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| 20080203583 | SEMICONDUCTOR PACKAGE AND FABRICATION METHOD THEREOF - There is provided a semiconductor package comprising: a multilayer thin film structure including a plurality of dielectric layers and at least one or more redistribution layers; a semiconductor chip positioned at one side of the multilayer thin film structure and electrically connected to the redistribution layer; and a solder bump formed at the other side of the multilayer thin film structure. The multilayer thin film structure functions as the substrate for the semiconductor package and realizes the light, thin, short and small BGA package without any additional substrate. A plurality of the packages can be simultaneously formed at wafer level or carrier level, to simplify the process and to be favorable for mass production. After the semiconductor chips are formed at wafer level, only the semiconductor chips having the excellent operation characteristic through the test are selectively bonded to the multilayer thin film structure, to provide the high quality package products in which the fault rate is maximally reduced. The light, thin, short and small BGA package according to the present invention enables small and slim communication devices, displayers and other diverse electronic devices, to be contributed to the increase of the competitiveness of the products to which the BGA package is applied. | 08-28-2008 |
| 20090008762 | ULTRA SLIM SEMICONDUCTOR PACKAGE AND METHOD OF FABRICATING THE SAME - There is provided an ultra slim semiconductor package comprising: a multilayer thin film layer including at least one or more dielectric layers and at least one or more redistribution layers; at least one semiconductor chip electrically connected to the redistribution layer and mounted on the multilayer thin film layer; conductive structures electrically connected to the redistribution layer and each formed in a post shape at one side of the multilayer thin film layer; a molding part formed on the multilayer thin film layer and at least partially covering the conductive structures and the semiconductor chip; and bumps for external connection formed on the molding part and electrically connected to the conductive structures. The semiconductor package according to the present invention enables mass production at wafer level, is easily stacked between the packages, and has an excellent electrical characteristic. Further, since the package thickness is very thin, the semiconductor package contributes to the slimming of diverse electronic products. | 01-08-2009 |
| 20090146281 | SYSTEM IN PACKAGE AND FABRICATION METHOD THEREOF - There is provided a system-in-package including: a substrate of a sawed base wafer on which a semiconductor circuit is formed; a conductive post formed on a top surface of the substrate; at least one semiconductor chip stacked on the top surface of the substrate; a buried layer formed on the top surface of the substrate so as to cover at least partially the conductive post and the semiconductor chip; and an external connection bump electrically connected to the conductive post. The system-in-package is fabricated by stacking a plurality of semiconductor chips on a top surface of a base wafer, forming a buried layer, realizing an electrical path by a conductive post, and polishing top and bottom surfaces of the package, thereby thinning the thickness of the package. Further, the system-in-package greatly improves electrical operation characteristics and increases productivity. | 06-11-2009 |
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| 20090015737 | ELECTRICALLY-DRIVEN LIQUID CRYSTAL LENS AND STEREOSCOPIC DISPLAY DEVICE USING THE SAME - An electrically-driven liquid crystal lens, and a stereoscopic display device using the same, including first and second substrates arranged opposite each other and including an active region having a plurality of lens regions and a pad region defined at an outer rim of the active region, a plurality of first electrodes formed on the first substrate to correspond to the respective lens regions and spaced apart from one another, a second electrode formed on the entire surface of the second substrate, a voltage source to apply different voltages to the plurality of first electrodes, respectively, and to apply a ground voltage to the second electrode, and a liquid crystal layer interposed between the first substrate and the second substrate. | 01-15-2009 |
| 20090015738 | Electrically-driven liquid crystal lens and stereoscopic display device using the same - An liquid crystal lens for improving a viewing angle and reducing crosstalk caused at the center of an electrode in a multi-view stereoscopic display fashion using an increased number of views per a viewing zone, and a stereoscopic display device using the same are disclosed. The display device includes a display panel having a plurality of sub-pixels in a matrix pattern to emit a 2-dimensional image signal, and an electrically-driven liquid crystal lens located at an upper surface of the display panel and including lens regions having a crosswise width equal to “m”, a multiple of a crosswise width of a single sub-pixel and a lengthwise width equal to “n”, a multiple of a lengthwise width of the sub-pixel, the lens regions of one line being shifted more than the lens regions of a following line by a distance “a” when viewed from a column direction. | 01-15-2009 |
