Flex spline for use with a compound harmonic generator

What is claimed is: 1. A flex spline for a compound harmonic generator having a harmonic wave generator, a primary ring gear, and a secondary ring gear, the flex spline comprising: a primary flex spline with a first number of primary teeth, the primary flex spline driven by the harmonic wave generator and in meshed contact with the primary ring gear; and at least one secondary flex spline with a second number of secondary teeth, the at least one secondary flex spline driven by the harmonic wave generator and in meshed contact with the secondary ring gear, wherein the at least one secondary flex spline rotates independently from the primary flex spline. 2. The flex spline of claim 1 , wherein a first pitch diameter of the primary flex spline is equal to a second pitch diameter of the at least one secondary flex spline. 3. The flex spline of claim 1 , wherein a first pitch diameter of the primary flex spline is different than a second pitch diameter of the at least one secondary flex spline. 4. The flex spline of claim 1 , wherein a first tooth thickness of the primary flex spline is different than a second tooth thickness of the at least one secondary flex spline. 5. The flex spline of claim 1 , further comprising a rolling element to radially support the primary flex spline and the at least one secondary flex spline. 6. The flex spline of claim 1 , wherein the at least one secondary flex spline includes a first secondary flex spline disposed axially adjacent to the primary flex spline and a second secondary flex spline disposed axially adjacent to the primary flex spline and opposite to the first secondary flex spline. 7. A method for operating a compound harmonic generator having a harmonic wave generator, a primary ring gear, and a secondary ring gear, the method comprising: providing a primary flex spline with a first number of primary teeth; providing at least one secondary flex spline with a second number of secondary teeth; engaging the primary flex spline in meshed contact with the primary ring gear; engaging the at least one secondary flex spline in meshed contact with the secondary ring gear; driving the primary flex spline via the harmonic wave generator; driving the at least one secondary flex spline via the harmonic wave generator; and rotating the primary flex spline independently from the at least one secondary flex spline. 8. The method of claim 7 , wherein a first pitch diameter of the primary flex spline is equal to a second pitch diameter of the at least one secondary flex spline. 9. The method of claim 7 , wherein a first pitch diameter of the primary flex spline is different than a second pitch diameter of the at least one secondary flex spline. 10. The method of claim 7 , wherein a first tooth thickness of the primary flex spline is different than a second tooth thickness of the at least one secondary flex spline. 11. The method of claim 7 , further comprising radially supporting the primary flex spline and the at least one secondary flex spline via a rolling element. 12. The method of claim 7 , wherein the at least one secondary flex spline includes a first secondary flex spline disposed axially adjacent to the primary flex spline and a second secondary flex spline disposed axially adjacent to the primary flex spline and opposite to the first secondary flex spline. 13. A compound harmonic generator comprising: a harmonic wave generator; a motor to drive the harmonic wave generator; a primary ring gear; a secondary ring gear; and a flex spline comprising: a primary flex spline with a first number of primary teeth, the primary flex spline driven by the harmonic wave generator and in meshed contact with the primary ring gear; and at least one secondary flex spline with a second number of secondary teeth, the at least one secondary flex spline driven by the harmonic wave generator and in meshed contact with the secondary ring gear, wherein the at least one secondary flex spline rotates independently from the primary flex spline. 14. The compound harmonic generator of claim 13 , wherein a first pitch diameter of the primary flex spline is equal to a second pitch diameter of the at least one secondary flex spline. 15. The compound harmonic generator of claim 13 , wherein a first pitch diameter of the primary flex spline is different than a second pitch diameter of the at least one secondary flex spline. 16. The compound harmonic generator of claim 13 , wherein a first tooth thickness of the primary flex spline is different than a second tooth thickness of the at least one secondary flex spline. 17. The compound harmonic generator of claim 13 , further comprising a rolling element to radially support the primary flex spline and the at least one secondary flex spline. 18. The compound harmonic generator of claim 13 , further comprising an output arm coupled to the primary ring gear. 19. The compound harmonic generator of claim 13 , further comprising a ground arm coupled to the secondary ring gear. 20. The compound harmonic generator of claim 13 , wherein the at least one secondary flex spline includes a first secondary flex spline disposed axially adjacent to the primary flex spline and a second secondary flex spline disposed axially adjacent to the primary flex spline and opposite to the first secondary flex spline.