KAVLICO CORPORATION Patent applications |
Patent application number | Title | Published |
20150204747 | Differential Pressure Sensor With Dual Output Using a Double-Sided Capacitive Sensing Element - A differential capacitive pressure sensor of an embodiment of the present invention has first and second diaphragms positioned on opposing sides of a single substrate. Each diaphragm of the pressure transducer is configured to be exposed to a transient fluid, with the first and second pressure transducers being arranged with their respective deflection surfaces directed outwardly from each other. The differential capacitive pressure sensor may be configured to output representations of differential and common mode pressure of the transient fluids, where a representation of a common mode is cancelled in generating the representation of the differential pressure. The transient fluids may be the same fluid at different locations within a flow path. The diaphragms may be constructed from a ceramic material to be able to withstand exposure to corrosive or caustic fluids. | 07-23-2015 |
20150198495 | Pressure Transducer With Capacitively Coupled Source Electrode - A capacitive pressure transducer of an embodiment of the present invention capacitively couples two electrodes on a substrate with a diaphragm electrode to form a transducing circuit without the need for a physical connection between the electrodes. Embodiments of the present invention have a substrate with a coupling electrode and a sensing electrode and an attached diaphragm with a diaphragm electrode. A spacer positioned between the substrate and the diaphragm provides for a cavity that defines a gap between the sensing electrode and the diaphragm electrode. A dielectric spacer may be positioned over the coupling electrode to increase the capacitance between the coupling electrode and the diaphragm electrode. The capacitive pressure transducer has similar electrical characteristics as existing capacitive pressure transducers, is easier to manufacture, and has long-term reliability and durability improvements brought about by the elimination of mechanical interconnects and additional conductive materials. | 07-16-2015 |
20140157943 | ROTATABLE AND STATIONARY GATES FOR MOVEMENT CONTROL - Disclosed are assemblies, systems, devices, methods, and other implementations, including an assembly that includes a moveable mechanical structure (e.g., a lever), and a gate to control movement of the moveable mechanical structure. The gate include a rotatable body, and at least two appendages extending from the rotatable body, including a first appendage configured to stop rotational movement of the gate in a first direction beyond a first angular position when the first appendage contacts a blocking structure, and a second appendage configured to contact the moveable mechanical structure that, when the moveable mechanical structure contacts the second appendage, actuates the gate to cause rotation of the gate. | 06-12-2014 |
20130221954 | ANTI-BACKLASH COUPLER - Disclosed are devices, systems, assemblies, couplers, and other implementations, including a coupler that includes a first coupling element matingly engaged to a second coupling element, each of the first and second coupling elements including a plate defining an opening, a projection extending from a first surface of the plate, and a socket extending from a second surface of the plate and configured to receive a rotatable member. The projection of the first coupling element is received in the opening of the plate of the second coupling element, and the projection of the second coupling element is received in the opening of the plate of the first coupling element. The matingly engaged coupling elements are configured to rotate in response to rotation of a first rotatable member of a first device received in the socket of the first coupling element. | 08-29-2013 |
20100235130 | ONE PIN CALIBRATION ASSEMBLY AND METHOD FOR SENSORS - Described herein is a sensor assembly that can be calibrated after manufacture and a method for calibrating that assembly. The assembly comprises a sense element, microprocessor and a protection circuit. The assembly can use pins on the existing connector to input calibration data. The present invention also is a method of calibrating sensor outputs using an assembly that contains a protection circuit to prevent the sensor assembly from electrostatic discharge and high and reverse voltage. | 09-16-2010 |
20100229651 | COINTEGRATED MEMS SENSOR AND METHOD - Described herein is a method for integrating MEMS with submicron semiconductor electrical circuits such as CMOS to provide more complex signal processing, on-chip calibration and integration with RF technologies. A MEMS sensor is provided having an upper layer, an insulating layer into which a cavity has been formed and a handle layer. The upper layer acts as both the substrate of the semiconductor electrical circuit and as the active MEMS element. The remainder of the circuitry is fabricated either in or on the upper layer. In a preferred method of the present invention a first wafer assembly and a second wafer assembly are fabricated such that a MEMS sensor and the substrate of at least one semiconductive electrical circuit is formed. | 09-16-2010 |
20090098318 | DIAPHRAGM ISOLATION FORMING THROUGH SUBTRACTIVE ETCHING - Described herein is a housing comprising an inside and at least one sidewall, wherein the at least one sidewall comprises inner and outer surfaces. An etch stop deposit is disposed over at least a portion of the housing, and a diaphragm material deposit is disposed over at least a portion of the etch stop deposit. | 04-16-2009 |
20090061597 | SINGULATOR METHOD AND APPARATUS - A method for the singulation of hybrid circuits from a pre-scribed plate containing hybrid circuits or made of other brittle materials. The method includes the steps of providing a platen used to support the hybrid plate and which has a surface comprised of a series of sections each angled downward from its adjacent section, aligning the plate on the platen so that the scribe lines align with the surface discontinuities at the angles between the sections, securing the plate to the platen with vacuum pressure, creating a pressure differential between a space above the plate and a space below the plate, and applying the pressure differential to sequentially break the plate along the pre-scribed lines by forcing the plate against the angles. | 03-05-2009 |
20080300810 | METHOD AND APPARATUS FOR CALIBRATION OF SENSOR SIGNALS - A method is disclosed for providing calibration of sensor signals in a sensor having a measuring sensor and a reference sensor. The method includes receiving a sensor signal and a reference signal from the measuring sensor and the reference sensor, respectively. The method further includes providing a first compensation signal to the sensor signal based on a gain characteristic and providing a second compensation signal to the reference signal based on the gain characteristic and an offset characteristic; combining the first compensation signal and the sensor signal, and the second compensation signal and the reference signal to create a compensated sensor signal; and, adjusting the compensated signal for temperature effects by coupling a component having a high thermal coefficient to the sensor. An apparatus is also described herein. | 12-04-2008 |