公开(公告)号：JP2004354384A

公开(公告)日：2004-12-16

申请号：JP2004157525

申请日：2004-05-27

Applicant: Rosemount Inc ,  ローズマウント インコーポレイテッド

Inventor： ERIKSEN CHRISTOPHER L ,  GRAVEL JAMES L ,  OLSON RANDALL C ,  STREI DAVID

IPC: G01L19/00 ,  G01L9/00 ,  H01R13/504 ,  H01R13/658 ,  H01R13/66

CPC classification number: G01L19/0084 ,  H01R12/714 ,  H01R13/504 ,  H01R13/6595 ,  H01R13/6683

Abstract: PROBLEM TO BE SOLVED: To provide an electrical connector that protects the pressure sensor stem projecting from the pressure sensor capsule from breaking.
SOLUTION: The electrical connector 50 protects a pressure sensor stem that projects from a pressure sensor capsule. The electrical connector 50 comprises base a plate 52 that possesses a central hole 54, and surrounding walls 56 that are connected with the base plate 52 and overhung below the base plate 52. Surrounding walls 56 can be slidably engaged with the pressure sensor capsule, when the pressure sensor stem penetrates through the central hole 54 and it projects above the base plate 52. A protection wall 60, connected with the base plate 52, overhangs above the pressure sensor stem, so as to protect the pressure sensor stem. A lead frame 64 in the protection wall 60 provides electrical connection to the sensor contact pad on the pressure sensor stem.
COPYRIGHT: (C)2005,JPO&NCIPI

Abstract translation: 要解决的问题：提供一种电连接器，其保护从压力传感器胶囊突出的压力传感器杆不破裂。 解决方案：电连接器50保护从压力传感器胶囊突出的压力传感器杆。 电连接器50包括底座，其具有中心孔54的板52和与基板52连接并悬挂在基板52下方的周围壁56.环绕壁56可以与压力传感器胶囊可滑动地接合， 压力传感器杆杆穿过中心孔54并且突出在基板52的上方。与基板52连接的保护壁60悬挂在压力传感器杆上方，以保护压力传感器杆。 保护壁60中的引线框架64提供与压力传感器杆上的传感器接触垫的电连接。 版权所有（C）2005，JPO＆NCIPI

公开(公告)号：AU2012359068B2

公开(公告)日：2015-05-07

申请号：AU2012359068

申请日：2012-12-19

Applicant: ROSEMOUNT INC

Inventor： STREI DAVID ,  BRODEN DAVID ,  BREEN IVAR

IPC: G01L13/02 ,  G01L19/00

Abstract: A co-planar differential pressure sensor module (100) is provided. The module (100) includes a base (109) having a pair of recesses (217, 219). A pair of pedestals (218, 220) is also provided where each pedestal (218, 220) is disposed in a respective recess (217, 219) and is coupled to a respective isolation diaphragm (222). A differential pressure sensor (208) has a sensing diaphragm and a pair of pressure sensing ports (210, 212). Each port (210, 212) of the differential pressure sensor (208) is fluidically coupled to a respective isolation diaphragm (222) by a fill fluid. The module (100) also includes circuitry (216) coupled to the differential pressure sensor (209) to measure an electrical characteristic of the sensor (208) that varies with differential pressure. The base (109) is constructed from a material that is suitable for submersion in seawater. A method (300) of constructing a co-planar differential pressure sensor module (100) is also provided. In another embodiment, a pressure sensor module is provided. The pressure sensor module (100) includes a base having a recess. A pedestal is disposed in the recess and is coupled to an isolation diaphragm. A pressure sensor having a sensing diaphragm and a pressure sensing port is fluidically coupled to the isolation diaphragm by a fill fluid. Circuitry is coupled to the pressure sensor to measure an electrical characteristic of the sensor that varies with pressure. The base is constructed from a material that is suitable for submersion in seawater.

公开(公告)号：DE112005003370T5

公开(公告)日：2007-12-13

申请号：DE112005003370

申请日：2005-12-02

Applicant: ROSEMOUNT INC

Inventor： ANDERSON WILLIAM T ,  STREI DAVID

IPC: B81B7/00 ,  G02B6/42

Abstract: A large-scale MEMS device includes a MEMS die supported by at least one compliant die mount. The compliant die mount couples the MEMS die to a support structure. The support structure is positioned within a package. In accordance with an aspect of the invention, the package is substantially symmetrical about the MEMS die. In accordance with another aspect of the invention, the support structure and/or the package is designed to have a neutral bend axis along the MEMS die.

