Entries |
Document | Title | Date |
20090056461 | Signal transmission system - A single wire interface for a transducer transmits the transducer output as a frequency modulated signal over one single wire during one interval. During a second interval a reference signal is transmitted as a frequency modulated signal. Both the transducer output and the reference signal output are processed by the same circuitry during the respective intervals to provide both frequency modulated signals. The frequencies of the two signals are measured and then the ratio of the two periods which is the reciprocal of the two frequencies is calculated. This ratio is the direct measure of the output of the transducer and when provided eliminates sources of errors. | 03-05-2009 |
20090078054 | DIFFERENTIAL PRESSURE SENSOR ISOLATION IN A PROCESS FLUID PRESSURE TRANSMITTER - A differential pressure transmitter includes first and second process fluid inlets. A differential pressure sensor is disposed within the transmitter and has first and second sensor inlets. A first isolator diaphragm is located proximate the first process fluid inlet and is operably coupled to the first sensor inlet through a first fill fluid volume. A second isolator diaphragm is located proximate the second process fluid inlet and is operably coupled to the second sensor inlet through a second fill fluid volume. Measurement circuitry is operably coupled to the differential pressure sensor and configured to measure an electrical parameter of the sensor and provide an indication of the measured parameter. A third fluid volume substantially surrounds the differential pressure sensor. The third fluid volume exerts a compressive force on the differential pressure sensor. | 03-26-2009 |
20090241678 | PRESSURE SENSOR AND METHOD FOR MANUFACTURING THE SAME - A pressure sensor includes: a housing; an attachment having a pressure input orifice communicating with an interior of the housing; a first diaphragm that seals an opening of the pressure input orifice of the attachment, an external surface of the first diaphragm being a pressure receiving surface; a force transmitting member having an end which is coupled approximately perpendicular to a main surface of the first diaphragm, the main surface being opposite from the pressure receiving surface; a swing arm which is joined to the force transmitting member and is held to a retainer at a pivoting point as a fulcrum; and a pressure sensing element having a first end coupled to the retainer and a second end coupled to the swing arm, so that a displacement direction of the force transmitting member is the same direction as a line joining the first end and the second end. In this pressure sensor, the force transmitting member, the swing arm, the pressure sensing element, and the retainer are housed inside the housing, and the retainer is fixed to an inner wall of the housing. | 10-01-2009 |
20090241679 | PRESSURE SENSOR - A pressure sensor includes: a housing; an attachment portion coupled to the housing and having a pressure input orifice; a diaphragm sealing the pressure input orifice of the attachment portion and having a first surface that is a pressure receiving surface; and a pressure sensitive unit having a detecting axis in a direction in which a force is detected. In the sensor, an end of the pressure sensitive unit is connected to a central area of a second surface of the diaphragm, another end of the pressure sensitive unit is connected to the housing, and the detecting axis is approximately orthogonal to the pressure receiving surface. | 10-01-2009 |
20090308167 | PRESSURE SENSOR - A pressure sensor includes: a housing; a pressure input orifice opened at a pipe sleeve of the housing; a diaphragm sealing the pressure input orifice, the diaphragm having a first surface serving as a pressure receiving surface; a pressure sensitive unit using a direction of detecting a force as a detecting axis. A first end of the pressure sensitive unit is connected to a central area of a second surface of the diaphragm. A second end of the pressure sensitive unit is connected to the housing. The detecting axis is approximately orthogonal to the pressure receiving surface. A circumference of a portion where the central area and the first end of the pressure sensitive unit are in contact with each other is located inside a circumference of the central area. A thickness of the central area is larger than a thickness of an area surrounding the central area. | 12-17-2009 |
20090308168 | DIAPHRAGM FOR PRESSURE SENSOR AND PRESSURE SENSOR - A diaphragm for a pressure sensor includes: a central section serving as a diaphragm body, the central section including: an external surface deformed upon receipt of an external pressure; and an internal surface transmitting a force to a pressure sensitive element inside a housing of the pressure sensor; a peripheral section that is an exterior of the central section and welded to an outer circumference of a pressure input orifice that is provided to the housing; and a step wall provided between the central section and the peripheral section. The central section and the peripheral section are integrally and concentrically provided. The diaphragm seals the pressure input orifice. | 12-17-2009 |
