Abstract: A sensing apparatus for sensing target materials including biological or chemical molecules in a fluid. One such apparatus includes a semiconductor-on-insulator (SOI) structure having an electrically-insulating layer, a fluidic channel supported by the SOI structure and configured and arranged to receive and pass a fluid including the target materials, and a semiconductor device including at least three electrically-contiguous semiconductor regions doped to exhibit a common polarity. The semiconductor regions include a sandwiched region sandwiched between two of the other semiconductor regions, and configured and arranged adjacent to the fluidic channel with a surface directed toward the fluidic channel for coupling to the target materials in the fluidic channel, and further arranged for responding to a bias voltage. The sensing apparatus also includes an amplification circuit in or on the SOI and that is arranged to facilitate sensing of the target material near the fluidic channel.
Abstract: A sensor device and method. One embodiment provides a first semiconductor chip having a sensing region. A porous structure element is attached to the first semiconductor chip. A first region of the porous structure element faces the sensing region of the first semiconductor chip. An encapsulation material partially encapsulates the first semiconductor chip and the porous structure element.
Type:
Application
Filed:
January 26, 2012
Publication date:
May 24, 2012
Applicant:
Infineon Technologies AG
Inventors:
Klaus Elian, Georg Meyer-Berg, Horst Theuss
Abstract: A three dimensional shallow trench isolation structure including sets of parallel trenches extending in two perpendicular directions may be formed by depositing a conformal deposition in a first set of parallel trenches, oxidizing the second set of trenches to enable selective deposition in said second set of trenches and then conformally depositing in said second set of trenches. In some embodiments, only one wet anneal, one etch back, and one high density plasma chemical vapor deposition step may be used to fill both sets of trenches.
Type:
Application
Filed:
November 23, 2010
Publication date:
May 24, 2012
Inventors:
Enzo Carollo, Marcello Mariani, Sara Marelli, Luca Di Piazza
Abstract: A device includes a semiconductor substrate including a front side and a backside. A through-substrate via (TSV) penetrates the semiconductor substrate. A dummy metal line is formed on the backside of the semiconductor substrate, and may be connected to the dummy TSV.
Abstract: Nanoelectromechanical systems are disclosed that utilize vertically grown or placed nanometer-scale beams. The beams may be configured and arranged for use in a variety of applications, such as batteries, generators, transistors, switching assemblies, and sensors. In some generator applications, nanometer-scale beams may be fixed to a base and grown to a desired height. The beams may produce an electric potential as the beams vibrate, and may provide the electric potential to an electrical contact located at a suitable height above the base. In other embodiments, vertical beams may be grown or placed on side-by-side traces, and an electrical connection may be formed between the side-by-side traces when beams on separate traces vibrate and contact one another.
Abstract: The present invention provides a vertical type sensor, including a substrate; a first electrode formed on the substrate; a sensing layer formed on the first electrode layer and reactive to a target substance, wherein the first electrode layer is interposed between the substrate and the sensing layer; and a second electrode layer formed on the sensing layer and having a plurality of openings, wherein the sensing layer is interposed between the first electrode layer and the second electrode layer, and the target substance contacts the sensing layer via the plurality of openings. The vertical type sensor of the present invention provides instant, sensitive and rapid detection.
Abstract: An optical sensor includes a substrate having an upper surface, a plurality of protrusions on the substrate, wherein each of the plurality of protrusions is defined by a base at the upper surface of the substrate and by one or more sloped surfaces oriented at oblique angles relative to the upper surface, and two or more structural layers in the sloped surfaces. The surfaces of the two or more structural layers can adsorb molecules of a chemical or biological substance.
Abstract: According to one embodiment, an energy conversion device comprises a nuclear battery, a light source coupled to the nuclear battery and operable to receive electric energy from the nuclear battery and radiate electromagnetic energy, and a photocell operable to receive the radiated electromagnetic energy and convert the received electromagnetic energy into electric energy. The nuclear battery comprises a radioactive substance and a collector operable to receive particles emitted by the radioactive substance.
