LIM can mover

What is claimed is: 1. A can conveyor system comprising: a conveyor having a width extending from a first side to a second side, the conveyor conveying cans along a conveying path between the first and second sides; a stator including two or more overlapping sets of coils producing electromagnetic flux waves that induce currents in the cans passing the stator along the conveying path, wherein the currents interact with the electromagnetic flux waves to produce forces that divert the cans toward at least one of the first and second sides; a flat top surface on which the cans slide and through which an electromagnetic field pattern produced by the electromagnetic flux waves is directed to induce the currents in the cans. 2. A can conveyor system as in claim 1 wherein the two or more overlapping sets of coils include: a first set of coils extending along the conveying path and having a first width that extends across the width of the conveyor; a second set of coils overlapping the first set of coils, wherein the second set of coils extends along the conveying path and has a second width that extends across the width of the conveyor a distance less than the first width; wherein the electromagnetic flux waves produced by the first and second sets of coils produce a field pattern with a maximum field strength where the first and second coils overlap. 3. A can conveyor system as in claim 2 wherein the first and second sets of coils are centered between the first and second sides of the conveyor to produce a field pattern with a maximum field strength midway between the first and second sides. 4. A can conveyor system as in claim 2 wherein the second set of coils is closer to the first side of the conveyor than to the second side of the conveyor to produce a field pattern skewed toward the first side with a maximum field strength closer to the first side. 5. A can conveyor system as in claim 1 wherein the two or more overlapping sets of coils include: a first set of coils extending from an upstream end to a downstream end along a first branch of the conveying path in a first direction; a second set of coils extending from an upstream end to a downstream end along a second branch of the conveying path in a second direction oblique to the first direction; wherein the overlap of the first and second sets of coils is greater at the upstream end than at the downstream end. 6. A can conveyor system as in claim 5 further comprising a coil controller energizing only one set of the first and second sets of coils at a time. 7. A can conveyor system as in claim 6 wherein the coil controller alternately energizes the first and second sets of coils can by can. 8. A can conveyor system as in claim 6 wherein the coil controller alternately energizes the first set and second sets of coils after the passage of a predetermined number of cans. 9. A can conveyor system as in claim 6 further comprising a defect detector detecting defects in the cans and sending a reject signal to the coil controller to energize the second set of coils to divert defective cans to the second side of the conveyor. 10. A can conveyor system as in claim 1 further comprising an infeed conveyor feeding cans in a single file to the conveyor. 11. A can conveyor system as in claim 1 wherein the two or more overlapping sets of coils include: a first set of coils extending along the conveying path from an upstream end to a downstream end; a second set of coils extending along the conveying path from an upstream end to a downstream end parallel to the first set of coils; wherein the first and second sets overlap midway between the first and second sides of the conveyor; wherein each coil of the first set is oblique to the first and second sides in a first direction and each coil of the second set is oblique to the first and second sides in a second direction that converges with the first direction toward the downstream end to center cans between the first and second sides. 12. A can conveyor system as in claim 1 wherein the stator includes first and second pairs of overlapping sets of coils arranged side by side, wherein each pair includes: a first set of coils extending along the conveying path; a second set of narrower coils overlapping the first set of coils along a portion of the width of the first set, wherein the electromagnetic flux waves produced by the first and second sets of coils produce a field pattern with a maximum field strength where the first and second coils overlap; wherein the second set of narrower coils of the first pair overlap the first set of coils of the first pair closer to the first side of the conveyor than to the second pair and the second set of narrower coils of the second pair overlap the first set of coils of the second pair closer to the second side of the conveyor than to the first pair to produce a bilaterally skewed field pattern with maximum field strengths near the first and second sides of the conveyor to divert cans toward the center of the conveyor. 13. A can conveyor system comprising: a conveyor having a width extending from a first side to a second side, the conveyor conveying cans along a conveying path between the first and second sides; a stator including one or more sets of coils each producing a field pattern and an electromagnetic flux wave that induces currents in the cans passing the stator along the conveying path, wherein the currents interact with the electromagnetic flux waves to produce forces that divert the cans toward at least one of the first and second sides; wherein the field pattern produced by the one or more sets of coils is skewed toward the first side of the conveyor with a maximum field strength closer to the first side than to the second side. 14. A can conveyor system as in claim 13 wherein the stator includes potting material in which one set of coils is embedded and wherein the potting material includes ferrous material whose concentration decreases from the first side of the conveyor to the second side of the conveyor to skew the field pattern toward the first side. 15. A can conveyor system as in claim 13 wherein the one or more sets of coils include two overlapping sets of coils including: a first set of coils extending along the conveying path and having a first width that extends across the width of the conveyor; a second set of coils overlapping the first set of coils, wherein the second set of coils extends along the conveying path and has a second width that extends across the width of the conveyor a distance less than the first width; wherein the electromagnetic flux waves produced by the first and second sets of coils produce a field pattern with a maximum field strength where the first and second coils overlap; and wherein the second set of coils is closer to the first side of the conveyor than to the second side of the conveyor to produce a field pattern skewed toward the first side with a maximum field strength closer to the first side. 16. A can conveyor system comprising: a conveyor having a width extending from a first side to a second side, the conveyor conveying cans along a conveying path between the first and second sides; a stator disposed below the conveying path and including: a first set of coils extending in length along the conveying path and in width inward from the first side; a second set of coils extending in length along the conveying path and separated from the first set of coils by a seam and extending in width inward from the second side; a first coil controller controlling the first set of coils and a