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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Форма поиска

Поддерживает ввод нескольких поисковых фраз (по одной на строку). При поиске обеспечивает поддержку морфологии русского и английского языка
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Применить Всего найдено 177972. Отображено 100.
05-01-2012 дата публикации

Double molded chip scale package

Номер: US20120001322A1
Автор: Luke England, Yong Liu
Принадлежит: Fairchild Semiconductor Corp

Chip scale semiconductor packages and methods for making and using the same are described. The chip scale semiconductor packages (CSPs) contain a die with an integrated circuit device, a patterned plating layer, and a second interconnect structure formed from a Cu etched substrate that has a portion of an upper surface connected to the patterned plating layer, a side surface, and a bottom surface. The die can be attached to the patterned plating layer by a first interconnect structure that uses wirebonding or that uses a flip chip attachment process. The CSP contains a double molded structure where a first molding layer encapsulates the die, the patterned plating layer, the first interconnect structure, and the upper surface of the second interconnect structure. The second molding layer encapsulates the side surface of the second interconnect structure without encapsulating the bottom surface of the second interconnect structure. With such a configuration, the second molding layer helps control warpage during the manufacturing process and no printed circuit board (PCB) substrate is needed when the package is used in an electronic device since the signal routing is performed by the second interconnect structure. Other embodiments are described.

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Номер записи: 1
05-01-2012 дата публикации

Semiconductor device

Номер: US20120001341A1
Автор: Akihiro Niimi, Shigeo Ide
Принадлежит: Denso Corp

The semiconductor device has a unit stack body including a plurality of units stacked on one another. Each unit includes a power terminal constituted of a lead part and a connection part. The connection part is formed with a projection and a recess. When the units are stacked on one another, the projection of one unit is fitted to the recess of the adjacent unit, so that the power terminals of the respective unit are connected to one another.

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Номер записи: 2
05-01-2012 дата публикации

Semiconductor package having a stacked structure

Номер: US20120001347A1
Автор: Chan-Min Han, Jin-yang Lee, Kil-Soo Kim
Принадлежит: SAMSUNG ELECTRONICS CO LTD

A semiconductor package includes a substrate, a first semiconductor chip stacked on the substrate and a second semiconductor chip stacked on the first semiconductor chip. In the semiconductor package, the second semiconductor chip is rotated to be stacked on the first semiconductor chip. The semiconductor package is used in an electronic system.

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Номер записи: 3
05-01-2012 дата публикации

Active energy ray-curable pressure-sensitive adhesive for re-release and dicing die-bonding film

Номер: US20120003470A1
Автор: Chie Kitano, Hironao OTAKE, Katsuhiko Kamiya, Masatsugu KOSO, Mika Okada, Shuhei Murata, Takeshi Matsumura, Tomokazu Takahashi
Принадлежит: Nitto Denko Corp

Provided is an active energy ray-curable pressure-sensitive adhesive for re-release, which has a small influence on an environment or a human body, can be easily handled, can largely change its pressure-sensitive adhesiveness before and after irradiation with an active energy ray, and can express high pressure-sensitive adhesiveness before the irradiation with the active energy ray and express high releasability after the irradiation with the active energy ray. The active energy ray-curable pressure-sensitive adhesive for re-release includes an active energy ray-curable polymer (P), in which the polymer (P) includes one of a polymer obtained by causing a carboxyl group-containing polymer (P3) and an oxazoline group-containing monomer (m3) to react with each other, and a polymer obtained by causing an oxazoline group-containing polymer (P4) and a carboxyl group-containing monomer (m2) to react with each other.

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Номер записи: 4
05-01-2012 дата публикации

Method for manufacture of integrated circuit package system with protected conductive layers for pads

Номер: US20120003830A1
Автор: Haijing Cao, Qing Zhang, Yaojian Lin
Принадлежит: Individual

A method for manufacture of an integrated circuit package system includes: providing an integrated circuit die having a contact pad; forming a protection cover over the contact pad; forming a passivation layer having a first opening over the protection cover with the first opening exposing the protection cover; developing a conductive layer over the passivation layer; forming a pad opening in the protection cover for exposing the contact pad having the conductive layer partially removed; and an interconnect directly on the contact pad and only adjacent to the protection cover and the passivation layer.

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Номер записи: 5
12-01-2012 дата публикации

Method for molecular adhesion bonding with compensation for radial misalignment

Номер: US20120006463A1
Автор: Gweltaz Gaudin
Принадлежит: Soitec SA

A method for bonding a first wafer on a second wafer by molecular adhesion, where the wafers have an initial radial misalignment between them. The method includes bringing the two wafers into contact so as to initiate the propagation of a bonding wave between the two wafers while a predefined bonding curvature is imposed on at least one of the two wafers during the contacting step as a function of the initial radial misalignment.

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Номер записи: 6
12-01-2012 дата публикации

Wiring board and method for manufacturing the same

Номер: US20120006592A1
Автор: Makoto Terui, Shigeru Yamada, Shinji OUCHI, Yoshinori Shizuno
Принадлежит: Ibiden Co Ltd

A wiring board including a first insulation layer, a conductive pattern formed on the first insulation layer, a second insulation layer formed on the conductive pattern and the first insulation layer and having an opening portion exposing at least a portion of the conductive pattern, and a connection conductor formed in the opening portion of the second insulation layer such that the connection conductor is positioned on the portion of the conductive pattern. The connection conductor has a tip portion which protrudes from a surface of the second insulation layer and which has a tapered side surface tapering toward an end of the tip portion.

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Номер записи: 7
12-01-2012 дата публикации

Light emitting device package and a lighting device

Номер: US20120007122A1
Автор: Yong Seok Choi
Принадлежит: Yong Seok Choi

Provided are a light emitting device package and a lighting device. The light emitting device package includes a base, a light emitting device on the base, a plurality of electrode pads on the base, the plurality of electrode pads electrically connected to the light emitting device, a frame disposed on the base, wherein a size of the frame is smaller than a size of the base, a silver layer on a portion of the plurality of electrode pads, the silver layer directly contacted with the frame and an optical member covering the light emitting device.

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Номер записи: 8
12-01-2012 дата публикации

Protecting bond pad for subsequent processing

Номер: US20120007199A1
Автор: Helen Hongwei Li, Jeanne M. McNamara, John T. Gasner, Joy Ellen Jones, Phillip J. Benzel
Принадлежит: INTERSIL AMERICAS LLC

A method for opening a bond pad on a semiconductor device is provided. The method comprises removing a first layer to expose a first portion of the bond pad and forming a protective layer over the exposed first portion of the bond pad. The method further comprises performing subsequent processing of the semiconductor device and removing the protective layer to expose a second portion of the bond pad.

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Номер записи: 9
12-01-2012 дата публикации

Method for Reducing Chip Warpage

Номер: US20120007220A1
Автор: Chun-Ren Cheng, Jiou-Kang Lee, Jung-Huei Peng, Shang-Ying Tsai, Ting-Hau Wu
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

A method of forming an integrated circuit structure including providing a wafer comprising a front surface and a back surface, wherein the wafer comprises a chip; forming an opening extending from the back surface into the chip; filling an organic material in the opening, wherein substantially no portion of the organic material is outside of the opening and on the back surface of the wafer; and baking the organic material to cause a contraction of the organic material.

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Номер записи: 10
12-01-2012 дата публикации

Semiconductor device

Номер: US20120007224A1
Автор: Hajime Hasebe, Tadatoshi Danno, Yukihiro Satou
Принадлежит: Hitachi Hokkai Semiconductor Ltd, Renesas Electronics Corp

In a non-leaded type semiconductor device, a tab, tab suspension leads, and other leads are exposed to one surface of a seal member. A semiconductor element is positioned within the seal member and fixed to a surface of the tab with an adhesive. The tab is formed larger than the semiconductor element so that outer peripheral edges of the tab are positioned outside outer peripheral edges of the semiconductor element. A groove is formed in the tab surface portion positioned between the area to which the semiconductor element is fixed and wire connection areas to which the wires are connected, the groove being formed so as to surround the semiconductor element fixing area, thereby preventing peeling-off between the tab to which the semiconductor element is fixed and the resin which constitutes the package.

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Номер записи: 11
12-01-2012 дата публикации

System-in-a-package based flash memory card

Номер: US20120007226A1
Автор: Hem Takiar, Michael W. Patterson, Robert C. Miller, Shrikar Bhagath, Warren Middlekauff
Принадлежит: SanDisk Technologies LLC

A system-in-a-package based flash memory card including an integrated circuit package occupying a small overall area within the card and cut to conform to the shape of a lid for the card. An integrated circuit may be cut from a panel into a shape that fits within and conforms to the shape of lids for a finished memory card, such as for example an SD Card. The integrated circuit package may be a system-in-a-package, a multi-chip module, or other arrangement where a complete electronic system is formed in a single package.

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Номер записи: 12
12-01-2012 дата публикации

Method of forming cu pillar capped by barrier layer

Номер: US20120007231A1
Автор: Wei Sen CHANG
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

A nickel barrier layer is formed on an upper sidewall surface of a Cu pillar. A mask layer with an opening for defining the Cu pillar window has an upper portion and a lower portion. The upper portion of the mask layer is removed after the formation of the Cu pillar so as to expose the upper sidewall surface of the Cu pillar. The nickel barrier layer is then deposited on the exposed sidewall surface of the Cu pillar followed by removing and the lower portion of the mask layer.