公开(公告)号：DE102004026220A1

公开(公告)日：2005-02-10

申请号：DE102004026220

申请日：2004-05-28

Applicant: ROSEMOUNT INC

Inventor： ERIKSEN CHRISTOPHER L ,  GRAVEL JAMES L ,  OLSON RANDALL C ,  STREI DAVID

IPC: G01L19/00 ,  G01L9/00 ,  H01R13/504 ,  H01R13/658 ,  H01R13/66 ,  G01L19/14

公开(公告)号：RU2595326C2

公开(公告)日：2016-08-27

申请号：RU2014102658

申请日：2012-06-12

Applicant: ROSEMOUNT INC

Inventor： STREI DAVID ,  ORTH KELLY MICHAEL

IPC: H01L35/30

Abstract: Изобретениеотноситсяк устройствамподачипитанияк беспроводнымустройствам. Сущность: электроэнергияпроизводитсяпервымтехнологическимкомпонентом, первойтепловойтрубой, образованнойчастичнопервойполостьюв первомтехнологическомкомпоненте, иузломтермоэлектрическогогенератора. Узелтермоэлектрическогогенераторатермическисоединеннаоднойсторонес теплоотводом, анадругойстороне - спервойтепловойтрубой. Первыйтехнологическийкомпонентнаходитсяв непосредственномконтактес первойтехнологическойтекучейсредой, аперваяполостьнаходитсярядомс первойтехнологическойтекучейсредой. Узелтермоэлектрическогогенераторапроизводитэлектроэнергию. 3 н. и 43 з.п. ф-лы, 10 ил.

公开(公告)号：WO2013003020A4

公开(公告)日：2013-05-23

申请号：PCT/US2012042003

申请日：2012-06-12

Applicant: ROSEMOUNT INC ,  STREI DAVID ,  ORTH KELLY MICHAEL

Inventor： STREI DAVID ,  ORTH KELLY MICHAEL

IPC: H01L35/30 ,  H02N11/00

CPC classification number: H01L35/30 ,  F28D15/0241 ,  F28D15/0275

Abstract: Electrical power is produced by a first process component, a first heat pipe formed in part by a first cavity within the first process component, and a thermoelectric generator assembly. The thermoelectric generator assembly is thermally coupled on one side to a heat sink and on the other side to the first heat pipe. The first process component is in direct contact with a first process fluid and the first cavity is proximate the first process fluid. The thermoelectric generator assembly produces electrical power.

公开(公告)号：WO2013003020A3

公开(公告)日：2013-04-04

申请号：PCT/US2012042003

申请日：2012-06-12

Applicant: ROSEMOUNT INC ,  STREI DAVID ,  ORTH KELLY MICHAEL

Inventor： STREI DAVID ,  ORTH KELLY MICHAEL

IPC: H01L35/30 ,  H02N11/00

CPC classification number: H01L35/30 ,  F28D15/0241 ,  F28D15/0275

Abstract: Electrical power is produced by a first process component, a first heat pipe formed in part by a first cavity within the first process component, and a thermoelectric generator assembly. The thermoelectric generator assembly is thermally coupled on one side to a heat sink and on the other side to the first heat pipe. The first process component is in direct contact with a first process fluid and the first cavity is proximate the first process fluid. The thermoelectric generator assembly produces electrical power.

Abstract translation: 电力由第一处理部件，部分地由第一处理部件内的第一腔体形成的第一热管以及热电发生器组件产生。 热电发电机组件在一侧热连接到散热器，而在另一侧热连接到第一热管。 第一工艺部件与第一工艺流体直接接触并且第一腔体接近第一工艺流体。 热电发电机组件产生电力。