20090314093 | FIELD DEVICE INCLUDING A CAPILLARY TUBE HAVING A NON-CYLINDRICAL LUMEN - In a particular embodiment, a field device is disclosed that includes a housing defining a fluid cavity and a sensor cavity and having an isolation barrier to isolate the fluid cavity from the sensor cavity. The field device further includes a pressure sensor disposed within the sensor cavity. The pressure sensor includes at least one pressure inlet. The field device also includes a capillary tube extending from the at least one pressure inlet to the fluid cavity through the isolation barrier. The capillary tube includes a lumen having a non-cylindrical shape. | 12-24-2009 |
20100058874 | Method and apparatus for diagnosis of liquid losses in pressure measuring transducers filled with pressure transmitting liquids - Described are method and apparatus for diagnosis of liquid losses in pressure measuring transducers filled with pressure transmitting liquids. Such pressure measuring transducers include a pressure sensor ( | 03-11-2010 |
20100212435 | PRESSURE SENSOR ELEMENT AND PRESSURE SENSOR - A pressure sensor element includes: a package, a first diaphragm provided on a first surface of the package, a second diaphragm provided on a second surface of the package, and a pressure sensing element disposed in the package, the pressure sensing element including: a first base formed at one end in a longitudinal direction of the pressure sensing element, a second base formed at the other end in the longitudinal direction, and a resonating portion formed between the first base and the second base. In the element, the first and second surfaces are opposed to each other. The pressure sensor element is disposed such that the longitudinal direction is orthogonal to a displacement direction of each of the first and second diaphragms. The first base is connected to the first diaphragm while the second base is connected to the second diaphragm. | 08-26-2010 |
20100224003 | PRESSURE SENSOR - A pressure sensor includes: a housing having openings at both ends thereof; a pair of pressure-receiving devices configured to seal the openings respectively and transmit a pressure from the outside to the interior of the housing; a force transmission device configured to connect the pair of pressure-receiving devices and transmit a force that one of the pressure-receiving devices receives to the other pressure-receiving device; and a pressure-sensitive element having a pressure-sensitive portion and a pair of base portions to be connected to both ends of the pressure-sensitive portion, wherein a line connecting the pair of base portions and a detection axis, which is a direction of detection of the force, and the direction of displacement of the force transmission device are arranged in parallel; the one of the base portions is a first fixed portion, a pair of connecting devices extending from the other base portion so as to interpose the pressure-sensitive portion are connected respectively to a pair of second fixed portions arranged at positions in symmetry with respect to the first fixed portion, the first fixed portion is fixedly supported by the force transmission device, and the second fixed portions are supported and fixed to portions where a line connecting the first fixed portion and the pair of second fixed portions intersect the housing. | 09-09-2010 |
20100275697 | PRESSURE SENSOR GRID - A pressure sensor grid can comprise a plurality of bottom wires, arranged substantially parallel to each other and overlaid by a plurality of top wires arranged substantially perpendicular to the bottom wires. Each intersection of the top and bottom wires includes a pressure sensor. The sensor comprises a switching junction situated between the bottom wire and the top wire and a conducting channel extending through the switching junction from the bottom wire to the top wire. Pressure applied to the top wire causes an increase in conductance between the bottom wire and the top wire. | 11-04-2010 |
20100275698 | PRESSURE SENSOR - A pressure sensor includes: a housing; a pressure input orifice opened at a pipe sleeve of the housing; a diaphragm sealing the pressure input orifice, the diaphragm having a first surface serving as a pressure receiving surface; a pressure sensitive unit using a direction of detecting a force as a detecting axis. A first end of the pressure sensitive unit is connected to a central area of a second surface of the diaphragm. A second end of the pressure sensitive unit is connected to the housing. The detecting axis is approximately orthogonal to the pressure receiving surface. A circumference of a portion where the central area and the first end of the pressure sensitive unit are in contact with each other is located inside a circumference of the central area. A thickness of the central area is larger than a thickness of an area surrounding the central area. | 11-04-2010 |
20120006120 | TRANSMITTER OUTPUT WITH SCALABLE RANGEABILITY - An industrial process transmitter includes a sensing system and transmitter electronics. The sensing system senses a process variable over a range. The transmitter electronics is connected to the sensing system and produces a scaled analog communication signal to communicate the process variable over an analog loop. The range is disproportionately distributed over the scale by the transmitter electronics. | 01-12-2012 |
20120024071 | DEVICE AND METHOD FOR MEASURING PRESSURE ON WIND TURBINE COMPONENTS - A device for measuring fluid pressure, includes at least one flexible layer having a first surface adapted for fixing the layer to a structure, and having a second surface having at least one recess; at least one pressure sensor, provided in the at least one recess; and at least two wires connected to the at least one pressure sensor for connecting the at least one pressure sensor to a signal receiving unit. Further, a method for measuring fluid pressure is provided. | 02-02-2012 |