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Номер записи: 13
12-01-2012 дата публикации

Microelectronic packages with dual or multiple-etched flip-chip connectors

Номер: US20120007232A1
Автор: Belgacem Haba
Принадлежит: TESSERA RESEARCH LLC

A packaged microelectronic element includes a microelectronic element having a front surface and a plurality of first solid metal posts extending away from the front surface. A substrate has a major surface and a plurality of conductive elements exposed at the major surface and joined to the first solid metal posts. In particular examples, the conductive elements can be bond pads or can be second posts having top surfaces and edge surfaces extending at substantial angles away therefrom. Each first solid metal post includes a base region adjacent the microelectronic element and a tip region remote from the microelectronic element, the base region and tip region having respective concave circumferential surfaces. Each first solid metal post has a horizontal dimension which is a first function of vertical location in the base region and which is a second function of vertical location in the tip region.

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Номер записи: 14
12-01-2012 дата публикации

Semiconductor device and package

Номер: US20120007236A1
Автор: Jin Ho Bae
Принадлежит: Hynix Semiconductor Inc

A semiconductor device includes a semiconductor substrate having an upper surface, a lower surface, a first side and a second side, wherein the lower surface has a slope so that the first side is thicker than the second side, and a circuit pattern including a bonding pad on the upper surface of the semiconductor substrate.

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Номер записи: 15
12-01-2012 дата публикации

Resin-Encapsulated Semiconductor Device

Номер: US20120007247A1
Автор: Motoharu Haga, Shoji Yasunaga, Yasumasa Kasuya
Принадлежит: ROHM CO LTD

A resin-sealed semiconductor device includes a semiconductor chip including a silicon substrate; a die pad on which the semiconductor chip is secured via a solder layer; a sealing resin layer sealing the semiconductor chip; and lead terminals connected electrically with the semiconductor chip. One end portion of the lead terminals is covered by the sealing resin layer. The die pad and the lead terminals are formed of copper and a copper alloy, and the die pad is formed with a thickness larger than a thickness of the lead terminals, which is a thickness of 0.25 mm or more.

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Номер записи: 16
12-01-2012 дата публикации

Redistribution layers for microfeature workpieces, and associated systems and methods

Номер: US20120007256A1
Автор: David Pratt
Принадлежит: Micron Technology Inc

Redistribution layers for microfeature workpieces, and associated systems and methods are disclosed. One method for processing a microfeature workpiece system includes positioning a pre-formed redistribution layer as a unit proximate to and spaced apart from a microfeature workpiece having an operable microfeature device. The method can further include attaching the redistribution layer to the microfeature workpiece and electrically coupling the redistribution layer to the operable microfeature device.

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Номер записи: 17
12-01-2012 дата публикации

Power semiconductor module and fabrication method

Номер: US20120009733A1
Автор: Eladio Clemente Delgado, Ernest Wayne Balch, Kevin Matthew Durocher, Paul Alan McConnelee, Raymond Albert Fillion, Richard Alfred Beaupre, Stephen Daley Arthur
Принадлежит: General Electric Co

A power semiconductor module includes: an interconnect layer including an electrical conductor patterned on a dielectric layer, the electrical conductor including a power coupling portion having a thickness sufficient to carry power currents and a control coupling portion having a thickness thinner than that of the power coupling portion; and a semiconductor power device physically coupled to the interconnect layer and electrically coupled to the power coupling portion of the electrical conductor.

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Номер записи: 18
19-01-2012 дата публикации

Interconnections for flip-chip using lead-free solders and having reaction barrier layers

Номер: US20120012642A1
Автор: Balaram Ghosal, Da-Yuan Shih, Donna S. Zupanski-Nielsen, Henry A. Nye, III, Keith E. Fogel, Paul A. Lauro, Stephen Kilpatrick, Sung K. Kang
Принадлежит: International Business Machines Corp

An interconnection structure suitable for flip-chip attachment of microelectronic device chips to packages, comprising a two, three or four layer ball-limiting composition including an adhesion/reaction barrier layer, and having a solder wettable layer reactive with components of a tin-containing lead free solder, so that the solderable layer can be totally consumed during soldering, but a barrier layer remains after being placed in contact with the lead free solder during soldering. One or more lead-free solder balls is selectively situated on the solder wetting layer, the lead-free solder balls comprising tin as a predominant component and one or more alloying components. With a two-layer ball-limiting composition comprising an adhesion/reaction barrier layer, wherein the adhesion/reaction barrier layer serves both as an adhesion layer and a reaction barrier layer, the adhesion/reaction barrier layer can be comprised of a material selected from the group consisting of Zr and ZrN

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Номер записи: 19
19-01-2012 дата публикации

Methods of forming semiconductor chip underfill anchors

Номер: US20120012987A1
Автор: Neil McLellan, Roden R. Topacio
Принадлежит: Individual

Various semiconductor chips and methods of making the same are disclosed. In one aspect, a method of manufacturing is provided that includes forming a first opening in an insulating layer applied to a side of a semiconductor chip. The first opening does not extend through to the side. A second opening is formed in the insulating layer that exposes a portion of the side.

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Номер записи: 20
19-01-2012 дата публикации

Conductive Sidewall for Microbumps

Номер: US20120012998A1
Автор: Arvind Chandrasekaran, Christine S. Hay-Riege, Shiqun Gu
Принадлежит: Qualcomm Inc

Electromigration in microbump connections causes voids in the microbumps, which reduces the lifetime of an integrated circuit containing the microbump. Electromigration lifetime may be increased in microbumps by forming a copper shell around the solder. The copper shell of one microbump contacts the copper shell of a second microbump to enclose the solder of the microbump connection. The copper shell allows higher current densities through the microbump. Thus, smaller microbumps may be manufactured on a smaller pitch without suffering failure from electromigration. Additionally, the copper shell reduces shorting or bridging between microbump connections on a substrate.

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Номер записи: 21
19-01-2012 дата публикации

Semiconductor-encapsulating adhesive, semiconductor-encapsulating film-form adhesive, method for producing semiconductor device, and semiconductor device

Номер: US20120012999A1
Автор: Kazutaka Honda, Tetsuya Enomoto, Yuuki Nakamura
Принадлежит: Hitachi Chemical Co Ltd

The present invention relates to a semiconductor-encapsulating adhesive, a semiconductor-encapsulating film-form adhesive, a method for producing a semiconductor device, and a semiconductor device. The present invention provides a semiconductor-encapsulating adhesive comprising (a) an epoxy resin, and (b) a compound formed of an organic acid reactive with an epoxy resin and a curing accelerator.

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Номер записи: 22
19-01-2012 дата публикации

Package structure

Номер: US20120013002A1
Автор: Shih-Ping Hsu
Принадлежит: Unimicron Technology Corp

Disclosed is a package structure including a semiconductor chip disposed in a core board having a first surface and an opposite second surface. The package structure further includes a plurality of first and second electrode pads disposed on an active surface and an opposite inactive surface of the semiconductor chip respectively, the semiconductor chip having a plurality of through-silicon vias for electrically connecting the first and second electrode pads. As a result, the semiconductor chip is electrically connected to the two sides of the package structure via the through-silicon vias instead of conductive through holes, so as to enhance electrical quality and prevent the inactive surface of the semiconductor chip from occupying wiring layout space of the second surface of the core board to thereby increase wiring layout density and enhance electrical performance.

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Номер записи: 23
19-01-2012 дата публикации

Stacked semiconductor package and method of fabricating the same

Номер: US20120013026A1
Автор: Won-Gil HAN
Принадлежит: SAMSUNG ELECTRONICS CO LTD

A stacked semiconductor package and an electronic system, the stacked semiconductor package including a plurality of semiconductor chips, a set of the semiconductor chips being stacked such that an extension region of a top surface of each semiconductor chip of the set extends beyond an end of a semiconductor chip stacked thereon to form a plurality of extension regions; and a plurality of protection layers on the extension regions and on an uppermost semiconductor chip of the plurality of semiconductor chips.

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Номер записи: 24
19-01-2012 дата публикации

Stacked microelectronic packages having at least two stacked microelectronic elements adjacent one another

Номер: US20120013028A1
Автор: Belgacem Haba, Ilyas Mohammed
Принадлежит: Tessera LLC

A microelectronic assembly includes first and second microelectronic elements. Each of the microelectronic elements has oppositely-facing first and second surfaces and edges bounding the surfaces. The first microelectronic element is disposed on the second microelectronic element with the second surface of the first microelectronic element facing toward the first surface of the second microelectronic element. The first microelectronic element preferably extends beyond at least one edge of the second microelectronic element and the second microelectronic element preferably extends beyond at least one edge of the first microelectronic element. A first edge of the first microelectronic element has a length that is smaller than a first edge of the second microelectronic element. A second edge of the first microelectronic element has a length that is greater than the second edge of the second microelectronic element.

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Номер записи: 25
26-01-2012 дата публикации

Substrate for semiconductor element, method for manufacturing substrate for semiconductor element, and semiconductor device

Номер: US20120018867A1
Автор: Junko Toda, Susumu Maniwa, Takehito Tsukamoto
Принадлежит: Toppan Printing Co Ltd

Provided is a manufacturing method of a semiconductor element substrate including: a step of forming a first photoresist pattern on a first surface of a metallic plate, to form a semiconductor element mounting part, a semiconductor element electrode connection terminal, a wiring, an outer frame part, and a slit; a step of forming a second photoresist pattern on the second surface of the metallic plate; a step of forming the slit by half etching to connect the metallic chip with a four corners of the outer frame part; a step of forming a plurality of concaved parts on the second surface of the metallic plate; a step of forming a resin layer by injecting a resin to the plurality of concaved parts; and a step of etching the first surface of the metallic plate and forming the semiconductor element electrode connection terminal and the outer frame.