公开(公告)号：DE102004026220B4

公开(公告)日：2015-09-24

申请号：DE102004026220

申请日：2004-05-28

Applicant: ROSEMOUNT INC

Inventor： ERIKSEN CHRISTOPHER L ,  GRAVEL JAMES L ,  OLSON RANDALL C ,  STREI DAVID

IPC: G01L19/00 ,  G01L19/14 ,  G01L9/00 ,  H01R13/40 ,  H01R13/46 ,  H01R13/504 ,  H01R13/658 ,  H01R13/66

Abstract: Elektrischer Verbinder (50) zum Verbinden mit einem Drucksensorschaft (34), der von einer Drucksensorkapsel (20) vorsteht, wobei der elektrische Verbinder aufweist: eine Grundplatte (52) mit einer durchgehenden mittleren Öffnung (54); eine Umfangswand (56), die an die Grundplatte (52) angrenzt und unter der Grundplatte (52) hervorsteht, wobei die Umfangswand (56) so geformt ist, dass sie mit der Drucksensorkapsel (20) gleitend in Eingriff kommt, wenn der Drucksensorschaft (34) durch die mittlere Öffnung (54) geführt wird, um über der Grundplatte (52) hervorzustehen; eine Schutzwand (60), die an die Grundplatte (52) angrenzt, so dass sie über dem Drucksensorschaft (34) hervorsteht, wobei die Schutzwand (60) den Drucksensorschaft (34) schützt; und einen Leitungsrahmen (64), der in der Schutzwand (60) angeordnet ist und elektrische Anschlüsse für Sensor-Kontaktstellen (36) auf dem Drucksensorschaft (34) bereitstellt.

公开(公告)号：IN983MUN2014A

公开(公告)日：2015-07-03

申请号：IN983MUN2014

申请日：2014-05-23

Applicant: ROSEMOUNT INC

Inventor： STREI DAVID ,  BRODEN DAVID ,  BREEN IVAR

IPC: G01L13/02 ,  G01L19/00

Abstract: A co planar differential pressure sensor module (100) is provided. The module (100) includes a base (109) having a pair of recesses (217 219). A pair of pedestals (218 220) is also provided where each pedestal (218 220) is disposed in a respective recess (217 219) and is coupled to a respective isolation diaphragm (222). A differential pressure sensor (208) has a sensing diaphragm and a pair of pressure sensing ports (210 212). Each port (210 212) of the differential pressure sensor (208) is fluidically coupled to a respective isolation diaphragm (222) by a fill fluid. The module (100) also includes circuitry (216) coupled to the differential pressure sensor (209) to measure an electrical characteristic of the sensor (208) that varies with differential pressure. The base (109) is constructed from a material that is suitable for submersion in seawater. A method (300) of constructing a co planar differential pressure sensor module (100) is also provided. In another embodiment a pressure sensor module is provided. The pressure sensor module (100) includes a base having a recess. A pedestal is disposed in the recess and is coupled to an isolation diaphragm. A pressure sensor having a sensing diaphragm and a pressure sensing port is fluidically coupled to the isolation diaphragm by a fill fluid. Circuitry is coupled to the pressure sensor to measure an electrical characteristic of the sensor that varies with pressure. The base is constructed from a material that is suitable for submersion in seawater.

公开(公告)号：CA2859968A1

公开(公告)日：2013-06-27

申请号：CA2859968

申请日：2012-12-19

Applicant: ROSEMOUNT INC

Inventor： STREI DAVID ,  BRODEN DAVID ,  BREEN IVAR

IPC: G01L13/02 ,  G01L19/00

Abstract: A co-planar differential pressure sensor module (100) is provided. The module (100) includes a base (109) having a pair of recesses (217, 219). A pair of pedestals (218, 220) is also provided where each pedestal (218, 220) is disposed in a respective recess (217, 219) and is coupled to a respective isolation diaphragm (222). A differential pressure sensor (208) has a sensing diaphragm and a pair of pressure sensing ports (210, 212). Each port (210, 212) of the differential pressure sensor (208) is fluidically coupled to a respective isolation diaphragm (222) by a fill fluid. The module (100) also includes circuitry (216) coupled to the differential pressure sensor (209) to measure an electrical characteristic of the sensor (208) that varies with differential pressure. The base (109) is constructed from a material that is suitable for submersion in seawater. A method (300) of constructing a co-planar differential pressure sensor module (100) is also provided. In another embodiment, a pressure sensor module is provided. The pressure sensor module (100) includes a base having a recess. A pedestal is disposed in the recess and is coupled to an isolation diaphragm. A pressure sensor having a sensing diaphragm and a pressure sensing port is fluidically coupled to the isolation diaphragm by a fill fluid. Circuitry is coupled to the pressure sensor to measure an electrical characteristic of the sensor that varies with pressure. The base is constructed from a material that is suitable for submersion in seawater.