Type:
Application
Filed:
October 1, 2010
Publication date:
April 5, 2012
Applicant:
Raytheon Company
Inventors:
Gary A. Frazier, Timothy J. Imholt, Alexander F. St. Claire
Abstract: A method of bonding wafers with an aluminum-germanium bond includes forming an aluminum layer on a first wafer, and a germanium layer on a second wafer, and implanting the germanium layer with non-germanium atoms prior to forming a eutectic bond at the aluminum-germanium interface. The wafers are aligned to a desired orientation and the two layers are held in contact with one another. The aluminum-germanium interface is heated to a temperature that allows the interface of the layers to melt, thus forming a bond. A portions of the germanium layer may be removed from the second wafer to allow infrared radiation to pass through the second wafer to facilitate wafer alignment.
Type:
Application
Filed:
September 29, 2010
Publication date:
March 29, 2012
Applicant:
ANALOG DEVICES, INC.
Inventors:
Thomas Kieran Nunan, Changhan Yun, Christine H. Tsau
Abstract: A sensor device for sensing air flow speed at the exterior of an aircraft, comprising a substrate having an upper side on which is mounted a diaphragm over an aperture or recess in the substrate, the diaphragm being thermally and electrically insulative, and mounting on its upper surface a heating element comprising a layer of resistive material, and wherein electrical connections to the heating element are buried in the diaphragm and/or the substrate, and provide electrical terminals at the lower side of the substrate. The heating element is exposed to the environment, but the remaining electrical parts of the device are not exposed.
Type:
Grant
Filed:
September 19, 2006
Date of Patent:
March 27, 2012
Assignee:
BAE Systems PLC
Inventors:
Clyde Warsop, Andrew Julian Press, Martyn John Hucker
Abstract: Methods and apparatus relating to very large scale FET arrays for analyte measurements. ChemFET (e.g., ISFET) arrays may be fabricated using conventional CMOS processing techniques based on improved FET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense arrays. Improved array control techniques provide for rapid data acquisition from large and dense arrays. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes. In one example, chemFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis.
Abstract: An embodiment of this invention uses a massive parallel interconnect fabric (MPIF) at the flipped interface of a core die substrate (having the core logic blocks) and a context die (used for in circuit programming/context/customization of the core die substrate), to produce ASIC-like density and FPGA-like flexibility/programmability, while reducing the time and cost for development and going from prototyping to production, reducing cost per die, reducing or eliminating NRE, and increasing performance. Other embodiments of this invention enable debugging complex SoC through large contact points provided through the MPIF, provide for multi-platform functionality, and enable incorporating FGPA core in ASIC platform through the MPIF. Various examples are also given for different implementations.
Abstract: A semiconductor device includes a semiconductor substrate, a heat generating device, and a heat radiating part. The heat generating device is provided on the semiconductor substrate, and the heat radiating part is provided above the heat generating device. The heat radiating part is thermally coupled with the semiconductor substrate through at least one contact part.
Abstract: A semiconductor device, has a main transistor that is a first-conductivity-type MOS transistor and has the drain connected to a first potential; a first switch circuit that is connected between the source of said main transistor and a second potential; a dummy transistor that is a first-conductivity-type MOS transistor whose source serves also as the source of said main transistor; and a second switch circuit that is connected between the drain of said dummy transistor and said first potential or said second potential.
Abstract: Integrated mask-programmable device, having a plurality of metal levels including a top metal level, a bottom metal level and a first intermediate metal level formed between the top and bottom metal levels, and a plurality of via levels arranged between the bottom and the first intermediate metal levels and between the first intermediate and the top metal levels and connecting each metal level to adjacent metal levels. The plurality of metal levels forms a first, a second and at least a third terminal, the top and bottom metal levels having at least two metal regions, and the first intermediate metal level having at least three metal regions. The first terminal is connected to third terminal or the second terminal is connected to the third terminal by modifying a single metal or via level.
