Motorized disconnect system and operation methods

The invention claimed is: 1. A motorized disconnect assembly, comprising: a shifter assembly including an undulating gear track undulating between two ends of the shifter assembly in a direction of a rotation axis of an interfacing, first shaft, the undulating gear track trapped between fixed cam guides; and an electric motor and a worm drive including a worm and a worm gear, wherein the undulating gear track is in contact with the worm gear, the worm gear is in contact with the worm, wherein the worm is connected to an output shaft of the electric motor and wherein the electric motor is adapted to rotate in a single direction while the interfacing first shaft rotates in the single direction. 2. A motorized disconnect assembly, comprising: a shifter assembly including an undulating gear track undulating between two ends of the shifter assembly in a direction of a rotation axis of an interfacing, first shaft, the undulating gear track trapped between fixed cam guides; and a clutch ring for selectively engaging the first shaft in a first mode and engaging both the first shaft and a second shaft in a second mode, the two modes corresponding to moving the shifter assembly linearly into a first position and a second position, the first position located at a different axial position than the second position. 3. The assembly of claim 2 , further comprising a controller with computer-readable instructions stored in non-transitory memory for adjusting the shifter assembly into the first and second positions based on a request from a control system external to the motorized disconnect assembly. 4. The assembly of claim 2 , further comprising one or more springs for axially positioning the clutch ring when teeth of the clutch ring misalign with teeth of the second shaft, wherein axial movement of the clutch ring occurs after axial movement of the shifter assembly upon alignment of the teeth of the clutch ring and second shaft. 5. The assembly of claim 2 , wherein the clutch ring rotates independent of the shifter assembly and wherein the clutch ring moves axially with the shifter assembly. 6. The assembly of claim 2 , wherein the first shaft is an intermediate shaft of an axle and the second shaft is a coupler shaft of the axle, the coupler shaft coupled to a wheel and further comprising an outer casing fully encasing the shifter assembly and an electric motor of the motorized disconnect assembly, the outer casing arranged along a mid-portion of the axle proximate to a differential arranged between the axle and a drive shaft of a vehicle. 7. The assembly of claim 2 , wherein the first shaft is an axle half shaft and the second shaft is a wheel hub including a coupler, further comprising a housing shaped to contain and enclose the shifter assembly, and further comprising a seal located on a side of the housing, the seal in contact with the first shaft. 8. A method for selectively engaging two shafts, comprising: during a first mode, holding a shifter assembly in a first position where the shifter assembly is engaged only with a first shaft via a worm gear driven by a motor adapted to rotate the worm gear in a first direction; upon receiving a command to shift to a second mode, driving the worm gear into contact with a gear track of the shifter assembly, the gear track oscillating between two ends of the shifter assembly, and moving the shifter assembly in a first axial direction and into a second position where the shifter assembly is engaged with both the first shaft and a second shaft; and upon receiving a command to shift back to the first mode, driving the worm gear in the first direction, and moving the shifter assembly in a second axial direction until the shifter assembly reaches the first position, the second axial direction opposite the first axial direction. 9. The method of claim 8 , wherein the first mode is a two-wheel drive mode and the second mode is a four-wheel drive mode. 10. The method of claim 8 , wherein the command to shift to the second mode and the command to shift back to the first mode are received by a controller coupled to the shifter assembly, the controller operating the motor. 11. The method of claim 10 , wherein the controller further includes programming for communicating with an external vehicle controller for receiving the commands to shift to the first and second modes. 12. The method of claim 10 , wherein the controller further includes inputs for receiving signals from a magnetic position sensor to determine if the shifter assembly has reached the first or second position, where the magnetic position sensor sends signals to the controller upon sensing one or more magnets positioned around a circumference of the shifter assembly. 13. A system, comprising: a controller disposed on a motorized disconnect assembly of a vehicle and that is operable to: activate an electric motor to rotate a worm gear coupled to the electric motor in a first direction in order to engage and rotatably couple a first shaft with a second shaft, the worm gear coupled to an oscillating gear track of a shifter assembly, the oscillating gear track coupled to a clutch ring adapted to engage with the second shaft; and activate the electric motor to continue rotating the worm gear in the first direction in order to disengage the clutch ring from the second shaft and decouple the first shaft and the second shaft. 14. The system of claim 13 , wherein the controller is in communicative connection with a vehicle controller located external to the motorized disconnect assembly. 15. The system of claim 13 , wherein the electric motor turns an output shaft equipped with a worm engaged with the worm gear. 16. The system of claim 13 , further comprising a control assembly containing the controller, the control assembly including a housing attached to a shifter structure of the motorized disconnect assembly. 17. The system of claim 13 , wherein the motorized disconnect assembly is positioned along a mid-portion of a vehicle axle and proximate to a differential positioned between the axle and a drive shaft of the vehicle. 18. The system of claim 13 , wherein the controller is further operable to receive a vehicle signal indicating forward or reverse vehicle motion and in response, drive the electric motor in a same direction as a direction of the vehicle motion.