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Номер записи: 26
26-01-2012 дата публикации

Stack package and method for manufacturing the same

Номер: US20120018879A1
Автор: Cheol-Ho JOH, Eun-Hye DO, Hee-Min SHIN, Ji-Eun Kim, Kyu-Won Lee
Принадлежит: Hynix Semiconductor Inc

A stack package includes a cover film, a first package having a first semiconductor chip which is attached to the cover film, a first adhesive member which is formed to seal the first semiconductor chip and a surface of the cover film, and a first circuit pattern which is disposed over the first adhesive member and electrically connected with the first semiconductor chip; a second package disposed over the first package, having a second semiconductor chip which is electrically connected with the first circuit pattern, a second adhesive member which is formed to seal the second semiconductor chip, and a second circuit pattern which is formed over the second adhesive member, and a via formed to pass through the second circuit pattern and the second adhesive member and to be electrically connected with the first circuit pattern and the second circuit pattern.

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Номер записи: 27
26-01-2012 дата публикации

Methods of forming semiconductor elements using micro-abrasive particle stream

Номер: US20120018893A1
Автор: Belgacem Haba, Craig Mitchell, Ilyas Mohammed, Piyush Savalia, Vage Oganesian
Принадлежит: TESSERA RESEARCH LLC

A method of fabricating a microelectronic unit includes providing a semiconductor element having a front surface and a rear surface remote from the front surface, forming at least one first opening extending from the rear surface partially through the semiconductor element towards the front surface by directing a jet of fine abrasive particles towards the semiconductor element, and forming at least one conductive contact and at least one conductive interconnect coupled thereto. The semiconductor element can include a plurality of active semiconductor devices therein. The semiconductor element can include a plurality of conductive pads exposed at the front surface. Each conductive interconnect can extend within one or more of the first openings and can be coupled directly or indirectly to at least one of the conductive pads. Each of the conductive contacts can be exposed at the rear surface of the semiconductor element for electrical connection to an external device.

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Номер записи: 28
26-01-2012 дата публикации

Semiconductor Device and Method of Forming RDL Wider than Contact Pad along First Axis and Narrower than Contact Pad Along Second Axis

Номер: US20120018904A1
Автор: Jianmin Fang, KANG Chen, Xia Feng, Yaojian Lin
Принадлежит: Stats Chippac Pte Ltd

A semiconductor device has a semiconductor die and first conductive layer formed over a surface of the semiconductor die. A first insulating layer is formed over the surface of the semiconductor die. A second insulating layer is formed over the first insulating layer and first conductive layer. An opening is formed in the second insulating layer over the first conductive layer. A second conductive layer is formed in the opening over the first conductive layer and second insulating layer. The second conductive layer has a width that is less than a width of the first conductive layer along a first axis. The second conductive layer has a width that is greater than a width of the first conductive layer along a second axis perpendicular to the first axis. A third insulating layer is formed over the second conductive layer and first insulating layer.

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Номер записи: 29
26-01-2012 дата публикации

Electronic module with vertical connector between conductor patterns

Номер: US20120020044A1
Автор: Antti Iihola, Petteri Palm
Принадлежит: IMBERA ELECTRONICS OY

The present invention generally relates to a new structure to be used with electronic modules such as printed circuit boards and semiconductor package substrates. Furthermore there are presented herein methods for manufacturing the same. According to an aspect of the invention, the aspect ratio of through holes is significantly improved. Aspect ratio measures a relationship of a through hole or a micro via conductor in the direction of height divided width. According to the aspect of the invention, the aspect ratio can be increased over that of the prior art solution by a factor of ten or more.

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Номер записи: 30
26-01-2012 дата публикации

Method of forming a packaged semiconductor device

Номер: US20120021565A1
Автор: Douglas G. Mitchell, George R. Leal, Jason R. Wright, Jianwen Xu, Scott M. Hayes, Zhiwei Gong
Принадлежит: Individual

A method is used to form a packaged semiconductor device. A semiconductor device, which has an active surface, is placed in an opening of a circuit board. The circuit board has a first major surface and a second major surface having the opening, first vias that extend between the first major surface and the second major surface, first contact pads terminating the vias at the first major surface, and second contact pads terminating the vias at the second major surface. A dielectric layer is applied over the semiconductor device and the second major surface of the circuit board. An interconnect layer is formed over the dielectric layer. The interconnect layer has second vias electrically connected to the second contact pads, third vias that are electrically connected to the active surface of the semiconductor device, an exposed surface, and third contact pads at the exposed surface.

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Номер записи: 31
02-02-2012 дата публикации

Surface mounted led structure and packaging method of integrating functional circuits on a silicon

Номер: US20120025242A1
Автор: Guowei David Xiao, Haiying Chen, YU Hou, Yugang Zhou, Zhaoming Zeng
Принадлежит: Apt Electronics Co ltd

The present invention relates to a surface mounted LED structure of integrating functional circuits on a silicon substrate, comprising the silicon substrate and an LED chip. Said silicon substrate has an upper surface of planar structure without grooves. An oxide layer covers the upper surface of the silicon substrate, and metal electrode layers are arranged in the upper surface of the oxide layer. The upper surfaces of said metal electrode layers are arranged with metal bumps, and the LED chip is flip-chip mounted to the silicon substrate. Two conductive metal pads are arranged on the lower surface of said silicon substrate, said conductive metal pads are electrically connected to the metal electrode layers on the upper surface of the silicon substrate by a metal lead arranged on the side wall of the silicon substrate. A heat conduction metal pad is arranged on the corresponding lower, surface of the silicon substrate just below the LED chip. Peripheral functional circuits required by LED are integrated on the upper surface of said silicon substrate. The structure of the present invention has advantages of good heat dissipation effect and small volume, and direct integration of functional circuits such as protection and drive circuits etc. in the silicon substrate achieves large-scale production package of wafer level, reducing the cost of packaging and lighting fixture.

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Номер записи: 32
02-02-2012 дата публикации

Led package and method for manufacturing the same

Номер: US20120025243A1
Автор: Shen-Bo Lin
Принадлежит: Advanced Optoelectronic Technology Inc

An LED package includes a substrate, an LED chip, a bounding dam, and a first encapsulation. The substrate includes a first surface and a second surface opposite to the first surface. The LED chip is mounted on the first surface of the substrate. The bounding dam is formed on the first surface of the substrate and surrounds the LED chip. The bounding dam and the substrate cooperatively define a receiving space. The bounding dam is made of thermoset resin. The first encapsulation is formed in the receiving space and encloses the LED chip.

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Номер записи: 33
02-02-2012 дата публикации

Semiconductor light emitting device substrate strips and packaged semiconductor light emitting devices

Номер: US20120025254A1
Автор: Ban P. Loh, Nicholas W. Medendorp, JR.
Принадлежит: Cree Inc

Semiconductor light emitting device packaging methods include fabricating a substrate configured to mount a semiconductor light emitting device thereon. The substrate may include a cavity configured to mount the semiconductor light emitting device therein. The semiconductor light emitting device is mounted on the substrate and electrically connected to a contact portion of the substrate. The substrate is liquid injection molded to form an optical element bonded to the substrate over the semiconductor light emitting device. Liquid injection molding may be preceded by applying a soft resin on the electrically connected semiconductor light emitting device in the cavity. Semiconductor light emitting device substrate strips are also provided.

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Номер записи: 34
02-02-2012 дата публикации

Semiconductor device comprising a passive component of capacitors and process for fabrication

Номер: US20120025348A1
Автор: Laurent Marechal, Romain Coffy, Yvon Imbs
Принадлежит: STMicroelectronics Grenoble 2 SAS

A semiconductor device includes a wafer having a frontside and a backside. The wafer is formed from at least one integrated circuit chip having an electrical connection frontside co-planar with the wafer frontside and a backside co-planar with the wafer backside. A passive component including at least one conductive plate and a dielectric plate is positioned adjacent the integrated circuit chip. An encapsulation block embeds the integrated circuit chip and the passive component, the block having a frontside co-planar with the wafer frontside and a backside co-planar with the wafer backside. An electrical connection is made between the electrical connection frontside and the passive component. That electrical connection includes connection lines placed on the wafer frontside and wafer backside. The electrical connection further includes at least one via passing through the encapsulation block.

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Номер записи: 35
02-02-2012 дата публикации

Semiconductor device and semiconductor package including the same

Номер: US20120025349A1
Автор: Hyun-seok Kim, Hyung-Dong Lee, Jun-Ho Lee
Принадлежит: Individual

Provided is a semiconductor device capable of removing a power ground grid noise using a small area. The semiconductor device includes a first chip including at least one decoupling capacitor; and a second semiconductor chip stacked over the first semiconductor chip, including internal circuits.

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Номер записи: 36
02-02-2012 дата публикации

Laminated semiconductor substrate, laminated chip package and method of manufacturing the same

Номер: US20120025354A1
Автор: Atsushi Iijima, Hiroyuki Ito, Yoshitaka Sasaki
Принадлежит: Headway Technologies Inc, SAE Magnetics HK Ltd

In a laminated semiconductor substrate, a plurality of semiconductor substrates are laminated. Each of the semiconductor substrate has a plurality of scribe-groove parts formed along scribe lines. Further, each of the semiconductor substrate has a plurality of device regions insulated from each other and has a semiconductor device formed therein. Further, an uppermost substrate and a lowermost substrate have an electromagnetic shielding layer formed using a ferromagnetic body. The electromagnetic shielding layer is formed in a shielding region except the extending zone. The extending zone is set a part which the wiring electrode crosses, in a peripheral edge part of the device region.