Type:
Grant
Filed:
December 24, 2008
Date of Patent:
March 13, 2012
Assignee:
STMicroelectronics Design and Application s.r.o.
Inventors:
Patrik Vacula, Milos Vacula, Milan Lzicar
Abstract: Programmable metallization memory cells having a planarized silver electrode and methods of forming the same are disclosed. The programmable metallization memory cells include a first metal contact and a second metal contact, an ion conductor solid electrolyte material is between the first metal contact and the second metal contact, and either a silver alloy doping electrode separates the ion conductor solid electrolyte material from the first metal contact or the second metal contact, or a silver doping electrode separates the ion conductor solid electrolyte material from the first metal contact. The silver electrode includes a silver layer and a metal seed layer separating the silver layer from the first metal contact.
Type:
Grant
Filed:
January 30, 2009
Date of Patent:
March 13, 2012
Assignee:
Seagate Technology LLC
Inventors:
Tian Wei, Dexin Wang, Venugopalan Vaithyanathan, Yang Dong, Muralikrishnan Balakrishnan, Ivan Petrov Ivanov, Ming Sun, Dimitar Velikov Dimitrov
Abstract: A method of forming an electromechanical transducer device comprises forming on a fixed structure a movable structure and an actuating structure of the electromechanical transducer device, wherein the movable structure is arranged in operation of the electromechanical transducer device to be movable in relation to the fixed structure in response to actuation of the actuating structure. The method further comprises providing a stress trimming layer on at least part of the movable structure, after providing the stress trimming layer, releasing the movable structure from the fixed structure to provide a released electromechanical transducer device, and after releasing the movable structure changing stress in the stress trimming layer of the released electromechanical transducer device such that the movable structure is deflected a predetermined amount relative to the fixed structure when the electromechanical transducer device is in an off state.
Type:
Application
Filed:
June 15, 2010
Publication date:
March 8, 2012
Applicants:
Commissariat A L'Energie Atomique, Freescale Semiconductor, Inc.
Abstract: Amorphous semiconductor films with enhanced charged carrier transport are disclosed. Also disclosed is a method for fabricating and treating the film to produce the enhanced transport. Also disclosed are semiconductor p-n junctions fabricated with the films which demonstrate the enhanced transport. The films are amorphous and include boron, carbon, and hydrogen.
Type:
Application
Filed:
August 10, 2010
Publication date:
February 16, 2012
Applicant:
NORTH DAKOTA STATE UNIVERSITY RESEARCH FOUNDATION
Inventors:
Anthony N. Caruso, Joseph A. Sandstrom, David A. Bunzow
Abstract: In some aspects, a device is provided having a member with a region of enhanced electrochemical activity. In one aspect, a sensor of enhanced electrochemical activity is provided for detecting an analyte concentration level in a bio-fluid sample. The sensor may include a sensor member of a semiconductor material wherein the sensor member has a surface region of enhanced electrochemical activity. In other aspects, the member may be made of semiconducting foam having a surface region of enhanced electrochemical activity. In some embodiments, the region may be thermally-induced. Manufacturing methods and apparatus are also provided, as are numerous other aspects.
Type:
Application
Filed:
September 18, 2009
Publication date:
February 16, 2012
Applicant:
Bayer HealthCare LLC
Inventors:
Steven C. Charlton, Serban Peteu, Steve Sun, Yuan Wang
Abstract: A nanopore electrical sensor is provided. The sensor has layered structure, including a substrate (1), the first insulating layer (2), a symmetrical electrode (3) and the second insulating layer (5) from bottom to top in turn. A nanopore (6) is provided in the center of the substrate (1), the first insulating layer (2), the symmetrical electrode (3) and the second insulating layer (5). The thickness of the symmetrical electrode can be controlled between 0.3 nm and 0.7 nm so as to meet the resolution requirements for detecting a single base in a single-stranded DNA. Thus the sensor is suitable for gene sequencing. The present invention overcomes current technical insufficiency to integrate a nanoelectrode with a nanopore and the method to prepare the nanoelectrode is simple.
