Class / Patent application number | Description | Number of patent applications / Date published |
257679000 | Smart (e.g., credit) card package | 36 |
20080211074 | IC CARD AND METHOD OF MANUFACTURING THE SAME - An IC body is loaded to a case | 09-04-2008 |
20080251904 | CURING LAYERS OF A SEMICONDUCTOR PRODUCT USING ELECTROMAGNETIC FIELDS - A semiconductor product including a substrate, a semiconductor chip fitted to the substrate, and a layer, which contains coated particles, located adjacent to the semiconductor chip, wherein the coated particles have a ferromagnetic, ferrimagnetic or paramagnetic core and a coating. | 10-16-2008 |
20080251905 | Package-on-package secure module having anti-tamper mesh in the substrate of the upper package - A package-on-package (POP) secure module includes a first ball grid array (BGA) package, and a second BGA package. The first BGA includes an array of bond balls that is disposed on a side of a substrate member, and an array of lands that is disposed on the opposite side of the substrate member. Bond balls of the second BGA are fixed to the lands of the first BGA such that the second BGA is piggy-back mounted to the first BGA. Embedded in the substrate member of the second BGA is an anti-tamper security mesh. An integrated circuit in the first BGA is coupled to, drives and monitors the security mesh. When the module is disposed on a printed circuit board within a point of sale (POS) terminal, the integrated circuit is coupled to, also drives and monitors a second security mesh embedded in the printed circuit board underneath the module. | 10-16-2008 |
20080290488 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - Detachably mountable memory card featuring a memory chip(s) and a control chip includes a substrate of an insulating material, conductive layers provided on a first main surface of the substrate, a plurality of external electrode terminals exposed to the opposing, second main surface of the substrate, and conductive portions electrically connecting the conductive layers with corresponding ones of the external electrode terminals. The memory chip(s) and the control chip are electrically connected with ones of the conductive layers. The memory card also includes an encapsulating insulating layer covering the first main surface of the substrate, the fixedly disposed memory and control chips thereon, and the conductive layers, the encapsulating insulating layer having an exposed flat surface representing one main plane surface of the finished memory card, and the second main surface of the substrate representing another main plane surface of the memory card with the exposed external electrode terminals. | 11-27-2008 |
20080315383 | CHIP FRAME FOR OPTICAL DIGITAL PROCESSOR - A chip frame for an optical digital processor has a body with a concave seat integrally protruding downward from a bottom surface of the body. Multiple dents are defined on the bottom surface of the body to receive conductive elements such as springs. With the conductive elements, the chip frame can electronically contact ground pads on a circuit board, without needing of conductive epoxy coating. | 12-25-2008 |
20080315384 | APPARATUSES AND METHODS FOR FORMING ELECTRONIC ASSEMBLIES - Apparatuses and methods for forming displays are claimed. One embodiment of the invention includes a contact smart card wherein fluidic self assembly is used to build the microelectronic structures on the display such that a contact smart data is transmitted unidirectionally. A contact smart card is inserted directly into a device that transfers data to a display coupled to the smart card. Another embodiment of the invention relates to a contactless smart card in which fluidic self assembly is also used here to build the display. Data is transmitted to an antenna that is embedded in the contactless card in which a plurality of blocks were deposited thereon. | 12-25-2008 |
20090008760 | SEMICONDUCTOR DEVICE HAS ENCAPSULANT WITH CHAMFER SUCH THAT PORTION OF SUBSTRATE AND CHAMFER ARE EXPOSED FROM ENCAPSULANT AND REMAINING PORTION OF SURFACE OF SUBSTRATE IS COVERED BY ENCAPSULANT - A semiconductor device and a fabrication method thereof are provided. An opening having at least one slanted side is formed on a substrate. At least one chip and at least one passive component are mounted on the substrate. An encapsulant having a cutaway corner is formed on the substrate to encapsulate the chip and the passive component, wherein the cutaway corner of the encapsulant is spaced apart from the slanted side of the opening by a predetermined distance. A singulation process is performed to cut the encapsulant to form a package with a chamfer. The package is embedded in a lid to form the semiconductor device, wherein a portion of the substrate located between the slanted side of the opening and the cutaway corner of the encapsulant is exposed from the encapsulant to form an exposed portion. The present invention also provides a carrier for the semiconductor device. | 01-08-2009 |