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Номер записи: 37
02-02-2012 дата публикации

Leadframe for ic package and method of manufacture

Номер: US20120025357A1
Автор: Tunglok Li
Принадлежит: Kaixin Inc

A leadframe for use in an integrated circuit (IC) package comprising a metal strip partially etched on a first side. In some embodiments, the leadframe may be selectively plated on the first side and/or on a second side. The leadframe may be configured for an IC chip to be mounted thereon and for a plurality of electrical contacts to be electrically coupled to the leadframe and the IC chip.

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Номер записи: 38
02-02-2012 дата публикации

Semiconductor device

Номер: US20120025367A1
Автор: Akio Katsumata, Goshi Kawazu, Isao Kudo, Yoichi Hiruta, Yukari Imaizumi
Принадлежит: J Devices Corp, Toshiba Corp

A semiconductor device which includes a substrate, a semiconductor element arranged on the substrate, a heat dissipation component arranged on the semiconductor element, and a mold component covering an upper part of the substrate, the semiconductor element and the heat dissipation component, wherein an area of a surface on the semiconductor element of the heat dissipation component is larger than an area of a surface on which the heat dissipation component of the semiconductor element is arranged.

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Номер записи: 39
02-02-2012 дата публикации

Chip having a driving integrated circuit

Номер: US20120025372A1
Автор: Pao-Yun Tang, Wei-Hao Sun
Принадлежит: Hannstar Display Corp

A chip having a bump layout suitable for the chip on glass technology and a driving IC includes a plurality of first bumps and a plurality of second bumps for electrically connecting to a glass substrate of a displayer. The first and second bumps are disposed on a surface of the chip and near two opposite long sides of the chip respectively. The ratio of the total contacting area of the first bumps to that of the second bumps is between 0.8 and 1.2. Thus, a pressure applied on the chip and the glass substrate of the displayer for connection can be uniformly exerted all over the chip, and the stability of the connection is therefore improved.

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Номер записи: 40
02-02-2012 дата публикации

Semiconductor device and method of designing a wiring of a semiconductor device

Номер: US20120025377A1
Автор: Hideaki Ikuma, Shoji Seta, Yukihito Oowaki
Принадлежит: Toshiba Corp

A semiconductor device has an LSI chip including a semiconductor substrate, an LSI core section provided at a center portion of the semiconductor substrate and serving as a multilayered wiring layer of the semiconductor substrate, a first rewiring layer provided adjacent to an outer periphery of the LSI core section on the semiconductor substrate and including a plurality of wiring layers, a first pad electrode disposed at an outer periphery of the first rewiring layer, and an insulation layer covering the first pad electrode. The semiconductor device includes a second rewiring layer provided on the LSI chip and including a rewiring connected to the first pad electrode. The semiconductor device includes a plurality of ball electrodes provided on the second rewiring layer. The first rewiring layer is electrically connected to the LSI core section and the first pad electrode.

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Номер записи: 41
02-02-2012 дата публикации

Chip package and fabricating method thereof

Номер: US20120025387A1
Автор: Kuo-Ching Chang, Tzu-Han Lin, Wu-Cheng Kuo
Принадлежит: Individual

A chip package and a fabrication method thereof are provided. The chip package includes a substrate and a chip disposed over the substrate. A solder layer is disposed between the chip and the substrate. A conductive pad is disposed between the solder layer and the substrate, wherein the conductive pad includes a first portion disposed under the solder layer, a second portion disposed away from the first portion and a connective portion disposed between the first portion and the second portion. The connective portion has a width which is narrower than a width of the first portion along a first direction perpendicular to a second direction extending from the first portion to the connective portion.

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Номер записи: 42
02-02-2012 дата публикации

Power Semiconductor Module, Method for Producing a Power Semiconductor Module and a Housing Element for a Power Semiconductor Module

Номер: US20120025393A1
Автор: Andre Roehrig, Olaf Kirsch, Peter Kanschat, Thilo Stolze
Принадлежит: INFINEON TECHNOLOGIES AG

A power semiconductor module includes a housing element into which one or more connecting lugs are inserted. Each connecting lug has a foot region on the topside of which one or more bonding connections can be produced. In order to fix the foot regions, press-on elements are provided, which press against the end of the connecting lug.

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Номер записи: 43
02-02-2012 дата публикации

Film for flip chip type semiconductor back surface, dicing tape-integrated film for semiconductor back surface, process for producing semiconductor device, and flip chip type semiconductor device

Номер: US20120025400A1
Автор: Fumiteru Asai, Goji Shiga, Naohide Takamoto, Yusuke Komoto
Принадлежит: Nitto Denko Corp

The present invention relates to a film for flip chip type semiconductor back surface to be formed on a back surface of a semiconductor element flip chip-connected onto an adherend, in which the film for flip chip type semiconductor back surface before thermal curing has, at the thermal curing thereof, a volume contraction ratio within a range of 23° C. to 165° C. of 100 ppm/° C. to 400 ppm/° C.

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Номер записи: 44
02-02-2012 дата публикации

Method and electrostatic transfer stamp for transferring semiconductor dice using electrostatic transfer printing techniques

Номер: US20120027557A1
Автор: Ian Ashdown, Ingo Speier
Принадлежит: Cooledge Lighting Inc

A transfer stamp that can be charged with a spatial pattern of electrostatic charge for picking up selected semiconductor dice from a host substrate and transferring them to a target substrate. The stamp may be bulk charged and then selectively discharged using irradiation through a patterned mask. The technique may also be used to electrostatically transfer selected semiconductor dice from a host substrate to a target substrate.

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Номер записи: 45
02-02-2012 дата публикации

Method of manufacturing semiconductor chip

Номер: US20120028414A1
Автор: Kenji Nakagawa, Kiyofumi Sakaguchi, Nobuo Kawase, Takao Yonehara
Принадлежит: Canon Inc

A method of manufacturing a semiconductor chip including an integrated circuit and a through-electrode penetrating a semiconductor layer includes the steps of preparing a first substrate including a release layer and a semiconductor layer formed on the release layer; forming an integrated circuit in the semiconductor layer; forming, in the semiconductor layer, a hole or groove having a depth that does not reach the release layer; filling the hole or the groove with an electrical conductor; bonding a second substrate to the semiconductor layer to form a bonded structure; separating the bonded structure at the release layer to prepare the second substrate to which the semiconductor layer is transferred; and removing at least a portion of the reverse surface side of the semiconductor layer exposed by the separation to expose the bottom of the electrical conductor.

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Номер записи: 46
02-02-2012 дата публикации

Methods of operating electronic devices, and methods of providing electronic devices

Номер: US20120028582A1
Автор: Patrick W. Tandy
Принадлежит: Round Rock Research LLC

Some embodiments include a method disposing an integrated circuit die within a housing, the integrated circuit die having integrated circuitry formed thereon, the integrated circuitry including first transponder circuitry configured to transmit and receive radio frequency signals, wherein the integrated circuit die is void of external electrical connections for anything except power supply external connections; and disposing second transponder circuitry, discrete from the first transponder circuitry, within the housing, the second transponder circuitry being configured to transmit and receive radio frequency signals, wherein the first and second transponder circuitry are configured to establish wireless communication between one another within the housing, the second transponder circuitry being disposed within 24 inches of the first transponder circuitry within the housing.

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Номер записи: 47
09-02-2012 дата публикации

Gas delivery system for reducing oxidation in wire bonding operations

Номер: US20120031877A1
Автор: Gary S. Gillotti, Peter J. Van Emmerik, Stanley Szczesniak
Принадлежит: Kulicke and Soffa Industries Inc

A wire bonding machine is provided. The wire bonding machine includes a bonding tool and an electrode for forming a free air ball on an end of a wire extending through the bonding tool where the free air ball is formed at a free air ball formation area of the wire bonding machine. The wire bonding machine also includes a bond site area for holding a semiconductor device during a wire bonding operation. The wire bonding machine also includes a gas delivery mechanism configured to provide a cover gas to: (1) the bond site area whereby the cover gas is ejected through at least one aperture of the gas delivery mechanism to the bond site area, and (2) the free air ball formation area.

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Номер записи: 48
09-02-2012 дата публикации

Semiconductor device and method for producing such a device

Номер: US20120032295A1
Автор: Carsten Von Koblinski, Francisco Javier Santos Rodriguez, Friedrich Kroener
Принадлежит: INFINEON TECHNOLOGIES AG

A semiconductor device and method for producing such a device is disclosed. One embodiment provides a semiconductor functional wafer having a first and second main surface. Component production processes are performed for producing a component functional region at the first main surface, wherein the component production processes produce an end state that is stable up to at least a first temperature. A carrier substrate is fitted to the first main surface. Access openings are produced to the first main surface. At least one further component production process is performed for producing patterned component functional regions at the first main surface of the functional wafer in the access openings. The end state produced in this process is stable up to a second temperature, which is less than the first temperature.

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Номер записи: 49
09-02-2012 дата публикации

Semiconductor device, electronic apparatus, and method of manufacturing semiconductor device

Номер: US20120032298A1
Автор: Hideki Fujii, Kenji Furuya, Yuichi Miyagawa
Принадлежит: Renesas Electronics Corp

A semiconductor chip is mounted on a first surface of an interconnect substrate, and has a multilayer interconnect layer. A first inductor is formed over the multilayer interconnect layer, and a wiring axis direction thereof is directed in a horizontal direction to the interconnect substrate. A second inductor is formed on the multilayer interconnect layer, and a wiring axis direction thereof is directed in the horizontal direction to the interconnect substrate. The second inductor is opposite to the first inductor. A sealing resin seals at least the first surface of the interconnect substrate and the semiconductor chip. A groove is formed over the whole area of a portion that is positioned between the at least first inductor and the second inductor of a boundary surface of the multilayer interconnect layer and the sealing resin.

