Flowmeter for measuring flow of a process fluid through a conduit including upstream and downstream process variable sensors mounted on the pitot tube

What is claimed is: 1. A flowmeter for measuring flow of a process fluid through a conduit, comprising: a pitot tube extending into the conduit which creates a differential pressure in the process fluid due to flow of the process fluid; an upstream process variable sensor mounted on the pitot tube and exposed to a pressure generated by the flow of process fluid configured to sense an upstream process variable of the process fluid and responsively provide a first output; a downstream process variable sensor mounted downstream of the upstream process variable sensor mounted on the pitot tube and exposed to a pressure generated by the flow of process fluid configured to sense a downstream process variable of the process fluid and responsively provide a second output; and a measurement circuitry configured to determine the flow of the process fluid based upon the first output from the upstream process variable sensor and the second output from the downstream process variable sensor; wherein the upstream and downstream process variable sensors comprise a brittle material having a cavity formed therein which deforms in response to applied pressure. 2. The flowmeter of claim 1 wherein the upstream and downstream process variable sensors comprise pressure sensors. 3. The flowmeter of claim 1 including a differential pressure sensor configured to sense a differential pressure created by the pitot tube. 4. The flowmeter of claim 3 wherein the measurement circuitry provides an output based upon a difference between the measured differential pressure and a difference between the first and second process variable. 5. The flowmeter of claim 1 wherein at least one of the upstream and downstream process variable sensors includes a temperature sensor. 6. The flowmeter of claim 1 wherein the measurement circuitry provides a diagnostic output based upon the upstream process variable and the downstream process variable. 7. The flowmeter of claim 6 wherein the diagnostic output is related to degradation of the pitot tube. 8. The flowmeter of claim 6 wherein the diagnostic output comprises an indication of clogging of an impulse tube which couples the pitot tube to a pressure sensor. 9. The flowmeter of claim 1 wherein the measurement circuitry determines a flow profile of process fluid based upon the upstream and downstream process variables. 10. The flowmeter of claim 1 wherein the measurement circuitry detects contact between the pitot tube and the conduit based upon an output from at least one of the upstream and downstream process variables. 11. The flowmeter of claim 1 wherein the measurement circuitry calculates the density of the process fluid based upon at least one of the upstream and downstream process variables. 12. The flowmeter of claim 1 wherein the measurement circuitry calculates mass flow based upon at least one of the upstream and downstream process variables. 13. The flowmeter of claim 12 wherein the mass flow is calculated based upon an amplitude of a process variable. 14. The flowmeter of claim 1 wherein at least one of the upstream and downstream process variable sensors is mounted on an outside surface of the flow tube. 15. The flowmeter of claim 1 including a second downstream process variable sensor. 16. The flowmeter of claim 1 wherein at least one of the upstream and downstream process variable sensors is mounted in a plenum of the flow tube. 17. A method for measuring flow of a process fluid flowing through a conduit, comprising: placing a pitot tube in the flow of process fluid through the conduit, the pitot tube generating an upstream and a downstream pressure; placing an upstream process variable sensor on an upstream side of the pitot tube to sense an upstream process variable and responsively provide a first output; placing a downstream process variable sensor on a downstream side of the pitot tube to sense a downstream process variable and responsively provide a second output, wherein the upstream and downstream process variable sensors comprise a brittle material having a cavity formed therein which deforms in response to applied pressure; and determining flow of the process fluid based upon the first output from the sensed upstream pressure variable and the second output from the sensed downstream pressure variable. 18. The method of claim 17 wherein the upstream and downstream process variable sensors comprise pressure sensors. 19. The method of claim 17 including measuring a differential pressure between the upstream and downstream process variables using a differential pressure sensor. 20. The method of claim 19 including providing an output based upon a difference between the measured differential pressure and a difference between the first and second process variable. 21. The method of claim 19 including compensating the measured differential pressure is compensated based upon the upstream process variable and the downstream process variable. 22. The method of claim 17 wherein at least one of the upstream and downstream process variables sensors senses temperature. 23. The method of claim 17 including providing a diagnostic output based upon the upstream process variable and the downstream process variable. 24. The method of claim 23 wherein the diagnostic output is related to degradation of the pitot tube. 25. The method of claim 23 wherein the diagnostic output comprises an indication of clogging of an impulse tube which couples the pitot tube to a pressure sensor. 26. The method of claim 17 including determining a flow profile of process fluid based upon the upstream and downstream process variables. 27. The method of claim 17 including calculating density of the process fluid based upon at least one of the upstream and downstream process variables. 28. The method of claim 17 including calculating mass flow based upon at least one of the upstream and downstream process variables. 29. The method of claim 17 wherein at least one of the upstream and downstream process variable sensors is mounted on an outside surface of the flow tube. 30. The method of claim 17 wherein at least one of the upstream and downstream process variable sensors is mounted in a plenum of the flow tube. 31. A flowmeter for measuring flow of a process fluid through a conduit, comprising: a pitot tube extending into the conduit which creates a differential pressure in the process fluid due to flow of the process fluid; an upstream plenum in the pitot tube which carries an upstream pressure generated by flow of the process fluid; a downstream plenum in the pitot tube which carries a downstream pressure generated by flow of the process fluid; a differential pressure sensor mounted in the pitot tube and coupled between the upstream and downstream plenums configured to measure a differential pressure between the upstream and downstream pressures; measurement circuitry configured to determine the flow of the process fluid based upon the measured differential pressure.