20090065917 | Multi-Standards Compliant Card Body - A card body comprises a module-receiving part ( | 03-12-2009 |
20090079053 | TAPE SUBSTRATE AND SEMICONDUCTOR MODULE FOR SMART CARD, METHOD OF FABRICATING THE SAME, AND SMART CARD - Provided are a tape substrate for a smart card, a method of fabricating the same, and a semiconductor module and a smart card using the tape substrate. The tape substrate includes at least one tape unit. The at least one tape unit includes a chip mounting unit defining a region on which a semiconductor chip is to be mounted, a plurality of pin electrode units arranged around the chip mounting unit and separated from one another, a border unit encircling the chip mounting unit and the pin electrode units, and a cutting unit disposed between the chip mounting unit and the border unit and between the pin electrode units and the border unit. The cutting unit includes a plurality of connection lines connecting the chip mounting unit and the pin electrode units to the border unit. | 03-26-2009 |
20090085182 | Semiconductor device and method for manufacturing the same - A semiconductor device capable of wireless communication, which has high reliability in terms of resistance to external force, in particular, pressing force and can prevent electrostatic discharge in an integrated circuit without preventing reception of an electric wave. The semiconductor device includes an on-chip antenna connected to the integrated circuit and a booster antenna which transmits a signal or power included in a received electric wave to the on-chip antenna without contact. In the semiconductor device, the integrated circuit and the on-chip antenna are interposed between a pair of structure bodies formed by impregnating a fiber body with a resin. One of the structure bodies is provided between the on-chip antenna and the booster antenna. A conductive film having a surface resistance value of approximately 10 | 04-02-2009 |
20090108425 | Stacked package and method of manufacturing the same - In one embodiment, the stacked package includes a first chip disposed over a package substrate. The first chip has at least one first chip dummy pad, and the first chip dummy pad is not electrically connected to circuits of the first chip. A first dummy bonding wire is connected to the first chip dummy pad and the package substrate. A second chip is disposed over at least a portion of the first chip, and the second chip has at least one second chip bonding pad. A first bonding wire is electrically connected to the second chip bonding pad and the first dummy bonding wire. | 04-30-2009 |
20090115041 | Semiconductor package and semiconductor device - A semiconductor package includes an insulating substrate configured to be provided for mounting a semiconductor chip which processes a signal with a frequency in a radio frequency band. The insulating substrate includes a first external connecting electrode, a second external connecting electrode, and a partial antenna wiring. The first external connecting electrode and the second external connecting electrode are connected with the partial antenna wiring. Each of the first external connecting electrode and the second external connecting electrode is an electrode to be connected with an external antenna pattern. | 05-07-2009 |
20090200650 | INTEGRATED CIRCUIT PACKAGE AND A METHOD OF MAKING - An integrated circuit package includes a substrate and a first semiconductor chip. The first semiconductor chip is provided in a cavity on a first side of the substrate. The package further includes a second semiconductor chip provided on a second side of the substrate. The first semiconductor chip and the second semiconductor chip form a stack. | 08-13-2009 |
20090218667 | SMART CARDS AND METHODS FOR PRODUCING A SMART CARD - The invention relates to smart cards. In one embodiment a smart card has a card body having at least a first, a second and a third layer. The first and the second layer are at least partly composed of polycarbonate. The third layer is arranged between the first and the second layer and is composed of a material having a melting point of T | 09-03-2009 |
20090283885 | Semiconductor Device and a Method of Manufacturing the Same - On an adapter mounting portion | 11-19-2009 |
20090283886 | IC CARD - The present invention includes an IC card that can realize high function without increasing the size of an IC chip, and that can realize cost reduction. The IC card has a first single crystal integrated circuit, a second integrated circuit, and a display device. The second integrated circuit and the display device are each formed from a thin film semiconductor film, over a plastic substrate, and the first single crystal integrated circuit is mounted on the plastic substrate so as to be electrically connected to the second integrated circuit. | 11-19-2009 |