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Номер записи: 50
09-02-2012 дата публикации

Integrated circuit packaging system with die paddle and method of manufacture thereof

Номер: US20120032315A1
Автор: Arnel Senosa Trasporto, Byung Tai Do, Linda Pei Ee CHUA
Принадлежит: Individual

A method of manufacture of an integrated circuit packaging system includes: providing a package paddle having a single integral structure with a paddle central portion surrounded by a paddle peripheral portion; forming a terminal adjacent the package paddle; mounting an integrated circuit over the paddle central portion; and forming an encapsulation over the integrated circuit and the terminal, the encapsulation free of delamination with the encapsulation directly on the paddle peripheral portion.

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Номер записи: 51
09-02-2012 дата публикации

High-voltage packaged device

Номер: US20120032319A1
Автор: Richard A. Dunipace
Принадлежит: Individual

Packaged devices and methods for making and using the same are described. The packaged devices contain one or more circuit components, such as a die, that is attached to a leadframe having a first lead, a second lead, and a third lead (although, higher lead counts may be employed in some implementations). A portion of the circuit component and the leadframe are encapsulated in a molded housing so that the first lead is exposed from a first end of the housing while the second and third leads are exposed from a second end of the housing. In some configurations, the packaged device does not contain a fourth lead that is both electrically connected to the first lead and that is exposed from the second end of the molded housing. In other configurations, an area extending from the second lead to the third lead in the molded housing comprises an insulating material having a substantially uniform conductivity. Thus, the packaged devices have relatively large creepage and clearance distances between the first lead and the second and third leads. As a result, the packaged devices are able to operate at relatively high operating voltages without experiencing voltage breakdown. Other embodiments are described.

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Номер записи: 52
09-02-2012 дата публикации

Semiconductor device and method of manufacturing the same

Номер: US20120032323A1
Автор: Akihiro Osaki, Atsushi Ishii, Masahiko Fujisawa, Masahiro Matsumoto
Принадлежит: Renesas Electronics Corp

A preferred aim of the invention is to provide technique for improving reliability of semiconductor devices when using a low-dielectric-constant film having a lower dielectric constant than a silicon oxide film to a part of an interlayer insulating film. More specifically, to achieve the preferred aim, an interlayer insulating film IL 1 forming a first fine layer is formed of a middle-Young's-modulus film, and thus it is possible to separate an integrated high-Young's-modulus layer (a semiconductor substrate 1 S and a contact interlayer insulating film CIL) and an interlayer insulating film (a low-Young's-modulus film; a low-dielectric-constant film) IL 2 forming a second fine layer not to let them directly contact with each other, and stress can be diverged. As a result, film exfoliation of the interlayer insulating film IL 2 formed of a low-Young's-modulus film can be prevented and thus reliability of semiconductor devices can be improved.

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Номер записи: 53
09-02-2012 дата публикации

Semiconductor device

Номер: US20120032325A1
Автор: Osamu Miyata, Shingo Higuchi
Принадлежит: ROHM CO LTD

There is provided a semiconductor device with which stress can be prevented from locally concentrating on an external connecting terminal on a post and thus damages of the external connecting terminal can be prevented. The semiconductor device includes a semiconductor chip, a sealing resin layer stacked on a surface of the semiconductor chip, and the post which penetrates the sealing resin layer in a stacking direction of the semiconductor chip and the sealing resin layer, protrudes from the sealing resin layer, and has a periphery of the protruding portion opposedly in contact with a surface of the sealing resin layer in the stacking direction.

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Номер записи: 54
09-02-2012 дата публикации

Circuit substrate and manufacturing method thereof and package structure and manufacturing method thereof

Номер: US20120032331A1
Автор: Chih-Cheng LEE
Принадлежит: Advanced Semiconductor Engineering Inc

A circuit substrate includes the following elements. A conductive layer and a dielectric layer are disposed on an inner circuit structure in sequence, and a plurality of conductive blind vias are embedded in the dielectric layer and connected to a portion of the conductive layer. A plating seed layer is disposed between each of the first blind vias and the first conductive layer. Another conductive layer is disposed on the dielectric layer, wherein a portion of the another conductive layer is electrically connected to the conductive layer through the conductive blind vias. A third plating seed layer is disposed between the third conductive layer and each of the first blind vias and on the first dielectric layer.

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Номер записи: 55
09-02-2012 дата публикации

Systems and Methods for Heat Dissipation Using Thermal Conduits

Номер: US20120032350A1
Автор: Jianjun Li, Nic Rossi, Robert W. Warren
Принадлежит: Conexant Systems LLC

The addition of thermal conduits by bonding bond wires to bond pads either in a wire loop configuration or a pillar configuration can improve thermal dissipation of a fabricated die. The thermal conduits can be added as part of the normal packaging process of a semiconductor die and are electrically decoupled from the circuitry fabricated on the fabricated die. In an alternative, a dummy die is affixed to the fabricated die and the thermal conduits are affixed to the dummy die. Additionally, thermal conduits can be used in conjunction with a heat spreader.

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Номер записи: 56
09-02-2012 дата публикации

Semiconductor Device and Power Supply Unit Utilizing the Same

Номер: US20120032713A1
Автор: Atsushi Kitagawa
Принадлежит: ROHM CO LTD

A semiconductor device has pluralities of grid array terminals forming a grid array structure, e.g. a BGA structure, in which the output end of a built-in switch circuit is connected to multiple terminals of the grid array structure, thereby reducing the current that flows through each of the multiple terminals below a permissible level and minimizing the heat due to contact resistances of the multiple terminals in contact with the IC socket of the semiconductor device. Each pair of nearest neighbors of the multiple terminals is interposed by at least one further array terminal. The multiple terminals are all located at the outermost peripheral terminal positions of the grid array structure. Thus, the heat generated in the respective multiple terminals connected to the switch circuit is reduced, thereby minimizing the possibility of hazardous melting of the terminals.

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Номер записи: 57
09-02-2012 дата публикации

Method for Forming a Patterned Thick Metallization atop a Power Semiconductor Chip

Номер: US20120034775A1
Автор: Il Kwan Lee
Принадлежит: Individual

A method is disclosed for forming a patterned thick metallization atop a semiconductor chip wafer. The method includes fabricating a nearly complete semiconductor chip wafer ready for metallization; depositing a bottom metal layer of sub-thickness TK 1 together with its built-in alignment mark using a hot metal process; depositing a top metal layer of sub-thickness TK 2 using a cold metal process thus forming a stacked thick metallization of total thickness TK=TK 1 +TK 2 ; then, use the built-in alignment mark as reference, patterning the stacked thick metallization. A patterned thick metallization is thus formed with the advantages of better metal step coverage owing to the superior step coverage nature of the hot metal process as compared to the cold metal process; and lower alignment error rate owing to the lower alignment signal noise nature of the cold metal process as compared to the hot metal process.

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Номер записи: 58
16-02-2012 дата публикации

Overmolded electronic module with an integrated electromagnetic shield using smt shield wall components

Номер: US20120036710A1
Автор: Larry D. Pottebaum, Philip H. Thompson
Принадлежит: Skyworks Solutions Inc

An electronic module with an integrated electromagnetic shield using surface mount shield wall components has been disclosed. Each surface mount shield wall component provides side shielding of the circuitry within the overmolded electronic module and provides an exposed conductive shield wall section to which a top conductive shield can be applied. By including the shield structure as part of the overmolded electronic module, the need for a separate shield and separate process steps for installing the separate shield can be eliminated. Each surface mount shield wall component comprises a non-conductive portion that provides stability during a reflow soldering process, but at least a sacrificial portion of the non-conductive portion can be removed to reduce the amount of area occupied by the overmoldable shield structure.

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Номер записи: 59
16-02-2012 дата публикации

Capillary and ultrasonic transducer for ultrasonic bonding

Номер: US20120037687A1
Автор: Takayoshi Matsumura
Принадлежит: Fujitsu Ltd

A capillary is attached to an ultrasonic transducer of a wire-bonding apparatus. The capillary includes a first part configured to be attached to the ultrasonic transducer, and a second part other than the first part and extending from the first part. The first part has a shape different from a shape of the second part so that the first part has a flexure rigidity larger than the second part.

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Номер записи: 60
16-02-2012 дата публикации

Light emitting device

Номер: US20120037944A1
Автор: Kenji Takine
Принадлежит: Nichia Corp

A light emitting device, which has: a light emitting element; a package that comprises a concavity for holding the light emitting element, and that has on its side wall where the concavity is integrally formed a light reflector for reflecting light from the light emitting element and a light transmitter for transmitting light from the light emitting element to the outside.

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Номер записи: 61
16-02-2012 дата публикации

Semiconductor device with less power supply noise

Номер: US20120037959A1
Автор: Tetsuya Katou
Принадлежит: Renesas Electronics Corp

A semiconductor device includes a first power supply line; a second power supply line; a first cell arrangement area in which a first cell is arranged; and a switch area in which a switching transistor and a decoupling capacitance are arranged. The first cell is provided in a first well of a first conductive type, the switching transistor is provided in a second well of the first conductive type, and the decoupling capacitance is provided in a separation area of a second conductive type to separate the first well and the second well from each other. The switching transistor connects the first power supply line and the second power supply line in response to a control signal, the first cell operates with power supplied from the second power supply line, and the decoupling capacitance is connected with the first power supply line.

