Spiral pumping stage and vacuum pump incorporating such pumping stage

The invention claimed is: 1. A spiral pumping stage, comprising: a stator ring comprising a plurality of spiral channels on at least one face thereof, an inner perimeter, an outer perimeter, and an outer side wall; a rotor disc arranged opposite to the at least one face and configured for rotating at high speed; a main inlet at the inner perimeter; an outlet at the outer perimeter; and an additional side inlet at the outer side wall, wherein: the stator ring is divided into a first circular sector extending to the additional side inlet and a second circular sector extending on a remaining portion of the stator ring; and the plurality of spiral channels on the at least one face comprises one or more centripetal pumping channels defined by corresponding spiral ribs and extending in the first circular sector from respective channel inlets of the one or more centripetal pumping channels at the outer perimeter toward respective channel outlets of the one or more centripetal pumping channels at the inner perimeter, and one or more centrifugal pumping channels defined by corresponding spiral ribs and extending in the second circular sector from respective channel inlets of the one or more centrifugal pumping channels at the inner perimeter toward respective channel outlets of the one or more centrifugal pumping channels at the outer perimeter. 2. The spiral pumping stage according to claim 1 , wherein the channel inlets of the centripetal pumping channels are in flow communication with the additional side inlet and the channel outlets of the centripetal pumping channels are in flow communication either with the main inlet or with the channel inlets of corresponding centrifugal pumping channels. 3. The spiral pumping stage according to claim 2 , wherein one or more of the channel outlets of the centripetal pumping channels arrive at a region along a line dividing the first circular sector from the second circular sector before having reached the inner perimeter, and are joined to the channel inlets of corresponding centrifugal pumping channels through respective joining portions. 4. The spiral pumping stage according to claim 2 , wherein the channel inlets of the centrifugal pumping channels are in flow communication either with the main inlet or with the channel outlets of corresponding centripetal pumping channels and the channel outlets of the centrifugal pumping channels are in flow communication with the outlet. 5. The spiral pumping stage according to claim 4 , comprising a stripper radially extending from the inner perimeter to the outer perimeter, wherein one or more of the channel outlets of the centrifugal pumping channels arrive at a region along a line dividing the second circular sector from the first circular sector before having reached the outer perimeter, and are joined to the outlet through the stripper. 6. The spiral pumping stage according to claim 5 , wherein the stripper is a first stripper, and further comprising a second stripper positioned at a region dividing a first circular sector from the second circular sector and at a distance from the first stripper. 7. The spiral pumping stage according to claim 1 , wherein the first circular sector symmetrically extends on both sides of the additional side inlet. 8. The spiral pumping stage according to claim 7 , wherein the first circular sector extends over an angle of 90° on both sides of the additional side inlet. 9. The spiral pumping stage according to claim 1 , wherein the main inlet is configured for flow communication with a centripetal pumping stage arranged upstream the spiral pumping stage. 10. The spiral pumping stage according to claim 1 , wherein: the at least one face is a bottom face; the rotor disc opposite to the at least one face is a first rotor disc; the stator ring comprises a top face, the top face comprising one or more centripetal pumping channels; and the top face is configured to cooperate with a second rotor disc arranged opposite to the top face to form the centripetal pumping stage arranged upstream the spiral pumping stage. 11. The spiral pumping stage according to claim 1 , wherein the outlet is configured for flow communication with a centripetal pumping stage arranged downstream the spiral pumping stage. 12. A vacuum pump, comprising: a pump housing comprising a main pump inlet, a pump outlet, and a side surface; a plurality of spiral pumping stages formed by respective stator rings and corresponding cooperating rotor discs arranged between the main pump inlet and the pump outlet; and a side pump inlet provided at the side surface between the main pump inlet and the pump outlet, wherein the plurality of spiral pumping stages comprises a centripetal/centrifugal pumping stage, the centripetal/centrifugal pumping stage comprising: a stator ring comprising a plurality of spiral channels on at least one face thereof, an inner perimeter, an outer perimeter, and an outer side wall; a rotor disc arranged opposite to the at least one face at the side pump inlet, and configured for rotating at high speed; a main inlet at the inner perimeter; an outlet at the outer perimeter; and an additional side inlet at the outer side wall, wherein: the stator ring is divided into a first circular sector extending to the additional side inlet and a second circular sector extending on a remaining portion of the stator ring; and the plurality of spiral channels on the at least one face comprises one or more centripetal pumping channels defined by corresponding spiral ribs and extending in the first circular sector from respective channel inlets of the one or more centripetal pumping channels at the outer perimeter toward respective channel outlets of the one or more centripetal pumping channels at the inner perimeter, and one or more centrifugal pumping channels defined by corresponding spiral ribs and extending in the second circular sector from respective channel inlets of the one or more centrifugal pumping channels at the inner perimeter toward respective channel outlets of the one or more centrifugal pumping channels at the outer perimeter, and wherein the centripetal/centrifugal pumping stage is arranged such that the additional side inlet at least partially overlaps with the side pump inlet. 13. The vacuum pump according to claim 12 , wherein the centripetal/centrifugal pumping stage is arranged such that the additional side inlet completely overlaps with the side pump inlet. 14. The vacuum pump according to claim 12 , wherein the centripetal/centrifugal pumping stage is arranged downstream the main pump inlet or downstream a centripetal pumping stage of the plurality of spiral pumping stages, and is arranged upstream a centripetal pumping stage of the plurality of spiral pumping stages or upstream the pump outlet. 15. The vacuum pump according to claim 12 , further comprising a plurality of turbomolecular pumping stages arranged upstream the plurality of spiral pumping stages. 16. The vacuum pump according to claim 12 , wherein, at the at least one face of the stator ring of the centripetal/centrifugal pumping stage, the channel inlets of the centripetal pumping channels are in flow communication with the additional side inlet and the channel outlets of the centripetal pumping channels are in flow communication either with the main inlet or with the channel inlets of corresponding centrifugal pumping channels. 17. The vacuum pump according to claim 12 , wherein: the at least one face is a bottom face of the stator ring of the centripetal/centrifugal pumping stage; the rotor disc