20120024072 | SIGNAL TRANSMISSION SYSTEM - A single wire interface for a transducer transmits the transducer output as a frequency modulated signal over one single wire during one interval. During a second interval a reference signal is transmitted as a frequency modulated signal. Both the transducer output and the reference signal output are processed by the same circuitry during the respective intervals to provide both frequency modulated signals. The frequencies of the two signals are measured and then the ratio of the two periods which is the reciprocal of the two frequencies is calculated. This ratio is the direct measure of the output of the transducer and when provided eliminates sources of errors. | 02-02-2012 |
20120031189 | PRESSURE SENSOR - A pressure sensor includes: a pressure receiving member; and first and second pressure sensitive elements which have a pressure sensing portion and a pair of base portions connected to both ends of the pressure sensing portion, and which have a detection axis parallel to a line connecting the base portions, and in which the detection axis is parallel to a displacement direction of the flexible portion. One base portion of the first pressure sensitive element is fixed to the flexible portion, and the other base portion is fixed to a first supporting member that is supported by the peripheral portion. One base portion of the second pressure sensitive element is fixed to the peripheral portion, and the other base portion is fixed to a second supporting member that is supported by the flexible portion. | 02-09-2012 |
20120079884 | Industrial process transmitter with high static pressure isolation diaphragm coupling - A process transmitter for measuring a process variable comprises a sensor module and a static pressure coupling. The sensor module comprises a sensor for measuring a process variable of an industrial process and for generating a sensor signal. The sensor includes a hydraulic fluid inlet within the module. The static pressure coupling is connected to the sensor module and comprises a isolator fitting, a process fluid coupling and an isolation diaphragm. The isolator fitting is inserted into the sensor module and connected to the hydraulic fluid inlet. The process fluid coupling is joined to the isolator fitting. The isolation diaphragm is positioned between the isolator fitting and the process fluid coupling outside of the sensor module. | 04-05-2012 |
20120137783 | Hybrid Nanogenerator for Harvesting Chemical and Mechanical Energy - A generator includes a bio-compatible substrate onto which one mechanical generating unit is disposed. A plurality of elongated piezoelectric fibers each have a first end that is in electrical communication with a first electrode and an opposite second end that is in electrical communication with a second electrode. An insulative layer covers the first electrode, the second electrode and the elongated piezoelectric fibers. A third electrode and a fourth electrode are each disposed on the bio-compatible substrate opposite from the mechanical generating unit. A proton conducting member is in contact with both the third electrode and the fourth electrode. A glucose catalyzing enzyme is electrically coupled to the third electrode. An oxidase enzyme is electrically coupled to the fourth electrode. The third electrode is in electrical communication with each first electrode and the fourth electrode is in electrical communication with each second electrode. | 06-07-2012 |
20120247217 | PRESSURE SENSOR, SENSOR ARRAY, METHOD FOR MANUFACTURING SENSOR ARRAY, AND GRASPING APPARATUS - A pressure sensor includes: a supporting body which has an opening; a pressure detecting portion which includes a supporting film provided on the supporting body and having a diaphragm portion closing the opening, and a piezoelectric body provided on the diaphragm portion and deflecting to output an electric signal; a frame body which has, on the pressure detecting portion, a cylindrical cavity along a film thickness direction of the supporting film, and is formed, in plan view when viewed from the film thickness direction of the supporting film, at a position where a cylindrical inner peripheral wall of the cavity overlaps with the opening, or outside of the opening; a sealing film which closes the frame body; and a silicone oil which is filled in an inner space formed of the cylindrical inner peripheral wall of the cavity, the sealing film, and the pressure detecting portion. | 10-04-2012 |
20120266683 | PRESSURE SENSOR FOR LOW-VISCOSITY MEDIA - A sensor for measuring pressures in low-viscosity media for use in injection moulding includes a housing with an axis A, a flat end face to be exposed to a pressure space, and a diaphragm that is arranged on the end face and is permanently connected to the housing. A measuring element that can infer a pressure prevailing in the pressure space on the basis of deflection of the diaphragm is arranged behind the diaphragm. A pressure sleeve that is tightly connected to the sensor on the end face and is arranged at a distance from the housing with a gap behind this connection is arranged coaxially with the housing axis A outside the housing. The gap extends axially further across the measuring element than the region of the force path in the direction away from the pressure space. | 10-25-2012 |