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Номер записи: 62
16-02-2012 дата публикации

Method for molecular adhesion bonding at low pressure

Номер: US20120038027A1
Автор: Marcel Broekaart
Принадлежит: Soitec SA

The present invention relates to a method for molecular adhesion bonding between at least a first wafer and a second wafer involving aligning the first and second wafers, placing the first and second wafers in an environment having a first pressure (P 1 ) greater than a predetermined threshold pressure; bringing the first wafer and the second wafer into alignment and contact; and initiating the propagation of a bonding wave between the first and second wafer after the wafers are aligned and in contact by reducing the pressure within the environment to a second pressure (P 2 ) below the threshold pressure. The invention also relates to the three-dimensional composite structure that is obtained by the described method of adhesion bonding.

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Номер записи: 63
16-02-2012 дата публикации

Semiconductor device

Номер: US20120038033A1
Автор: Akira Oga, Masanori Minamio, YOSHIHIRO Tomita
Принадлежит: Panasonic Corp

A semiconductor device includes a first semiconductor chip 1 , a second semiconductor chip 4 , a first lead frame 3 including a first die pad 9 on which the first semiconductor chip 1 is mounted, and a second lead frame 5 including a second die pad 11 on which the second semiconductor chip 4 is mounted. A sealing structure 6 covers the first semiconductor chip 1 and the second semiconductor chip 4 . A noise shield 7 is disposed between the first semiconductor chip 1 and the second semiconductor chip 4.

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Номер записи: 64
16-02-2012 дата публикации

Structure for Multi-Row Leadframe and Semiconductor Package Thereof and Manufacture Method Thereof

Номер: US20120038036A1
Автор: Hyuk Soo Lee, Hyun A. Chun, Jae Bong Choi, Sai Ran Eom, Sung Won Lee, Sung Wuk Ryu
Принадлежит: LG Innotek Co Ltd

The present invention relates to a multi-row leadframe for semiconductor packaging, characterized by: forming a plating pattern on a leadframe material (first step); forming a protective pattern on the plating pattern (second step); and forming a nano pattern by using the protective pattern as a mask (third step), whereby a protective pattern is formed on an upper surface of a plating pattern to increase reliability of a product by preventing damage to a plating layer caused by etching solution during pattern formation of leadframe and to thereby solve the problem of using the plating layer as an etching mask.

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Номер записи: 65
16-02-2012 дата публикации

Stitch bump stacking design for overall package size reduction for multiple stack

Номер: US20120038059A1
Автор: Foong Yue Ho, Kevin Guan, Koo Eng LUON, Lai Nguk Chin, Sally Foong, Wong Kwet Nam
Принадлежит: Individual

A method for die stacking is disclosed. In one embodiment a first die is formed overlying a substrate. A first wire is bonded to the first die and to a bond finger of the substrate, wherein the first wire is bonded to the bond finger with a first bond. A first stitch bump is formed overlying the first stitch bond, wherein the first stitch bump is formed from a molten ball of conductive material. A second die is formed overlying the first die. A second wire is bonded to the second die and to the first stitch bump, wherein the second wire is bonded to the first stitch bump with a second bond.

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Номер записи: 66
16-02-2012 дата публикации

High-frequency switch

Номер: US20120038411A1
Автор: Hirotsugu Wakimoto, Masanori Ochi, Masayuki Sugiura, Noriyasu Kurihara, Toshiki Seshita, Toshiyuki Shimizu, Yoshio Itagaki, Yoshitomo Sagae
Принадлежит: Toshiba Corp

According to one embodiment, a high-frequency switch includes a high-frequency switch IC chip. The high-frequency switch IC chip has a high-frequency switching circuit section including an input terminal, a plurality of switching elements, a plurality of high-frequency signal lines, and a plurality of output terminals. The input terminal is connected to each of the plurality of output terminals via each of the plurality of switching elements with the high-frequency signal lines having the same lengths. The plurality of output terminals are arranged on a surface at an outer periphery of the high-frequency switch IC chip. The input terminal is arranged on the surface of the high-frequency switch IC chip at the center of the high-frequency switch IC circuit section.

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Номер записи: 67
23-02-2012 дата публикации

Light emitting device and manufacturing method thereof

Номер: US20120043573A1
Автор: Aoi Okada, Iwao Mitsuishi, Keiko Albessard, Masahiro Kato, Naotoshi Matsuda, Shinya Nunoue, Yumi Fukuda
Принадлежит: Toshiba Corp

A light emitting device according to one embodiment includes a light emitting element that emits light having a wavelength of 250 nm to 500 nm and a fluorescent layer that is disposed on the light emitting element. The fluorescent layer includes a phosphor having a composition expressed by the following equation (1) and an average particle diameter of 12 μm or more. (M 1−x1 Eu x1 ) 3−y Si 13−z Al 3+z O 2+u N 21−w   (1) (In the equation ( 1 ), M is an element that is selected from IA group elements, IIA group elements, IIIA group elements, IIIB group elements except Al, rare-earth elements, and IVB group elements. x1, y, z, u, and w satisfy the following relationship. 0<x1<1, −0.1<y<0.3, −3<z≦1, −3<u−w≦1.5)

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Номер записи: 68
23-02-2012 дата публикации

Image Sensor Package with Dual Substrates and the Method of the Same

Номер: US20120043635A1
Автор: Wen-Kun Yang
Принадлежит: King Dragon International Inc

The image sensor package with dual substrates comprises a first substrate with a die receiving opening and a plurality of first through hole penetrated through the first substrate; a second substrate with a die opening window and a plurality of second through hole penetrated through the second substrate, formed on the first substrate. A part of the second wiring pattern is coupled to a part of the third wiring pattern; an image die having conductive pads and sensing array received within the die receiving opening and the sensing array being exposed by the die opening window; and a through hole conductive material refilled into the plurality of second through hole, some of the plurality of second through hole coupling to the conductive pads of the image sensor.

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Номер записи: 69
23-02-2012 дата публикации

Method of processing of nitride semiconductor wafer, nitride semiconductor wafer, method of producing nitride semiconductor device and nitride semiconductor device

Номер: US20120043645A1
Автор: Hidenori Mikami, Keiji Ishibashi, Naoki Matsumoto
Принадлежит: Sumitomo Electric Industries Ltd

A nitride semiconductor wafer is planar-processed by grinding a bottom surface of the wafer, etching the bottom surface by, e.g., KOH for removing a bottom process-induced degradation layer, chamfering by a rubber whetstone bonded with 100 wt %-60 wt % #3000-#600 diamond granules and 0 wt %-40 wt % oxide granules, grinding and polishing a top surface of the wafer, etching the top surface for eliminating a top process-induced degradation layer and maintaining a 0.5 μm-10 μm thick edge process-induced degradation layer.

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Номер записи: 70
23-02-2012 дата публикации

Packaging Integrated Circuits

Номер: US20120043650A1
Автор: Liang Kng Ian Koh, Richard Mangapul Sinaga
Принадлежит: INFINEON TECHNOLOGIES AG

An integrated circuit 15 is placed onto a lead frame 101 having lead fingers 109 of substantially constant thickness along their length. Wires are formed from the lead fingers 109 to corresponding electrical contacts the integrated circuit. Following the wire bonding process, the thickness of the tips of the lead fingers 109 is reduced by a laser process, to form tips of reduced thickness desirable for a subsequent moulding operation. Thus, at the time of the wire bonding the tips of the fingers 109 need not have a gap beneath them, so that more secure wire bonds to the lead fingers 109 can be formed.

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Номер записи: 71
23-02-2012 дата публикации

Mechanisms for forming copper pillar bumps using patterned anodes

Номер: US20120043654A1
Автор: Chih-Wei Lin, Chung-Shi Liu, Ming-Da Cheng, Wen-Hsiung LU
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

The mechanisms of preparing bump structures described by using patterned anodes may simplify bump-making process, reduce manufacturing cost, and improve thickness uniformity within die and across the wafer. In addition, the mechanisms described above allow forming bumps with different heights to allow bumps to be integrated with elements on a substrate with different heights. Bumps with different heights expand the application of copper post bumps to enable further chip integration.

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Номер записи: 72
23-02-2012 дата публикации

Authentication device, authentication method, and an information storage medium storing a program

Номер: US20120045114A1
Автор: Kenta Ogawa, Yasuhiro MATSUMARU
Принадлежит: Renesas Electronics Corp

There is provided an authentication device including an authentication information storage unit that stores authentication information acquired from an authentication pattern including a part or the entirety of a mottled pattern or a dot pattern formed over an electronic component as information for indentifying each of a plurality of electronic components, an authentication information acquiring unit that acquires a first authentication information acquired from the authentication pattern formed over a first electronic component that is an object to be authenticated, a search unit that searches whether or not the authentication information storage unit stores the first authentication information by using the first authentication information as a search key, and an output unit that outputs a search result of the search unit.

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Номер записи: 73
01-03-2012 дата публикации

Light emitting device

Номер: US20120049208A1
Автор: Chao Hsing Chen, Chien Fu Shen, Hsin Mao Liu, Schang Jing Hon, Tsun Kai Ko
Принадлежит: Individual

The present disclosure provides a light emitting device, including a serially-connected LED array including a plurality of LED cells on a single substrate, including a first LED cell, a second LED cell, and a serially-connected LED sub-array including at least three LED cells intervening the first and second LED cell, wherein each of the first and second LED cell including a first side and a second side that the first side of the first LED cell and/or the second LED cell neighboring to the LED sub-array, and the second side of the first LED cell neighboring to the second side of the second LED cell; a trench between the second sides of the first and second LED cells; and a protecting structure formed near the trench to prevent the light-emitting device from being damaged near the trench by a surge voltage higher than a normal operating voltage of the light emitting device.

