Charge motion control valve and intake runner system

The invention claimed is: 1. An intake manifold, comprising: a plurality of intake ports with outlets aligned along a common cylinder head plane, where each of the plurality of intake ports includes an inner surface; a plurality of valve units, where each of the plurality of valve units is inside a corresponding intake port of the plurality of intake ports, each of the plurality of valve units surrounded by the inner surface of the corresponding intake port, and where each of the plurality of valve units includes: a valve plate, the valve plate rotated about a stationary end of the valve plate, tubing protruding from the stationary end of the valve plate and extending parallel to the stationary end on both sides of the valve plate, bushings surrounding the tubing on both sides of the valve plate, a cartridge that retains the stationary end of the valve plate, where the cartridge includes a U-shaped cavity at each end of the cartridge, and where the bushings and the tubing are positioned within each of the U-shaped cavities, a top of a U-shape for each of the U-shaped cavities being an opening on a front of the cartridge, where the openings on the front of the cartridge are covered by the inner surface of the corresponding intake port; and a welded connection encircling each intake port upstream of an axis of rotation. 2. The intake manifold of claim 1 , wherein the valve plate comprises a shaft slot at a stationary end thereof and where the tubing extends the shaft slot, the valve plate rotated by a shaft extending through the tubing and along the axis of rotation recessed within an inner wall, and wherein the valve plate is rotated about the stationary end. 3. The intake manifold of claim 1 , wherein the valve plate has a face with a same shape and dimensions as a cross sectional area of the corresponding intake port so that, when in a fully extended position, the valve plate blocks air flow through the corresponding intake port and the valve plate has an arc at both side edges away from an inner wall of the corresponding intake port with respect to a fully retracted position congruent to an arc of the inner surface of the corresponding intake port. 4. The intake manifold of claim 1 , wherein the bushings secure the tubing within the cartridge, and wherein the welded connection encircling each intake port is positioned between an intake branch of the intake manifold and the intake port of the intake manifold, the intake manifold independently constructed prior to combination of the intake manifold with other components of a cylinder head. 5. The intake manifold of claim 1 , wherein each intake port is adjacent to the welded connection and the welded connections are aligned along a common plane parallel to a crank shaft axis, and wherein a shaft rotating the valve plate traverses two tubular housings of the intake manifold. 6. An intake manifold, comprising: a plurality of ports with outlets aligned along a common head plane; a plurality of valve units, where each of the plurality of valve units is positioned within a corresponding port of the plurality of ports, each of the valve units including: a valve plate, the valve plate comprising a shaft slot at a stationary end thereof and a tubing that extends the shaft slot, the tubing protruding from and parallel to the stationary end of the valve plate, and wherein the valve plate is rotated by a shaft extending through the tubing; a cartridge positioned within a depression that is formed by walls of the corresponding port, and where a passage of the corresponding port is formed by the walls of the corresponding port, where a length of the depression is greater than a width of the passage, the length of the depression parallel to the width of the passage, the cartridge retaining the stationary end of the valve plate, the cartridge secured into the corresponding port by an intake manifold ridge, and bushings that secure the tubing within the cartridge, where the cartridge includes a U-shaped cavity at each end of the cartridge, and where the bushings and the tubing are positioned within each of the U-shaped cavities, a top of a U-shape for each of the U-shaped cavities being an opening on a front of the cartridge that is covered by the walls of the corresponding port, wherein an inner surface of the walls of the corresponding port cover the openings on the front of the cartridge; and a welded connection encircling each port upstream of the shaft and an inner wall ridge positioned at the welded connection. 7. The intake manifold of claim 6 , wherein the depression is congruent to the cartridge, and wherein the cartridge has a rectangular top, a rectangular bottom, a rectangular front, and a rectangular back, and wherein sides of the cartridge are square. 8. The intake manifold of claim 6 , wherein the depression is downstream and adjacent to the welded connection. 9. The intake manifold of claim 6 , wherein the bushings are rubber bushings within the cartridge. 10. The intake manifold of claim 6 , wherein the shaft is coupled to the plurality of valve units within respective ports of the plurality of ports, and where the valve plate has flush positioning when fully retracted so that the valve plate is aligned with interior surfaces of the corresponding port. 11. The intake manifold of claim 6 , wherein each cartridge is located in the intake manifold between a cylinder head and the welded connection of the intake manifold nearest the cylinder head. 12. The intake manifold of claim 6 , wherein the openings of the U-shaped cavity open in a direction towards a passage of the corresponding port. 13. The intake manifold of claim 12 , wherein the inner surface of the walls of the corresponding port further cover the bushings and the tubing that are positioned within each of the U-shaped cavities. 14. A method for operating an intake system of an engine, comprising: controlling intake of aircharge from an intake manifold to a combustion chamber within a cylinder block by actuating a valve that is positioned in a port of the intake manifold; and retracting the valve fully into the intake manifold when not in use, the valve including a valve plate which comprises a shaft slot at a stationary end thereof and a tubing that extends the shaft slot, wherein the valve plate is rotated by a shaft extending through the tubing, where bushings encompass portions of the tubing and secure the tubing within a cartridge that is positioned within the port of the intake manifold, the bushings fitting within a U-shaped cavity that is at each end of the cartridge, a top of a U-shape of each of the U-shaped cavities being an opening on a front of the cartridge, where the openings of the U-shaped cavities on the front of the cartridge are covered by an inner surface of the wall of the port. 15. The method of claim 14 , wherein the valve is actuated by a control system including instructions responsive to engine load and temperature conditions. 16. The method of claim 14 , wherein the aircharge includes a mixture of partially combusted exhaust gas from an EGR system and intake air. 17. The method of claim 14 , wherein actuating the valve is responsive to activation of EGR.