20090289340 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A conductive shield covering a semiconductor integrated circuit prevents electrostatic breakdown of the semiconductor integrated circuit (e.g., malfunction of a circuit and damage to a semiconductor element) due to electrostatic discharge. Further, with use of a pair of insulators between which the semiconductor integrated circuit is sandwiched, a highly reliable semiconductor having resistance can be provided while achieving reduction in the thickness and size. Moreover, also in the manufacturing process, external stress, or defective shapes or deterioration in characteristics resulted from electrostatic discharge are prevented, and thus the semiconductor device can be manufactured with high yield. | 11-26-2009 |
20090289341 | SEMICONDUCTOR DEVICE - An object is to provide a highly reliable semiconductor device having resistance to external stress and electrostatic discharge while achieving reduction in thickness and size. Another object is to prevent defective shapes and deterioration in characteristics due to external stress or electrostatic discharge in a manufacture process to manufacture a semiconductor device with a high yield. A first insulator and a second insulator facing each other, a semiconductor integrated circuit and an antenna provided between the first insulator and the second insulator facing each other, a conductive shield provided on one surface of the first insulator, and a conductive shield provided on one surface of the second insulator are provided. The conductive shield provided on one surface of the first insulator and the conductive shield provided on one surface of the second insulator are electrically connected. | 11-26-2009 |
20090321902 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The semiconductor device of the invention includes a transistor, an insulating layer provided over the transistor, a first conductive layer (corresponding to a source wire or a drain wire) electrically connected to a source region or a drain region of the transistor through an opening portion provided in the insulating layer, a first resin layer provided over the insulating layer and the first conductive layer, a layer containing conductive particles which is electrically connected to the first conductive layer through an opening portion provided in the first resin layer, and a substrate provided with a second resin layer and a second conductive layer serving as an antenna. In the semiconductor device having the above-described structure, the second conductive layer is electrically connected to the first conductive layer with the layer containing conductive particles interposed therebetween. In addition, the second resin layer is provided over the first resin layer. | 12-31-2009 |
20100001387 | ELECTRONIC DEVICE, ELECTRONIC APPARATUS MOUNTED WITH ELECTRONIC DEVICE, ARTICLE EQUIPPED WITH ELECTRONIC DEVICE AND METHOD OF PRODUCING ELECTRONIC DEVICE - An electronic device includes: a base; a conductor pattern formed on the base; and a circuit chip electrically connected to the conductor pattern. The electronic device further includes a reinforcing member which is disposed on the base to surround the circuit chip, whose outer shape is like a ring, and which includes layers stacked in the thickness direction of the base. The lowermost layer of the layers is closest to the base and softer than the layer that is at least one of the remaining layers. The electronic device further includes a sealing member which fills an inside of the reinforcing member while covering the top of the circuit chip, thereby sealing the circuit chip on the base. | 01-07-2010 |
20100001388 | ELECTRONIC DEVICE, ELECTRONIC APPARATUS MOUNTED WITH ELECTRONIC DEVICE, ARTICLE EQUIPPED WITH ELECTRONIC DEVICE AND METHOD OF PRODUCING ELECTRONIC DEVICE - An electronic device includes: a base; a conductor pattern formed on the base; a circuit chip electrically connected to the conductor pattern; and a reinforcing member which is disposed on the base to surround the circuit chip, whose outer shape is like a ring, and which includes concentric rings as an internal structure. The electronic device further includes a sealing member which fills an inside of the reinforcing member while covering the top of the circuit chip, thereby sealing the circuit chip on the base. | 01-07-2010 |