Type:
Application
Filed:
September 14, 2010
Publication date:
February 16, 2012
Applicant:
Zhejian University
Inventors:
Ming-sheng Xu, Hongzheng Chen, Minmin Shi, Gang Wu, Mang Wang
Abstract: An electronic device includes a substrate provided with a passing opening and a MEMS device including an active surface wherein a portion of the MEMS device is integrated sensitive to chemical/physical variations of a fluid. The active surface of the MEMS device faces the substrate and is spaced therefrom, the sensitive portion being aligned to the opening. A protective package incorporates at least partially the MEMS device and the substrate, leaving at least the sensitive portion of the MEMS device, and the opening of the substrate exposed. A barrier element is positioned in an area which surrounds the sensitive portion to realize a protection structure for the MEMS device, so that the sensitive portion is free.
Abstract: A method for fabricating a carbon nanotube film floating on a bottom is provided. The fabrication method of a carbon nanotube film comprises: forming electrodes on a substrate; arranging a suspension comprising a plurality of carbon nanotubes on the electrodes; and arranging the carbon nanotubes on the electrodes by applying a voltage to the electrodes.
Abstract: The described embodiments may provide a chemical detection circuit that may comprise a plurality of first output circuits at a first side and a plurality of second output circuits at a second side of the chemical detection circuit. The chemical detection circuit may further comprise a plurality of tiles of pixels each placed between respective pairs of first and second output circuits. Each tile may include four quadrants of pixels. Each quadrant may have columns with designated first columns interleaved with second columns. Each first column may be coupled to a respective first output circuit in first and second quadrants, and to a respective second output circuit in third and fourth quadrants. Each second column may be coupled to a respective second output circuit in first and second quadrants, and to a respective first output circuit in third and fourth quadrants.
Type:
Application
Filed:
June 30, 2011
Publication date:
January 26, 2012
Applicant:
LIFE TECHNOLOGIES CORPORATION
Inventors:
Kim JOHNSON, Jeremy JORDAN, Peter LEVINE, Mark MILGREW
Abstract: An ion-sensitive sensor with an EIS structure includes: a semiconductor substrate, on which a layer of a substrate oxide 103 is produced; an adapting or matching layer, which is prepared on the substrate oxide; a chemically stable intermediate insulator, which is deposited on the adapting or matching layer; and a sensor layer, which comprises a tantalum oxide or a tantalum oxynitride, and which is applied on the intermediate insulator; wherein the intermediate insulator comprises hafnium oxide or zirconium oxide or a mixture of zirconium oxide and hafnium oxide, and wherein the adapting or matching layer differs in its chemical composition and/or in its structure from the intermediate insulator and from the substrate oxide.
Type:
Application
Filed:
March 15, 2010
Publication date:
January 26, 2012
Applicant:
Endress + Hauser Conducta Gesellschaft fur Mess- und Regeltechnik mbH + Co. KG
Inventors:
Eberhard Kurth, Christian Kunath, Torsten Pechstein
Abstract: A biosensor has one or more field effect transistors each comprising a source region and a drain region separated by a channel region and a gate positioned offset and spaced from the channel region. The biosensor also has one or more molecular probes coupled to at least one of the channel region and the offset gate, the one or more molecular probes configured to mate with at least one target. A method for detection of a target is also disclosed. One or more targets are immobilized as an electric field shunt between an offset gate and a channel region for one or more biosensors. A target measurement value is determined in proportion to a number of the one or more biosensors having the electric field shunt.
Abstract: A multiple sensor-types integrated circuit device includes a semiconductor die including a first sensor type and a second sensor type formed thereon, an electrically insulating package enclosing the semiconductor die and a plurality of electrically conductive leads coupled to the semiconductor die and extending from the package. By way of example and not limitation, a multiple sensor-types integrated circuit die includes a semiconductor substrate of a first polarity, a plurality of regions of the first polarity formed in the substrate, where the plurality of regions are relatively more heavily doped than the substrate, multiple wells formed in the substrate, and a covering layer formed over the substrate.
