Patent application number | Description | Published |
20090197113 | Interconnect structure and method of fabricating the same - A method of fabricating an interconnect structure is described. A substrate is provided. A patterned interfacial metallic layer is formed on the substrate. An amorphous carbon insulating layer or a carbon-based insulating layer is formed covering the substrate and the interfacial metallic layer. A conductive carbon line or plug is formed in the amorphous carbon or carbon-based insulating layer electrically connected with the interfacial metallic layer. An interconnect structure is also described, including a substrate, a patterned interfacial metallic layer on the substrate, an amorphous carbon insulating layer or a carbon-based insulating layer on the substrate, and a conductive carbon line or plug disposed in the amorphous carbon or carbon-based insulating layer and electrically connected with the interfacial metallic layer. | 08-06-2009 |
20120118386 | P-TYPE TRANSPARENT CONDUCTIVE OXIDES AND SOLAR CELLS WITH P-TYPE TRANSPARENT CONDUCTIVE OXIDES - A p-type transparent conductive oxide and a solar cell containing the p-type transparent conducting oxide, wherein the p-type transparent conductive oxide includes a molybdenum trioxide doped with an element having less than six valence electrons, the element is selected from the group consisting of alkali metals, alkaline earth metals, group III elements, group IV, group V, transition elements and their combinations. Doping an element having less than six valence electron results in hole number increase, and thus increasing the hole drift velocity, and making Fermi level closer to the range of p-type materials. Hence, a p-type transparent conductive material is generated. This p-type transparent conducting oxide not only has high electron hole drift velocity, low resistivity, but also reaches a transmittance of 88% in the visible wavelength range, and therefore it is very suitable to be used in solar cells. | 05-17-2012 |
Patent application number | Description | Published |
20130207072 | OPTICAL STRUCTURE AND LIGHT EMITTING DEVICE - A light emitting device includes a substrate, a light emitting unit, and a first optical structure. The light emitting unit is disposed on a top surface of the substrate. The first optical structure is disposed on the light emitting unit. The first optical structure includes a plurality of first nanostructures and a plurality of first quantum dot units. Each of the first quantum dot units is disposed in the first nanostructure. The light emitting unit is used to generate a first color light. Each of the first quantum dot units is used to be excited by the first color light to generate a second color light different from the first color light. | 08-15-2013 |
20140028594 | TOUCH STEREOSCOPIC DISPLAY DEVICE - A touch stereoscopic display device includes a display panel, a touch panel, and a parallax barrier. The display panel has a display surface. The touch panel is disposed on a side of the display surface. The touch panel includes a cover lens and a touch sensing unit. The cover lens has a touch side and a non-touch side opposite to the touch side. The non-touch side faces the display panel. The touch sensing unit is disposed on the non-touch side of the cover lens. The parallax barrier is disposed in the touch panel, and the parallax barrier is used to generate a barrier stereoscopic display effect. The parallax barrier is disposed on the non-touch side of the cover lens. | 01-30-2014 |
20140063211 | NAKED EYE TYPE AND GLASSES TYPE SWITCHABLE STEREOSCOPIC DISPLAY DEVICE - A naked eye type and glasses type switchable stereoscopic display device includes a display panel and a switching module. The display panel provides first display image and second display image. The switching module includes a first transparent electrode, a second transparent electrode, a liquid crystal layer, and an electric field uniforming layer. The electric field uniforming layer is disposed between the liquid crystal layer and the second transparent electrode. The liquid crystal layer is driven by the second transparent electrode through the electric field uniforming layer to form liquid crystal lenses under a naked eye type stereoscopic display mode; the switching module provides a first phase retardation mode and a second phase retardation mode under a glasses type display mode. The first phase retardation mode provides a first polarization state to the first display image; the second phase retardation mode provides a second polarization state to the second display image. | 03-06-2014 |
