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A power system for a working machine includes a transmission for driving the working machine, the transmission including a continuously variable gear box having a gear unit and a hydraulic variator unit; a work hydraulic circuit for controlling at least one hydraulic actuator of the working machine;

A power system for a working machine includes a transmission for driving the working machine, the transmission including a continuously variable gear box having a gear unit and a hydraulic variator unit; a work hydraulic circuit for controlling at least one hydraulic actuator of the working machine; wherein the hydraulic variator unit is hydraulically connected to the work hydraulic circuit to hydraulically transfer energy from the hydraulic variator unit to the work hydraulic circuit.

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1. A power system for a working machine, the power system comprising: a transmission for driving the working machine, the transmission comprising a continuously variable gear box having a gear unit and a hydraulic variator unit;a work hydraulic circuit for controlling at least one hydraulic actuator

1. A power system for a working machine, the power system comprising: a transmission for driving the working machine, the transmission comprising a continuously variable gear box having a gear unit and a hydraulic variator unit;a work hydraulic circuit for controlling at least one hydraulic actuator of the working machine;wherein the hydraulic variator unit is hydraulically connected to the work hydraulic circuit to hydraulically transfer energy from the hydraulic variator unit to the work hydraulic circuit, wherein the hydraulic variator unit comprises a primary hydraulic machine and a secondary hydraulic machine, wherein at least one of the primary hydraulic machine and the secondary hydraulic machine is hydraulically connected to the work hydraulic circuit; andwherein the primary and secondary hydraulic machine comprises: a first rotating hydraulic machine and a second rotating hydraulic machine, the first rotating hydraulic machine and second rotating hydraulic machine being arranged to provide a torque via a common output shaft;a first valve means for providing a differential hydraulic pressure level over the first rotating hydraulic machine by using two sources of hydraulic fluid having different hydraulic pressure levels;a second valve means for providing a differential hydraulic pressure level over the second rotating hydraulic machine by using two sources of hydraulic fluid having different hydraulic pressure levels; anda control unit configured to control the first valve means and the second valve means such that different discrete levels of torque are provided via the output shaft,wherein the first rotating hydraulic machine and the second rotating hydraulic machine are separate machines. 2. The power system according to claim 1, further comprising a hydraulic energy storage hydraulically connected to the hydraulic variator unit. 3. The power system according to claim 2, wherein the power system is configured to hydraulically transfer energy from the variator unit to the hydraulic energy storage. 4. The power system according to claim 2, wherein the power system is configured to hydraulically transfer energy from the hydraulic energy storage to the variator unit. 5. The power system according to claim 2, wherein the hydraulic energy storage is hydraulically connected to the work hydraulic circuit. 6. The power system according to claim 5, wherein the power system is configured to hydraulically transfer energy from the hydraulic energy storage to the work hydraulic circuit. 7. The power system according to claim 5, wherein the power system is configured to hydraulically transfer energy from the work hydraulic circuit to the hydraulic energy storage. 8. The power system according to claim 1, further configured to hydraulically transfer energy from the work hydraulic circuit to the hydraulic variator unit. 9. The power system according to claim 2, further comprising a control unit configured to maintain a pressure level of the hydraulic energy storage within a first predetermined range. 10. The power system according to claim 2, further comprising a second hydraulic energy storage hydraulically connected to the hydraulic variator unit and to the work hydraulic circuit. 11. The power system according to claim 10, wherein the control unit is configured to maintain a pressure level of the second hydraulic energy storage within a second predetermined range different from the first predetermined range. 12. The power system according to claim 1, wherein the variator unit is input coupled. 13. The power system according to claim 1, wherein the variator unit is output coupled. 14. The power system according to claim 1, wherein the work hydraulic circuit comprises a digital hydraulic actuator. 15. The power system according to claim 1, wherein at least one of the first rotating hydraulic machine and the second rotating hydraulic machine is a fixed displacement hydraulic machine. 16. The power system according to claim 1, wherein the valve means comprises on/off valves. 17. A working machine comprising a power system according to claim 1. 18. A power system for a working machine, the power system comprising: a transmission for driving the working machine, the transmission comprising a continuously variable gear box having a gear unit and a hydraulic variator unit;a work hydraulic circuit for controlling at least one hydraulic actuator of the working machine;wherein the hydraulic variator unit is hydraulically connected to the work hydraulic circuit to hydraulically transfer energy from the hydraulic variator unit to the work hydraulic circuit, wherein the hydraulic variator unit comprises a primary hydraulic machine and a secondary hydraulic machine, wherein at least one of the primary hydraulic machine and the secondary hydraulic machine is hydraulically connected to the work hydraulic circuit; andwherein the primary and secondary hydraulic machine comprises: a first rotating hydraulic machine and a second rotating hydraulic machine, the first rotating hydraulic machine and second rotating hydraulic machine being arranged to provide a torque via a common output shaft;a first valve means for providing a differential hydraulic pressure level over the first rotating hydraulic machine by using two sources of hydraulic fluid having different hydraulic pressure levels;a second valve means for providing a differential hydraulic pressure level over the second rotating hydraulic machine by using two sources of hydraulic fluid having different hydraulic pressure levels; anda control unit configured to control the first valve means and the second valve means such that different discrete levels of torque are provided via the output shaft, wherein the first rotating hydraulic machine is a fixed displacement hydraulic machine and the second rotating hydraulic machine is a variable displacement hydraulic machine. 19. A power system for a working machine, the power system comprising: a transmission for driving the working machine, the transmission comprising a continuously variable gear box having a gear unit and a hydraulic variator unit;a work hydraulic circuit for controlling at least one hydraulic actuator of the working machine;wherein the hydraulic variator unit is hydraulically connected to the work hydraulic circuit to hydraulically transfer energy from the hydraulic variator unit to the work hydraulic circuit, wherein the hydraulic variator unit comprises a primary hydraulic machine and a secondary hydraulic machine, wherein at least one of the primary hydraulic machine and the secondary hydraulic machine is hydraulically connected to the work hydraulic circuit; andwherein the primary and secondary hydraulic machine comprises: a first rotating hydraulic machine and a second rotating hydraulic machine, the first rotating hydraulic machine and second rotating hydraulic machine being arranged to provide a torque via a common output shaft;a first valve means for providing a differential hydraulic pressure level over the first rotating hydraulic machine by using two sources of hydraulic fluid having different hydraulic pressure levels;a second valve means for providing a differential hydraulic pressure level over the second rotating hydraulic machine by using two sources of hydraulic fluid having different hydraulic pressure levels; anda control unit configured to control the first valve means and the second valve means such that different discrete levels of torque are provided via the output shaft, wherein at least one of the differential hydraulic pressure level over the first rotating hydraulic machine and the differential hydraulic pressure level over the second rotating hydraulic machine is provided by using a first hydraulic accumulator having a first hydraulic pressure level and a second hydraulic accumulator having a second hydraulic pressure level, the first hydraulic pressure level being different from the second hydraulic pressure level.