Abstract: In one embodiment, a transistor is formed to have a first current flow path to selectively conduct current in both directions through the transistor and to have a second current flow path to selectively conduct current in one direction.
Abstract: The invention relates to a method for functionalizing a conductive or semiconductor material (M) by covalent grafting of receptor molecules (R) to its surface, said method comprising the following steps: (i) applying, across the terminals of a source electrode and a drain electrode located on either side of the material (M), sufficient potential difference to thermally activate the material (M) with respect to the grafting reaction of the molecules (R); and (ii) placing the material (M) thus activated in contact with a liquid or gaseous medium containing receptor molecules (R), thereby obtaining a material (M) functionalized by covalently grafted receptor molecules (R).
Type:
Application
Filed:
July 12, 2011
Publication date:
January 19, 2012
Applicant:
Commissariat A L'Energie Atomique Et Aux Energies Alternatives
Abstract: A method of forming an integrated circuit includes providing a buffer layer comprising a dielectric material above a layer of conductive material and providing a layer of mask material above the buffer layer. The mask material comprises amorphous carbon. The method also includes removing a portion of the buffer layer and the layer of mask material to form a mask. A feature is formed in the layer of conductive material according to the mask.
Type:
Application
Filed:
September 23, 2011
Publication date:
January 12, 2012
Applicant:
GLOBALFOUNDRIES Inc.
Inventors:
Richard J. Huang, Scott A. Bell, Srikanteswara Dakshina-Murthy, Philip A. Fisher, Richard C. Nguyen, Cyrus E. Tabery, Lu You
Abstract: A substrate structure and method of manufacturing the same are disclosed. The substrate structure may includes a substrate on which a plurality of protrusions are formed on one surface thereof and a plurality of buffer layers formed according to a predetermined pattern and formed spaced apart from each other on the plurality of protrusions.
Type:
Application
Filed:
January 3, 2011
Publication date:
January 12, 2012
Inventors:
Jun-youn Kim, Su-hee Chae, Hyun-gi Hong, Young-jo Tak
Abstract: The present invention is a multi-gas sensor and a method for fabricating the multi-gas sensor. The multi-gas sensor comprises a substrate, an epitaxial layer, a metal oxide layer, a first metal layer, a second metal layer and multiple third metal layers. The method for fabricating the multi-gas sensor comprises steps of forming an epitaxial layer on a substrate; etching the epitaxial layer to form a first epitaxial structure and a second epitaxial structure a fixed distance from the first epitaxial structure; forming a metal oxide layer on the first epitaxial structure; forming a first metal layer that has at least two metal layers on the second epitaxial structure; forming a second metal layer a fixed distance from the first metal layer on the second epitaxial structure; forming third metal layers respectively on the metal oxide layer, the first metal layer and the second metal layer.
Abstract: To reduce the pixel size to the smallest dimensions and simplest form of operation, a pixel may be formed by using only one ion sensitive field-effect transistor (ISFET). This one-transistor, or 1T, pixel can provide gain by converting the drain current to voltage in the column. Configurable pixels can be created to allow both common source read out as well as source follower read out. A plurality of the 1T pixels may form an array, having a number of rows and a number of columns and a column readout circuit in each column. A cascoded device enabled during readout may be used to provide increased programmable gain.
Abstract: An ion-sensitive circuit can include a charge accumulation device, to accumulate a plurality of charge packets as a function of an ion concentration of a fluid, and at least one control and readout transistor, to generate an output signal as a function of the accumulated plurality of charge packets, the output signal representing the ion concentration of the solution. The charge accumulation device can include a first charge control electrode above a first electrode semiconductor region, an electrically floating gate structure above a gate semiconductor region and below an ion-sensitive passivation surface, a second charge control electrode above a second electrode semiconductor region, and a drain diffusion region. The first control electrode can control entry of charge into a gate semiconductor region in response to a first control signal. The ion-sensitive passivation surface can be configured to receive the fluid.
