Balanced harmonic drive with output shaft disconnect

What is claimed is: 1. A harmonic drive, comprising: a housing; an output shaft within the housing; an input shaft within the housing, the input shaft is configured for being in a first position in which rotation of the input shaft rotates the output shaft, and a second position that is axially offset from the first position, in which rotation of the input shaft does not rotate the output shaft; a solenoid coil within the housing that, when energized, moves the input shaft to the second position; and a spring within the housing that, when the solenoid coil is not energized, moves the input shaft to the first position; wherein: the housing is hollow and extends axially from a first outer end to a second outer end; the input shaft extends axially from a first side to a second side, the first side faces the first outer end of the housing and the second side faces the second outer end of the housing; the solenoid coil is disposed at the second outer end of the housing and the defines a center aperture; the housing includes a radially extending perimeter wall that extends within the housing at the first outer end of the housing, and a radially extending partition wall that extends within the housing between the first and second outer ends to define a first cavity between the partition wall and the first outer end, and a second cavity between the partition wall and the second outer end, wherein the perimeter wall defines a first input shaft aperture and the partition wall defines a second input shaft aperture; and the input shaft is within the first cavity and the solenoid is in the second cavity, wherein the input shaft has a raised shoulder having a first side that faces the first outer end of the housing and a second side that faces the second outer end of the housing, and the spring extends between the partition wall to the shoulder of the input shaft. 2. The drive of claim 1 , wherein: the input shaft has a raised center portion located on the shoulder and that defines a wave generator profile; and the drive includes: a wave generator bearing set disposed radially against the wave generator profile of the input shaft and axially fixed against the input shaft so that when the input shaft moves axially, the wave generator bearing set moves axially with the input shaft; a flex spline within the first cavity, having a first outer end at the perimeter wall and a second outer end at the partition wall, and the flex spline defines an outer facing spline and the output shaft defines an inner facing gear set that meshes with the outer facing spline, wherein when the input shaft is in the first position, the center portion is aligned with the outer facing spline and mates with the wave generator profile of the input shaft via the wave generator bearing set, and when the input shaft is in the second position, the center portion, and wave generator bearing set, are axially offset from the outer facing spline. 3. The drive of claim 2 , wherein: the wave generator bearing extends axially from a first side to a second side; a first thrust washer disposed radially against the first side of the shoulder and axially against the first side of the wave generator bearing set; and a second thrust washer disposed radially against the second side of the shoulder and axially against the second side of the wave generator bearing set. 4. The drive of claim 3 , further comprising: a first containment washer disposed radially against the first side of the shoulder and axially against the first thrust washer to prevent movement of the first thrust washer against the input shaft; and a second containment washer disposed radially against the second side of the shoulder and axially against the second thrust washer to prevent movement of the second thrust washer against the input shaft, wherein when the input shaft moves between the first and second positions, the containment washers move the wave generator bearing set with the input shaft. 5. The drive of claim 4 , wherein: the flex spline includes: a first spline segment that is cup-shaped, having a first spline base at the first outer end of the flex spline and a first spline wall that extends from the first spline base to a first splined end defining a first portion of the outer facing spline; and a second spline segment that is cup-shaped, having a second spline base at the second outer end of the flex spline and a second spline wall that extends from the second spline base to a second spline end defining a second portion of the outer facing spline. 6. The drive of claim 4 , wherein: the housing as a housing outer wall; and an output flange aperture is defined in the housing outer wall, so that the output flange aperture is disposed axially along the first cavity; and an output flange, connected to the output shaft, extends outwardly from the output shaft, through the output flange aperture. 7. The drive of claim 6 , wherein: the perimeter wall includes a perimeter wall arm extending axially into the first cavity to a first inner arm end; the partition wall includes a partition wall arm extending axially into the first cavity to a second inner arm end, and the drive includes: a first thrust bearing disposed against the first inner arm end and engages the first side of the shoulder when the input shaft is in the first position; and a second thrust bearing disposed between the spring and the second side of the shoulder, and engages the second inner arm end when the input shaft is in the second position. 8. The drive of claim 7 , further comprising: a first input shaft bearing that engages the first side of the input shaft; a second input shaft bearing that engages the second side of the input shaft, and wherein the perimeter wall arm defines a first recess for seating the first input shaft bearing; and the partition wall defines a second recess for seating the second input shaft bearing. 9. The drive of claim 8 , wherein: the first spline base defines a first center aperture that is configured to receive the perimeter wall arm so that the perimeter wall arm separates the first spline base and the first input shaft bearing; and the second spline base defines a second center aperture that is configured to receive the partition wall arm so that the partition wall arm separates the second spline base and the spring. 10. The drive of claim 9 , wherein: the output shaft has: a center portion; a first output shaft arm extending toward the first outer end of the housing from the center portion of the output shaft; and a second output shaft arm extending toward the second outer end of the housing from the center portion of the output shaft, and the drive further includes: a first output shaft bearing disposed between the first output shaft arm and the housing; and a second output shaft bearing disposed between the second output shaft arm and the housing. 11. The drive of claim 10 , wherein: the housing defines an output shaft recess that seats the center portion of the output shaft, thereby axially securing the output shaft within the housing. 12. The drive of claim 11 , wherein: the housing defines a split housing, and includes: a first housing segment extending from the first outer end of the housing to a first inner end of the first housing segment; and a second housing segment extending from the second outer end of the housing to a second inner end of the second housing segment, wherein the first and second inner ends of the housing segments are disposed within the first cavity. 13. The drive of claim 12 , wherein: the output flange aperture is defined between