Patent application number | Description | Published |
20090065866 | Non-Planar Silicon-On-Insulator Device that Includes an "Area-Efficient" Body Tie - Non-planar SOI devices that include an “area-efficient” body tie are disclosed. The device includes a bulk substrate, an insulator layer formed on a surface of the bulk substrate, and a silicon body formed on a surface of the insulator layer. The silicon body preferably includes (i) a non-planar channel connecting a source region and a drain region, and (ii) a body tie that is adjacent to the channel and couples the channel to a voltage potential. The device further includes a gate dielectric formed on the channel and a gate material formed on the gate dielectric. | 03-12-2009 |
20100006912 | Planar Metal-Insulator-Metal Circuit Element and Method for Planar Integration of Same - A complementary metal-oxide-semiconductor (CMOS) static random-access-memory (SRAM) element comprising a planar metal-insulator-metal (MIM) capacitor is disclosed, and the planar MIM capacitor is electrically connected to the transistors in the CMOS memory element to reduce the effects of charged particle radiation on the CMOS memory element. Methods for immunizing a CMOS SRAM element to the effects of charged particle radiation are also disclosed, along with methods for manufacturing CMOS SRAM including planar MIM capacitors as integrated circuits. | 01-14-2010 |
20100200918 | Heavy Ion Upset Hardened Floating Body SRAM Cells - A CMOS memory element comprising silicon-on-insulator MOSFET transistors is disclosed wherein at least one of the MOSFET transistors is configured such that the body of the transistor is not connected to a voltage source and is instead permitted to electrically float. Implementations of the disclosed memory element with increased immunity to errors caused by heavy ion radiation are also disclosed. | 08-12-2010 |
20110089331 | Neutron Detector Cell Efficiency - Neutron detection cells and corresponding methods of detecting charged particles that make efficient use of silicon area are set forth. Three types of circuit cells/arrays are described: state latching circuits, glitch generating cells, and charge loss circuits. An array of these cells, used in conjunction with a neutron conversion film, increases the area that is sensitive to a strike by a charged particle over that of an array of SRAM cells. The result is a neutron detection cell that uses less power, costs less, and is more suitable for mass production. | 04-21-2011 |
20110186940 | NEUTRON SENSOR WITH THIN INTERCONNECT STACK - A semiconductor device comprises a substrate, an active semiconductor layer situated on the substrate, a stack of interconnect layers deposited on the active semiconductor layer, and a neutron conversion layer deposited on the stack of interconnect layers, wherein the stack of interconnect layers is configured such that at least about 10% of secondary charged particles generated in the neutron conversion layer will have a sufficient ion track length in the active semiconductor layer to generate a detectable charge in the active semiconductor layer. Another semiconductor device comprises a substrate, an active semiconductor layer situated on the substrate, a neutron conversion layer deposited on the active semiconductor layer, and a stack of interconnect layers deposited on the neutron conversion layer. | 08-04-2011 |
20120012957 | NEUTRON DETECTOR WITH WAFER-TO-WAFER BONDING - A method of manufacturing a neutron detector comprises forming a first wafer by at least forming an oxide layer on a substrate, forming an active semiconductor layer on the oxide layer, and forming an interconnect layer on the active semiconductor layer, forming at least one electrically conductive pathway extending from the interconnect layer through the active semiconductor layer and the oxide layer, forming a circuit transfer bond between the interconnect layer and a second wafer, removing the substrate of the first wafer after forming the circuit transfer bond, depositing a bond pad on the oxide layer after removing the substrate of the first wafer, wherein the bond pad is electrically connected to the electrically conductive pathway, depositing a barrier layer on the oxide layer after removing the substrate of the first wafer, and depositing a neutron conversion layer on the barrier layer after depositing the barrier layer. | 01-19-2012 |
Patent application number | Description | Published |
