Infinitely variable transmissions, continuously variable transmissions, methods, assemblies, subassemblies, and components therefor

What we claim is: 1. A shifting mechanism for an infinitely variable transmission (IVT) having a longitudinal axis and a plurality of traction planet assemblies arranged angularly about the longitudinal axis, each traction planet assembly having a tiltable axle, the shifting mechanism comprising: a first carrier member having a first plurality of guide slots, the first carrier member configured to guide a first end of each tiltable axle of the traction planet assemblies; a second carrier member having a second plurality of guide slots, the second carrier member configured to guide a second end of each tiltable axle of the traction planet assemblies, wherein the first and second carrier members are rotatable about the longitudinal axis; and a carrier driver nut coupled to the first carrier member, the carrier driver nut adapted to translate axially to cause a rotation of the first carrier member with respect to the second carrier member. 2. The shifting mechanism of claim 1 , wherein the first plurality of guide slots are offset. 3. The shifting mechanism of claim 2 , further comprising a main shaft positioned along the longitudinal axis. 4. The shifting mechanism of claim 3 , wherein the main shaft is operably coupled to the first and second carrier members. 5. The shifting mechanism of claim 4 , wherein the carrier driver nut is adapted to translate axially along the main shaft. 6. The shifting mechanism of claim 1 , further comprising a shift fork operably coupled to the carrier driver nut, wherein the shift fork has a pivot axis that is offset from the longitudinal axis, wherein a pivoting of the shift fork corresponds to an axial translation of the carrier driver nut. 7. An infinitely variable transmission (IVT) having a main shaft positioned along a longitudinal axis, the IVT comprising: a plurality of traction planet assemblies arranged angularly about the longitudinal axis, each traction planet assembly having a tiltable axle; a first carrier member having a first plurality of guide slots, the first carrier member configured to guide a first end of each tiltable axle of the traction planet assemblies; a second carrier member having a second plurality of guide slots, the second carrier member configured to guide a second end of each tiltable axle of the traction planet assemblies, wherein at least one of the first carrier member and the second carrier member receives a rotational power input from the main shaft, and wherein the first carrier member is capable of rotating with respect to the second carrier member, and a carrier driver nut coupled to the first carrier member, the carrier driver nut adapted to translate axially, wherein an axial translation of the carrier driver nut corresponds to a rotation of the first carrier member with respect to the second carrier member. 8. The IVT of claim 7 , wherein the main shaft is operably coupled to the first carrier member and the second carrier member. 9. The IVT of claim 8 , wherein the first and second carrier members receive the rotational power from the main shaft. 10. The IVT of claim 7 , wherein the carrier driver nut is adapted to translate axially along the main shaft. 11. The IVT of claim 7 , wherein an axial translation of the carrier driver nut corresponds to a rotation of the carrier driver nut. 12. The IVT of claim 7 , further comprising a first traction ring in contact with the plurality of traction planet assemblies, the first traction ring substantially non-rotatable about the longitudinal axis. 13. The IVT of claim 7 , further comprising a second traction ring in contact with the plurality of traction planet assemblies, the second traction ring adapted to provide a power output. 14. The IVT of claim 13 , further comprising a disengagement mechanism for mechanically decoupling the second traction ring from a load. 15. The IVT of claim 7 , further comprising a shift fork operably coupled to the carrier driver nut, wherein the shift fork has a pivot axis that is offset from the longitudinal axis, wherein a pivoting of the shift fork corresponds to an axial translation of the carrier driver nut. 16. The IVT of claim 15 , wherein the axial translation of the carrier driver nut corresponds to a rotation of the carrier driver nut about the longitudinal axis. 17. The IVT of claim 7 , wherein the first plurality of guide slots are offset.