Patent application number | Description | Published |
20100013165 | CONDUCTIVE ELASTOMERIC SEAL AND METHOD OF FABRICATING THE SAME - Method for fabricating a conductive elastomeric seal, which includes a set of springs plated with an electrically conductive material. Initially, the set of springs can be held in a z-axis position in a mold cavity shaped like a seal. A liquid elastomer can be injected into the mold cavity in such a manner that the elastomer can be over molded around and through coils of each spring. Finally, the elastomer seal with the springs can be removed from the mold cavity, when the elastomer is cured. Ends of each spring can be kept free from the elastomer during over-molding such that the elastomeric seal can provide an electrical contact with a pressure sensor die and electrical leads molded into a sensor housing. Such a conductive elastomeric seal can prevent a die-edge shorting with the sense die in order to achieve long-term sensor reliability and performance. | 01-21-2010 |
20100100052 | DIFFERENTIAL FORCE SENSOR - A differential force sensor method and apparatus for automatically monitoring manual injections through an intravenous line. The differential force sensor includes two piezoresistive sense die that are packaged in close proximity utilizing a number of packaging processes. The two piezoresistive sense die can be utilized to measure forces exerted on a diaphragm on either side of an orifice. The piezoresistive sense die can be packaged in close proximity to make intimate contact with the diaphragms on either side of the orifice. The differential force sensor further includes two plungers that make intimate contact with the diaphragm and transfer the force into the piezo-resistive sense dies. Additionally, one or more ASICs and microcontrollers can be utilized to provide thermal calibration and differential calculation. | 04-22-2010 |
20100160893 | METHOD AND SYSTEM FOR MEASURING FLOW AT PATIENT UTILIZING DIFFERENTIAL FORCE SENSOR - A fluid delivery system and method for measuring flow at a patient utilizing a differential force sensor in order to precisely control the flow of fluid at very low flow rates. The system includes a fluid line through which a fluid is conveyed to the patient, and a flow controller that selectively varies a rate of flow of the fluid through the fluid line. The differential force sensor can be mounted very close to a point of entry of the fluid into the patient's body. An onboard communications device is controllably coupled to the flow controller and to the force sensor, responds to an output signal, and provides a feedback to the flow controller in a closed-loop process. The system can pump the fluid at a higher frequency until the flow rate is actually reached at the patient and then adjust to the flow rate needed to ensure patient health. | 06-24-2010 |
20100206046 | FLOW-THROUGH PRESSURE SENSOR APPARATUS - A flow-through pressure sensor apparatus that reduces the dead space of a flow tube utilized to provide fluid communication between a pressure sense die and a fluid and with an absolute minimum trapped volume. A cover (e.g., plastic) with two-molded ports can be added to one side of the pressure sense die utilizing molded-in solder pins to improve ruggedness and rigidity. A temperature and a humidity sensor can also be mounted to a substrate (e.g., ceramic) in the flow path and can be connected to a programmable compensation integrated circuit on the opposite side utilizing a clip end of mounting pins or by vias through the substrate outside a pressurized area. | 08-19-2010 |
20100274216 | METHOD AND SYSTEM FOR MEASURING FLOW AT PATIENT UTILIZING DIFFERENTIAL FORCE SENSOR - A fluid delivery system and method for measuring flow at a patient utilizing a differential force sensor in order to precisely control the flow of fluid at very low flow rates. The system includes a fluid line through which a fluid is conveyed to the patient, and a flow controller that selectively varies a rate of flow of the fluid through the fluid line. The differential force sensor can be mounted very close to a point of entry of the fluid into the patient's body. An onboard communications device is controllably coupled to the flow controller and to the force sensor, responds to an output signal, and provides a feedback to the flow controller in a closed-loop process. The system can pump the fluid at a higher frequency until the flow rate is actually reached at the patient and then adjust to the flow rate needed to ensure patient health. | 10-28-2010 |
20110000313 | DIFFERENTIAL FORCE SENSOR - A differential force sensor method and apparatus for automatically monitoring manual injections through an intravenous line. The differential force sensor includes two piezoresistive sense die that are packaged in close proximity utilizing a number of packaging processes. The two piezoresistive sense die can be utilized to measure forces exerted on a diaphragm on either side of an orifice. The piezoresistive sense die can be packaged in close proximity to make intimate contact with the diaphragms on either side of the orifice. The differential force sensor further includes two plungers that make intimate contact with the diaphragm and transfer the force into the piezo-resistive sense dies. Additionally, one or more ASICs and microcontrollers can be utilized to provide thermal calibration and differential calculation. | 01-06-2011 |
20110000318 | FORCE SENSOR APPARATUS - A force sensor apparatus and method of forming the same. The apparatus includes a force sense element that can be attached to a substrate. An actuator disposed in a hole formed within the cap is operably coupled to the force sense element for transferring force to the sense element in response to receiving a force from an external source. The force sense element is configured to sense the external force and generate an output signal representing the force. Preferably, one or more bond pads, associated with the force sense element and the substrate, can be electrically connected via wire bonding. A cover associated with an integrated flexible membrane can be mounted on the substrate in order to protect internal components associated with the force sensor apparatus from an external environment. | 01-06-2011 |