20100025831 | Method for manufacturing thin film integrated circuit device, noncontact thin film integrated circuit device and method for manufacturing the same, and idtag and coin including the noncontact thin film integrated circuit device - To provide a thin film integrated circuit which is mass produced at low cost, a method for manufacturing a thin film integrated circuit according to the invention includes the steps of: forming a peel-off layer over a substrate; forming a base film over the peel-off layer; forming a plurality of thin film integrated circuits over the base film; forming a groove at the boundary between the plurality of thin film integrated circuits; and introducing a gas or a liquid containing halogen fluoride into the groove, thereby removing the peel-off layer; thus, the plurality of thin film integrated circuits are separated from each other. | 02-04-2010 |
20100038763 | Semiconductor structure with communication element - In one embodiment, a structure includes a semiconductor chip including a communication element for performing a wireless communication function where the communication element has a communication core occupying a region of the semiconductor chip, a plurality of chip pads with two of the chip pads electrically connected to the communication core; a chip carrier for carrying the semiconductor chip where the chip carrier includes a plurality of carrier pads with two of the carrier pads connected to the two chip pads; and an antenna connected to the carrier pads and electrically connected to the chip pads and to the communication core. | 02-18-2010 |
20100052128 | DEVICE FOR DETECTING AN ATTACK AGAINST AN INTEGRATED CIRCUIT - An integrated circuit including an intrusion attack detection device. The device includes a single-piece formed of a conductive material and surrounded with an insulating material and includes at least one stretched or compressed elongated conductive track, connected to a mobile element, at least one conductive portion distant from said piece and a circuit for detecting an electric connection between the piece and the conductive portion. A variation in the length of said track in an attack by removal of the insulating material, causes a displacement of the mobile element until it contacts the conductive portion. | 03-04-2010 |
20100065952 | Semiconductor Device - To solve a problem in that an antenna or a circuit including a thin film transistor is damaged due to discharge of electric charge accumulated in an insulator (a problem of electrostatic discharge), a semiconductor device includes a first insulator, a circuit including a thin film transistor provided over the first insulator, an antenna which is provided over the circuit and is electrically connected to the circuit, and a second insulator provided over the antenna, a first conductive film provided between the first insulator and the circuit, and a second conductive film provided between the second insulator and the antenna. | 03-18-2010 |
20100078787 | SEMICONDUCTOR DEVICE - To provide a semiconductor device whose reliability is improved by increase in resistance to external stress and electrostatic discharge with reduction in thickness and size achieved. An IC chip provided with an integrated circuit and a resonant capacitor portion, an antenna provided over the IC chip, and a conductive blocking body provided so as to at least partially overlap the antenna with an insulating film interposed therebetween are included. A capacitor is formed with a layered structure of the antenna, the insulating film over the antenna, and the conductive blocking body over the insulating film. | 04-01-2010 |
20100096736 | Semiconductor Device and Manufacturing Method Thereof - A structure capable of changing the characteristic value of an element after the formation of the element in order to prevent the increase of the manufacturing cost and delay in the delivery of a product. A plurality of diodes is connected in series. Then, a part of the plurality of diodes is short-circuited by a wiring. In specific, a diode and a wiring are connected in parallel, whereby a current flows preferentially into the wiring, so that the diode can be regarded as nonexistent. Then, the wiring is cut at a part of the wiring, thereby having the diode which is connected to the wiring in parallel before the cutting functioning. | 04-22-2010 |
20100102424 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREFOR - The present invention provides a semiconductor device and a fabrication method therefor, the semiconductor device including a first semiconductor chip disposed on a substrate, a first sealing resin sealing the first semiconductor chip, a built-in semiconductor device disposed on the first sealing resin, and a second sealing resin sealing the first sealing resin and the built-in semiconductor device and covering a side surface of the substrate. According to an aspect of the present invention, it is possible to provide a high-quality semiconductor device and a fabrication method therefor, in which downsizing and cost reduction can be realized. | 04-29-2010 |
