Measuring and testing – Fluid pressure gauge – Diaphragm
Reexamination Certificate
2000-06-26
2002-11-26
Oen, William (Department: 2855)
Measuring and testing
Fluid pressure gauge
Diaphragm
Reexamination Certificate
active
06484585
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to the process control industry. In particular, the invention relates to a pressure sensor in a pressure transmitter.
Pressure transmitters in process applications measure pressure of a process and responsively communicate the information over a two-wire process application loop, for example a 4-20 mA current loop. Pressure sensors in transmitters typically comprise some type of a pressure responsive structure which has a deflectable diaphragm that moves in response to applied pressure. These structures can be used to measure both absolute and differential pressure. As used herein, a differential pressure sensor is a sensor which measures a relatively small pressure differential (such as that generated across an orifice in a flow tube or between two different heights in a fluid filled container) over a relatively wide absolute pressure range. In a typical prior art transmitter, to measure differential pressure, two different pressures are applied to opposing sides of the structure causing a relative deformation in the structure which is measured. Measurement of the deformation, for example, can be by measuring a change in electrical capacitance due to movement of capacitor plates carried on the structure or by change in resistance of a resistive strain gauge.
Highly accurate absolute pressure sensors have been desired. However, it has been difficult to obtain an absolute pressure sensor which can deliver an accurate output over a wide pressure range, from 0.4 psi to 4000 psi for example. It would also be desirable to measure differential pressure with two absolute pressure sensors because this is mechanically much simpler than it is to mechanically couple two pressures to a differential pressure sensor. Additionally, an over-pressure in a such a differential pressure sensor can damage the differential pressure sensor.
However, it has been difficult to obtain absolute pressure sensors with sufficient accuracy to allow differential pressures in the 0.4 psi to 40 psi range to be measured in a device which must withstand static or line pressure extremes of as much as 4000 psia. For example, 0.01% of 4 psid requires 0.00001% of 4000 psia (10
−7
or 0.1 ppm).
Typical known pressure sensors used in process applications have unit-to-unit variations in sensitivity to sensed pressure as well as unit-to-unit variations in undesired responses to extraneous parameters such as temperature. This can be a particular problem when the outputs of two absolute or gauge pressure sensors are combined to provide an output representing differential pressure or when the sensor is used over a large pressure range. Additionally, mechanical stress associated with mounting the sensor to the pressure transmitter results in relatively large errors in pressure measurement.
SUMMARY OF THE INVENTION
A pressure transmitter in a process control system for transmitting pressure on a process control loop includes a transmitter housing, an isolation diaphragm configured to couple to a process fluid, and a pressure sensor body of a brittle corrosion resistant material operably coupled to the housing and positioned in the housing. The pressure sensor comprising a first portion bonded to a second portion by a fusion bond, the fusion bond substantially free of foreign material. An isolation fluid is configured to fluidically couple the pressure sensor body to the isolation diaphragm to thereby couple the pressure sensor to a pressure of the process fluid. Measurement circuitry in the transmitter housing coupled to the pressure sensor provides an output which is a function of capacitance, a loop interface in the transmitter housing coupled to the measurement circuitry configured to transmit a pressure related signal on the process control loop as a function of the pressure.
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Frick Roger
Sittler Fred C.
Oen William
Rosemount Inc.
Westman Champlin & Kelly P.A.
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