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Номер записи: 74
01-03-2012 дата публикации

Conductive connection structure with stress reduction arrangement for a semiconductor device, and related fabrication method

Номер: US20120049343A1
Автор: Frank Kuechenmeister, Lei Fu, Michael Su, Thomas Schulze
Принадлежит: Advanced Micro Devices Inc, Globalfoundries Inc

A semiconductor device disclosed herein includes a conductive connection structure having a stepped profile that serves as a stress relief feature. The conductive connection structure includes a stress buffer arrangement for a contact pad. The stress buffer arrangement has a stepped via that terminates at the contact pad, and the stepped via has a plurality of inwardly sloped and concentric sections in a stacked orientation. The connection structure also includes underbump metallization overlying at least a portion of the contact pad and lining the stepped via, and a conductive connection element coupled to the underbump metallization. The conductive connection element fills the lined recess.

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Номер записи: 75
01-03-2012 дата публикации

Semiconductor structure having conductive vias and method for manufacturing the same

Номер: US20120049347A1
Автор: Meng-Jen Wang
Принадлежит: Advanced Semiconductor Engineering Inc

A semiconductor structure includes a plurality of thermal vias and a heat dissipation layer disposed at a periphery of a back surface of a lower chip in a stacked-chip package. This arrangement improves solderability of a subsequently-bonded heat sink. Additionally, the thermal vias and the heat dissipation layer provide an improved thermal conduction path for enhancing heat dissipation efficiency of the semiconductor structure. A method for manufacturing the semiconductor structure is also provided.

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Номер записи: 76
01-03-2012 дата публикации

Bumpless build-up layer package with pre-stacked microelectronic devices

Номер: US20120049382A1
Автор: Pramod Malatkar
Принадлежит: Intel Corp

The present disclosure relates to the field of integrated circuit package design and, more particularly, to packages using a bumpless build-up layer (BBUL) designs. Embodiments of the present description relate to the field of fabricating microelectronic packages, wherein a first microelectronic device having through-silicon vias may be stacked with a second microelectronic device and used in a bumpless build-up layer package.

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Номер записи: 77
01-03-2012 дата публикации

Process for assembling two parts of a circuit

Номер: US20120052629A1
Автор: Patrick Lamontagne, Perceval Coudrain, Yacine Felk
Принадлежит: STMICROELECTRONICS SA

A three-dimensional integrated structure is fabricated by assembling at least two parts together, wherein each part contains at least one metallic line covered with a covering region and having a free side. A cavity is formed in the covering region of each part, that cavity opening onto the metallic line. The two parts are joined together with the free sides facing each other and the cavities in each covering region aligned with each other. The metallic lines are then electrically joined to each other through an electromigration of the metal within at least one of the metallic lines, the electromigrated material filling the aligned cavities.

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Номер записи: 78
08-03-2012 дата публикации

Method for manufacturing electronic parts device and resin composition for electronic parts encapsulation

Номер: US20120055015A1
Автор: Eiji Toyoda, Shigetomi KIDO
Принадлежит: Nitto Denko Corp

The present invention relates to a method for manufacturing an electronic parts device allowing for easy overmolding and underfilling without requiring a jig for preventing leakage of the melted resin composition, and a resin composition sheet for electronic parts encapsulation used therein.

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Номер записи: 79
08-03-2012 дата публикации

Semiconductor package

Номер: US20120056313A1
Автор: Jun Morimoto, Masashi AIZAWA, Masayuki Kato
Принадлежит: Individual

A semiconductor package includes a radiator plate including a stress alleviation section, a resin sheet arranged on the radiator plate, a pair of bus bars joined to the radiator plate through the resin sheet at positions at which the stress alleviation section is interposed between the bus bars, and a semiconductor device joined to the pair of bus bars by being sandwiched between the bus bars, and energized from outside through the pair of bus bars.

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Номер записи: 80
08-03-2012 дата публикации

Multi-chip package with offset die stacking

Номер: US20120056335A1
Автор: Peter B. Gillingham
Принадлежит: Mosaid Technologies Inc

A semiconductor device has a plurality of stacked semiconductor dice mounted on a substrate. Each die has similar dimensions. Each die has a first plurality of bonding pads arranged along a bonding edge of the die. A first group of the dice are mounted to the substrate with the bonding edge oriented in a first direction. A second group of the dice are mounted to the substrate with the bonding edge oriented in a second direction opposite the first direction. Each die is laterally offset in the second direction relative to the remaining dice by a respective lateral offset distance such that the bonding pads of each die are not disposed between the substrate and any portion of the remaining dice in a direction perpendicular to the substrate. A plurality of bonding wires connects the bonding pads to the substrate. A method of manufacturing a semiconductor device is also disclosed.

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Номер записи: 81
08-03-2012 дата публикации

Method of Fabricating A Semiconductor Device Having A Resin With Warpage Compensated Structures

Номер: US20120058606A1
Автор: Chai Wei Heng, Gerhard Deml, Khai Huat Jeffrey Low, Stanley Job Doraisamy, Wae Chet YONG
Принадлежит: INFINEON TECHNOLOGIES AG

A semiconductor device including: a die pad, a die on the die pad, and resin encapsulating the die and forming an isolation thickness over the die pad, the resin including a mounting aperture and a major surface configured for mounting to an external device, the major surface having a non warpage compensation portion adjacent the die and a warpage compensation portion in a relatively thermally inactive zone with an approximate discontinuity and/or abrupt change in gradient between the non warpage compensation portion and the warpage compensation portion.

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Номер записи: 82
15-03-2012 дата публикации

Apparatus and method for mounting electronic component

Номер: US20120060356A1
Автор: Hirokazu Yamanishi, Mitsuo Takeuchi, Tohru HARADA, Toru Okada, Yoshiaki Yanagida
Принадлежит: Fujitsu Ltd

An apparatus for mounting an electronic component includes a heating head that moves relative to the electronic component placed on a printed board, inclines according to the inclination of the electronic component, comes into contact with the electronic component, and heats a joining material that joins the printed board and the electronic component; a first sensor that measures the position and the inclination of the heating head; a second sensor that measures the position and the inclination of the printed board; and, a control unit that calculates the position and the inclination of the electronic component based on a measurement result of the first sensor in a state where the heating head is in contact with the electronic component, and determines the melted state of the joining material based on the measurement result of the second sensor and the position and the inclination of the electronic component.

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Номер записи: 83
15-03-2012 дата публикации

Light emitting device and manufacturing method of light emitting device

Номер: US20120061703A1
Автор: Mitsuhiro Kobayashi
Принадлежит: Toshiba Corp

A light emitting device may include a base provided with a recess portion in a side surface thereof, a light emitting element mounted on a main surface of the base, a first resin body filled in an inside of the recess portion, and covering at least the main surface and the light emitting element, a second resin body covering an outside of the first resin body from the main surface side to at least a position of the lowermost end of the recess portion in a direction orthogonal to the main surface, and phosphor, provided in the second resin body, for absorbing light emitted from the light emitting element and then emitting light having a different wavelength.

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Номер записи: 84
15-03-2012 дата публикации

Control device of semiconductor device

Номер: US20120061722A1
Автор: Masahiro MASUNAGA, Takayuki Hashimoto
Принадлежит: Renesas Electronics Corp

A control device of a semiconductor device is provided. The control device of a semiconductor device is capable of reducing both ON resistance and feedback capacitance in a hollow-gate type planar MOSFET to which a second gate electrode is provided or a trench MOSFET to which a second gate electrode is provided. In the control device controlling driving of a hollow-gate type planar MOSFET to which a second gate electrode is provided or a trench MOSFET to which a second gate electrode is provided, a signal of tuning ON or OFF is outputted to a gate electrode in a state of outputting a signal of turning OFF to the second gate electrode.

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Номер записи: 85
15-03-2012 дата публикации

Power Semiconductor Chip Package

Номер: US20120061812A1
Автор: Ralf Otremba
Принадлежит: INFINEON TECHNOLOGIES AG

A device includes a vertical power semiconductor chip having an epitaxial layer and a bulk semiconductor layer. A first contact pad is arranged on a first main face of the power semiconductor chip and a second contact pad is arranged on a second main face of the power semiconductor chip opposite to the first main face. The device further comprises an electrically conducting carrier attached to the second contact pad.

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Номер записи: 86
15-03-2012 дата публикации

Semiconductor device and manufacturing method of the same

Номер: US20120061817A1
Автор: Mamoru SHISHIDO, Noriyuki Takahashi
Принадлежит: Renesas Electronics Corp

A semiconductor chip is mounted on a heat sink disposed inside a through-hole of a wiring board, electrodes of the semiconductor chip and connecting terminals of the wiring board are connected by bonding wires, a sealing resin is formed to cover the semiconductor chip and the bonding wires, and solder balls are formed on the lower surface of the wiring board, thereby constituting the semiconductor device. The heat sink is thicker than the wiring board. The heat sink has a protruded portion protruding to outside from the side surface of the heat sink, the protruded portion is located on the upper surface of the wiring board outside the through-hole, and the lower surface of the protruded portion contacts to the upper surface of the wiring board. When the semiconductor device is manufactured, the heat sink is inserted from the upper surface side of the wiring board.

