Passive method of preventing ball axle movement during a rollback event in a ball-planetary type continuously variable transmission

What is claimed is: 1. A carrier assembly for a continuously variable transmission having a plurality of balls, each having a tiltable ball axle, a first traction ring assembly in contact with each ball, and a second traction ring assembly in contact with each ball, the carrier assembly comprising: a first carrier member operably coupled to a first end of each tiltable ball axle; a second carrier member operably coupled to the first carrier member, the second carrier member operably coupled to a second end of each tiltable ball axle, the second carrier member configured to rotate with respect to the first carrier member; and an axle capture member fixedly coupled to the first carrier member, wherein the second carrier member is arranged between the first carrier member and the axle capture member. 2. The carrier assembly of claim 1 , wherein the axle capture member comprises: a body having a central bore; a plurality of hooks extending radially outward from the central bore; a plurality of extensions extending radially outward from the central bore; and wherein each extension has a bend between the central bore and a distal end of the extension. 3. The carrier assembly of claim 2 , wherein the first carrier member comprises a plurality of guide slots, each guide slot configured to support the first end of each tiltable ball axle. 4. The carrier assembly of claim 3 , wherein the second carrier member comprises a plurality of guide slots, each guide slot configured to support the second end of each tiltable ball axle. 5. The carrier assembly of claim 4 , wherein the axle capture member surrounds the second carrier member. 6. The carrier assembly of claim 4 , wherein the plurality of hooks contact the second end of the tiltable ball axle when the transmission is operating in an underdrive condition. 7. The carrier assembly of claim 6 , wherein the plurality of hooks release the second end of the tiltable ball axle when the tiltable ball axle is shifted towards an overdrive condition. 8. An axle capture member for a carrier assembly for a continuously variable transmission having a plurality of balls, each ball having a tiltable axis of rotation, a first traction ring assembly in contact with each ball, a second traction ring assembly in contact with each ball, the axle capture member comprising: a body having a central bore; a plurality of hooks extending radially outward from the central bore; a plurality of extensions extending radially outward from the central bore; and wherein each extension includes a first hook; wherein each extension has a bend radially between the first hook and a distal end of the extension. 9. The axle capture member of claim 8 , wherein the extension and the first hook are integral. 10. The axle capture member of claim 8 , wherein the axle capture member is configured to be non-rotatable. 11. A method of controlling a position of a ball axle provided in a continuously variable transmission having a plurality of balls, each having a tiltable ball axle, a first traction ring assembly in contact with each ball, a second traction ring assembly in contact with each ball, the method comprising: providing a first carrier member to support a first end of each ball axle; providing a second carrier member to support a second end of each ball axle; providing an axle capture member to selectively couple to the second end of each ball axle; and selectively coupling the axle capture member to the second end of the ball axle during an underdrive operating condition. 12. The method of claim 11 , further comprising the step of selectively decoupling the axle capture member from the second end of the ball axle during a shift in operating condition from underdrive towards overdrive. 13. The carrier assembly of claim 1 , wherein the first carrier member is non-rotatable.