20140077195 | ORGANIC LIGHT-EMITTING DIODE PACKAGE STRUCTURE AND METHOD OF MANUFACTURING CONCAVITY ON SUBSTRATE - The present invention provides an organic light-emitting diode package structure including a first substrate, a second substrate, at least an organic light-emitting diode device and a dam. The first substrate and a surface of the second substrate are disposed opposite to each other, wherein the surface of the second substrate includes a plurality of concavities, each of the concavities has an opening area, and a ratio of a sum of the opening areas of the concavities to an area of the first surface of the second substrate is substantially between 0 and 1. The organic light-emitting diode device is disposed on the first substrate, and a light emitting surface of the organic light-emitting diode device faces the second substrate. The dam is disposed between the first substrate and the second substrate to combine the first substrate and the second substrate, and the dam surrounds the organic light-emitting diode device. | 03-20-2014 |
20140125878 | DISPLAY DEVICE AND DRIVING METHOD OF DISPLAY DEVICE - A display device for a user to observe a stereo image through a pair of polarization glasses includes a projector, a switchable polarizer, and a sensor. The projector sequentially displays a first image, a first middle image, a second image, and a second middle image on a projection screen. The switchable polarizer is located between the projector and the projection screen and is switchable between a first mode and a second mode, so that each of the first and second images has a first or second polarization after passing through the switchable polarizer in the first or second mode and is then projected onto the projection screen. The sensor is coupled to the switchable polarizer and senses the images on the projection screen. When the sensor senses the first middle image or the second middle image, the switchable polarizer switches between the first mode and the second mode. | 05-08-2014 |
20140160381 | 2D AND 3D SWITCHABLE DISPLAY DEVICE AND LIQUID CRYSTAL LENTICULAR LENS THEREOF - A liquid crystal lenticular lens includes a first transparent substrate, a second transparent substrate, a first transparent electrode, a second transparent electrode, a liquid crystal layer, a first alignment layer, a second alignment layer and a first electric field uniformizing layer. The first transparent electrode includes a plurality of first electrode bars disposed along a first direction and in parallel, and the first direction is non-parallel and non-perpendicular to the edges of the first transparent substrate. The first electric field uniformizing layer is disposed between the first alignment layer and the first transparent electrode or between the second alignment layer and the second transparent electrode. | 06-12-2014 |
20140375913 | LIQUID CRYSTAL LENS, STEREOSCOPIC DISPLAY DEVICE AND DISPLAYING METHOD THEREOF - A liquid crystal lens includes a plurality of first stripe-shaped electrodes, a plurality of second stripe-shaped electrodes, and a plurality of third stripe-shaped electrodes. Each first stripe-shaped electrode is disposed between any two of the second stripe-shaped electrodes that are adjacent to each other, and each second stripe-shaped electrode and each first stripe-shaped electrode are arranged along a first direction alternately. The third stripe-shaped electrodes are arranged along a second direction sequentially and interlaced with the first stripe-shaped electrodes and the second stripe-shaped electrodes. Any two of the second stripe-shaped electrodes and two opposite sides of each third stripe-shaped electrode perpendicular to the second direction define a lens region. | 12-25-2014 |
Patent application number | Description | Published |
20100002911 | METHOD FOR DETECTING LANE DEPARTURE AND APPARATUS THEREOF - A method for detecting the lane departure of a vehicle includes an image recognition process and a deviation estimation process. The image recognition process includes the following steps: an image capturing step for capturing image frame data by using an image capturing unit; and a lane line recognition for analyzing the image frame data for determining the lane lines. By using a quadratic curve fitting equation, a plurality of lane line being detected so as to establish a road geometry estimation model. The road geometry estimation model is inputted into the deviation estimation process to detect the lane departure of the vehicle so as to alert the driver. Furthermore, an apparatus for detecting the deviation of the vehicle, comprising: an image capturing unit, a processing unit and a signal output unit. | 01-07-2010 |
