Condition detection of pressure transmitter diaphragm

What is claimed is: 1. A material property sensor for a pressure transmitter, the pressure transmitter comprising a diaphragm configured for contact with a process fluid at an exterior surface of the diaphragm, the pressure transmitter further comprising a pressure sensor configured for sensing a pressure of the process fluid on the diaphragm, the material property sensor comprising: a fill fluid, wherein the diaphragm of the pressure sensor is in contact with the fill fluid at an interior surface of the diaphragm, wherein the pressure sensor and the diaphragm define a cavity within which the fill fluid is disposed, and wherein the pressure sensor comprises a first bridge circuit; and a sensing pattern immersed in the fill fluid within the cavity and configured to measure a material property of the fill fluid at an initial time and at one or more subsequent times during operation of the pressure transmitter, wherein the sensing pattern comprises a second bridge circuit, the second bridge circuit including a temperature sensor for measuring a temperature of the fill fluid, and wherein a voltage measured across the first and second bridge circuits is indicative of an electrical resistance of the fill fluid, and wherein the material property of the fill fluid is determined as a function of the electrical resistance thereof. 2. The material property sensor as set forth in claim 1 further comprising a chip carrier configured to support the pressure sensor, wherein the sensing pattern is disposed on the chip carrier. 3. The material property sensor as set forth in claim 2 , wherein the chip carrier is a ceramic material. 4. The material property sensor as set forth in claim 1 , wherein the diaphragm is made of a metallic material. 5. The material property sensor as set forth in claim 1 , wherein the fill fluid is an incompressible fluid. 6. The material property sensor as set forth in claim 1 , wherein the material property comprises an electrical property, wherein the sensing pattern is configured to measure the electrical property of the fill fluid over a range of temperatures and pressures to create a fill fluid fingerprint associated with the electrical property, and wherein the electrical property comprises at least one of the following: conductivity, resistivity, electrical leakage, dielectric constant, and permittivity. 7. The material property sensor as set forth in claim 6 , further comprising an alarm circuit for generating an alert in response to a difference between the electrical property of the fill fluid at the subsequent time and the electrical property of the fill fluid fingerprint measured at the initial time when the difference exceeds a threshold. 8. The material property sensor as set forth in claim 6 , wherein the sensing pattern is configured to measure the electrical property of the fill fluid through application of a known voltage across the sensing pattern through a known resistance to create the fill fluid fingerprint. 9. The material property sensor as set forth in claim 1 , wherein the material property comprises a dielectric constant, wherein the sensing pattern is configured to measure the dielectric constant of the fill fluid through application of a known voltage across the sensing pattern at one or more frequencies through a known capacitor to create a fill fluid fingerprint associated with the dielectric constant. 10. The material property sensor as set forth in claim 1 , wherein the fill fluid is a fluid different from the process fluid and wherein the fill fluid and the process fluid have different dielectric properties. 11. The material property sensor as set forth in claim 1 , wherein the pressure sensor measures the changes in pressure caused by the process fluid at the exterior surface of the diaphragm. 12. A method of detecting a changed condition of a pressure transmitter, the pressure transmitter comprising a diaphragm configured for contact with a process fluid at an exterior surface of the diaphragm, the pressure transmitter further comprising a pressure sensor configured for sensing a pressure of the process fluid on the diaphragm, the pressure sensor comprising a first bridge circuit immersed in a fill fluid, wherein the pressure sensor and the diaphragm define a cavity within which the fill fluid is disposed, the method comprising: injecting a current in a second bridge circuit, the second bridge circuit immersed in the fill fluid; measuring a voltage across the first and second bridge circuits; measuring, at an initial time, one or more dielectric properties of the fill fluid across a range of temperatures and pressures as a function of the voltage across the first and second bridge circuits; characterizing a fingerprint of the fill fluid as a function of the one or more dielectric properties thereof measured at the initial time; measuring, at a subsequent time, the one or more dielectric properties of the fill fluid as a function of the voltage across the first and second bridge circuits; characterizing a current behavior of the fill fluid as a function of the one or more dielectric properties thereof measured at the subsequent time, pressure, and temperature; comparing the current behavior of the fill fluid at the subsequent time to the fingerprint of the fill fluid at the initial time to detect changes in the one or more dielectric properties of the fill fluid over time; and generating an alert using an alert circuit in response to a difference between the one or more dielectric properties of the fill fluid at the subsequent time and the one or more dielectric properties of the fill fluid fingerprint measured at the initial time when the difference exceeds a threshold. 13. The method as set forth in claim 12 , wherein the first and second bridge circuits are disposed on a chip carrier. 14. The method as set forth in claim 13 , wherein the second bridge circuit is a Wheatstone bridge and includes a resistance temperature detector for measuring a temperature of the fill fluid. 15. The method as set forth in claim 13 , wherein the fill fluid is a fluid different from the process fluid and wherein the fill fluid and the process fluid have different dielectric properties. 16. A pressure transmitter, comprising: a diaphragm configured for contact with a process fluid at an exterior surface of the diaphragm; a pressure sensor configured for sensing a pressure of the process fluid on the diaphragm, wherein the pressure sensor comprises a first bridge circuit; a fill fluid, wherein the diaphragm of the pressure sensor is in contact with the fill fluid at an interior surface of the diaphragm, wherein the pressure sensor and the diaphragm define a cavity within which the fill fluid is disposed; and a sensing pattern immersed in the fill fluid within the cavity and configured to measure an electrical property of the fill fluid at an initial time and at one or more subsequent times during operation of the pressure transmitter, wherein the sensing pattern comprises a second bridge circuit, the second bridge circuit including a temperature sensor for measuring a temperature of the fill fluid, and wherein a voltage measured across the first and second bridge circuits is indicative of an electrical resistance of the fill fluid, and wherein the electrical property of the fill fluid is determined as a function of the electrical resistance thereof. 17. The pressure transmitter as set forth in claim 16 , wherein the sensing pattern is configured to measure the electrical property of the fill fluid over a range of temperatures and pressures to create