20130073242 | SMALL VOLUME PROVER APPARATUS AND METHOD FOR MEASURING FLOW RATE - A small volume prover apparatus and method for precisely measuring the flow rate of a fluid via a cylindrical component such as a flow tube. A precision bore cylinder and a piston can be configured with a valve arrangement in order to permit fluid to pass through an annular passage when the piston travels from one position to an opposite position. An accelerometer sensor can be mounted to the piston for continuously detecting the velocity of the piston traveling in the pipe by integrating acceleration data with respect to time data. The volumetric flow rate can be automatically calculated by multiplying the velocity with respect to the area of the flow tube. | 03-21-2013 |
20130104621 | Piston Prover Apparatus, Method and System | 05-02-2013 |
20130218022 | Personal Protective Equipment with Integrated Physiological Monitoring - Embodiments may comprise personal protective equipment with integrated physiological monitoring. Some embodiments may relate specifically to in-ear devices (such as hearing protection and/or communication devices) having one or more physiological sensors for early monitoring for heat related illnesses. Several embodiments may incorporate a temperature sensor and a speaker into such in-ear device. | 08-22-2013 |
20130228692 | FLAME DETECTOR WITH OPTICS ARRAY - A system includes a micro-optic array of pixel elements positioned to receive radiation from a flame. A mid-wave infrared (MWIR) detector is positioned to receive mid-wave infrared radiation from the micro-optic array. A filter is provided to pass mid-wave infrared radiation to the MWIR detector. A controller is provided to sequentially select different sets of pixel elements of the micro-optic array to provide mid-wave infrared radiation to the MWIR detector representative of the flame. | 09-05-2013 |
20130234028 | METHOD AND DEVICE FOR DETECTION OF MULTIPLE FLAME TYPES - A flame detector includes an infrared detector and a first window covering the infrared detector. A second window is positioned in front of the first window. The flame detector is adapted to reject light having a wavelength below approximately 2 μm and to reject light having a wavelength above approximately 6 μm, allowing detection of flame from multiple sources. In variations, the windows in combination with the infrared detector may provide the rejection or a band pass filter provides the rejection. Still further variations utilize notch filters or a band reject filter to provide notches of light to the infrared detector corresponding to the wavelength of different flame sources to be detected. | 09-12-2013 |
20140005497 | MASK HAVING INTEGRATED PHYSIOLOGICAL CONDITION SENSORS | 01-02-2014 |
20140311211 | GAS SENSING DRIFT COMPENSATION USING GAS SELF-REFERENCING FOR END OF SERVICE LIFE INDICATION FOR RESPIRATORS - Embodiments relate generally to systems and methods for determining end of service life for a respirator cartridge by comparing the gas levels sensed at two or more sample points within the cartridge. Sample streams may run from the sample points to a gas sensor, wherein a valve may control the flow between the sample streams and the gas sensor. | 10-23-2014 |
Patent application number | Description | Published |
20100145436 | Bio-erodible Stent - Endoprostheses such as stents are disclosed that are, or that include portions that are, bioerodible. | 06-10-2010 |
20110238151 | SURFACE TREATED BIOERODIBLE METAL ENDOPROSTHESES - An endoprosthesis includes an expandable tubular body defined by a plurality of struts. In some embodiments, the expandable tubular body includes a bioerodible metal that has at least a first surface region and a second surface region. The first and second surface regions can have different surface oxide compositions. In some embodiments, the first portion has a thermally altered microstructure and the second portion has a wrought microstructure. The thermally altered microstructure can be a cast microstructure comprising dendritic grains. The first portion forms at least a portion of an outer surface of the expandable tubular body. In some embodiments, the expandable tubular body includes iron or a bioerodible iron alloy and at least one surface of the expandable tubular body includes a substantially uniform coating of iron(III) oxide. | 09-29-2011 |
20130296678 | COMBINATION STRUCTURAL POROUS SURFACES FOR FUNCTIONAL ELECTRODE STIMULATION AND SENSING - An implantable medical lead including a proximal end portion and a distal end portion and an electrical conductor electrically connected to the proximal end portion of the lead body. Also, the lead has at least one electrode connected to the distal end portion of the lead body and connected to the electrical conductor. The electrode includes a conductive base structure, a first set of pores formed on an outer surface of the conductive base structure, the first set of pores having an average first pore dimension of between about ¼ | 11-07-2013 |
