Method of controlling wastegate flow using port side wall contour

What is claimed is: 1. An exhaust gas turbocharger including: a turbine housing ( 10 ) including a turbine volute ( 18 ) adapted to guide that uses exhaust gas flow to a turbine wheel housed in the turbine housing ( 10 ); a bypass channel formed in the turbine housing ( 10 ); a wastegate port ( 14 ) communicating between the turbine volute ( 18 ) upstream of the turbine wheel and the bypass channel; a valve seat ( 26 ) immediately around the wastegate port ( 14 ); a valve ( 16 ) having an arm ( 20 ) connected to a valve head ( 22 ), the valve head ( 22 ) dimensioned to seat on said valve seat ( 26 ), the valve ( 16 ) operable to move the valve head ( 22 ) between a seated position and an open position relative to the wastegate port ( 14 ) for selectively blocking and unblocking the wastegate port ( 14 ); and a side wall ( 30 ) including an extending wall portion ( 31 ) formed by the bypass channel of the turbine housing ( 10 ) so as to surround the valve head ( 22 ) as the valve head ( 22 ) moves between the seated position and the open position; wherein the extending wall portion ( 31 ) of the sidewall ( 30 ) is formed a throat area (At) between the extending wall portion ( 31 ) of the sidewall ( 30 ) and valve head ( 22 ) gradually increases as the valve head ( 22 ) moves between the seated position and the open position; and wherein the exhaust gas flow through the bypass channel is controlled by the throat area (At) between the extending wall portion ( 31 ) of the sidewall ( 30 ) and valve head ( 22 ). 2. The turbocharger of claim 1 wherein the extending wall portion ( 31 ) of the side wall ( 30 ) extends from the valve seat ( 26 ). 3. The turbocharger of claim 1 wherein the side wall ( 30 ) has an area progression in a concave portion ( 40 ) that is configured to fit a mass flow versus actuator angle profile, and is smaller than an effective curtain area between the valve head ( 22 ) and a valve seat ( 26 ) surrounding the wastegate port ( 14 ). 4. The turbocharger of claim 1 wherein the side wall ( 30 ) includes a concave portion ( 40 ) adjacent to an outer end ( 27 ) of the valve head ( 22 ) that corresponds to a desired flow area at a given valve opening angle. 5. The turbocharger of claim 4 , wherein the concave portion ( 40 ) of the side wall ( 30 ) is closer to the valve head ( 22 ) at smaller valve opening angles, and correspondingly wherein the concave portion ( 40 ) of the contoured side wall ( 30 ) is farther from the valve head ( 22 ) at increased valve opening angles. 6. The turbocharger of claim 1 wherein the side wall ( 30 ) incorporates hole wells ( 50 ). 7. The turbocharger of claim 6 wherein the hole wells ( 50 ) are channels that extend from the wastegate port ( 14 ). 8. The turbocharger of claim 1 wherein the valve ( 16 ) is configured to pivot relative to the wastegate port ( 14 ). 9. An exhaust gas turbocharger including: a turbine housing ( 10 ) including a turbine volute ( 18 ) adapted to guide that uses exhaust gas flow to a turbine wheel housed in the turbine housing ( 10 ); a bypass channel formed in the turbine housing ( 10 ); a wastegate port ( 14 ) communicating between the turbine volute ( 18 ) upstream of the turbine wheel and the bypass channel; a valve seat ( 26 ) immediately around the wastegate port ( 14 ); a valve ( 16 ) having a pivotable arm ( 20 ) connected to a valve head ( 22 ), the valve head ( 22 ) dimensioned to seat on said valve seat ( 26 ), the valve ( 16 ) operable to move the valve head ( 22 ) between a seated position and an open position relative to the wastegate port ( 14 ) for selectively blocking and unblocking the wastegate port ( 14 ); and a side wall ( 30 ) including an extending wall portion ( 31 ) formed by the bypass channel of the turbine housing ( 10 ) so as to surround the valve head ( 22 ) as the valve head ( 22 ) moves between the seated position and the open position; wherein the side wall ( 30 ) includes a concave portion ( 40 ) that is adjacent to an outer end ( 27 ) of the valve head ( 22 ) and that corresponds to a desired flow area at a given valve opening angle; wherein the extending wall portion ( 31 ) of the sidewall ( 30 ) is formed a throat area (At) between the extending wall portion ( 31 ) of the sidewall ( 30 ) and valve head ( 22 ) gradually increases as the valve head ( 22 ) moves between the seated and the open position; and wherein the exhaust gas flow through the bypass channel is controlled by the throat area (At) between the extending wall portion ( 31 ) of the sidewall ( 30 ) and valve head ( 22 ). 10. The turbocharger of claim 9 wherein the concave portion ( 40 ) of the side wall ( 30 ) is closer to the valve head ( 22 ) at smaller valve opening angles, and correspondingly wherein the concave portion ( 40 ) of the side wall ( 30 ) is farther from the valve head ( 22 ) at increased valve opening angles. 11. The turbocharger of claim 9 wherein the side wall ( 30 ) incorporates hole wells ( 50 ). 12. The turbocharger of claim 11 wherein the hole wells ( 50 ) are channels that extend from the wastegate port ( 14 ).