20100133673 | FLASH MEMORY CARD - A Flash memory card is disclosed comprising a substrate, a Flash memory die on top of the substrate, a controller die on top of the Flash memory die, and an interposer coupled to with the controller die and on top of the Flash memory die wherein the interposer results in substantial reduced wire bonding to the substrate. The interposer can surround or be placed side by side with the controller die. A system and method in accordance with the present invention achieves the following objectives: (1) takes advantage of as large of a Flash memory die as possible, to increase the density of the Flash card by reducing the number of wire bond pads on the substrate and enabling insertion of the largest die possible that can fit inside a given card interior boundary; (2) more efficiently stacks Flash memory dies to increase density of the Flash card; and (3) has a substantially less number of bonding wires to the substrate as possible, to improve production yield. | 06-03-2010 |
20100171202 | Method of securely data protecting arrangement for electronic device - A method of securely data protection for an electronic device includes the steps of: enclosing a core circuit module of the electronic within a protection element to form a protection circuit surrounding the core circuit module; operatively linking a detective circuit between the protection element and the core circuit module; and activating the detective circuit in case of a hack of the electronic device, such that when the electronic device is broken to access the core circuit module through the protection element, the detective circuit is activated to block data information saved in the core circuit module from being access. | 07-08-2010 |
20100193927 | MEMORY CARD AND METHOD FOR MANUFACTURING MEMORY CARD - A memory card includes a circuit board, a first semiconductor chip mounted on the circuit board with a bump sandwiched between the first semiconductor chip and the circuit board, a second semiconductor chip mounted on the circuit board with a bump sandwiched between the second semiconductor chip and the circuit board with a clearance not greater than 1 mm between the first semiconductor chip and the second semiconductor chip, a first sealing resin layer surrounding the bump and existing between the first semiconductor chip and the circuit board, and a second sealing resin layer surrounding the bump and existing between the second semiconductor chip and the circuit board, and a cover covering the first semiconductor chip, the second semiconductor chip on a principal face of the circuit board. | 08-05-2010 |
20100244215 | WIRELESS IC DEVICE - A wireless IC device includes a radiating plate, a wireless IC chip, and a feeder circuit board, on which the wireless IC chip is mounted. The feeder circuit board includes a resonant circuit with an inductance element, and the resonant circuit is electromagnetically coupled with the radiating plate. The wireless IC chip is interposed between the radiating plate and the feeder circuit board. | 09-30-2010 |
20110074001 | CHIP CARD HAVING A PLURALITY OF COMPONENTS - The present invention relates to a chip card and a method for the production of a chip card having a chip ( | 03-31-2011 |
20120280380 | HIGH PERFORMANCE GLASS-BASED 60 GHZ / MM-WAVE PHASED ARRAY ANTENNAS AND METHODS OF MAKING SAME - A glass-based, high-performance 60 GHz/mm-wave antenna includes cavities disposed in a phased-array antenna (PAA) substrate. The cavities are disposed below planar antenna elements. Emitter traces are disposed on the PAA substrate opposite the planar antenna elements and the emitter traces, the cavities, and the planar antenna elements are vertically aligned. | 11-08-2012 |
20140091450 | Semiconductor Housing for Smart Cards - A semiconductor housing includes a front side with a semiconductor chip and a first metallization on a substrate, and a rear side with a second metallization. The rear side is situated opposite the front side of the semiconductor housing. The semiconductor housing further includes a first compensation layer applied on the front side of the semiconductor housing. | 04-03-2014 |
20160141248 | Chip card module arrangement, chip card arrangement and method for producing a chip card arrangement - A chip card module arrangement may include a first surface and a second surface, which are opposite from one another, and a chip receptacle for one or more semiconductor chips on the surfaces. The chip card module arrangement may further include a connecting material receiving area on one of the two surfaces, the connecting material receiving area only taking up a portion of the surface. | 05-19-2016 |