20140052097 | GUIDE EXTENSION CATHETER - Medical devices and methods for making and using medical devices are disclosed. An example medical device may include a guide extension catheter. The guide extension catheter may include an elongate tubular member having a proximal region, a distal region, and a slot formed in the tubular member between the proximal region and the distal region. The proximal region of the tubular member may be configured to shift between a first configuration and a collapsed configuration. The guide extension catheter may also include an elongate shaft for shifting the proximal region between the first configuration and the collapsed configuration. | 02-20-2014 |
20140067031 | LEADS INCORPORATING A LASER PROCESSED ELECTRODE - Medical devices may include an electrode that has been processed to increase its surface area. In some cases, an electrode may be processed using an ultrafast laser to produce an electrode surface that includes macrostructures formed within the electrode surface and nanostructures formed on the macrostructures. The nanostructures may be formed of material that was removed from the electrode surface in forming the macrostructures. | 03-06-2014 |
20140081261 | SELF-POSITIONING ELECTRODE SYSTEM AND METHOD FOR RENAL NERVE MODULATION - Systems for nerve and tissue modulation are disclosed. An example system may include an intravascular nerve modulation system including an elongated shaft having a proximal end region and a distal end region. The system may include an expandable frame having one or more electrodes positioned on or about the frame. An actuation assembly including a biasing element, a central shaft, and a piston may be configured to provide for controlled expansion of the expandable frame. The system may further include a control element for controlling the actuation assembly. | 03-20-2014 |
20140134322 | Nanoparticle Implantation In Medical Devices - Nanoparticles can be embedded into a medical device by accelerating them to a speed of between 100 m/s and 1,000 m/s and embedding the particles into a polymer surface of a medical device or a precursor thereof. In some cases, the nanoparticles can be embedded until the nanoparticles accumulate in sufficient number to adhere together to form a coating over the polymer surface. The nanoparticles can provide a conductive pathway, an abrasion resistant surface, a pro-healing surface, and/or an anti-bacterial surface. | 05-15-2014 |
20150119724 | CATHETER SYSTEMS AND METHODS FOR DETERMINING BLOOD FLOW RATES WITH OPTICAL SENSING - Catheter systems and methods for determining blood flow rates based on light reflection measurements. The catheter may include a lumen extending between a proximal end of the catheter and a distal end of the catheter. The catheter may include fluid infusion openings at the distal end region of the catheter that are configured to permit the indicator fluid to exit the catheter from the lumen. The catheter system may include an optical fiber having one or more sensors thereon for sensing light reflected by blood particles in a body vessel lumen. A blood flow rate may be determined based on the sensed light reflected by blood particles in the body vessel lumen. | 04-30-2015 |
Patent application number | Description | Published |
20080271796 | Apparatus and Methods to Dispense Fluid From a Bank of Containers and to Refill Same - A fluid dispensing system includes a manifold having a fluid outlet port to dispense fluid from a plurality of fluid supply containers. The system additionally includes a plurality of valves connected to the manifold for controlling the flow of fluid from the containers. The manifold and valves are configured such that all fluid flow connections are disposed within the manifold, thereby reducing and/or eliminating the amount of piping required external to the manifold. So configured, the valves include simple cartridge-type devices that are easily installed into and removed from the manifold. | 11-06-2008 |
20080290313 | High-Pressure Bi-Directional Valve - A control element of a bi-directional valve is in fluid communication with an outlet pressure and an inlet pressure when the valve is closed such that a sum of the forces applied to the control element result in a net force urging the control element to seat against a valve seat. The valve includes a valve body carrying the valve seat. The control element is balanced on an outlet side of the valve seat such that the outlet pressure applies approximately no net force to the control element. In contrast, the control element is unbalanced on an inlet side of the valve seat such that inlet pressure applies a net force on the control element to bias the control to seat against the valve seat. | 11-27-2008 |
