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42619 results about "Electronic component" patented technology

An electronic component is any basic discrete device or physical entity in an electronic system used to affect electrons or their associated fields. Electronic components are mostly industrial products, available in a singular form and are not to be confused with electrical elements, which are conceptual abstractions representing idealized electronic components.

Sterilizable surgical instrument

A surgical instrument including a first portion and a second portion, wherein the second portion can be sterilized separately from the first portion. The first portion can comprise an anvil, a staple cartridge channel and / or staple cartridge, and a movable cutting member. The second portion can comprise electronic components configured to control the surgical instrument and / or record data collected during the use of the surgical instrument. The first portion can be sterilized using a gamma radiation sterilization process while the second portion can be sterilized using a different sterilization process, such as steam, ethylene oxide, ozone, and / or hydrogen peroxide sterilization processes, for example. As a result, the first and second portions can be sterilized separately and delivered in two separate containers. The second portion can be stored within a sealed bag and can include an electrical terminal which can penetrate the bag and communicate with the first portion.
Owner:CILAG GMBH INT

Manual and automatic probe calibration

Embodiments of the present disclosure include an oximeter sensor system including a reusable portion including a substantially rigid connector connected to an end of a cable. The substantially rigid connector includes an electronic element housing at least one electronic component of a probe. The system also includes a disposable portion including a flexible wrap comprising a substantially rigid connection port shaped to receive the substantially rigid connector in a releasably securable manner.
Owner:JPMORGAN CHASE BANK NA

LED replacement for fluorescent lighting

InactiveUS6860628B2Reduce eliminateReducing or eliminating any additional electrical componentryCoupling device connectionsLight source combinationsTransformerFluorescence
The present invention provides several embodiments of an elongate hollow tubular or solid rod lighting device including a plurality of LEDs therewith and appropriate electrical componentry, and serving as a direct replacement for a conventional fluorescent light tube in a conventional fluorescent lighting fixture. The present lighting device includes appropriate connector pins extending from each end thereof, enabling the device to be installed in a conventional fluorescent lighting fixture with no modification to the fixture. The light may include appropriate electrical componentry such as a step-down transformer to provide the required voltage for the LEDs, either integrally within the light, incorporated in an end cap thereof, or installed separately therefrom in the fixture, as desired. The light may be colored or tinted as desired by the use of LEDs providing the desired color output, and / or by installing a tinted sleeve over the tube or rod as desired.
Owner:SAMSUNG ELECTRONICS CO LTD

Electronic cigarette

An electronic cigarette with inlet air constructed and arranged to contact a delivery substance and minimize airflow over electronic components.
Owner:LBS IMPORTS

Method of doping organic semiconductors with quinone derivatives and 1, 3, 2 - dioxaborine derivatives

The invention relates to the use of an organic mesomeric compound as organic dopant for doping an organic semiconducting matrix material for varying the electrical properties thereof. In order to be able to handle organic semiconductors more easily in the production process and to be able to produce electronic components with doped organic semiconductors more reproducibly, a quinone or quinone derivative or a 1,3,2-dioxaborine or a 1,3,2-dioxaborine derivative may be used as a mesomeric compound, which under like evaporation conditions has a lower volatility than tetrafluorotetracyanoquinonedimethane (F4TCNQ).
Owner:KUEHL OLAF +4

Systems and methods for thin-film deposition of metal oxides using excited nitrogen-oxygen species

Systems and methods are delineated which, among other things, are for depositing a film on a substrate that is within a reaction chamber. In an exemplary method, the method may comprise applying an atomic layer deposition cycle to the substrate, wherein the cycle may comprise exposing the substrate to a precursor gas for a precursor pulse interval and then removing the precursor gas thereafter, and exposing the substrate to an oxidizer comprising an oxidant gas and a nitrogen-containing species gas for an oxidation pulse interval and then removing the oxidizer thereafter. Aspects of the present invention utilize molecular and excited nitrogen-oxygen radical / ionic species in possible further combination with oxidizers such as ozone. Embodiments of the present invention also include electronic components and systems that include devices fabricated with methods consistent with the present invention.
Owner:ASM IP HLDG BV

Precision spray processes for direct write electronic components

This invention combines the precision spray process with in-flight laser treatment in order to produce direct write electronic components. In addition to these components, the process can lay down lines of conductive, inductive, and resistive materials. This development has the potential to change the approach to electronics packaging. This process is revolutionary in that components can be directly produced on small structures, thus removing the need for printed circuit boards.
Owner:OPTOMEC DESIGN CO

