, a second subset of the coils comprising formed windings. 2. The stator of claim 1, wherein the first slot region of each slot resides between the yoke and the second slot region of each slot. 3. The stator of claim 1, wherein the second slot region of each slot resides between the yoke and the first slot region of each slot. 4. The stator of claim 1, the first subset of the coils having a substantially circular cross-sectional profile and the second subset of the coils having a substantially rectangular cross-sectional profile. 5. The stator of claim 4, wherein the first subset of conductive coils reside in the first slot region of each slot and the second subset of conductive coils reside in the second slot region of each slot. 6. The stator of claim 1, wherein each slot comprises two interior corners and each interior corner defines a substantially right angle at an intersection of the yoke and one of the teeth. 7. The stator of claim 1, wherein each slot comprises two interior corners and each interior corner defines a corner radius at an intersection of the yoke and one of the teeth. 8. The stator of claim 7, wherein the first subset of conductive coils have a substantially circular cross-section, and a radius of the circular cross-section is substantially equal to the corner radius. 9. The stator of claim 1, further comprising a plurality of wedges residing in the slots, wherein each wedge resides in contact with one or more of the coils. 10. The stator of claim 9, wherein each wedge exerts a force on one or more of the coils to reduce mobility of the coils within the slot. 11. A stator of an electrical machine, the stator comprising: an elongate core defining an inner volume to receive a rotor of an electric machine; andthe core comprising a yoke and an array of teeth extending from the yoke toward the inner volume, the array of teeth defining slots between each pair of adjacent teeth in the array, each slot comprising: a first slot region adapted to hold at least a portion of a conductive winding and defined by two non-parallel opposing slot side portions, anda second slot region adapted to hold at least a portion of a conductive winding and defined by two parallel opposing slot side portions,wherein each tooth includes a tooth root and a tooth tip, the parallel opposing slot side portions of each tooth extend from the tooth root, and the tooth tip of each tooth extends from the two non-parallel opposing slot side portions, andwherein the two non-parallel opposing slot side portions include a first slot side portion and a second slot side portion, the two parallel opposing slot side portions include a third slot side portion and a fourth slot side portion, the first slot side portion and the third slot side portion define a first slot side angle and form at least part of a first slot side, and the second slot side portion and the fourth slot side portion define a second slot side angle and form at least part of a second slot side, the first slot side angle unequal to the second slot side angle. 12. An electrical machine comprising: a stator comprising an elongate core to internally receive a rotor of an electric machine;the core comprising a yoke and an array of teeth extending from the yoke, the core defining slots between neighboring teeth in the array, each slot having a depth defined by the yoke and one pair of neighboring teeth, each slot having a non-uniform width along a first portion of the depth of the slot, each slot having a uniform width along a second portion of the depth of the slot; anda plurality of conductive coils residing in the slots, a first subset of the conductive coils comprising random-wound windings, a second subset of the coils comprising formed windings. 13. The electric machine of claim 12, wherein a shortest distance from the yoke of the stator to a radial end of each tooth defines a length of the tooth, each tooth comprises two sides that are parallel to each other along a first portion of the length of the tooth, and the two sides are non-parallel to each other along a second portion of the length of the tooth. 14. The electric machine of claim 13, each tooth further comprising a tooth tip that includes the radial end of the tooth, each tooth tip broader than a portion of the tooth adjacent the tooth tip. 15. The electric machine of claim 13, each tooth further comprising a tooth tip that includes the radial end of the tooth, each tooth tip including a tooth tip slot adapted to hold at least a portion of a wedge. 16. The electric machine of claim 12, wherein the coils each include one or more turns of conductive material, and an odd number of turns reside in at least one of the slots. 17. A method of making a stator of an electric machine, the method comprising: forming a core of the stator, the core defining an inner volume to receive a rotor of an electric machine;the core comprising a yoke and an array of teeth extending from the yoke toward the inner volume, the array of teeth defining slots between each pair of adjacent teeth in the array, each slot comprising: a first slot region adapted to hold at least a portion of a conductive winding and defined by two non-parallel opposing slot side portions, anda second slot region adapted to hold at least a portion of a conductive winding and defined by two parallel opposing slot side portions;forming a winding structure outside of the core and installing the formed winding structure in the second slot regions, the formed winding structure comprising a first subset of coils; andinstalling a second subset of coils by successively forming individual turns of the coils in the first slot regions of the slots. 18. The method of claim 17, wherein the two non-parallel opposing slot side portions include a first slot side portion and a second slot side portion, the two parallel opposing slot side portions include a third slot side portion and a fourth slot side portion, the first slot side portion and the third slot side portion define a first slot side angle and form at least part of a first slot side, and the second slot side portion and the fourth slot side portion define a second slot side angle and form at least part of a second slot side, the first slot side angle unequal to the second slot side angle. 19. The method of claim 17, the second subset of the coils comprising a substantially circular cross-section, the first subset of the coils comprising a substantially rectangular cross-section. 20. The method of claim 17, further comprising installing a wedge in each slot. 21. The method of claim 20, further comprising receiving cooling fluid from the inner volume into the slots through apertures defined in each wedge. 22. The method of claim 17, further comprising operating the electric machine as a multi-pole electric machine.
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