Multi-range CVT

What is claimed is: 1. A multi-range continuously variable transmission including an input shaft and an output shaft, comprising: a powershift clutch device connected to the input shaft, wherein the powershift clutch device is operatively arranged to switch between a forward driving mode and a reverse driving mode; a continuously adjustable variator connected to the powershift clutch device; a direct drive stage non-rotatably secured to the input shaft and variably connected to the output shaft; a first shifting level variably connected to the continuously adjustable variator and non-rotatably connected to the output shaft forming a first operating range; and, a second shifting level variably connected to the continuously adjustable variator and non-rotatably connected to the output shaft forming a second operating range; wherein, the first and second operating ranges comprise infinitely variable gear ratios and the direct drive stage non-rotatably connects to the output shaft when a switch between the first operating range and second operating range occurs. 2. The multi-range continuously variable transmission recited in claim 1 , wherein a gear ratio of the direct drive stage is selected such that an overall gear ratio over a branch of the direct drive is the same as the overall gear ratio over a branch of the variator. 3. The multi-range continuously variable transmission recited in claim 1 , wherein the direct drive stage comprises a drive coupling and is switched between a variator input and one of the shifting levels. 4. The multi-range continuously variable transmission recited in claim 3 , wherein the drive coupling is designed as a dog clutch. 5. The multi-range continuously variable transmission claim 1 , wherein the first operating range is produced when the direct drive stage is switched between a powershift clutch device and a first shifting level. 6. The multi-range continuously variable transmission recited in claim 5 , wherein the second operating range is produced when a shifting clutch is arranged between the first shifting level and a second shifting level. 7. The multi-range continuously variable transmission recited in claim 6 , wherein the shifting clutch is designed as a dog clutch. 8. The multi-range continuously variable transmission recited in one of claim 5 , wherein the powershift clutch device is designed as a double clutch for shifting forwards and backwards. 9. A method to operate a multi-range continuously variable transmission, including an input shaft and an output shaft, comprising a powershift clutch device connected to the input shaft, wherein the powershift clutch device is operatively arranged to switch between a forward driving mode and a reverse driving mode, a continuously adjustable variator connected to the powershift clutch device, a direct drive stage non-rotatably secured to the input shaft and variably connected to the output shaft, a first shifting level variably connected to the continuously adjustable variator and non-rotatably connected to the output shaft forming a first operating range and, a second shifting level variably connected to the continuously adjustable variator and non-rotatably connected to the output shaft forming a second operating range, wherein the first and second operating ranges comprise infinitely variable gear ratios and the direct drive stage non-rotatably connects to the output shaft when a switch between the first operating range and second operating range occurs, the method comprising: shifting occurring between the variator and the direct drive stage under full load without interruption of traction at a range change point. 10. The method recited in claim 9 , wherein prior to opening a coupling element allocated to the variator, the variator gear ratio is adjusted towards underdrive for load transfer to the direct drive stage.