Systems and methods for thin-film deposition of metal oxides using excited nitrogen—oxygen species

Systems and methods are delineated which, among other things, are for depositing a film on a substrate that is within a reaction chamber. In an exemplary method, the method may comprise applying an atomic layer deposition cycle to the substrate, wherein the cycle may comprise exposing the substrate to a precursor gas for a precursor pulse interval and then removing the precursor gas thereafter, and exposing the substrate to an oxidizer comprising an oxidant gas and a nitrogen-containing species gas for an oxidation pulse interval and then removing the oxidizer thereafter. Aspects of the present invention utilize molecular and excited nitrogen-oxygen radical / ionic species in possible further combination with oxidizers such as ozone. Embodiments of the present invention also include electronic components and systems that include devices fabricated with methods consistent with the present invention.
Owner:ASM IP HLDG BV

Atomic layer deposition of hafnium lanthanum oxides

There is provided an improved method for depositing thin films using precursors to deposit binary oxides by atomic layer deposition (ALD) techniques. Also disclosed is an ALD method for depositing a high-k dielectric such as hafnium lanthanum oxide (HfLaO) on a substrate. Embodiments of the present invention utilize a combination of ALD precursor elements and cycles to deposit a film with desired physical and electrical characteristics. Electronic components and systems that integrate devices fabricated with methods consistent with the present invention are also disclosed.
Owner:ASM IP HLDG BV

Thin stacked interposer package

The present invention comprises a semiconductor package comprising a bottom semiconductor package substrate which is populated with one or more electronic components. The electronic component(s) of the bottom substrate are covered or encapsulated with a suitable mold compound which hardens into a package body of the semiconductor package. The package body is provided with one or more vias through the completion of laser drilling process, such via(s) providing access to one or more corresponding conductive contacts of the bottom substrate. These vias are either lined or partially filled with a conductive metal material. Subsequently, a top semiconductor package substrate (which may optionally be populated with one or more electronic components) is mounted to the package body and electrically connected to the conductive metal within the via(s) of the package body.
Owner:AMKOR TECH SINGAPORE HLDG PTE LTD

Resilient contact structures formed and then attached to a substrate

Contact structures exhibiting resilience or compliance for a variety of electronic components are formed by bonding a free end of a wire to a substrate, configuring the wire into a wire stem having a springable shape, severing the wire stem, and overcoating the wire stem with at least one layer of a material chosen primarily for its structural (resiliency, compliance) characteristics. A variety of techniques for configuring, severing, and overcoating the wire stem are disclosed. In an exemplary embodiment, a free end of a wire stem is bonded to a contact area on a substrate, the wire stem is configured to have a springable shape, the wire stem is severed to be free-standing by an electrical discharge, and the free-standing wire stem is overcoated by plating. A variety of materials for the wire stem (which serves as a falsework) and for the overcoat (which serves as a superstructure over the falsework) are disclosed. Various techniques are described for mounting the contact structures to a variety of electronic components (e.g., semiconductor wafers and dies, semiconductor packages, interposers, interconnect substrates, etc.), and various process sequences are described. The resilient contact structures described herein are ideal for making a "temporary" (probe) connections to an electronic component such as a semiconductor die, for burn-in and functional testing. The self-same resilient contact structures can be used for subsequent permanent mounting of the electronic component, such as by soldering to a printed circuit board (PCB). An irregular topography can be created on or imparted to the tip of the contact structure to enhance its ability to interconnect resiliently with another electronic component. Among the numerous advantages of the present invention is the great facility with which the tips of a plurality of contact structures can be made to be coplanar with one another. Other techniques and embodiments, such as wherein the falsework wirestem protrudes beyond an end of the superstructure, or is melted down, and wherein multiple free-standing resilient contact structures can be fabricated from loops, are described.
Owner:FORMFACTOR INC

Thermal management system

The present invention relates to a system for managing the heat from a heat source like an electronic component. More particularly, the present invention relates to a system effective for dissipating the heat generated by an electronic component using a thermal management system that includes a thermal interface formed from a flexible graphite sheet and / or a heat sink formed from a graphite article.
Owner:NEOGRAF SOLUTIONS LLC

