Patent application number | Description | Published |
20140064660 | LIGHTGUIDE DESIGN TECHNIQUES - Techniques are disclosed for obtaining a desired luminance and/or intensity distribution from any lighting fixture that is illuminated by a lightguide. The techniques can be used, for instance, to design a non-uniform surface texture (e.g., of light extraction features) for a lightguide, wherein the surface texture achieves a desired uniform or an intentionally non-uniform luminance distribution for a given lightguide shape/geometry, dimensions, and/or composition. In some embodiments, an iteration algorithm with illuminance distribution feedback is utilized to design a non-uniform surface texture (e.g., geometry, dimensions, quantity and/or spatial distribution of light extraction features) to achieve the target luminance distribution for a given lighting application. | 03-06-2014 |
20140085924 | EDGE-LIT LIGHT PANEL - An edge-lit light panel is disclosed, which includes a generally planar, transparent light guide. Light, such as from one or more solid state light source arrays, is coupled into the light guide through its lateral edge, and propagates generally laterally within the light guide via total internal reflection. A diffuser is attached to the front or rear face of the light guide, such as by lamination. The diffuser may have a refractive index matched to that of the light guide. The light guide may have one or more concave features on its lateral edge to reduce reflection losses at high angles of incidence. The concave features may include a single, one-dimensional groove that includes all the solid state light sources along a particular straight edge of the light panel, or may include a series of concave dimples, with one dimple for each solid state light source. | 03-27-2014 |
20140126239 | ILLUMINATION TECHNIQUES AND DEVICES - Techniques are disclosed for extracting light from within a lightguide by providing therein a plurality of internal light extraction features. A broad range of internal light extraction feature configurations (e.g., geometries/shapes, materials, refractive index changes, etc.) can be provided, and a variety of processes/techniques (e.g., 3-D printing, laser cutting/etching, injection molding, embossment, layer stacking, extrusion, etc.) can be used to do so. The features can be configured to achieve any desired set of photometric performance criteria (e.g., single/double-sided emission, optical efficiency, energy efficiency, spatial/angular luminance distribution, intensity gradients, etc.) for a given lightguide-based fixture/device. In some cases, internal and surficial light extraction features can be used together to extract light. Also, a wide variety of lighting fixtures/devices (e.g., panels, bulbs, tubes, rings, containers, three-dimensional structures/sculptures, multi-layered, multi-sectioned, etc.) can be produced using the disclosed techniques. In some cases, transparent/semi-transparent devices can be produced. | 05-08-2014 |
20150253489 | Lightguide Design Techniques - Techniques are disclosed for obtaining a desired luminance and/or intensity distribution from any lighting fixture that is illuminated by a lightguide. The techniques can be used, for instance, to design a non-uniform surface texture (e.g., of light extraction features) for a lightguide, wherein the surface texture achieves a desired uniform or an intentionally non-uniform luminance distribution for a given lightguide shape/geometry, dimensions, and/or composition. In some embodiments, an iteration algorithm with illuminance distribution feedback is utilized to design a non-uniform surface texture (e.g., geometry, dimensions, quantity and/or spatial distribution of light extraction features) to achieve the target luminance distribution for a given lighting application. | 09-10-2015 |
Patent application number | Description | Published |
20080300919 | ARCHITECTURE FOR HEALTH MONITORING SYSTEMS - An architecture allows individual system components to be developed and tested individually, i.e., as distinct modules, and to be subsequently combined through standardized electrical and communication interfaces. Any combination of these modules can be implemented to form different products that provide any number of functions, such as an integrated system for monitoring a health condition and/or delivering a medication. The architecture also provides an approach for dynamically updating the product and offering its users the latest generation of technology even after the users have already purchased the product. In particular, the embodiments employ the communication interfaces to also provide connection to a remote network that can update or upgrade the product's software when the product is out in the field. | 12-04-2008 |
20080300920 | HEALTH DATA MANAGEMENT DEVICE - A device for managing health data provides a first housing portion including a data storage system that stores health data and a second housing portion including a data communications element. The data communications element provides data communications between the data storage system and a processing device that processes the health data according to a data-management software. The first housing portion and the second housing portion are connected by a cable that communicates signals between the data communications element and other components in the first housing portion. Another device for managing health data provides a first housing portion including a health data management system and a data communications element that provides data communications between the health data management system and an external processing device. The second housing portion is removably coupled to the first housing portion, and includes at least one component used by the health data management system. | 12-04-2008 |
