Methods and systems for controllably moving multiple moveable stages in a displacement device

What is claimed is: 1. A displacement device for moving a plurality of moveable stages relative to a stator, the displacement device comprising: a stator comprising one or more stator tiles, each stator tile comprising: an x-trace layer comprising a plurality of x-trace groups, each x-trace group comprising a plurality of electrically conductive x-traces which extend in a stator-x direction across the stator tile and into which currents may be independently driven; a y-trace layer comprising a plurality of y-trace groups, each y-trace group comprising a plurality of electrically conductive y-traces which extend in a stator-y direction across the stator tile and into which currents may be independently driven; the x-trace layer and the y-trace layer overlapping one another in a stator-z direction; the stator-x direction and the stator-y direction non-parallel to one another; a plurality of moveable stages, each moveable stage comprising: a first magnet array comprising a plurality of first magnetization segments, each first magnetization segment having a corresponding magnetization direction; and a controller connected to one or more amplifiers for driving currents in the x-traces and the y-traces, the controller and the one or more amplifiers configured to drive currents in the x-traces and the y-traces to move a first moveable stage and a second moveable stage relative to the stator where the first magnet array of the first moveable stage overlaps with the first magnet array of the second moveable stage in the stator-x direction, wherein, for driving currents in the x-traces and the y-traces to move the first moveable stage and the second moveable stage relative to the stator, the controller and the one or more amplifiers are configured, for at least a first portion of a time where the first magnet array of the first moveable stage overlaps with the first magnet array of the second moveable stage in the stator-x direction, to controllably drive first x-trace group currents in a first x-trace group that overlaps with a first portion of the first magnet array of the first moveable stage in the stator-z direction and a first portion of the first magnet array of the second moveable stage in the stator-z direction, the first x-trace group currents determined, by the controller, based at least in part on positions of both the first moveable stage and the second moveable stage and whereby the first x-trace group currents generate first forces on the first magnet array of the first moveable stage and on the first magnet array of the second moveable stage. 2. A displacement device according to claim 1 wherein at least two of the first magnetization segments having magnetization directions that are different from one another. 3. A displacement device according to claim 2 wherein the plurality of first magnetization segments are linearly elongated in the stage-x direction, each first magnetization segment having a corresponding magnetization direction orthogonal to the stage-x direction. 4. A displacement device according to claim 3 wherein each moveable stage comprises: a second magnet array comprising a plurality of second magnetization segments linearly elongated in a stage-y direction, each second magnetization segment having a magnetization direction orthogonal to the stage-y direction and at least two of the second magnetization segments having magnetization directions that are different from one another; a third magnet array comprising a plurality of third magnetization segments linearly elongated in the stage-x direction, each third magnetization segment having a corresponding magnetization direction orthogonal to the stage-x direction and at least two of the third magnetization segments having magnetization directions that are different from one another; and the stage-x direction and the stage-y direction non-parallel to one another. 5. A displacement device according to claim 1 wherein the controller and the one or more amplifiers are configured, for at least the first portion of the time where the first magnet array of the first moveable stage overlaps with the first magnet array of the second moveable stage in the stator-x direction, to controllably drive second x-trace group currents in a second x-trace group that overlaps with a second portion of the first magnet array of the first moveable stage in the stator-z direction and a second portion of the first magnet array of the second moveable stage in the stator-z direction, the second x-trace group currents determined, by the controller, based at least in part on positions of both the first moveable stage and the second moveable stage and whereby the second x-trace group currents generate second forces on the first magnet array of the first moveable stage and on the first magnet array of the second moveable stage. 6. A displacement device to claim 5 wherein the controller and the one or more amplifiers are configured to drive currents in the x-traces and the y-traces to move the first moveable stage and the second moveable stage relative to the stator where the third magnet array of the first moveable stage overlaps with the third magnet array of the second moveable stage in the stator-x direction, wherein, for driving currents in the x-traces and the y-traces to move the first moveable stage and the second moveable stage relative to the stator, the controller and the one or more amplifiers are configured: for at least a first portion of a time where the third magnet array of the first moveable stage overlaps with the third magnet array of the second moveable stage in the stator-x direction, to controllably drive third x-trace group currents in a third x-trace group that overlaps with a first portion of the third magnet array of the first moveable stage in the stator-z direction and a first portion of the third magnet array of the second moveable stage in the stator-z direction, the third x-trace group currents determined, by the controller, based at least in part on positions of both the first moveable stage and the second moveable stage and whereby the third x-trace group currents generate first forces on the third magnet array of the first moveable stage and on the third magnet array of the second moveable stage; and for at least the first portion of the time where the third magnet array of the first moveable stage overlaps with the third magnet array of the second moveable stage in the stator-x direction, to controllably drive fourth x-trace group currents in a fourth x-trace group that overlaps with a second portion of the third magnet array of the first moveable stage in the stator-z direction and a second portion of the third magnet array of the second moveable stage in the stator-z direction, the fourth x-trace group currents determined, by the controller, based at least in part on positions of both the first moveable stage and the second moveable stage and whereby the fourth x-trace group currents generate second forces on the third magnet array of the first moveable stage and on the third magnet array of the second moveable stage. 7. A displacement device according to claim 1 wherein, for driving currents in the x-traces and the y-traces to move the first moveable stage and the second moveable stage relative to the stator, the controller and the one or more amplifiers are configured, for at least a second portion of the time where the first magnet array of the first moveable stage overlaps with the first magnet array of the second moveable stage in the stator-x direction, to refrain from driving currents in the first x-trace group. 8. A displacement device according to claim 5 wherein, for driving currents in the x-traces and the y-traces to move the first moveable stage and the second moveab