Pressure sensing device isolation cavity seal monitoring

What is claimed is: 1. An industrial process differential pressure sensing device comprising: a housing including a first isolation cavity and a fill fluid contained in the first isolation cavity, and a second isolation cavity and a fill fluid contained in the second isolation cavity; a first isolation diaphragm configured to seal a process interface of the first isolation cavity from a process medium; a second isolation diaphragm configured to seal a process interface of the second isolation cavity from the process medium; a static pressure sensor configured to output a static pressure signal that is based on a pressure of the fill fluid in the first isolation cavity; a first eddy current displacement sensor configured to output a first position signal indicative of a position of the first isolation diaphragm relative to the housing; a differential pressure sensor exposed to sensor interfaces of the first and second isolation cavities and configured to output a differential pressure signal that is indicative of a difference in pressure between the fill fluids in the first and second isolation cavities; and a controller configured to detect a loss of a seal of the first isolation cavity based on the first position signal, the static pressure signal and the differential pressure signal. 2. The device of claim 1 , wherein: the first eddy current displacement sensor is displaced from the first isolation diaphragm; and the first isolation cavity extends between the first eddy current displacement sensor and the first isolation diaphragm. 3. The device of claim 1 , wherein the controller is configured to: obtain an expected position of the first isolation diaphragm relative to the housing based on the static pressure and the differential pressure; determine a first difference between the position indicated by the first position signal and the expected position of the first isolation diaphragm; and detect the loss of seal of the first isolation cavity when the first difference exceeds a first threshold value. 4. The device of claim 3 , wherein: the first eddy current displacement sensor comprises a coil supported by the housing and configured to induce an eddy current in the first isolation diaphragm; and the position signal is based on an impedance of the coil. 5. The device of claim 4 , wherein: the device includes a temperature sensor having a temperature signal that is indicative of a temperature of the fill fluid contained in the first isolation cavity; and the controller is configured to detect the loss of the seal of the first isolation cavity based on the temperature signal. 6. The device of claim 3 , further comprising a second eddy current displacement sensor configured to output a second position signal indicative of a position of the second isolation diaphragm relative to the housing, wherein the controller is configured to detect a loss of a seal of the second isolation cavity based on the second position signal, the static pressure signal and the differential pressure signal. 7. The device of claim 6 , wherein the controller is configured to: obtain an expected position of the second isolation diaphragm relative to the housing based on the static pressure and the differential pressure; determine a second difference between the position indicated by the second position signal and the expected position of the second isolation diaphragm; and detect the loss of seal of the second isolation cavity when the second difference exceeds a second threshold value. 8. The device of claim 7 , wherein: the first eddy current displacement sensor comprises a first coil supported by the housing and configured to induce an eddy current in the first isolation diaphragm; the position signal output from the first position sensor is based on an impedance of the first coil; the second eddy current displacement sensor comprises a second coil supported by the housing and configured to induce an eddy current in the second isolation diaphragm; and the position signal output from the second position sensor is based on an impedance of the second coil. 9. The device of claim 8 , wherein: the device includes a temperature sensor having a temperature signal that is indicative of a temperature of the fill fluid contained in the first and second isolation cavities; and the controller is configured to detect the loss of the seal of the first isolation cavity and the loss of seal of the second isolation cavity based on the temperature signal. 10. The device of claim 1 , wherein the controller configured to detect the loss of the seal of the first isolation cavity based a characterization that corelates the static pressure to a change in position of the first isolation diaphragm. 11. A method of detecting a loss of a seal of an isolation cavity of an isolation arrangement in an industrial process differential pressure sensing device, which includes a housing having first and second isolation cavities, a differential pressure sensor, a static pressure sensor, a first isolation diaphragm sealing a process interface of the first isolation cavity from an industrial process medium, and a second isolation diaphragm sealing a process interface of the second isolation cavity from the process medium, the method comprising: detecting a position of the first isolation diaphragm relative to the housing using a first eddy current displacement sensor; obtaining a static pressure of the fill fluid within the first isolation cavity using the static pressure sensor; obtaining a differential pressure between the first and second isolation cavities using the differential pressure sensor; obtaining an expected position of the first isolation diaphragm relative to the housing from memory based on the static pressure and the differential pressure using a controller; detecting a loss of seal of the first isolation cavity when a difference between the detected position of the first isolation diaphragm and the expected position of the first isolation diaphragm exceeds a threshold value using the controller; and generating a notification when the loss of seal is detected using the controller. 12. The method of claim 11 , wherein: the method includes detecting a temperature of the fill fluid within the first isolation cavity using a temperature sensor; and obtaining the expected position of the first isolation diaphragm relative to the housing is based on the temperature. 13. The method of claim 12 , wherein: the eddy current displacement sensor is displaced from the first isolation diaphragm; and the first isolation cavity extends between the first eddy displacement sensor and the first isolation diaphragm. 14. The method of claim 13 , wherein the first eddy current displacement sensor comprises a coil supported by the housing and configured to induce an eddy current in the first isolation diaphragm. 15. The method of claim 11 , further comprising: detecting a position of the second isolation diaphragm relative to the housing using a second eddy current displacement sensor; obtaining an expected position of the second isolation diaphragm relative to the housing from memory based on the static pressure and the differential pressure using a controller; detecting a loss of seal of the second isolation cavity when a difference between the detected position of the second isolation diaphragm and the expected position of the second isolation diaphragm exceeds a threshold value using the controller; and generating a notification when the loss of seal of the second isolation cavity is detected using the controller.