20080301158 | SYSTEM AND METHOD FOR MANAGING HEALTH DATA - A portable data-management system may be easily employed with multiple processing devices by eliminating the need to pre-install additional programs, agents, device drivers, or other software components on the hosts. A portable storage device contains software for a data-management application, which receives and processes test data from a meter that measures an analyte. The portable device may employ an interface protocol that makes the portable device immediately compatible with different operating systems and hardware configurations. Once the portable device is connected to the host, the data-management application can be automatically launched. The convenience and portability of a data-management system may be enhanced by integrating advanced data processing and display features with the portable device. The users may access some advanced presentations of health data without having to launch the data-management application on a separate host. | 12-04-2008 |
20080301665 | ARCHITECTURE FOR FIELD UPGRADE OF A HEALTH MONITORING SYSTEM - An architecture allows individual system components to be developed and tested individually, i.e., as distinct modules, and to be subsequently combined through standardized electrical and communication interfaces. Any combination of these modules can be implemented to form different products that provide any number of functions, such as an integrated system for monitoring a health condition and/or delivering a medication. The architecture also provides an approach for dynamically updating the product and offering its users the latest generation of technology even after the users have already purchased the product. In particular, the embodiments employ the communication interfaces to also provide connection to a remote network that can update or upgrade the product's software when the product is out in the field. | 12-04-2008 |
20090125636 | Payload allocation methods for scalable multimedia servers - The dynamic streaming of multimedia data between a data server and one or more clients is disclosed. Dynamic streaming enables the rapid and accurate characterization of the end-to-end path conditions in a server-client streaming session, as well as the rapid and intelligent response to those conditions in terms of source compression prior to data packetization. The most significant bits of an original bit stream can be adaptively and immediately selected in response to network conditions. The adaptive selection process is informed by feedback from the client receiver indicative of a time-to-transit the network from server to client. A control protocol and server architecture, including file format, data structure, data processing procedures, cache control mechanisms, and adaptation algorithms useful in implementing dynamic streaming are also disclosed. | 05-14-2009 |
20100299075 | SYSTEMS AND METHODS FOR CALCULATING AN AVERAGE ANALYTE CONCENTRATION VALUE - Embodiments provide methods and systems wherein analyte concentration readings taken over a first period of time are collected and processed to determine one or more analyte concentration averages. The methods include collecting samples with a measurement system (e.g., a Blood Glucose Meter) over a first period of time, dividing the first period of time into smaller time increments, and calculating an average analyte concentration based on first sub-averages obtained from each of the smaller time increments. Systems for carrying out the analyte concentration averages are described, as are other aspects. | 11-25-2010 |
20130188302 | HEALTH DATA MANAGEMENT DEVICE - A device for managing health data provides a first housing portion including a data storage system that stores health data and a second housing portion including a data communications element. The data communications element provides data communications between the data storage system and a processing device that processes the health data according to a data-management software. The first housing portion and the second housing portion are connected by a cable that communicates signals between the data communications element and other components in the first housing portion. Another device for managing health data provides a first housing portion including a health data management system and a data communications element that provides data communications between the health data management system and an external processing device. The second housing portion is removably coupled to the first housing portion, and includes at least one component used by the health data management system. | 07-25-2013 |
