Process variable measurement noise diagnostic

What is claimed is: 1. A process variable transmitter, comprising: a process variable sensor configured to sense a process variable of an industrial process and responsively provide a sensor signal representative of the sensed process variable; an analog-to-digital (A/D) converter receiving the sensor signal provided by the process variable sensor that senses the process variable and converts the sensor signal to a digital signal at a conversion rate; a processor that receives the digital signal and provides a measurement output indicative of the process variable based upon the digital signal; and a noise detector that receives the sensor signal at a refresh rate that is greater than the conversion rate, and generates a first value indicative of a number of positive noise events relative to a positive threshold value, and a second value indicative of a number of negative noise events relative to a negative threshold value, the processor evaluating the positive noise events and the negative noise events and generating a noise output that is indicative of detected noise based on the first and second values, wherein the noise detector comprises: a positive noise threshold generator that receives the sensor signal and generates the positive threshold value as a positive voltage threshold; and a negative noise threshold generator that receives the sensor signal and generates the negative threshold value as a negative voltage threshold. 2. The process variable transmitter of claim 1 wherein the noise detector further comprises: a positive noise counter that receives the sensor signal, a clock input and the positive voltage threshold and accumulates the positive noise events with each clock pulse on the clock signal when the sensor signal exceeds the positive voltage threshold in a positive direction. 3. The process variable transmitter of claim 2 wherein the noise detector further comprises: a negative noise counter that receives the sensor signal, a clock input and the negative voltage threshold and accumulates the negative noise events with each clock pulse on the clock signal when the sensor signal exceeds the negative voltage threshold in a negative direction. 4. The process variable transmitter of claim 3 wherein the processor generates the noise output based on the accumulation of the positive and negative noise events. 5. The process variable transmitter of claim 4 wherein the processor generates the noise output as a characterization of noise based on the accumulation of the positive and negative noise events. 6. The process variable transmitter of claim 5 wherein the processor generates the characterization of noise as the A/D converter is converting the sensor signal to the digital signal. 7. The process variable transmitter of claim 5 wherein the processor generates the noise output by analyzing the first and second values to identify noise symmetry, noise frequency and noise level. 8. The process variable transmitter of claim 6 wherein the A/D converter converts the sensor signal to the digital signal over a settling time and wherein the processor generates the noise output to identify whether settling time is contributing to measurement inaccuracies. 9. The process variable transmitter of claim 5 wherein the processor generates a noise profile for the process variable transmitter based on characterizations of the noise over time. 10. The process variable transmitter of claim 1 wherein the processor intermittently latches the sensor signal across a storage capacitor at the refresh rate and wherein the positive and negative noise threshold generators receive, as the sensor signal, the voltage across the storage capacitor. 11. The process variable transmitter of claim 10 wherein the noise detector further comprises: a refresh counter, wherein the processor refreshes the sensor signal latched across the storage capacitor based on an output from the refresh counter. 12. The process variable transmitter of claim 1 wherein the noise detector is a part of the A/D converter. 13. The process variable transmitter of claim 1 wherein the noise detector is separate from the A/D converter. 14. The process variable transmitter of claim 1 wherein the processor provides the measurement output over a process control loop. 15. The process variable transmitter of claim 1 wherein the sensor comprises at least one temperature sensor selected from a group comprising a resistive temperature device and a thermocouple. 16. The process variable transmitter of claim 1 wherein the noise output is indicative of line noise. 17. The process variable transmitter of claim 1 wherein the noise detector monitors noise from a plurality of sensor signals. 18. A method of sensing a process variable in a process variable transmitter, comprising: sensing the process variable with a process variable sensor and responsively providing an analog sensor signal; receiving the analog sensor signal from the sensor indicative of the process variable; converting the analog sensor signal to a digital signal with an analog to digital converter at a conversion rate; during conversion of the analog sensor signal to the digital signal, accumulating positive noise counts in a positive noise accumulator with a noise count accumulator that are indicative of noise events that exceed a positive noise threshold, and negative noise counts in a negative noise accumulator that are indicative of noise events that exceed a negative noise threshold, at a refresh rate that is greater than the conversion rate; characterizing noise on the analog sensor signal based on the positive noise counts and the negative noise counts with a processor; and generating an output on a process control loop indicative of the digital signal and the characterization of the noise on the analog sensor signal. 19. The method of claim 18 wherein accumulating positive noise counts comprises generating the positive noise threshold based on the sensor signal and wherein accumulating negative noise counts comprises generating the negative noise threshold based on the sensor signal. 20. The method of claim 19 wherein generating the output indicative of characterization of the noise comprises: generating the output to identify at least one of an estimate of noise symmetry, noise frequency, noise level, a source of the noise, and a noise profile for the process variable transmitter. 21. A process variable transmitter, comprising: a process temperature sensor configured to sense a process temperature of an industrial process, and responsively provide a process temperature sensor signal; an analog-to-digital (A/D) converter receiving the process temperature sensor signal provided by the process temperature sensor that senses a process temperature and converts the temperature sensor signal to a digital signal at a conversion rate; a processor that receives the digital signal and controls current on a process control loop to provide a measurement output indicative of the digital signal; and a noise detector that receives the process temperature sensor signal and generates, during conversion of the process temperature sensor signal to the digital signal at a refresh rate that is greater than the conversion rate, a first count value indicative of a number of positive noise events relative to a positive threshold value and a second count value indicative of a number of negative noise events relative to a negative threshold value, the processor generating a nois