Independent mover transport system and method of extending range of operations in an independent mover transport system

What is claimed is: 1. A transport system comprising: a mover having an axis; and a track comprising: a first track segment including a first coil; a second track segment adjacent to the first track segment and including a second coil; and a controller having a memory operative to store a first set of controller gain values and a second set of controller gain values, wherein the controller is operative to drive the first coil to control movement of the mover along the first track segment towards the second track segment, the controller being further operative to: define a first zone for the first track segment corresponding to the first set of controller gain values, define a second zone for the first track segment corresponding to the second set of controller gain values, generate a current reference with a control module using the first set of controller gains when the location of the axis is in the first zone, drive the first coil using the current reference generated by the control module with the first set of controller gains to control movement of the mover when the location of the axis is in the first zone, generate the current reference with the control module using the second set of controller gains when the location of the axis is in the second zone, and drive the first coil using the current reference generated by the control module with the second set of controller gains to control movement of the mover when the location of the axis is in the second zone. 2. The transport system of claim 1 , wherein the mover has a body with a center, and the axis is defined at the center of the body. 3. The transport system of claim 1 , wherein the controller includes a proportional-integral-derivative (PID) control module, wherein the first set of controller gain values includes a first proportional gain value, a first integral gain value, and a first derivative gain value, and wherein the second set of controller gain values includes a second proportional gain value, a second integral gain value, and a second derivative gain value. 4. The transport system of claim 3 , wherein the controller is further operative to: define a transition zone for the first track segment, the transition zone being located between the first zone and the second zone, interpolate a third set of controller gain values using the first set of controller gain values and the second set of controller gain values when the location of the axis is in the transition zone, the interpolation of the third set being based on the position of the axis, generate the current reference with the control module using the third set of controller gains when the location of the axis is in the transition zone, and drive the first coil using the current reference generated by the control module with the third set of controller gains to control movement of the mover when the location of the axis is in the transition zone. 5. The transport system of claim 4 , wherein the interpolation of the third set is a linear interpolation between the first set of controller gain values and the second set of controller gain values based on the position of the axis. 6. The transport system of claim 1 , wherein the controller is further operative to define a hysteresis zone for the first track segment, when the mover is moving under the first set of controller gain values, then the first controller gain values switch to the second set of controller gain values when the axis of mover moves though hysteresis zone into the second zone, and when the mover is moving under the second set of controller gain values, then the second controller gain values switch to the first set of controller gain values when the axis of mover moves though hysteresis zone into the first zone. 7. The transport system of claim 1 , wherein the first track segment includes the controller. 8. The transport system of claim 7 , wherein the track includes a third track segment adjacent to the second track segment opposite the first track segment, wherein the second track segment includes a second controller having a second memory operative to store another first set of controller gain values and another second set of controller gain values, wherein the second controller is operative to drive the second coil to control movement of the mover along the second track segment towards the third track segment, the second controller being further operative to: define a first zone for the second track segment corresponding to the other first set of controller gain values, define a second zone for the second track segment corresponding to the other second set of controller gain values, generate a second current reference with a second control module using the other first set of controller gains when the location of the axis is in the first zone for the second track segment, drive the second coil using the second current reference generated by the second control module with the other first set of controller gains to control movement of the mover when the location of the axis is in the first zone for the second track segment, generate the second current reference with the second control module using the other second set of controller gains when the location of the axis is in the second zone for the second track segment, and drive the second coil using the second current reference generated by the second control module with the other second set of controller gains to control movement of the mover when the location of the axis is in the second zone for the second track segment. 9. The transport system of claim 8 , wherein the second zone for the second track segment is adjacent to the second zone for the first track segment. 10. The transport system of claim 8 , wherein the track includes a junction coupling the first track segment and the second track segment, wherein the second zone for the second track segment is adjacent to the second zone for the first track segment at the junction. 11. The transport system of claim 8 , further comprising a third controller in communication with the first controller and the second controller. 12. A method to extend range of operations in an independent mover transport system comprising a mover having an axis, a track comprising a first track segment including a first coil, a second track segment adjacent to the first track segment and including a second coil, and a controller having a memory operative to store a first set of controller gain values and a second set of controller gain values, wherein the controller is operative to drive the first coil to control movement of the mover along the first track segment towards the second track segment, the method comprising: moving the mover along the track; defining a first zone for the first track segment corresponding to the first set of controller gain values; defining a second zone for the first track segment corresponding to the second set of controller gain values; generating a current reference with a control module using the first set of controller gains when the location of the axis is in the first zone, driving the first coil using the current reference generated by the control module with the first set of controller gains to control movement of the mover when the location of the axis is in the first zone; generating the current reference with the control module using the second set of controller gains when the location of the axis is in the second zone; and driving the first coil using the current reference generated by the control module with the second set of controller gains to control movement of the mover when the location of the axis is in the second zone.