20150143356 | Architecture for Field Upgrade of A Health Monitoring System - An architecture allows individual system components to be developed and tested individually, i.e., as distinct modules, and to be subsequently combined through standardized electrical and communication interfaces. Any combination of these modules can be implemented to form different products that provide any number of functions, such as an integrated system for monitoring a health condition and/or delivering a medication. The architecture also provides an approach for dynamically updating the product and offering its users the latest generation of technology even after the users have already purchased the product. In particular, the embodiments employ the communication interfaces to also provide connection to a remote network that can update or upgrade the product's software when the product is out in the field. | 05-21-2015 |
20160033995 | FLUID ANALYTE METER SYSTEM - A device for managing health data provides a first housing portion including a data storage system that stores health data and a second housing portion including a data communications element. The data communications element provides data communications between the data storage system and a processing device that processes the health data according to a data-management software. The first housing portion and the second housing portion are connected by a cable that communicates signals between the data communications element and other components in the first housing portion. Another device for managing health data provides a first housing portion including a health data management system and a data communications element that provides data communications between the health data management system and an external processing device. The second housing portion is removably coupled to the first housing portion, and includes at least one component used by the health data management system. | 02-04-2016 |
Patent application number | Description | Published |
20150049826 | DOUBLE-STREAM BEAMFORMING METHOD AND DEVICE - Disclosed are a double-stream beamforming method and device, which relate to communication technology. The method comprises: first, according to a DOA angle, determining an array response vector; then according to the array response vector, in accordance with the number of each group of transmission antennae of a base station, distributing parameters to generate two groups of coefficients, and according to the two groups of coefficients, conducting beamforming on the antennae. There is no need to conduct characteristic value decomposition to obtain a characteristic vector, thereby reducing the double-stream beamforming complexity. | 02-19-2015 |
20150295652 | METHOD AND DEVICE FOR DATA COMPRESSION, TRANSMISSION, AND DECOMPRESSION - Embodiments of the present invention relate to the field of wireless communications, for use in optimizing a data compression solution. Disclosed are a method and device for data compression, transmission, and decompression. In the present method, data-to-be-transmitted is grouped by a transmitting end, and for each group: a shift factor is determined on the basis of the most significant bit of sample data of the greatest value in the group when a sign bit is removed, data bits of the sample data in the group are leftward shifted on the basis of the shift factor; the leftward shifted sample data respectively are quantified, thus making the bit number of the quantified sample data to be equal to a target bit number for compression; the shift factor and the quantified sample data are transmitted to a receiving end, the sample data respectively are dequantified, data bits in the dequantified sample data are rightward shifted respectively on the basis of the shift factor, and decompressed sample data is acquired. Employment of the present application optimizes data compression performance. | 10-15-2015 |
Patent application number | Description | Published |
20140375943 | POLYMERIZABLE COMPOUNDS AND THE USE THEREOF IN LIQUID-CRYSTAL DISPLAYS - The present invention relates to polymerizable compounds, to processes and intermediates for the preparation thereof, to liquid-crystal (LC) media comprising them, and to the use of the polymerizable compounds and LC media for optical, electro-optical and electronic purposes, in particular in LC displays, especially in LC displays of the PSA (“polymer sustained alignment”) type. | 12-25-2014 |
20150070609 | LIQUID CRYSTAL MEDIUM - The present invention relates to a liquid crystal (LC) medium comprising a polymerizable compound, to a process for its preparation, to its use for optical, electro-optical and electronic purposes, in particular in an LC display, especially in an LC display of the PSA (“polymer sustained alignment”) type, and to an LC display comprising the LC medium. | 03-12-2015 |
20150267119 | POLYMERISABLE COMPOUNDS AND THE USE THEREOF IN LIQUID-CRYSTAL DISPLAYS - The present invention relates to polymerisable compounds, to processes and intermediates for the preparation thereof, to liquid-crystal (LC) media comprising them, and to the use of the polymerisable compounds and LC media for optical, electro-optical and electronic purposes, in particular in LC displays, especially in LC displays of the PSA (“polymer sustained alignment”) type. | 09-24-2015 |