Abstract: The current invention disclosed a micro-package design for packaging of micromachining liquid flow sensor. The package in present invention is fabricated with micromachining or micro-molding approach, which can greatly reduce the manufacturing cost due to the batch production. The micro-package design provides packaging solution for general micromachining liquid flow sensors that can enable various microfluidic applications while reaching the cost threshold for a disposable unit.
Abstract: According to an embodiment of the invention, there is provided a switching power supply device including an integrated body and a plurality of external terminals. In the integrated body, a first switching element, a constant current element, and a diode are connected in series. The plurality of external terminals include a first external terminal connected to a main terminal of an element disposed on one end side of the integrated body and a second external terminal connected to a main terminal of an element disposed on another end side of the integrated body.
Abstract: Examples are generally described that include a substrate, an electrocaloric effect material at least partially supported by the substrate, and a thermal diode at least partially supported by the electrocaloric effect material.
Abstract: A semiconductor device having a lateral semiconductor element includes a semiconductor substrate, a first electrode on the substrate, a second electrode on the substrate, and an isolation structure located in the substrate to divide the substrate into a first island and a second island electrically insulated from the first island. The lateral semiconductor element includes a main cell located in the first island and a sense cell located in the second island. The main cell causes a first current to flow between the first electrode and the second electrode so that the first current flows in a lateral direction along the surface of the substrate. The first current is detected by detecting a second current flowing though the sense cell.
Abstract: A sensing device includes: a semiconductor layer of a field effect semiconductor having upper and lower surfaces; a conductive layer formed on the lower surface of the semiconductor layer; and a sensor layer of an insulator formed on the upper surface of the semiconductor layer. The insulator is made from lanthanide-titanium oxide.
Type:
Application
Filed:
June 3, 2010
Publication date:
December 8, 2011
Inventors:
Tung-Ming Pan, Min-Hsien Wu, Ming-De Huang, Chao-Sung Lai
Abstract: A single-gate FinFET structure includes an active fin structure having two enlarged head portions and two respective tapered neck portions that connect the enlarged head portions with an underlying ultra-thin body. Two source/drain regions are doped in the two enlarged head portions respectively. An insulation region is interposed between the two source/drain regions. A trench isolation structure is disposed at one side of the tuning fork-shaped fin structure. A single-sided sidewall gate electrode is disposed on a vertical sidewall of the active fin structure opposite to the trench isolation structure.
Abstract: To increase total power in a betavoltaic device, it is desirable to have greater radioisotope material and/or semiconductor surface area, rather than greater radioisotope material volume. An example of this invention is a high power density betavoltaic battery. In one example of this invention, tritium is used as a fuel source. In other examples, radioisotopes, such as Nickel-63, Phosphorus-33 or promethium, may be used. The semiconductor used in this invention may include, but is not limited to, Si, GaAs, GaP, GaN, diamond, and SiC. For example (for purposes of illustration/example, only), tritium will be referenced as an exemplary fuel source, and SiC will be referenced as an exemplary semiconductor material. Other variations and examples are also discussed and given.
Abstract: A compound semiconductor device is provided, including a gallium arsenide (GaAs) substrate having a first protrusion portion and a second protrusion portion, wherein the first protrusion portion is formed over a first portion of the GaAs substrate and the second protrusion is formed over a second portion of the GaAs substrate. A first element is disposed over the first protrusion portion, and a second element is disposed over the second protrusion portion.
Abstract: A power converter comprises a first die and a second die. Each die comprises a semiconductor substrate comprising a junction for converting nuclear radiation particles to electrical energy, the junction of each semiconductor substrate comprising a first side and a second side, a first electrode comprising a nuclear radiation-emitting radioisotope deposited on the semiconductor substrate, the first electrode being electrically connected to the first side of the junction, and a second electrode deposited on the semiconductor substrate, the second electrode being electrically connected to the second side. A bond is formed between one of the first electrode or the second electrode of the first die and one of the first electrode or the second electrode of the second die, wherein the bond forms an electrical contact between the bonded electrodes.