20120042734 | PRESSURE SENSOR - A pressure sensor is disclosed that can help isolate the sensor and/or sensor components from a media to be sensed and/or can help reduce sensor damage caused by harsh operating environments. In one illustrative embodiment, the pressure sensor may include a substrate having a pressure sensing die mounted on a first side of the substrate, a first housing member defining a first cavity around the pressure sensing die, and a second housing member defining a second cavity on the second side of the substrate. A passivating agent, such as a gel, can be positioned in both the first cavity and the second cavity to transmit pressure from the media to a pressure sensing element (e.g. diaphragm) while isolating the pressure sensing element and other components from the media. In some cases, the first housing member and/or the second housing member may include an opening for exposing the passivating agent to the media. The opening may be defined by one or more tapered and/or chamfered edges to help provide freeze damage protection. | 02-23-2012 |
20120152037 | FORCE SENSOR - A force sensor is disclosed. In one illustrative embodiment, the force sensor may include a sensing die mounted to a substrate and an actuation assembly for transmitting an external force to the sensing die. The sensing die may include a diaphragm and one or more sensing elements (e.g. piezoresistive elements) positioned on the diaphragm. The actuation assembly may include a spherical member or object (e.g. ball bearing) in contact with the diaphragm, a pin member having a first end coupled to the spherical object and a second end coupled to a button member. The actuator assembly may transmit a force applied to the button member to the diaphragm via the pin member and spherical member. In some cases, the front side of the sensing die may be mounted to the substrate with an adhesive, such as a pattern of conductive adhesive and nonconductive adhesive to electrically connect one or more bond pads of the sensing die to one or more bond pads of the substrate without the need for wire bonds. The force sensor may also include signal conditioning circuitry. | 06-21-2012 |
20120174680 | PRESSURE SENSOR WITH LOW COST PACKAGING - A pressure sensor is disclosed that may include a minimum amount of fluid coupling packaging. In one illustrative embodiment, a pressure sensor assembly may include a pressure sensor die having a front side and a back side, and a pressure sensing diaphragm. The pressure sensor assembly may further include a housing having a mounting side and a sensing side. The sensing side may define a pressure port. The pressure sensor die may be secured to the housing such that the pressure sensing diaphragm is exposed to the pressure port, and such that front side of the pressure sense die is accessible from outside of the housing. | 07-12-2012 |
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 |
20130031985 | PRESSURE SENSOR ASSEMBLY - The present disclosure relates to sensors including pressure sensors, humidity sensors, flow sensors, etc. In some cases, a sensor assembly may include a pressure port connected to a sensor unit, an electrical connector connected to the sensor unit and an outer housing encompassing at least portions of the pressure port, sensor unit and electrical connector. In some instances, the sensor unit may include pressure signal output terminals electrically connected to electrical terminals of the electrical connector. | 02-07-2013 |
20130247689 | FORCE SENSOR - A force sensor may include a sense die mounted to a substrate and an actuating assembly for transmitting an external force to the sense die. The sense die may include a diaphragm, a boss extending from the diaphragm, and one or more sensing elements (e.g., piezoresistive elements positioned on the diaphragm). The actuation assembly may include a force receiving feature configured to receive an external force at a first end and transfer at least a portion of the received external force through a second end to the diaphragm via intimate contact with a bottom side of the boss. In some cases, the force sensor may also include signal conditioning circuitry. | 09-26-2013 |
20130247690 | FORCE SENSOR - A force sensor may include a sensing die with a sense diaphragm. An actuation assembly may include a button member and a pin and/or other features, where a first end of the pin may engage the sense diaphragm and a second end of the pin may engage the button to facilitate transferring a force applied to the button to the sense diaphragm. In some cases, the interface between the button member and the pin may allow the button member to swivel or pivot, at least to some degree, relative to the pin, which may facilitate transferring a force from the button member to the diaphragm with minimal mechanical loss. In some cases, the second end of the pin may be at least partially tapered, with the taper engaging the edge of an indentation in the button. | 09-26-2013 |
20130298688 | TEMPERATURE COMPENSATED FORCE SENSOR - A force sensor may include a housing having a cavity enclosing a sense die, an actuating element and an elastomeric seal. The sense die may have a force sensing element for sensing a force applied to a surface of the sense die, and a temperature compensation circuit. The temperature compensation circuit may be located on the surface of the sense die and may be configured to at least partially compensate for the temperature sensitivity of the force sensing element. The actuating element may extend outside the housing and be used to transfer a force applied externally from the housing to the sense die. The elastomeric seal may include one or more conductive elements separated from the edge of the elastomeric seal by an insulating elastomeric material. | 11-14-2013 |
20140083209 | MECHANICALLY COUPLED FORCE SENSOR ON FLEXIBLE PLATFORM ASSEMBLY STRUCTURE - A force sensor system includes a substrate, a cover, a sensor, and a spherical force transfer element. The cover is coupled to the substrate, and has an inner surface, an outer surface, an opening extending between the inner and outer surfaces, and a wall structure extending from the inner surface that defines a sensor cavity between the inner surface and the substrate. The sensor is mounted on the substrate, is disposed within the sensor cavity, and is configured to generate a sensor signal representative of a force supplied to the sensor. The spherical force transfer element is disposed partially within the sensor cavity, is movable relative to the cover, extends from the opening in the cover, and engages the sensor. The spherical force transfer element is adapted to receive an input force and is configured, upon receipt of the input force, to transfer the input force to the sensor. | 03-27-2014 |
20140144244 | 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. | 05-29-2014 |