20160032189 | POLYMERISABLE COMPOUNDS AND THE USE THEREOF IN LIQUID-CRYSTAL DISPLAYS - The present invention relates to polymerisable compounds, to processes and intermediates for the preparation thereof, to liquid-crystal (LC) media comprising them, and to the use of the polymerisable compounds and LC media for optical, electro-optical and electronic purposes, in particular in LC displays, especially in LC displays of the polymer sustained alignment type. | 02-04-2016 |
20160054602 | POLYMERISABLE COMPOUNDS AND THE USE THEREOF IN LIQUID-CRYSTAL DISPLAYS - The present invention relates to polymerizable compounds, to processes and intermediates for the preparation thereof, to liquid-crystal (LC) media comprising them, and to the use of the polymerizable compounds and LC media for optical, electro-optical and electronic purposes, in particular in LC displays, especially in LC displays of the polymer sustained alignment type. | 02-25-2016 |
Patent application number | Description | Published |
20120243844 | Photonic Crystal Three-Port Circulator - Taught is a photonic crystal three-port circulator, which comprises a dielectric background material and a plurality of first air columns which are symmetrically arranged in the form of triangular lattice in the dielectric background material. The photonic crystal three-port circulator also comprises a magneto-optical cavity and three waveguides, wherein the magneto-optical cavity is arranged at the center of the photonic crystal three-port circulator; the three waveguides are symmetrically distributed around the magneto-optical cavity; and each waveguide comprises a waveguide port which is arranged at the position in the waveguide far away from the magneto-optical cavity. The photonic crystal three-port circulator realizes circular light transmission in single rotational direction from any one of the waveguide ports to another next to it, has a simple and compact structure, and can be easily integrated with other photonic crystal devices. | 09-27-2012 |
20120251048 | Photonic Crystal Four-Port Circulator Based on Coupling of Magneto-Optical Cavities - The invention relates to a photonic crystal four-port circulator based on the coupling of magneto-optical cavities, which comprises two same magneto-optical cavities and three waveguides which are symmetrically distributed on the periphery of each magneto-optical cavity, wherein two waveguides connected with the magneto-optical cavities respectively are in a “v-shaped” arrangement, thereby guaranteeing that waveguides which are connected with the left sides of the two magneto-optical cavities are parallel to each other and waveguides which are connected with the right sides of the two magneto-optical cavities are parallel to each other as well and achieving the high-efficiency transmission in the case of the coupling of the magneto-optical cavities. The circulator provided by the invention utilizes the optical activity of the magneto-optical cavities to realize the rotation of the mode pattern of electromagnetic fields in the cavities, achieves the light transmission and isolation effects on different waveguides. | 10-04-2012 |
20130223805 | Photonic Crystal Magneto-Optical Circulator and Manufacturing Method Thereof - The invention relates to a photonic crystal magneto-optical circulator, which comprises first dielectric material columns in an air background, wherein the first dielectric material columns are arranged in the form of two-dimensional square lattice. The photonic crystal magneto-optical circulator also comprises a “T-shaped” or a “cross-shaped” photonic crystal waveguide, a second dielectric material column, four same magneto-optical material columns and at least three same third dielectric material columns, wherein the “T-shaped” or a “cross-shaped” photonic crystal waveguide comprises a horizontal photonic crystal waveguide and a vertical photonic crystal waveguide which are intercrossed; the second dielectric material column is arranged at a cross-connected position of the horizontal photonic crystal waveguide and the vertical photonic crystal waveguide and has the function of light guiding; the four same magneto-optical material columns are uniformly arranged on the periphery of the second dielectric material column; and at least three same third dielectric material columns. | 08-29-2013 |
20140095510 | Information Presentation Method, System, Client and/or Server - Systems and methods are provided for presenting information. For example, a trigger command is acquired; one or more first points of interest are selected based on at least information associated with the trigger command; a first zone associated with the first points of interest is acquired from an electronic map, the electronic map being divided into a plurality of second zones including the first zone; a predetermined number of third zones are acquired from the plurality of second zones, the first zone being included at a center area of the third zones; one or more first messages published in the third zones and one or more first geographic positions corresponding to the one or more first messages are acquired; and the first messages published in the third zones and the corresponding first geographic positions are presented according to certain embodiments. | 04-03-2014 |
