Infinite variable transmission with planetary gear set

What is claimed is: 1. A continuously variable planetary transmission comprising: an input shaft; a first planetary gear set comprising a first carrier drivingly engaged to the input shaft, a first sun gear drivingly engaged to a first set of planet gears which are engaged to a first ring gear, wherein the first ring gear is fixed to a first casing of the first planetary gear set, and wherein a first ring assembly of a variator is drivingly engaged to the first sun of the first planetary gear set; the variator comprising a plurality of variator balls mounted on axes, themselves held in a cage or variator carrier allowing changing of an input or output ratio by tilting the variator balls' axes, the first ring assembly and a second ring assembly that is drivingly engaged to a second sun gear of a second planetary gear set; and the second planetary gear set comprising the second sun that is drivingly engaged to a second set of planet gears, and a second carrier coupled to the input shaft, wherein the second set of planet gears is drivingly engaged to a second ring gear of the second planetary gear set, and wherein said second ring gear is mechanically coupled to a differential. 2. The variable transmission of claim 1 , comprising an infinitely variable mode. 3. The variable transmission of claim 1 , wherein the first planetary gear set is an up-speed planetary gear set. 4. The first planetary gear set of claim 3 , wherein an output of speed of said first planetary gear set is greater than an input shaft speed of the input shaft. 5. The variable transmission of claim 1 , wherein the second planetary gear set is a coupling planetary gear set, wherein an output of the variator is coupled to the second sun and coupled to the input shaft through the second carrier. 6. The variable transmission of claim 1 , wherein a first part of power from a power source will pass through the variator, the second planetary sun, second set of planet gears and second ring gear, and a second part of the power will pass directly through the second planetary carrier, second set of planet gears and second ring gear. 7. The variable transmission of claim 1 , wherein the second carrier turns at the same speed as the input shaft. 8. The variable transmission of claim 1 , wherein the second sun gear turns at a speed range between a speed of the input shaft multiplied by a minimum speed ratio of the variator multiplied by an up-speed ratio of the first planetary gear set and the speed of the input shaft multiplied by a maximum speed ratio of the variator multiplied by the up-speed ratio of the first planetary gear set. 9. The variable transmission of claim 1 , wherein a power output going to the differential from the second ring can go from a forward direction to a reverse direction through standstill thereby providing an infinitely variable mode. 10. The variable transmission of claim 1 , wherein an up-speed ratio gear set increases speeds acting on the variator. 11. The variable transmission of claim 1 , wherein an up-speed ratio gear set decreases the torque acting on the variator. 12. The variable transmission of claim 1 , wherein a minimum speed ratio in the variator brings a ring speed of the ring gear of the planetary gear set on an output side of the variator to a maximum forward speed while the maximum speed ratio in the variator brings the ring speed of the ring gear of the planetary gear set on the output side of the variator to a maximum reverse speed. 13. The variable transmission of claim 1 , further comprising a torsional damper drivingly connected to an input power source, wherein said torsional damper is located between the input power source and the variator to avoid or reduce transferring torque peaks and vibrations from the input power source to one or more of the input shaft, the first planetary gear set, the variator, and the secondary planetary gear set. 14. The variable transmissions of claim 1 , wherein said transmission provides a powered neutral ratio. 15. The variable transmission of claim 1 , wherein said torsional damper is coupled with a clutch. 16. The variable transmission of claim 1 , wherein the variator works with a traction fluid lubricant, wherein the lubricant between the balls and the first and second ring assemblies acts as a solid at high pressure, transferring the power from the first ring assembly, through the variator balls, to the second ring assembly.