Abstract: Provided is a chemical sensor requiring no ion-sensitive film. Specifically provided is a chemical sensor (1) for detecting a sample base material (19) to be detected in a sample, the chemical sensor (1) including: a sensor TFT (7) of sensor TFTs (7) each of which has a glass substrate (8) and, on the glass substrate (8), a gate electrode (10), a gate oxide film (11), a silicon layer (12), a source electrode (14), and a drain electrode (15), the silicon layer (12) having a channel region (18) at an opening portion between the source electrode (14) and the drain electrode (15); and extracting signal lines PAS1 to PASn and a sensor signal amplifying and extracting circuit (24) that extract a leak current that is generated in the channel region (18).
Abstract: An enhanced turn-on time SCR based electrostatic discharge (ESD) protection circuit includes an integrated JFET, method of use and design structure. The enhanced turn-on time silicon controlled rectifier (SCR) based electrostatic discharge (ESD) protection circuit includes an integrated JFET in series with an NPN base.
Type:
Application
Filed:
May 18, 2010
Publication date:
November 24, 2011
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
John B. CAMPI, JR., Shunhua T. CHANG, Kiran V. CHATTY, Robert J. GAUTHIER, JR., Mujahid MUHAMMAD
Abstract: An object of the present invention is providing a semiconductor device that is capable of improving the reliability of a semiconductor element and enhancing the mechanical strength without suppressing the scale of a circuit. The semiconductor device includes an integrated circuit sandwiched between first and second sealing films, an antenna electrically connected to the integrated circuit, the first sealing film sandwiched between a substrate and the integrated circuit, which includes a plurality of first insulating films and at least one second insulating film sandwiched therebetween, the second sealing film including a plurality of third insulating films and at least one fourth insulating film sandwiched therebetween. The second insulating film has lower stress than the first insulting film and the fourth insulating film has lower stress than the third insulating film. The first and third insulating films are inorganic insulating films.
Type:
Application
Filed:
August 2, 2011
Publication date:
November 24, 2011
Applicant:
SEMICONDUCTOR ENERGY LABORATORY CO., LTD.
Abstract: An embodiment of a manufacturing process of an integrated electronic circuit is proposed; the process comprises forming a substrate comprising a plurality of functional components of the electronic circuit, creating a plurality of conductive layers on such substrate to form an electric contact region with high hardness equal to or greater than a first hardness value of about 300 HV, contacting the electric contact region with a probe and running an electric test of the electronic circuit. In an embodiment, the process further comprises, after the test run, creating a covering conductive layer on at least one part of the electric contact region contacted by the probe.
Abstract: This invention relates to methods for the production of micro-structured substrates and their application in natural sciences and technology, in particular in semiconductor, microfluidic and analysis devices. It concerns a method of introducing a structure, such as a hole or cavity or channel or well or recess or a structural change by providing a controlled electrical discharge.
Type:
Application
Filed:
December 2, 2009
Publication date:
November 17, 2011
Applicant:
picoDrill SA
Inventors:
Christian Schmidt, Leander Dittmann, Enrico Stura
Abstract: Provided is a lead frame, an electronic device provided with a lead frame, a method of producing a lead frame, and a method of producing an electronic device provided with a lead frame that has been produced by the method of producing a lead frame, in which a lead frame is not corroded, a mechanical strength of the lead frame is not lowered, it is not necessary to carry out the conventional plating processing steps composed of two stages, the processes are simple, a cost is lower, and a large amount of waste liquid such as plating processing liquid is not generated, thereby preventing an environment from being affected. The lead frame includes an outer lead part and an inner lead part, and plating is carried out on at least a part of one or both of the outer lead part or the inner lead part.