20150281903 | Method, Server Device And Mobile Terminal For Processing Information - A search request transmitted by a first mobile terminal may be received. The search request may carry location information of the first mobile terminal, when the first mobile terminal transmits the search request. A corresponding grid number may be obtained, based on the location information. The grid number is configured to identify a preset longitude and latitude range of the earth sphere. Information searching for may be obtained based on the grid number. Information searched out may be transmitted to the first mobile terminal. | 10-01-2015 |
20150289091 | METHOD AND DEVICE FOR PUSHING INFORMATION - A method and device for pushing information are provided. A common location of a user may be obtained. A distance between a central point of the common location of the user and a central point of a service providing area may be determined. Information may be pushed to an account of the user, when the distance is less than or equal to a preset threshold. | 10-08-2015 |
Patent application number | Description | Published |
20080205293 | Time Scale Separated Network Management and Network Provisioning Optimizations - A communication network is configured to implement time scale separated management and provisioning optimizations, for example, in a core optical network coupled to multiple data networks. Network management optimizations are performed at respective points in time separated by intervals of a first time scale, and network provisioning optimizations are performed at respective points in time separated by intervals of a second time scale, with the intervals of the second time scale being on average substantially longer than the intervals of the first time scale. Moreover, at least a given one of the intervals of the second time scale has a length which is determined based on results of performance of one or more of the network management optimizations. The core optical network maybe configured utilizing information specified by the network management and network provisioning optimizations. | 08-28-2008 |
20090055238 | Meeting optimizer - A meeting location that is “fair” to all the participants may be selected based on at least the travel circumstances and at least two initial criteria by which an optimal meeting location will be selected, at least one of which has values that are determined for each respective one of the meeting participants using at least information derived from the travel circumstances. Note that by “fair” it is generally intended that no participant can reduce his burden without significantly increasing the burden of some other participant. The meeting location may be determined using a multi-criterial approach. A criterion in this context is a particular property of the travel pertaining to a particular user. In the multi-criterial approach, one selects a preference relation based on each of the individual criteria, and the set of non-dominated alternatives is the outcome of the optimization process. | 02-26-2009 |
20120173394 | DEVICE AND METHOD FOR ALLOCATING REVENUE AMONG PROVIDERS OF BUNDLED OFFERINGS - An exemplary device for allocating revenue among providers of products that are offered together for purchase as part of a unit includes a processor that is configured to automatically determine a number of unit or offering purchases. The processor is configured to automatically issue a corresponding number of virtual shares to each of the providers. The number of virtual shares issued to each provider is based on the number of unit or offering purchases and a predetermined allocation of a number of virtual shares for each provider, respectively for each purchase. The processor is also configured to determine a value of each issued virtual share using at least one selected revenue sharing rule according to a determined schedule. A virtual share redemption module facilitates payment responsive to redemption of issued virtual shares at the determined value. | 07-05-2012 |
Patent application number | Description | Published |
20080298766 | Interactive Photo Annotation Based on Face Clustering - An interactive photo annotation method uses clustering based on facial similarities to improve annotation experience. The method uses a face recognition algorithm to extract facial features of a photo album and cluster the photos into multiple face groups based on facial similarity. The method annotates a face group collectively using annotations, such as name identifiers, in one operation. The method further allows merging and splitting of face groups. Special graphical user interfaces, such as displays in a group view area and a thumbnail area and drag-and-drop features, are used to further improve the annotation experience. | 12-04-2008 |
20080304735 | Learning object cutout from a single example - Systems and methods are described for learning visual object cutout from a single example. In one implementation, an exemplary system determines the color context near each block in a model image to create an appearance model. The system also learns color sequences that occur across visual edges in the model image to create an edge profile model. The exemplary system then infers segmentation boundaries in unknown images based on the appearance model and edge profile model. In one implementation, the exemplary system minimizes the energy in a graph-cut model where the appearance model is used for data energy and the edge profile is used to modulate edges. The system is not limited to images with nearly identical foregrounds or backgrounds. Some variations in scale, rotation, and viewpoint are allowed. | 12-11-2008 |
