Appliance, motor or stator

The invention claimed is: 1. A motor for use in a washing machine comprising: a stator comprising: a core of magnetically permeable material including an annular ring portion having a central axis and an inner diameter between 120 mm and 250 mm and a radial width between 5 mm and 15 mm, 27 radiating extending stator poles spaced around the outer circumference of the annular ring portion, the stator poles extending outward from the annular ring portion a distance between 15 mm and 40 mm, an insulating structure insulating the stator poles, three phase windings, each winding comprising a plurality of coils arranged on one third of the insulated stator poles such that each stator pole is associated with only one winding, which is different from the winding associated with each of the two immediately adjacent stator poles and the two immediately adjacent stator poles are associated with different windings, and a rotor concentric with the stator with a permanent magnet ring outside the stator, and rotor poles facing the ends of the stator poles, wherein the ratio of rotor poles to stator poles is 4:3. 2. The motor of claim 1 , wherein the annular ring portion has an axial height between 10 mm and 35 mm. 3. The motor of claim 1 , wherein the inner diameter of the annular ring portion is between 150 mm and 230 mm. 4. The motor of claim 1 , wherein the radial width of the annular ring portion is between 5 mm and 10 mm. 5. The motor of claim 1 , wherein the axial height of the annular ring portion is between 12 mm and 23 mm. 6. The motor of claim 1 , wherein the core comprises at least one stack of laminations, each lamination lying in a plane substantially parallel to the plane of the annular ring portion. 7. The motor of claim 6 , wherein the core comprises a stack of laminations formed from a helical coil of steel strip such that each layer in the stack of laminations comprises a turn in the helix. 8. The motor of claim 6 , wherein the core comprises multiple stacks of laminations joined at their ends, each stack of laminations including a segment of the annular ring portion and one or more extending stator poles. 9. The motor of claim 1 , wherein the stator includes a plurality of fastening locations for mounting the stator to a machine, each fastening location being centred a distance radially inside an inner surface of the annular ring portion of the core, this distance being greater than the length that the stator poles extend beyond the outer circumference of the annular ring portion. 10. The motor of claim 9 , wherein the fastening locations for fastening the stator to the machine have centres more than 40 mm from the centre of the stator. 11. The motor of claim 10 , wherein the fastening locations are between 40 mm and 80 mm from the centre of the stator. 12. The motor of claim 10 , wherein the stator includes a mounting portion extending radially inward from the annular ring portion to occupy an area within the inner diameter of the annular ring portion and that includes the fastening locations. 13. The motor of claim 12 , wherein the mounting portion is annular and occupies an area between the annular ring portion and a circular aperture spaced radially inward of the fastening locations. 14. The motor of claim 1 , wherein the rotor comprises: a plurality of magnet elements with two lateral edges each with magnetic domains aligned anisotropically to form a domain alignment pattern, the plurality of magnets being arranged to form a permanent magnet ring with an inner face and an outer face, and a rigid support holding said magnet elements in said permanent magnet ring, wherein the magnetic domain alignment pattern in each magnet element has an orientation that varies substantially continuously across at least part of the magnet element between its lateral edges from an orientation that has a predominant radial component at a pole of the magnet element to an orientation that has a least some tangential component at one lateral edge of the magnet element, and wherein the magnet elements are magnetised to produce a resulting magnetic flux field. 15. The motor of claim 14 , wherein at both lateral edges of each magnet element the orientation of the magnetic domain alignment pattern has a significant tangential component which results in the magnetic domain alignment pattern having an orientation of at least 15 degrees with respect to the lateral edges. 16. The motor of claim 14 , wherein the orientation varies substantially non-linearly over each magnet element. 17. The motor of claim 14 , wherein the resulting magnetic flux field has poles with alternating polarity spaced around the permanent magnet ring, the poles being aligned radially with respect to the permanent magnet ring, and wherein the resulting magnetic flux field of the permanent magnet ring traverses between adjacent poles of opposite polarities and between those poles is focused to extend beyond the boundary defined by the inner face, but remain at least partially constrained within the boundary defined by the outer face of the permanent magnet ring. 18. The motor of claim 14 , wherein the portion of the resulting magnetic flux field between adjacent poles extending beyond the boundary defined by the inner face of the permanent magnet ring has an orientation that varies continuously wherein: between the poles, the orientation varies from an orientation that has a predominant radial component at the pole to an orientation that has a predominant tangential component at the mid-point between the poles. 19. A washing machine, comprising: a motor, the motor comprising: a stator comprising a core of magnetically permeable material including an annular ring portion having a central axis and an inner diameter between 120 mm and 250 mm and a radial width between 5 mm and 15 mm, 27 radiating extending stator poles spaced around the outer circumference of the annular ring portion, the stator poles extending outward from the annular ring portion a distance between 15 mm and 40 mm, an insulating structure insulating the stator poles, three phase windings, each winding comprising a plurality of coils arranged on one third of the insulated stator poles such that each stator pole is associated with only one winding, which is different from the winding associated with each of the two immediately adjacent stator poles and the two immediately adjacent stator poles are associated with different windings; a rotor concentric with the stator with a permanent magnet ring outside the stator, and rotor poles facing the ends of the stator poles, wherein the ratio of rotor poles to stator poles is 4:3; a non-rotating tub or housing; and a rotating drum with perforated walls disposed in and rotatable within the non-rotating tub or housing, wherein the stator is coupled to the non-rotating tub or housing and the rotor is coupled to the rotating drum.