Diaphragm valve with diaphragm seat carrier

I claim: 1. A diaphragm valve, comprising: a valve body comprising a valve cavity, a first port and a second port, said first port and said second port being open to said valve cavity, a valve subassembly disposed to seal said valve cavity, said valve subassembly comprising a valve seat defining a longitudinal axis, a seat carrier and a diaphragm, with an outer periphery of said diaphragm welded to said seat carrier at an outer peripheral edge of the diaphragm outer periphery, said valve seat being retained with said seat carrier and disposed to surround said first port, said valve seat comprising a flow passage in fluid communication with said first port; and a retainer assembled with the valve body and including an annular bead that directly and removably contacts an exterior peripheral surface of the diaphragm outer periphery radially inboard of the outer peripheral edge to apply a compressive load to the diaphragm; wherein said seat carrier comprises an annular body having an outer rim and a web that extends radially inward from said outer rim to a central opening, said central opening being aligned with said first port, wherein said web comprises a plurality of flow passages separated by lands about said central opening. 2. The diaphragm valve of claim 1 , wherein each said land between adjacent pairs of said flow passages has a lateral surface area, perpendicular to the valve seat axis, that is less than a lateral cross-sectional area of said second port so as to reduce obstruction of flow when said land overlays said second port. 3. The diaphragm valve of claim 1 , wherein each said land has a horizontal dimension between adjacent pairs of flow passages that is less than half of a diameter of the second port. 4. The diaphragm valve of claim 1 , wherein each said land has a horizontal dimension between adjacent pairs of flow passages that is less than ⅕ of a diameter of the second port. 5. The diaphragm valve of claim 1 , wherein a bottom surface of the web is spaced apart from a bottom surface of the seat carrier by a gap, wherein a height of the gap times a width dimension of each land between adjacent pairs of flow passages is equal to or greater than a flow area of the second port. 6. The diaphragm valve of claim 1 wherein said diaphragm comprises stainless steel, said seat carrier comprises stainless steel, and said valve seat comprises a polymer or plastic. 7. The diaphragm valve of claim 1 wherein said diaphragm is operable to open and close flow between said first port and said second port, said diaphragm being moveable into contact with said valve seat to close flow between said first port and said second port. 8. The diaphragm valve of claim 1 wherein said seat carrier has a spring rate of less than 100,000 lbs/in. 9. The diaphragm valve of claim 1 wherein said seat carrier has a spring rate of less than 80,000 lbs/in. 10. The diaphragm valve of claim 1 wherein said seat carrier has a spring rate of approximately 20,000 lbs/in. 11. The diaphragm valve of claim 1 wherein said valve seat is retained with said seat carrier by an interference fit between a circumferential wall of said valve seat and a wall of said web that defines said central opening. 12. The diaphragm valve of claim 1 wherein said web is flexible so that said web biases a surface of said valve seat that faces away from said diaphragm into contact with a seal surface that surrounds said first port. 13. The diaphragm valve of claim 1 wherein said diaphragm comprises a domed circular disk, said retainer comprising a threaded member that applies a compressive load to said diaphragm against said seat carrier and radially inward of said weld. 14. The diaphragm valve of claim 1 in combination with a valve actuator that is operable to move a surface of said diaphragm into and out of contact with said valve seat.