20080304743 | ACTIVE SEGMENTATION FOR GROUPS OF IMAGES - Systems and methods of segmenting images are disclosed herein. The similarity of images in a set of images is compared. A group of images is selected from the set of images. The images in the group of images are selected based on compared similarities among the images. An informative image is selected from the group of images. User-defined semantic information of the informative image is received. The group of images as a graph is modeled as a graph. Each image in the group of images denotes a node in the graph. Edges of the graph denote a foreground relationship between images or a background relationship between images. One or more images in the group of images are automatically segmented by propagating the semantic information of the informative image to images in the group of images having a corresponding graph node that is related to a graph node corresponding to the informative image. Segmentation results can be refined according to user provided image semantics. | 12-11-2008 |
20080309617 | Graphical communication user interface - New devices, systems and methods are hereby provided that enable a user to open a communication channel by selecting an image on a monitor. A device that includes a monitor and a graphical position user input mechanism is configured to display one or more images on the monitor, to receive a graphical position user input selecting one of the images, and to open a communication channel directed to a contact information element associated with the selected image. For example, this may include placing a phone call to a selected recipient, or opening an email, instant messaging, or text message composition panel addressed to a selected recipient, by touching, clicking on, or otherwise selecting an image of the recipient, or an image that is associated with the recipient. | 12-18-2008 |
20100121792 | Directed Graph Embedding - Directed graph embedding is described. In one implementation, a system explores the link structure of a directed graph and embeds the vertices of the directed graph into a vector space while preserving affinities that are present among vertices of the directed graph. Such an embedded vector space facilitates general data analysis of the information in the directed graph. Optimal embedding can be achieved by measuring local affinities among vertices via transition probabilities between the vertices, based on a stationary distribution of Markov random walks through the directed graph. For classifying linked web pages represented by a directed graph, the system can train a support vector machine (SVM) classifier, which can operate in a user-selectable number of dimensions. | 05-13-2010 |
20100135584 | Image-Based Face Search - A search includes comparing a query image provided by a user to a plurality of stored images of faces stored in a stored image database, and determining a similarity of the query image to the plurality of stored images. One or more resultant images of faces, selected from among the stored images, are displayed to the user based on the determined similarity of the stored images to the query image provided by the user. The resultant images are displayed based at least in part on one or more facial features. | 06-03-2010 |
20120093411 | Active Segmentation for Groups of Images - Systems and methods of segmenting images are disclosed. The similarity of images in a set of images is compared. A group of images is selected from the set of images. The images in the group of images are selected based on compared similarities among the images. An informative image is selected from the group of images. User-defined semantic information of the informative image is received. The group of images is modeled as a graph. Each image in the group of images denotes a node in the graph. Edges of the graph denote a foreground or background relationship between images. One or more images in the group of images may be automatically segmented by propagating semantic information of the informative image to images in the group having a graph node corresponding to the informative image. Segmentation results can be refined according to user provided image semantics. | 04-19-2012 |
20140215404 | GRAPHICAL COMMUNICATION USER INTERFACE - New devices, systems and methods are hereby provided that enable a user to open a communication channel by selecting an image on a monitor. A device that includes a monitor and a graphical position user input mechanism is configured to display one or more images on the monitor, to receive a graphical position user input selecting one of the images, and to open a communication channel directed to a contact information element associated with the selected image. For example, this may include placing a phone call to a selected recipient, or opening an email, instant messaging, or text message composition panel addressed to a selected recipient, by touching, clicking on, or otherwise selecting an image of the recipient, or an image that is associated with the recipient. | 07-31-2014 |
Patent application number | Description | Published |
