Pressure transmitter with multiple reference pressure sensors
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01L-013/02
G01L-013/00
G01L-015/00
출원번호
US-0483977
(2006-07-10)
등록번호
US-7467555
(2008-12-23)
발명자
/ 주소
Schulte,John
Romo,Mark
Rud, Jr.,Stanley E.
출원인 / 주소
Rosemount Inc.
대리인 / 주소
Christenson,Christopher R.
인용정보
피인용 횟수 :
9인용 특허 :
34
초록▼
Reliability and accuracy in a pressure measurement transmitter are provided by employing a plurality of absolute or gauge pressure sensors operating in conjunction with a differential pressure sensor. A method is also provided to perform diagnostics based upon the readings of the three pressure sens
Reliability and accuracy in a pressure measurement transmitter are provided by employing a plurality of absolute or gauge pressure sensors operating in conjunction with a differential pressure sensor. A method is also provided to perform diagnostics based upon the readings of the three pressure sensors. Further, should one of the three pressure sensors fail, a reasonable estimate of process pressure being measured by the failed sensor can be generated based upon the remaining two sensors.
대표청구항▼
What is claimed is: 1. A pressure transmitter comprising: a first process fluid pressure inlet adapted to receive a first process fluid pressure; a second process fluid pressure inlet adapted to receive a second process fluid pressure; a differential pressure sensor coupled to the first and second
What is claimed is: 1. A pressure transmitter comprising: a first process fluid pressure inlet adapted to receive a first process fluid pressure; a second process fluid pressure inlet adapted to receive a second process fluid pressure; a differential pressure sensor coupled to the first and second process fluid pressures; a first pressure sensor coupled to the first process fluid pressure; a second pressure sensor coupled to the second process fluid pressure; and circuitry operably coupled to the first and second pressure sensors, and coupled to the differential pressure sensor, the circuitry configured to measure the first and second process pressures as well as the differential pressure and provide an indication relative to the measurements over a process communication loop. 2. The transmitter of claim 1, wherein the first pressure sensor is an absolute pressure sensor. 3. The transmitter of claim 2, wherein the second pressure sensor is an absolute pressure sensor. 4. The transmitter of claim 3, and further comprising an atmospheric pressure sensor. 5. The transmitter of claim 2, wherein the second pressure sensor is a gage pressure sensor. 6. The transmitter of claim 1, wherein the first pressure sensor is a gauge pressure sensor. 7. The transmitter of claim 6, wherein the second pressure sensor is a gauge pressure sensor. 8. The transmitter of claim 7, and further comprising an absolute pressure sensor coupled to one of the first and second process fluid pressure inlets. 9. The transmitter of claim 1, and further comprising at least one additional pressure sensor coupled to one of the first and second process fluid pressures. 10. The transmitter of claim 1, wherein the circuitry includes a power module configured to receive electrical energy from a process communication loop to wholly power the transmitter with energy received from the process communication loop. 11. The transmitter of claim 1, wherein the circuitry is configured to perform at least one diagnostic function based upon signals from the first, second and differential pressure sensors. 12. The transmitter of claim 1, wherein the first, second and differential pressure sensors are embodied within a monolithic sensor unit. 13. A method of operating a pressure transmitter having a first process fluid inlet configured to receive a first process fluid pressure and a second process fluid inlet configured to receive a second process fluid pressure, the method comprising; measuring the first process fluid pressure with a first pressure sensor of the transmitter; measuring the second process fluid pressure with a second pressure sensor of the transmitter; measuring a differential pressure of the first and second process fluid pressures with a differential pressure sensor of the transmitter; and determining whether the measured differential pressure is similar to a difference between the measured first and second fluid pressures. 14. The method of claim 13, and further comprising determining if the measured differential pressure is within a selected threshold value of a difference of the first and second measured process fluid pressures. 15. The method of claim 13, and further comprising providing an estimate of differential pressure and an alert if the measured differential pressure is within a selected threshold value of a difference of the first and second measured process fluid pressures. 16. The method of claim 13, and further comprising providing an alarm if the measured differential pressure is not within a selected threshold value of a difference of the first and second measured process fluid pressures. 