20080308163 | 3-Way High-Pressure Air Operated Valve - A high pressure three-way control valve comprises a valve body defining first, second, and third ports disposed in selective fluid communication with each other via a control element. The control element is movable between a first seated position and a second seated position to selectively control the direction of fluid between the first and second port, or alternatively, between the first and third port. So configured, the control valve serves a function that conventionally requires two valves plumbed together. | 12-18-2008 |
Patent application number | Description | Published |
20100101665 | DOME-LOADED PRESSURE REGULATORS - Dome-loaded pressure regulators are disclosed. An example pressure regulator includes a dome-loaded pressure regulating valve fluidly coupled to a pressure inlet, a pressure outlet, and a control pressure. The pressure regulating valve includes a piston, having a transverse bore defining a fluid path through the piston to fluidly couple the pressure inlet to the pressure outlet configured to engage a valve seat and to respond to the control pressure to control the flow of fluid between the pressure inlet and the pressure outlet via the valve seat. | 04-29-2010 |
20110073198 | DOME-LOADED PRESSURE REGULATORS - Dome-loaded pressure regulators are disclosed. An example pressure regulator includes a body having a pressure inlet and first and second pressure outlets and a first dome-loaded pressure regulating valve fluidly coupled to the pressure inlet, the first pressure outlet, and a first control pressure. The first dome-loaded pressure regulating valve includes a first piston having a transverse bore defining a fluid path through the first piston to fluidly couple the pressure inlet to the first pressure outlet and configured to engage a first valve seat and to respond to the first control pressure to control the flow of fluid between the pressure inlet and the first pressure outlet via the first valve seat. The example pressure regulator includes a second dome-loaded pressure regulating valve fluidly coupled to the pressure inlet, the second pressure outlet, and a second control pressure. | 03-31-2011 |
20110174395 | DIAPHRAGM INTERFACE APPARATUS TO IMPROVE A CYCLE LIFE OF A DIAPHRAGM - Diaphragm interface apparatus to improve a cycle life of a diaphragm are described. An example fluid regulator includes a fluid flow passageway between an inlet and an outlet, where a sensing chamber defines a portion of the fluid flow passageway. A diaphragm senses a pressure in the sensing chamber and a diaphragm interface adjacent the sensing chamber has a curved surface to contact a portion of the diaphragm that moves in response to pressure changes in the sensing chamber. The curved surface affects an amount of stress imparted to the portion of the diaphragm during operation of the fluid regulator. | 07-21-2011 |
20130168587 | MOUNTING ASSEMBLIES FOR USE WITH FLUID CONTROL DEVICES - Mounting assemblies for use with fluid control devices are disclosed. An example apparatus includes a bonnet to be coupled to a valve and a mounting assembly including a first side to be coupled to an actuator and a second side to be rotatably coupled at an end of the bonnet to enable a rotational position of the mounting assembly to change relative to the bonnet. | 07-04-2013 |
20130193357 | MANUAL OVERRIDES FOR VALVES - Manual overrides for valves are disclosed herein. An example apparatus includes an actuator to move a stem of a valve. The actuator includes a housing defining a bore and a piston disposed in the bore. The example apparatus also includes a rod movably coupled to the housing to extend into the bore, and the piston is to be movable via the rod or a fluid to flow into the bore. The example apparatus also includes a lock to hold the rod in a first position on the housing where the rod is to disable a supply of the fluid to the bore. | 08-01-2013 |
20140209178 | Fluid Regulator With Integrated Rapid Pressurization Bypass Valve - A fluid flow control device includes a regulator for operating at high pressures and an integral bypass valve. The regulator and the bypass valve each include a control assembly that is movable between an open position and a closed position. The regulator and bypass valves are biased into the open positions and adapted to move into the closed positions when an operating pressure rises to above respective regulator and bypass set-point pressures. The bypass set-point pressure is lower than the regulator set-point pressure such that when the operating pressure rises above the bypass set-point pressure, the bypass valve automatically closes and allows the regulator to perform under normal operating conditions. So configured, the bypass valve is arranged to accommodate at least some of the fluid flow through the system until the operating pressure reaches the normal operating pressure, which is somewhere between the bypass and regulator set-point pressures. | 07-31-2014 |