Transmitter with fill fluid loss detection
First Claim
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1. A transmitter responsive to a pressure, comprising:
- an isolator diaphragm exposed to the pressure, an increase in pressure urging the diaphragm toward a backplate, the backplate and the diaphragm having a space therebetween;
a flange carrying process fluid to the isolator diaphragm;
a pressure sensor having a pressure output;
a fluid filling the space and transmitting the pressure to the pressure sensor;
a non-contact position sensor disposed proximate the isolator diaphragm and providing a position signal to monitor a position of the isolator diaphragm, thereby to monitor loss of fluid from the transmitter, wherein the non-contact position sensor includes an ultrasonic transducer which couples to the flange;
a temperature sensor thermally coupled to the fluid and providing a fluid temperature signal; and
a circuit coupled to the pressure sensor, non-contact position sensor and the temperature sensor for monitoring loss of the fluid, the circuit ascertaining an expected position of the isolator diaphragm as a function of the pressure output, the position signal and the fluid temperature signal.
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Abstract
A pressure transmitter has a pressure sensor coupled to an isolator diaphragm by a fill fluid such as oil. According to the invention, means are provided for measuring the position of the isolator diaphragm and comparing the measured position with an expected position to give an indication of fill fluid leakage. Non-contact arrangements such as capacitive and ultrasonic techniques are disclosed for measuring isolator diaphragm position, as well as contacting arrangements such as switches. The fill fluid loss arrangement can be incorporated into a two-wire transmitter, which transmitter can be made to send a warning signal to a control unit when fill fluid loss is detected.
67 Citations
5 Claims
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1. A transmitter responsive to a pressure, comprising:
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an isolator diaphragm exposed to the pressure, an increase in pressure urging the diaphragm toward a backplate, the backplate and the diaphragm having a space therebetween; a flange carrying process fluid to the isolator diaphragm; a pressure sensor having a pressure output; a fluid filling the space and transmitting the pressure to the pressure sensor; a non-contact position sensor disposed proximate the isolator diaphragm and providing a position signal to monitor a position of the isolator diaphragm, thereby to monitor loss of fluid from the transmitter, wherein the non-contact position sensor includes an ultrasonic transducer which couples to the flange; a temperature sensor thermally coupled to the fluid and providing a fluid temperature signal; and a circuit coupled to the pressure sensor, non-contact position sensor and the temperature sensor for monitoring loss of the fluid, the circuit ascertaining an expected position of the isolator diaphragm as a function of the pressure output, the position signal and the fluid temperature signal.
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2. In a transmitter having a pressure sensor coupled to an isolator diaphragm by a fluid, a method of detecting fluid loss comprising:
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monitoring a position of the isolator diaphragm; measuring a temperature that is representative of the isolator diaphragm temperature; ascertaining an expected position of the isolator diaphragm due to thermal volumetric change of the fluid as a function of the measured temperature; and comparing the monitored isolator diaphragm position with the expected position. - View Dependent Claims (3, 4)
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5. A transmitter, comprising:
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a pressure sensor fluidically coupled to at lest one isolator diaphragm by a fill fluid, the pressure sensor utilizing a first measurement technique; a temperature sensor thermally coupled to the fluid, providing a fluid temperature signal based on a temperature of the fluid; a measurement circuit coupled to the pressure sensor and the temperature sensor; a non-contact position sensor for monitoring loss of fill fluid, the non-contact position sensor utilizing a second measurement technique; a switch coupling the measurement circuit selectively to the pressure sensor and to the non-contact position sensor; and wherein the first and second measurement techniques are capacitance measurement techniques, and wherein the measurement circuit ascertains an expected position of the diaphragm due to thermal volumetric changes based on the fluid temperature signal.
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Specification