High efficiency turbocharger with EGR system

What is claimed is: 1. An exhaust gas recirculation (EGR) control valve for a turbine volute, the EGR control valve comprising: a sealing flap operationally connected to a rotational drive mechanism at a proximal end, the sealing flap including a sealing surface that includes rounded edges; an EGR outlet duct configured to be mated to a turbine volute opening and provide for an EGR flow path; and the rotational drive mechanism is configured to move the sealing flap between first position and a second position to selectively provide fluid communication between: (a) the turbine volute and the EGR flow path, or (b) the turbine volute and a turbine exhaust path, or (c) the turbine volute and both the EGR flow path and the turbine exhaust path; wherein: in the first position, the turbine volute opening is sealed closed by the rounded edges mating with a chamfered edge of the turbine volute opening; in the second position the EGR flow path is provided from the turbine volute through the turbine volute opening to the EGR outlet duct; and in an intermediate position disposed between the first and second position, the turbine exhaust path is partially blocked by the sealing flap and the EGR flow path is provided from the turbine volute through the turbine volute opening to the EGR outlet duct. 2. The EGR control valve of claim 1 , wherein in the second position, a first side and a second side of the sealing flap are configured to seal against a first volute wall and a second volute wall that are machined walls. 3. The EGR control valve of claim 1 , further comprising a vertical offset between the rotational drive mechanism and the chamfered edge of the turbine volute opening. 4. The EGR control valve of claim 1 , wherein the sealing flap further comprises: side seals disposed on sides of the sealing flap between the proximal end and a distal end; and a gas port disposed on the sealing side of the sealing flap and fluidly connected to the side seals; wherein in the second position, an exhaust gas pressure acting on the gas port causes the side seals to press against turbine volute side walls. 5. The EGR control valve of claim 2 , wherein when the sealing flap is in the second position, the turbine exhaust path is substantially blocked by the sealing flap. 6. The EGR control valve of claim 1 , wherein when the sealing flap is in the first position, the EGR flow path is blocked by the sealing flap. 7. The EGR control valve of claim 1 , in which the sealing surface further includes rounded corners configured to mate with fillets disposed in the turbine volute. 8. An exhaust gas recirculation (EGR) control valve for a turbine volute, the EGR control valve comprising: a valve member configured to be disposed in a turbine volute and operationally connected to an actuator, the valve member including a sealing flap including a sealing surface with rounded edges; an EGR outlet duct configured to be mated to a turbine volute opening and provide for an EGR flow path; and an actuator configured to move the valve member between a first position and a second position to selectively provide fluid communication between: (a) the turbine volute and the EGR flow path, or (b) the turbine volute and a turbine exhaust path, or (c) the turbine volute and both the EGR flow path and the turbine exhaust path; wherein: in the first position, the turbine volute opening is sealed closed by the valve member; in the second position the EGR flow path is provided from the turbine volute through the turbine volute opening to the EGR outlet duct; and in an intermediate position disposed between the first and second position, the turbine exhaust path is partially blocked and the EGR flow path is provided from the turbine volute through the turbine volute opening to the EGR outlet duct. 9. The EGR control valve of claim 8 in which the valve member includes a concave surface opposite to the sealing surface, the sealing surface configured to align with a housing wall of the turbine volute when the valve member is in the first position. 10. The EGR control valve of claim 9 , wherein the concave surface is configured to guide exhaust flow to the EGR flow path when the valve member is in the intermediate position. 11. The EGR control valve of claim 9 , wherein the concave surface is configured to guide exhaust flow to the EGR flow path when the valve member is in the second position. 12. The EGR control valve of claim 9 , wherein when the valve member is in the second position, the sealing surface is adjacent to a bottom surface of the turbine volute. 13. The EGR control valve of claim 12 , wherein when the valve member is in the second position, the turbine exhaust path is substantially blocked by the valve member. 14. The EGR control valve of claim 9 , wherein when the valve member is in the first position, the sealing surface is disposed over the turbine volute opening. 15. The EGR control valve of claim 8 , wherein the actuator is a linear motion actuator. 16. The EGR control valve of claim 8 , wherein the valve member is a flapper and the actuator is a rotary actuator. 17. The EGR control valve of claim 16 , in which a distal end of the flapper is configured to mate with a recess in the turbine volute when the flapper is in the second position. 18. An exhaust gas recirculation (EGR) control valve for a turbine volute, the EGR control valve comprising: a valve member configured to be disposed in a turbine volute and operationally connected to an actuator, the valve member including a sealing flap including a sealing surface with rounded edges; an EGR outlet duct configured to be mated to a turbine volute opening and provide for an EGR flow path; an actuator configured to move the valve member between a first position and a second position to selectively provide fluid communication between: (a) the turbine volute and the EGR flow path, or (b) the turbine volute and a turbine exhaust path, or (c) the turbine volute and both the EGR flow path and the turbine exhaust path; wherein: in the first position, the valve member is disposed over the turbine volute opening and the turbine volute opening is sealed closed by the valve member; in the second position the EGR flow path is provided from the turbine volute through the turbine volute opening to the EGR outlet duct and the turbine exhaust path is substantially blocked by the valve member; and in an intermediate position disposed between the first and second position, the turbine exhaust path is partially blocked and the EGR flow path is provided from the turbine volute through the turbine volute opening to the EGR outlet duct; a valve position indicator configured to output a valve position of the valve member; and an EGR pressure sensor configured to determine and output an exhaust gas pressure. 19. The EGR control valve of claim 18 , wherein the valve member is configured to be positionable to provide a first EGR rate in a low-heat mode and positionable to provide a second EGR rate in a normal operating mode, the first EGR rate being greater than the second EGR rate. 20. The EGR control valve of claim 18 , wherein the valve member is configured to be repositionable in response to a control signal received from an engine control unit (ECU).