LIM-driven roller transfer apparatus

What is claimed is: 1. A conveyor transfer apparatus comprising: an array of electrically conductive rollers rotatable on axes perpendicular to a conveying direction; a stator disposed below the array of electrically conductive rollers and including a magnetic core having: a short side; a long side parallel to the short side, wherein the long side is nearer the array of electrically conductive rollers than the short side and extends in a conveying direction from a first end to a second end; a plurality of slots spaced apart in the conveying direction and extending in depth from the long side toward the short side and in length transverse to the conveying direction to form poles with pole faces on the long side between consecutive slots and first and second end faces on the long side at the first and second ends; windings disposed in the slots and around the poles and, when energized by a drive, generating a magnetic flux wave traveling along the conveying direction to induce eddy currents in the array of electrically conductive rollers and cause the electrically conductive rollers to rotate in the conveying direction. 2. A conveyor transfer apparatus as in claim 1 wherein the magnetic core comprises a stack of trapezoidal laminations. 3. A conveyor transfer apparatus as in claim 1 wherein each of the first and second end faces extends farther in the conveying direction than any of the pole faces. 4. A conveyor transfer apparatus as in claim 1 wherein the stator produces a greater torque in the electrically conductive rollers midway between the first and second ends than in the electrically conductive rollers at the first and second ends. 5. A conveyor transfer apparatus as in claim 1 wherein some of the electrically conductive rollers are disposed above the first and second end faces and the stator induces no eddy currents in the electrically conductive rollers disposed above the first and second end faces. 6. A conveyor transfer apparatus as in claim 1 further comprising at least one roller disposed outward of the first end of the stator along the conveying direction and at least one roller disposed outward of the second end of the stator along the conveying direction. 7. A conveyor transfer apparatus as in claim 1 wherein the slots at the first and second ends of the magnetic core are shallower than the other slots. 8. A conveyor transfer apparatus as in claim 1 wherein the windings are three-phase windings forming A-, B-, and C-phase coils around the poles and wherein one or two of the phases have fewer coils than the other phases or phase. 9. A conveyor transfer apparatus as in claim 1 wherein the stator has a triple-layer short-pitch winding topology.