Mono or dual coaxial slider valve for controlling a twin scroll turbocharger

The invention claimed is: 1. A turbocharger with a turbine housing having at least a first volute, a second volute, and a wastegate, and comprising a valve housing defining one cylindrical space having a longitudinal axis, and having a first opening in communication with the first volute, a second opening in communication with the second volute, and a third opening in communication with the wastegate; one cup-shaped piston slidable within said cylindrical space between a full closed and a full open position, and having a piston shaft, displacement means adapted to effect selective displacement of the one cup-shaped piston between the full closed and the full open position, wherein the valve housing is integrated in a divider wall dividing two volutes of a turbine housing, wherein the valve housing has a cylindrical body projecting from the end opposite the displacement means and into the cup space of the cup-shaped piston when the cup-shaped piston is in the full extended position, wherein the projecting cylindrical body has two channels for wastegate, and a cross-channel for communication between the two volutes, wherein in the full closed position the first, second and third openings are blocked, wherein as the cup-shaped piston is partially retracted, the independent wastegate openings are partially opened, allowing exhaust gas to escape from the volutes to the wastegates, without however any communication between the volutes, wherein a lip is provided block gas communicating between volutes, and wherein as the cup-shaped piston is further retracted the cup-shaped piston clears the lip, and gas flows not only into wastegate but also can crosstalk between the volutes. 2. A turbocharger comprising a dual sequential coaxial slider valve, the turbine housing having at least a first volute, a second volute, and a wastegate port, and comprising a valve housing defining at least one cylindrical space having a longitudinal axis, and having at least a first opening in communication with the first volute, a second opening in communication with the second volute, and third opening in communication with the wastegate port; a inner piston slidable within said cylindrical space between a full closed and a full open position, and having a piston shaft, displacement means adapted to effect selective linear displacement of the inner piston between the full closed and the full open position, a outer piston coaxial with the inner piston, the outer piston having a center axis and having a bore along the center axis, said outer piston slidable between a full closed position and a full open position; means for urging said outer piston towards the full closed position; wherein the piston shaft of the inner piston extends through the bore in the outer piston, wherein in the full closed position of the inner piston the first and second openings are blocked by the inner piston and the third opening is blocked by the outer piston, and wherein as the inner piston is moved out if the full closed position and in the direction of the full open position: initially the inner piston unblocks the first and second openings, after unblocking the first and second openings, the inner piston contacts the outer piston and moves the outer piston along with it against the force of the spring means, and finally the movement of the inner piston moves the outer piston to the full open position of the outer piston in which the third opening is fully unblocked, allowing communication between the first, second and third openings. 3. The turbocharger according to claim 2 , wherein said means for urging said outer piston towards the full closed position is a mechanical spring means. 4. The turbocharger according to claim 3 , wherein said spring means is contained in a pneumatic actuator. 5. The turbocharger according to claim 2 , wherein said means for urging said outer piston towards the full closed position is a displacement means adapted to effect selective linear displacement of the outer piston between the full closed and the full open position. 6. The turbocharger according to claim 2 , wherein said turbine housing is a dual volute housing. 7. The turbocharger according to claim 1 , wherein the lip is a 1-5 mm lip which blocks the cross-channel during the first 1-5 mm retraction of the cup shaped piston, and wherein said lip does not block the wastegate channels.