20140191352 | WAFER-LEVEL PACKAGING METHOD OF BSI IMAGE SENSORS HAVING DIFFERENT CUTTING PROCESSES - A wafer-level packaging method of BSI image sensors includes the following steps: S1: providing a wafer package body comprising a silicon base, an interconnect layer, a hollow wall and a substrate; S2: cutting the wafer package body via a first blade in a first cutting process to separate the interconnect layer of adjacent BSI image sensors; and S3: cutting the wafer package body via a second blade in a second cutting process to obtain independent BSI image sensors. As a result, damage of the interconnect layer and the substrate may be decreased to improve performance and reliability of the BSI image sensor. | 07-10-2014 |
20150054108 | WAFER LEVEL PACKAGING STRUCTURE FOR IMAGE SENSORS AND WAFER LEVEL PACKAGING METHOD FOR IMAGE SENSORS - A wafer level packaging structure for image sensors and a wafer level packaging method for image sensors are provided. The wafer level packaging structure includes: a wafer to be packaged including multiple chip regions and scribe line regions between the chip regions; pads and image sensing regions located on a first surface of the wafer and located in the chip regions; first dike structures covering surfaces of the pads; a packaging cover arranged facing the first surface of the wafer; and second dike structures located on a surface of the packaging cover. Projections of the second dike structures onto the first surface of the wafer are included in the scribe line regions. The packaging cover and the wafer are jointed fixedly via the second dike structures, while tops of the first dike structures and the surface of the packaging cover are contacted. | 02-26-2015 |
20150054109 | WAFER LEVEL PACKAGING STRUCTURE FOR IMAGE SENSORS AND WAFER LEVEL PACKAGING METHOD FOR IMAGE SENSORS - A wafer level packaging structure for image sensors and a wafer level packaging method for image sensors are provided. The wafer level packaging structure includes: a wafer to be packaged including multiple chip regions and scribe line regions between the chip regions; pads and image sensing regions located on a first surface of the wafer and located in the chip regions; first dike structures covering surfaces of the pads and the scribe line regions; a packaging cover arranged facing the first surface of the wafer; and second dike structures located on a surface of the packaging cover. The second dike structures are arranged corresponding to the scribe line regions. The packaging cover and the wafer are jointed fixedly via the second dike structures and the first dike structures. | 02-26-2015 |
20150137294 | IMAGE SENSOR PACKAGE STRUCTURE AND METHOD - Image sensor package structure and method are provided. The method includes: providing first substrate having upper surface on which image sensing areas and pads are formed; providing second substrate having through holes; forming tape film on upper surface of second substrate to seal each through hole; contacting lower surface of second substrate with upper surface of first substrate to make image sensing areas in through holes; removing portions of tape film and second substrate, wherein remained tape film and second substrate form cavities including sidewalls made of second substrate and caps sealing sidewalls and made of tape film, and remained second substrate also covers pads; removing portions of remained second substrate to expose pads; slicing first substrate to form single image sensor chips including image sensing areas and pads; and electrically connecting pads with circuits on third substrate through wires. Pollution or damage to image sensing areas may be avoided. | 05-21-2015 |
20150200153 | CHIP PACKAGE AND METHOD FOR FORMING THE SAME - A chip package and a method for forming the same are provided. The method includes: providing a first chip, wherein the first chip comprises a first surface and a second surface, and a first plurality of pads are disposed on the first surface; providing a second chip, wherein the second chip comprises a third surface and a fourth surface, a second plurality of pads are disposed on the third surface; combining the second surface of the first chip and the third surface of the second chip, wherein the second plurality of pads are out of the combination area of the first chip and the second chip; and forming a first insulation layer, wherein the first insulation layer covers the first chip, and is combined with the second chip. Processes of the method are simple, and the chip package is small. | 07-16-2015 |
Patent application number | Description | Published |
20120220792 | PROCESS FOR PRODUCING ALDEHYDES OR KETONES BY OXIDIZING ALCOHOLS WITH OXYGEN - Provided is a process for producing aldehydes or ketones by oxidizing alcohols with oxygen, which comprises oxidizing alcohols to aldehydes or ketones in an organic solvent at room temperature with oxygen or air as an oxidant, wherein ferric nitrate (Fe(NO3)3.9H2O), 2,2,6,6-tetramethylpiperidine N-oxyl (TEMPO) and an inorganic chloride are used as catalysts, the reaction time is 1-24 hours, and the molar ratio of said alcohols, 2,2,6,6-tetramethylpiperidine N-oxyl and the inorganic chloride is 100:1˜10:1˜10:1˜10. The present process has the advantages of high yield, mild reaction conditions, simple operation, convenient separation and purification, recoverable solvents, substrates used therefor being various and no pollution, and therefore it is adaptable to industrialization. | 08-30-2012 |