| 20090015739 | Electrically-driven liquid crystal lens and display device using the same - An electrically-driven liquid crystal lens, which can reduce crosstalk caused at the center of an electrode, and a display device using the same are disclosed. The electrically-driven liquid crystal lens includes first and second substrates arranged opposite each other and defined, respectively, with a plurality of lens regions corresponding to each other, first electrodes formed on the first substrate between centers of the respective neighboring left and right lens regions on the first substrate, a black matrix layer formed on the first substrate to correspond to edges of the respective lens regions, the black matrix layer having a first width, second electrodes formed on the first substrate to correspond to the edges of the respective lens regions, the second electrodes having a second width smaller than the first width, a third electrode formed throughout the second substrate, and a liquid crystal layer interposed between the first substrate and the second substrate. | 01-15-2009 |
| 20090153754 | ELECTRICALLY-DRIVEN LIQUID CRYSTAL LENS AND STEREOSCOPIC DISPLAY DEVICE USING THE SAME - An electrically-driven liquid crystal lens wherein an electrode is defined with a vertical or horizontal rubbing direction, achieving an improved lens profile effect, and a stereoscopic display device using the same are disclosed. The liquid crystal lens includes first and second substrates arranged opposite each other and each including a plurality of lens regions, a plurality of first electrodes formed on the first substrate to correspond to the respective lens regions while being spaced apart from one another, to which voltages gradually increasing from the center to the edge of each lens region are applied, a second electrode formed over the entire surface of the second substrate, a first alignment film formed over the entire surface of the first substrate including the first electrodes and having an alignment direction parallel to or perpendicular to a longitudinal direction of the first electrodes, a second alignment film formed on the second electrode and having an anti-parallel alignment direction relative to the first alignment film, and a liquid crystal layer filled between the first substrate and the second substrate. | 06-18-2009 |
| 20090190048 | Stereoscopic display device using electrically-driven liquid crystal lens - A stereoscopic display device using an electrically-driven liquid crystal lens is disclosed. The stereoscopic display device includes a display panel, a light source to emit light, and an electrically-driven liquid crystal lens provided between the display panel and the light source and having a reflective electrode to intercept a part of the light emitted from the light source, the electrically-driven liquid crystal lens enabling a wide viewing angle or narrow viewing angle display according to whether or not voltages are applied thereto. | 07-30-2009 |
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| 20100308472 | SEMICONDUCTOR CHIP HAVING POWER SUPPLY LINE WITH MINIMIZED VOLTAGE DROP - Disclosed is a power supply line in which a voltage drop generated in a resistance component of a metal line which delivers a power voltage is minimized so that the level of the power supply voltage delivered to a semiconductor chip becomes constant in the entire area of the semiconductor chip. The semiconductor chip includes: at least two power supply pads to which a power voltage applied from an external unit of the semiconductor chip is supplied; power supply main metal lines connected to each of the power supply pads; power supply branch metal lines extended from each of the power supply main metal lines to deliver a power voltage to a circuit in the semiconductor chip; and at least an electrostatic discharge (ESD) improvement dummy pad, wherein the ESD improvement dummy pad is electrically connected to the corresponding power supply main metal line and the corresponding power supply branch metal line to minimize a voltage drop. | 12-09-2010 |
| 20110102410 | CIRCUIT AND METHOD FOR DRIVING OLED DISPLAY - A circuit for driving an organic light emitting diode display includes a display panel that displays an image by using organic light emitting diodes disposed at intersection areas of a plurality of gate lines and a plurality of data lines; a threshold voltage detection control unit that supplies a precharge voltage by sequentially turning on transistors for threshold voltage detection, which are connected among the data lines and the organic light emitting diodes on the display panel, in units of horizontal lines, and enables threshold voltages to be detected; and a source driver that detects threshold voltages of all organic light emitting diodes arranged on a corresponding horizontal line, and repeats an operation, as necessary, for sampling/holding the detected threshold voltages through M sample/hold circuits, converting the sampled/held threshold voltages into digital signals, and storing the digital signals in a memory. | 05-05-2011 |
| 20110133972 | GAMMA VOLTAGE GENERATOR AND DAC HAVING GAMMA VOLTAGE GENERATOR - A gamma voltage generator includes an RGB common gamma voltage generation section configured to generate RGB common gamma voltages using corresponding gamma reference voltages among a plurality of gamma reference voltages; and at least two of an RG gamma voltage generation section configured to generate RG gamma voltages using corresponding gamma reference voltages among the plurality of gamma reference voltages, an R gamma voltage generation section configured to generate R gamma voltages using corresponding gamma reference voltages among the plurality of gamma reference voltages, a G gamma voltage generation section configured to generate G gamma voltages using corresponding gamma reference voltages among the plurality of gamma reference voltages, and a B gamma voltage generation section configured to generate B gamma voltages using corresponding gamma reference voltages among the plurality of gamma reference voltages. | 06-09-2011 |