20120279310 | PRESSURE SENSOR, ESPECIALLY PRESSURE DIFFERENCE SENSOR - The pressure sensor of the invention includes at least one platform, at least one measuring membrane | 11-08-2012 |
20120297884 | DEVICE FOR MEASURING ENVIRONMENTAL FORCES AND METHOD OF FABRICATING THE SAME - A device for measuring environmental forces, and a method for fabricating the same, is disclosed that comprises a device wafer, the device wafer comprising a first device layer separated from a second device layer by a first insulation layer. The first device wafer is bonded to an etched substrate wafer to create a suspended diaphragm and boss, the flexure of which is determined by an embedded sensing element. | 11-29-2012 |
20130031984 | INTERCHANGEABLE PRESSURE SENSOR ASSEMBLY AND METHODS OF ASSEMBLY - The present disclosure relates to sensors including pressure sensors, humidity sensors, flow sensors, etc. In some cases, a sensor unit subassembly for installation in or use with a pressure sensor housing may include at least one pressure sensor signal output terminal supported by a printed circuit board, a pressure input port, and a pressure sense element secured relative to one or more printed circuit boards. The printed circuit board(s) may include circuitry configured to format pressure output signals provided by the pressure sense element into a particularly chosen output format, and may provide the formatted pressure output signal(s) to an attached electrical connector of the pressure sensor housing. In some cases, the sensor unit subassemblies can be mixed with a multitude of different electrical connectors and/or with a multitude of different port connections to from a wide array of pressure sensor assemblies. | 02-07-2013 |
20130055820 | Pressure Measuring Instrument - A pressure sensor ( | 03-07-2013 |
20130104663 | COPLANAR PROCESS FLUID PRESSURE SENSOR MODULE | 05-02-2013 |
20130118264 | RESISTIVE PRESSURE MEASURING CELL HAVING DIAGNOSTIC CAPABILITIES - A pressure measuring cell for detecting the pressure prevailing in an adjoining medium, comprising an elastic membrane on which a first electromechanical transducer is arranged, which supplies a first pressure-dependent output signal is provided. According to the invention, a second electromechanical transducer, which supplies a second pressure-dependent output signal, is arranged on the membrane wherein the two transducers are arranged such that with an elastically reversible deformation of the membrane the output signals have a first pressure characteristic, and after an irreversible deformation of the membrane due to an increased pressure load same have a significantly different second pressure characteristic. | 05-16-2013 |
20140020472 | DIFFERENTIAL PRESSURE/PRESSURE TRANSMITTING DEVICE - A differential pressure and pressure transmitting device includes a pressure detecting portion and a rupture state detecting portion. The pressure detecting portion includes a first diaphragm that receives indirectly a pressure of a process fluid and that transmits a pressure, a second diaphragm that receives directly a pressure of a process fluid, and an insulating fluid-filled portion positioned between the first and second diaphragms and filled with an insulating fluid, and provided with a pair of electrodes on a periphery thereof. The rupture state detecting portion applies an electropotential to the electrodes to measure the electrical conductivity of the insulating fluid and to monitor for a rupture of a diaphragm. | 01-23-2014 |
20140165734 | AMPLIFIER-EMBEDDED PRESSURE SENSOR - An amplifier-embedded pressure sensor includes: a pressure-detecting element which detects the differential pressure between the fluid and the space where the pipe including a fluid passage of the fluid is installed, and outputs the pressure signal; an amplifier circuit board having an amplifier circuit for amplifying the pressure signal; a housing to which the pressure-detecting element is fixed; and a separation part which is fixed to the housing and separates a space inside the housing into a first space where the pressure-detecting element is disposed and a second space where the amplifier circuit board is disposed. The housing includes an inflow port for letting cooling gas for cooling the amplifier circuit board flow into the second space and a discharge port for discharging the cooling gas from the second space. | 06-19-2014 |
20140251019 | COPLANAR PROCESS FLUID PRESSURE SENSOR MODULE - A coplanar process fluid pressure sensor module is provided. The module includes a coplanar base and a housing body. The coplanar base has a pair of process fluid pressure inlets, each having an isolator diaphragm. The housing body is coupled to the coplanar base at an interface between the coplanar base and the housing body. A differential pressure sensor is operably coupled to the pair of process fluid pressure inlets, and is disposed proximate the coplanar base within the housing body. | 09-11-2014 |
20140260645 | Differential Sensor Assembly With Both Pressures Applied From One Side - An example embodiment of the present invention provides a differential piezoresistive sensor assembly and method of manufacturing and using the same, such that a first and second pressure are applied from a single side there enabling easier installation in many pressure assemblies. | 09-18-2014 |