Semiconductor device and method of fabricating the same

A semiconductor device equipped with the dual damascene structure that is provided, which suppresses the propagation delay of signals effectively without using any complicated processes. The device is comprised of (i) a semiconductor substrate having a lower wiring layer and electronic elements; (ii) a first interlayer dielectric layer formed on the substrate; (iii) a second interlayer dielectric layer formed on the first interlayer dielectric layer, the second interlayer dielectric layer being made of carbon-containing SiO2; (iv) a third interlayer dielectric layer formed on the second interlayer dielectric layer; (v) a fourth interlayer dielectric layer formed on the third interlayer dielectric layer, the fourth interlayer dielectric layer being made of carbon-containing SiO2; (vi) the first and second interlayer dielectric layers having a via hole penetrating therethrough; (vii) the third interlayer dielectric layer having a recess overlapping with the via hole, the recess being formed to communicate with the via hole; (viii) a metal plug formed in the via hole to be contacted with the lower wiring layer or the electronic elements in the substrate; (ix) a metal wiring layer formed in the recess; and (x) a fourth interlayer dielectric layer formed on the third interlayer dielectric layer to cover the metal wiring layer.
Owner:NEC CORP

Electrical conductors formed from mixtures of metal powders and metallo-organic decomposition compounds

The present invention relates to a thick film formed of a mixture of metal powders and metallo-organic decomposition (MOD) compounds in an organic liquid vehicle and a process for advantageously applying them to a substrate by silk screening or other printing technology. The mixtures preferably contain metal flake with a ratio of the maximum dimension to the minimum dimension of between 5 and 50. The vehicle may include a colloidal metal powder with a diameter of about 10 to about 40 nanometers. The concentration of the colloidal metal in the suspension can range from about 10 to about 50% by weight. The MOD compound begins to decompose at a temperature of approximately about 200 DEG C. to promote consolidation of the metal constituents and bonding to the substrate which is complete at temperatures less than 450 DEG C. in a time less than six minutes. The mixtures can be applied by silk screening, stencilling, gravure or lithography to a polymer-based circuit board substrate for producing rigid and flexible printed wiring boards in a single operation with negligible generation of hazardous wastes. The same mixtures can be used in place of solder to assemble circuits by bonding electrical components to conductors as well as to make the conductors themselves.
Owner:PARELEC

Cannula with integrated camera and illumination

A cannula assembly includes a tubular element forming a lumen, a deployable portion of the tubular element, and an electronic component mounted to the deployable portion of the tubular element. The tubular element has a proximal end and a distal end adapted to be inserted into a body cavity. The deployable portion of the tubular element is engaged near the distal end of the tubular element so as to transition between a closed position and an open position. The electronic component is at least partially disposed in the lumen when the deployable portion is in the closed position.
Owner:ENDOSPHERE SURGICAL

Electronic component having micro-electrical mechanical system

An electronic component includes a semiconductor substrate having a first surface and a second surface opposite to the first surface, a cavity that penetrates from the first surface to the second surface of the semiconductor substrate, and an electrical mechanical element that has a movable portion formed above the first surface of the semiconductor substrate so that the movable portion is arranged above the cavity. The electronic component further includes an electric conduction plug, which penetrates from the first surface to the second surface of the semiconductor substrate, and which is electrically connected to the electrical mechanical element.
Owner:KIOXIA CORP

Dynamic Changeable Focus Contact And Intraocular Lens

In some embodiments, a first device may be provided. The first device may include a first lens that comprises a contact lens or an intraocular lens. The first lens may include an electronic component and a dynamic optic, where the dynamic optic is configured to provide a first optical add power and a second optical add power, where the first and the second optical add powers are different. The dynamic optic may comprise a fluid lens.
Owner:HPO ASSETS

Methods and circuits for programmable automatic burst mode control using average output current

The present invention comprises a user-programmable control circuit for use in a power converter to automatically transition the converter into BURST mode when load current demand is low. The control circuit senses load current demand by monitoring the output current of the converter, and generating a signal representative of the monitored output current. The control circuit may automatically transition the converter into BURST mode when the signal indicative of the average monitored output current decreases below a user-programmable threshold. BURST mode may increase overall converter efficiency by turning OFF a plurality of electronic components, and maintaining the converter's output voltage at a regulated level by energy stored in an output capacitor.
Owner:ANALOG DEVICES INT UNLTD

