Permanent magnet brushless motor

The invention claimed is: 1. A permanent magnet brushless motor, comprising: a stator, the stator comprising: a stator core; and a stator winding; and a rotor rotatably mounted to the stator, the rotor comprising: a shaft; a rotor core fixed to the shaft; and a permanent magnet mounted to a surface of the rotor core, wherein the stator core comprises an annular yoke and s teeth extending from the yoke, where s is an integer greater than four, each tooth is wound with the stator winding, and ends of the teeth face the permanent magnet, wherein the permanent magnet forms p magnetic poles, where p is an even number greater than 2 but less than s, and wherein each section of the permanent magnet corresponding to a respective magnetic pole is divided into n equal parts in a circumferential direction of the rotor by n−1 magnet grooves which are spaced from boundaries between adjacent magnetic poles, where n is an integer greater than 1 and p*n is an integral multiple of s, the magnet grooves being formed in a surface of the permanent magnet facing the stator core. 2. The motor of claim 1 , wherein the permanent magnet is a ring magnet having p*n magnet grooves which divide the magnet into p*n equal parts in the circumferential direction of the rotor. 3. The motor of claim 2 , wherein the motor is an inner rotor motor, wherein the stator core surrounds the rotor core, and the p*n magnet grooves are formed in a radially outer circumferential surface of the ring magnet. 4. The motor of claim 3 , wherein a radially outer circumferential surface of the rotor core has p axially-extending rotor core grooves, and each rotor core groove is aligned with an interface between two corresponding adjacent magnetic poles of the p magnetic poles. 5. The motor of claim 1 , wherein the permanent magnet comprises a plurality of individual magnets, each individual magnet forming one magnetic pole, the surface of each individual magnet facing the stator core has n−1 magnet grooves which divide the individual magnet into n equal parts in the circumferential direction of the rotor. 6. The motor of claim 5 , wherein the individual magnets are spaced apart from each other, a width of each magnet groove measured in the circumferential direction of the rotor is substantially the same as a gap between adjacent individual magnets. 7. The motor of claim 6 , wherein the individual magnets are curved magnets. 8. The motor of claim 1 , wherein each tooth has a pole face facing the rotor core, and an auxiliary groove is formed at a center of the pole face of the tooth. 9. The motor of claim 1 , wherein the yoke of the stator core is annular, and an outer circumferential surface of the annular yoke has s yoke grooves, each yoke groove being aligned with a center of a corresponding tooth. 10. The motor of claim 1 , wherein s is six, p is four, and n is three. 11. The motor of claim 1 , wherein the stator core is formed from laminations and at least one axially extending yoke groove is formed in the yoke and having a protrusion formed therein, the laminations being welded together at the protrusion.