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Номер записи: 87
15-03-2012 дата публикации

Semiconductor chip with redundant thru-silicon-vias

Номер: US20120061821A1
Автор: Bryan Black, Gamal Refai-Ahmed, Joe Siegel, Michael Z. Su, Seth Prejean
Принадлежит: Advanced Micro Devices Inc, ATI TECHNOLOGIES ULC

A semiconductor chip with conductive vias and a method of manufacturing the same are disclosed. The method includes forming a first plurality of conductive vias in a layer of a first semiconductor chip. The first plurality of conductive vias includes first ends and second ends. A first conductor pad is formed in ohmic contact with the first ends of the first plurality of conductive vias.

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Номер записи: 88
15-03-2012 дата публикации

Semiconductor device having pad structure with stress buffer layer

Номер: US20120061823A1
Автор: Chao-Wen Shih, Shang-Yun Hou, Shin-puu Jeng, Tzu-Wei Chiu, Tzuan-Horng LIU, Wei-Cheng Wu
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

A semiconductor device has a pad structure with a ring-shaped stress buffer layer between a metal pad and an under-bump metallization (UBM) layer. The stress buffer layer is formed of a dielectric layer with a dielectric constant less than 3.5, a polymer layer, or an aluminum layer. The stress buffer layer is a circular ring, a square ring, an octagonal ring, or any other geometric ring.

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Номер записи: 89
15-03-2012 дата публикации

Semiconductor chip, stacked chip semiconductor package including the same, and fabricating method thereof

Номер: US20120061834A1
Автор: Tae Min Kang
Принадлежит: Hynix Semiconductor Inc

A semiconductor chip includes a silicon wafer formed with a via hole, a metal wire disposed in the via hole, and a filler that exposes a part of an upper portion of the metal wire while filing the via hole.

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Номер записи: 90
15-03-2012 дата публикации

Semiconductor chip device with polymeric filler trench

Номер: US20120061852A1
Автор: Bryan Black, Gamal Refai-Ahmed, Michael Z. Su
Принадлежит: Advanced Micro Devices Inc, ATI TECHNOLOGIES ULC

A method of manufacturing is provided that includes providing a semiconductor chip with an insulating layer. The insulating layer includes a trench. A second semiconductor chip is stacked on the first semiconductor chip to leave a gap. A polymeric filler is placed in the gap wherein a portion of the polymeric filler is drawn into the trench.

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Номер записи: 91
15-03-2012 дата публикации

Electronic Packaging With A Variable Thickness Mold Cap

Номер: US20120061857A1
Автор: Christopher J. Healy, Gopal C. Jha, Vivek Ramadoss
Принадлежит: Qualcomm Inc

An electronic package with improved warpage compensation. The electronic package includes a mold cap having a variable thickness. The variable thickness can have a mound or dimple design. In another embodiment, a method is provided for reducing unit warpage of an electronic package by designing the topography of a mold cap to compensate for warpage.

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Номер записи: 92
15-03-2012 дата публикации

Power amplifier circuit

Номер: US20120062325A1
Автор: Joong Jin NAM, Jun Goo WON, Ki Joong KIM, Seong Geon KIM, Youn Suk Kim
Принадлежит: Samsung Electro Mechanics Co Ltd

There is provided a power amplifier circuit capable of improving cross isolation between a high frequency band power coupler and a low frequency band power coupler, by directly transmitting power to the high frequency band power coupler and the low frequency band power coupler from a power amplifier, and forming a predetermined inductance circuit or an LC resonance circuit in a line transmitting the power to the high frequency band power coupler. The power amplifier circuit may include a power amplifying unit supplied with power from the outside and amplifying an input signal, a coupling unit having a high frequency band power coupler and a low frequency band power coupler, and an isolation unit including a first power line and a second power line, wherein the first power line has an inductor blocking signal interference generated in a predetermined frequency band.

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Номер записи: 93
15-03-2012 дата публикации

Semiconductor package integrated with conformal shield and antenna

Номер: US20120062439A1
Автор: Chi-Hong Chan, Kuo-Hsien Liao, Shih Fuyu
Принадлежит: Advanced Semiconductor Engineering Inc

A semiconductor package integrated with conformal shield and antenna is provided. The semiconductor package includes a semiconductor element, an electromagnetic interference shielding element, a dielectric structure, an antenna element and an antenna signal feeding element. The electromagnetic interference shielding element includes an electromagnetic interference shielding film and a grounding element, wherein the electromagnetic interference shielding film covers the semiconductor element and the grounding element is electrically connected to the electromagnetic interference shielding layer and a grounding segment of the semiconductor element. The dielectric structure covers a part of the electromagnetic interference shielding element and has an upper surface. The antenna element is formed adjacent to the upper surface of the dielectric structure. The antenna signal feeding element passing through the dielectric structure electrically connects the antenna element and the semiconductor element.

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Номер записи: 94
15-03-2012 дата публикации

Manufacturing method of substrate for a semiconductor package, manufacturing method of semiconductor package, substrate for a semiconductor package and semiconductor package

Номер: US20120064666A1
Автор: Shigeru Hosomomi, Yoichiro Hamada
Принадлежит: SUMITOMO METAL MINING CO LTD

A manufacturing method of a substrate for a semiconductor package includes a resist layer forming step to form a resist layer on a surface of a conductive substrate; an exposure step to expose the resist layer using a glass mask with a mask pattern including a transmission area, a light shielding area, and an intermediate transmission area, wherein transmittance of the intermediate transmission area is lower than that of the transmission area and is higher than that of the light shielding area; a development step to form a resist pattern including a hollow with a side shape including a slope part decreasing in hollow circumference as the hollow circumference approaches the substrate; and a plating step to plate on an exposed area to form a metal layer with a side shape including a slope part decreasing in circumference as the circumference approaches the substrate.

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Номер записи: 95
15-03-2012 дата публикации

Method of manufacture of integrated circuit packaging system with stacked integrated circuit

Номер: US20120064668A1
Автор: Henry Descalzo Bathan, Jairus Legaspi Pisigan, Zigmund Ramirez Camacho
Принадлежит: Individual

A method of manufacture of an integrated circuit packaging system includes: forming a base lead having an outer protrusion and an inner protrusion with a recess in between; forming a stack lead having an elongated portion; mounting a base integrated circuit over the inner protrusion or under the elongated portion; mounting the stack lead over the base lead and the base integrated circuit; connecting a stack integrated circuit and the stack lead with the stack integrated circuit over the base integrated circuit; and encapsulating at least a portion of both the base integrated circuit and the stack integrated circuit with the base lead and the stack lead exposed.

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Номер записи: 96
15-03-2012 дата публикации

Method of making a semiconductor chip assembly with a post/base heat spreader and a substrate using grinding

Номер: US20120064672A1
Автор: Charles W.C. Lin, Chia-Chung Wang
Принадлежит: Individual

A method of making a semiconductor chip assembly includes providing a post and a base, mounting an adhesive on the base including inserting the post through an opening in the adhesive, mounting a substrate on the adhesive including inserting the post into an aperture in the substrate, then flowing the adhesive between the post and the substrate in the aperture, solidifying the adhesive, then grinding the post and the adhesive, then mounting a semiconductor device on a heat spreader that includes the post and the base, electrically connecting the semiconductor device to the substrate and thermally connecting the semiconductor device to the heat spreader.

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Номер записи: 97
15-03-2012 дата публикации

Semiconductor device including coupling conductive pattern

Номер: US20120064827A1
Автор: Hee-Seok Lee, Jong-Joo Lee, Sang-Youb Lee, Yong-Hoon Kim, Young-don Choi
Принадлежит: SAMSUNG ELECTRONICS CO LTD

A semiconductor device is disclosed including a through electrode. The semiconductor device may include a first semiconductor chip including a transceiver circuit formed on a first surface, a first coupling conductive pattern which is formed on a second surface opposite the first surface, and a through electrode which connects the transceiver circuit and the first coupling conductive pattern. There may be a transceiver located on a second semiconductor chip and including a second coupling conductive pattern facing the first coupling conductive pattern which communicates wirelessly with the first coupling conductive pattern.

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Номер записи: 98
22-03-2012 дата публикации

Tsop with impedance control

Номер: US20120068317A1
Автор: Belgacem Haba, Brian Marcucci
Принадлежит: TESSERA RESEARCH LLC

A semiconductor device of an illustrative embodiment includes a die, a lead frame including a plurality of leads having substantial portions arranged in a lead plane and electrically connected to the die. Most preferably, the package includes at least a substantial portion of one conductive element arranged in a plane positioned adjacent the lead frame and substantially parallel to the lead plane, the conductive element being capacitively coupled to the leads such that the conductive element and at least one of the leads cooperatively define a controlled-impedance conduction path, and an encapsulant which encapsulates the leads and the conductive element. The leads and, desirably, the conductive element have respective connection regions which are not covered by the encapsulant.

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Номер записи: 99
22-03-2012 дата публикации

Integrated circuit packaging system with stack interconnect and method of manufacture thereof

Номер: US20120068319A1
Автор: Daesik Choi, Oh Han Kim, SangMi Park
Принадлежит: Individual

A method of manufacture of an integrated circuit packaging system includes: forming a connection carrier having base device pads and base interconnect pads on a carrier top side of the connection carrier; connecting a base integrated circuit to the base device pads and mounted over the carrier top side; mounting base vertical interconnects directly on the base interconnect pads; attaching a base package substrate to the base integrated circuit and directly on the base vertical interconnects; forming a base encapsulation on the base package substrate, the base device pads, and the base interconnect pads; and removing a portion of the connection carrier with the base device pads and the base interconnect pads partially exposed opposite the base package substrate.

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Номер записи: 100