20110298602 | DUAL-VISION DRIVING SAFETY WARNING DEVICE AND METHOD THEREOF - The present invention discloses a dual-vision driving safety warning device and a method thereof. The device of the present invention comprises an image capture unit, an image processing unit, a vehicle status sensing unit, a warning judgment logic, and at least one warning unit. The image capture unit includes at least two image capture devices installed in a user's vehicle and capturing the images of the front traffic environment. The image processing unit processes the images and uses the vehicle status signals detected by the vehicle status sensing unit to calculate the distance between the user's vehicle and a front vehicle in the image. The warning judgment logic sends out a control signal when the user's vehicle deviates from a driving lane or approaches a front vehicle too much. The warning unit receives the control signal and sends out a warning signal, such as a sound or a flash, to remind the driver. | 12-08-2011 |
20120162415 | IMAGE-BASED BARRIER DETECTION AND WARNING SYSTEM AND METHOD THEREOF - The present invention discloses an image-based barrier detection and warning system and a method thereof, wherein an image processing technology is used to establish ROI and verify whether a horizontal line signal exists, and wherein the image processing technology determines whether an object is a barrier via detecting contours of an object and detecting distance to the object, and wherein the system timely outputs warning signals and presents distance to a barrier when detecting the barrier. The image-based barrier detection and warning system enables the driver to watch the surroundings of the vehicle directly and clearly and learn the relative positions of barriers, whereby the driver can park more easily and safely. | 06-28-2012 |
20120173083 | VEHICLE ROLL OVER PREVENTION SAFETY DRIVING SYSTEM AND METHOD - A vehicle rollover prevention safety driving system, comprising: at least an image sensor, used to fetch road images in front of said vehicle; an image processor, connected to said image sensor, and is used to identify a drive lane in road images, and calculate a drive lane curvature, an inclination angle of said road, and relative positions of said vehicle and a lane marking; a vehicle conditions sensing module, used to sense dynamic information of a vehicle turning angle, a vehicle inclination angle, and a vehicle speed; a microprocessor, connected to said image processor and said vehicle conditions sensing module, and it calculates a rollover prediction point and a rollover threshold speed, and it issues a corresponding warning signal or a control signal; and an accelerator and brake controller, connected to said microprocessor, and it controls deceleration of said vehicle according to said control signal. | 07-05-2012 |
20130169679 | VEHICLE IMAGE DISPLAY SYSTEM AND CORRECTION METHOD THEREOF - A vehicle image display system and correction method thereof, applicable to a vehicle to perform vehicle information display, comprising following steps, fetch a front road image; obtain positions of a lane marking and an obstacle in front based on said front road image; after correction, calculate display information of said positions of said lane markings and said obstacles in front, to be overlapped with images of an actual traffic lane; utilize a motor control unit to adjust focal length or inclination angle of a projector unit, or inclination angle of a viewable panel, to produce overlap error correction values to correct said display information. Said projector unit projects large area display information overlapped entirely with images of said actual traffic lane onto said viewable panel or windshield, so that a driver can obtain vehicle driving information, to raise vehicle driving safety. | 07-04-2013 |
20140160012 | AUTOMATIC CORRECTION DEVICE OF VEHICLE DISPLAY SYSTEM AND METHOD THEREOF - An automatic correction device of a vehicle display system and method thereof, comprising following steps: firstly, transform an image of road in front into projection information, to calculate a coordinate model, then detect facial features of a driver, to calculate a face rotation angle and a facial features 3-D position of said driver, to estimate a position field of view for said driver looking to front. Then, said position field of view is substituted into an image overlap projection transformation formula, to generate an overlap error correction parameter. Subsequently, utilize said overlap error correction parameter to correct and update said coordinate model. Finally, utilize a display unit to project said corrected coordinate model to front of said driver, so that projection position of said coordinate model overlaps said position field of view of said driver. | 06-12-2014 |