17. The method of claim 13, wherein the transmitter's differential pressure process value output is a function of the differential pressure measurement, and the measured first and second process fluid pressures. 18. The method of claim 13, and further comprising wholly powering the pressure transmitter with electrical energy received from a process communication loop. 19. A method of operating a pressure transmitter having a first process fluid inlet configured to receive a first process fluid pressure and a second process fluid inlet configured to receive a second process fluid pressure, the method comprising; measuring the first process fluid pressure with a first pressure sensor of the transmitter and determining if the first measured process fluid pressure is valid; measuring the second process fluid pressure with a second pressure sensor of the transmitter and determining if the second measured process fluid pressure is valid; measuring a differential pressure between the first and second process fluid pressures, and determining if the differential pressure is valid; and providing an estimate of a process fluid pressure in the event of an invalid sensor signal as a function of at least two other valid sensor signals. 20. The method of claim 19, and further comprising providing an alert if any of the sensor signals is not valid. 21. The method of claim 19, wherein determining if the differential pressure is valid includes determining if the differential pressure exceeds a measurement range of the differential pressure sensor. 22. The method of claim 19, and further comprising wholly powering the pressure transmitter with electrical energy received from a process communication loop. 23. A pressure transmitter comprising: a first process fluid pressure inlet adapted to receive a first process fluid pressure; a second process fluid pressure inlet adapted to receive a second process fluid pressure; a differential pressure sensor coupled to the first and second process fluid pressures; a first pressure sensor coupled to the first process fluid pressure; a second pressure sensor coupled to the second process fluid pressure; and circuitry operably coupled to each of the first pressure sensor, the second pressure sensor, and the differential pressure sensor, wherein the circuitry is configured to make independent measurements from each of at least three sensors comprising the first pressure sensor, the second pressure sensor, and the differential pressure sensor, and to provide an indication relative to the measurements over a process communication loop.
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이 특허에 인용된 특허 (34)
Frick Roger L. (Eden Prairie MN), Apparatus for conveying fluid pressures to a differential pressure transducer.
Frick Roger L. (Hackensack MN) Louwagie Bennett L. (Plymouth MN) Toy Adrian C. (Eden Prairie MN), Capacitive pressure sensor for a pressure transmitted where electric field emanates substantially from back sides of pla.
Krippner,Peter; Scholz,Wolfgang; Riegler,Peter; Altiok,Emrullah; Biskup,J체rgen; Daake,Wilhelm; Milanovic,Raiko; Merte,Rolf; Gasch,Armin; Lorito,Fabrizio; Moroni,Andrea; Vecchiato,Franco; Bianchi,Corrado; Volonterio,Eugenio, Device and method for the status monitoring of a pressure measuring unit.
Louwagie Bennett L. ; Munson Gregory S. ; Wiklund David E. ; Zweber Michael J. ; Broden David A. ; Bischoff Brian J. ; Corpron Gary P., Differential pressure measurement arrangement utilizing dual transmitters.
Louwagie Bennett L. (Plymouth MN) Broden David A. (Chanhassen MN) Zweber Michael J. (New Prague MN) Wiklund David E. (Eden Prairie MN), Housing for a multivariable transmitter.
Broden David A. (Chanhassen MN) Orth Kelly M. (Apple Valley MN) Borgeson Dale W. (Minneapolis MN) Lanctot Jane B. (Minneapolis MN) Voegele Kevin D. (Shakopee MN), Multivariable transmitter.
Dauenhauer Dennis ; Dauenhauer Dale ; Breitenbach Alexander,DEX ; Erichsen Herman, Pressure transducer with error compensation from cross-coupling outputs of two sensors.
Yamamoto Yoshimi,JPX ; Tobita Tomoyuki,JPX ; Nagasu Akira,JPX, Process state detector, semiconductor sensor and display device for displaying a process state used therefor.
Hagen Floyd W. (Eden Prairie MN), Three pressure pseudo -D
상세보기
Louwagie Bennett L. (Plymouth MN) Munson Gregory S. (Apple Valley MN) Wiklund David E. (Eden Prairie MN) Zweber Michael J. (New Prague MN) Broden David A. (Chanhassen MN) Bischoff Brian J. (Chaska MN, Transmitter having input for receiving a process variable from a remote sensor.
Orth Kelly M. (Apple Valley MN) Quist Steven M. (Minnetonka MN) Frick Roger L. (Chanhassen MN) Paschke Randy K. (Chaska MN), Transmitter with internal serial bus.
Broden, David A.; Hedtke, Robert C.; Klosinski, Andrew J.; Sittler, Fred C., Differential pressure transmitter with complimentary dual absolute pressure sensors.
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