20140290375 | MICROMECHANICAL STRUCTURE HAVING A DEFORMABLE MEMBRANE AND A PROTECTION AGAINST STRONG DEFORMATIONS - The invention relates to a micromechanical structure for measuring or detecting a mechanical quantity or a dynamic quantity, including a deformable membrane ( | 10-02-2014 |
20140352445 | PRESSURE SENSOR - A microelectromechanical pressure sensor structure comprises a planar base, side walls and a diaphragm plate, attached to each other to form a hermetically closed gap that provides a reference pressure. The diaphragm plate extends along a planar inner surface on top of the side walls, and has an outer surface on the opposite side of the diaphragm plate. At least part of the outer surface of the diaphragm plate forms a planar part that includes a recess, a depth of which extends parallel to the side walls and is less than the nominal thickness of the diaphragm. A large part of reasons causing the different bending of the diaphragm and the underlying structures can be eliminated with one or more recesses arranged to the pressure sensor structure. | 12-04-2014 |
20150101414 | DUPLEX PRESSURE TRANSDUCERS - A transducer baseplate includes a base, a protrusion extending from the base along a longitudinal axis, a pair of opposed transducer receptacles defined within the protrusion, and respective pressure plena. The pressure plena are separated by a plenum wall, each plenum being in fluid connection with an area external to the protrusion through a respective pressure line. The pressure lines provide a direct fluid path to their respective receptacles. | 04-16-2015 |
20150330854 | DIFFERENTIAL PRESSURE SENSOR AND DIFFERENTIAL PRESSURE SENSOR MANUFACTURING METHOD - A differential pressure sensor has a sensor chip that is, between a first inner wall surface and a second inner wall surface of a sensor chamber, joined by a first adhesive agent layer between one face of the sensor chip and the first inner wall surface of the sensor chamber and joined through a second adhesive agent layer between other face of the sensor chip and the second inner wall surface of the sensor chamber. The first adhesive agent layer is an adhesive agent layer that has a Young's modulus that is smaller than the Young's modulus of a material that structures a sensor diaphragm. The second adhesive agent layer is an adhesive agent layer that has a Young's modulus that is smaller than the Young's modulus of the material that structures the sensor diaphragm and larger than the Young's modulus of the first adhesive agent layer. | 11-19-2015 |
20160041054 | Mechanische Stabilisierung und elektrische sowie hydraulische Adaptierung eines Silizium Chips durch Keramiken - A pressure difference sensor includes a pressure difference measuring cell, which has a measuring cell platform with pressure contactable measuring chambers in its interior, a first mounting surface and a second mounting surface. The mounting surfaces have a variable separation under pressure loading of the measuring chambers. A first reinforcement element with a first planar reinforcement area and a second reinforcement element with a second planar reinforcement area. A deflection of the mounting surfaces due to a pressure loading of the measuring chambers is lessened by the reinforcement elements, wherein especially at least 50% of an effective stiffness K=1/(dx/dp) of the reinforcement elements connected by the pressure difference measuring cell is provided only by these connections of the reinforcement element with the measuring cell platform without additional connections between the reinforcement elements in a parallel branch, wherein x is the separation between the first mounting surface and the second mounting surface having the greatest pressure dependence dx/dp. | 02-11-2016 |
20160061679 | PRESSURE SENSOR INCLUDING DEFORMABLE PRESSURE VESSEL(S) - Techniques are described herein that perform pressure sensing using pressure sensor(s) that include deformable pressure vessel(s). A pressure vessel is an object that has a cross section that defines a void. A deformable pressure vessel is a pressure vessel that has at least one curved portion that is configured to structurally deform (e.g., bend, shear, elongate, etc.) based on a pressure difference between a cavity pressure in a cavity in which at least a portion of the pressure vessel is suspended and a vessel pressure in the pressure vessel. | 03-03-2016 |
20160153855 | SLEW RATE DETECTION CIRCUIT | 06-02-2016 |
20160169758 | STRESS ISOLATED DIFFERENTIAL PRESSURE SENSOR | 06-16-2016 |
20160187218 | PHYSICAL QUANTITY MEASURING DEVICE - A differential pressure sensor includes: a sensor module including: a sensor case including a port through which a target fluid is to be introduced and a base attached with the port; a sensor configured to detect a physical quantity of the target fluid; a sensor substrate attached with the sensor, the sensor substrate having an outer circumferential surface facing an inner circumferential surface of the base; and a cover configured to press the sensor substrate against the base; and a case body including an electric circuit that is housed therein and electrically connectable to the sensor module, the case body having an open end to which the sensor module is externally attached, in which a sensor module clearance is defined between the outer circumferential surface of the sensor substrate and an inner circumferential surface of the sensor case. | 06-30-2016 |
20180024021 | MICRO MECHANICAL DEVICES WITH AN IMPROVED RECESS OR CAVITY STRUCTURE | 01-25-2018 |