Conformal thermal interface material for electronic components

A thermally-conductive interface for conductively cooling a heat-generating electronic component having an associated thermal dissipation member such as a heat sink. The interface is formed as a self-supporting layer of a thermally-conductive material which is form-stable at normal room temperature in a first phase and substantially conformable in a second phase to the interface surfaces of the electronic component and thermal dissipation member. The material has a transition temperature from the first phase to the second phase which is within the operating temperature range of the electronic component.
Owner:PARKER INTANGIBLES LLC

Method for Making Advanced Smart Cards With Integrated Electronics Using Isotropic Thermoset Adhesive Materials With High Quality Exterior Surfaces

Advanced Smart Cards and similar form factors (e.g. documents, tags) having high quality external surfaces of Polyvinylchloride (PVC), Polycarbonate (PC), synthetic paper or other suitable material can be made with highly sophisticated electronic components (e.g. Integrated Circuit chips, batteries, microprocessors, Light Emitting Diodes, Liquid Crystal Displays, polymer dome switches, and antennae), integrated in the bottom layer of the card structure, through use of injection molded thermosetting or thermoplastic material that becomes the core layer of said Advanced Smart Cards. A lamination finishing process can provide a high quality lower surface, and the encapsulation of the electronic components in the thermosetting or thermoplastic material provides protection from the lamination heat and pressure.
Owner:CARDXX

High volume delivery system for gallium trichloride

The present invention is related to the field of semiconductor processing equipment and methods and provides, in particular, methods and equipment for the sustained, high-volume production of Group III-V compound semiconductor material suitable for fabrication of optic and electronic components, for use as substrates for epitaxial deposition, for wafers and so forth. In preferred embodiments, these methods and equipment are optimized for producing Group III-N (nitrogen) compound semiconductor wafers and specifically for producing GaN wafers. Specifically, the precursor is provided at a mass flow of at least 50 g Group III element / hour for a time of at least 48 hours to facilitate high volume manufacture of the semiconductor material. Advantageously, the mass flow of the gaseous Group III precursor is controlled to deliver the desired amount.
Owner:S O I TEC SILICON ON INSULATOR THECHNOLOGIES

Method and apparatus for grounding a heat sink in thermal contact with an electronic component using a grounding spring having multiple-jointed spring fingers

A grounding spring for electromagnetic interference (EMI) suppression is interposed between a heat sink and a printed circuit board (PCB). The grounding spring comprises a conductive material having an opening formed at its base through which the heat sink makes thermal contact with an electronic module mounted on the PCB. The base makes electrical contact with a peripheral surface of the heat sink, and multiple-jointed spring fingers extend from the base to make electrical contact with conductive pads on the PCB. During compression, the movement of each spring finger's tip is substantially limited to the z-axis. Accordingly, the final installed location of the tip can be precisely controlled even when the grounding spring must accommodate a wide variety of installed heights of the heat sink relative to the PCB. Preferably, the spring fingers terminate with a concave tip that is less susceptible to sliding off the conductive pads.
Owner:IBM CORP

Air flow system and method for facilitating cooling of stacked electronics components

An air flow system and method are provided which include a duct configured to mount either as an inlet or outlet duct to an electronics rack. When mounted to cover an air-intake side of the electronics rack, a supply air flow plenum is defined for directing conditioned air to the air-intake side. The duct includes a first air inlet at a first end for receiving the conditioned air, and is tapered from the first end to a second end thereof, with the supply plenum having a varying air flow cross-section. The duct further includes a second air inlet for providing supplemental room air to the plenum. The second inlet is disposed adjacent to the first inlet, thereby facilitating mixing of conditioned air with room air within the supply air flow plenum prior to delivery thereof to the air-intake side of the electronics rack.
Owner:IBM CORP

Compositions and methods for liquid metering in microchannels

The movement and mixing of microdroplets through microchannels is described employing microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. Microdroplets are metered into defined volumes and are subsequently incorporated into a variety of biological assays. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.
Owner:RGT UNIV OF MICHIGAN

Equipment enclosure kit and assembly method

An equipment enclosure for housing electronic components includes a front assembly having a front frame, the front assembly defining a front of the enclosure, and a rear assembly having a rear frame. The enclosure further includes at least two side brace members, each side brace member having a first end and a second, opposite end. A first connector is configured to releasably connect the first end of one of the side brace members to the front frame. A second connector is configured to releasably connect the second end of the one of the side brace members to the rear frame. Other embodiments and methods are further disclosed.
Owner:SCHNEIDER ELECTRIC IT CORP
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