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    • 23. 发明申请
    • Nitride semiconductor LED improved in lighting efficiency and fabrication method thereof
    • 氮化物半导体LED的照明效率提高和制造方法
    • US20060208264A1
    • 2006-09-21
    • US11439127
    • 2006-05-24
    • Yung RyuKee YangBang OhJin ParkYoung Kim
    • Yung RyuKee YangBang OhJin ParkYoung Kim
    • H01L33/00H01L27/15H01L29/167H01L31/12
    • H01L33/007
    • A nitride semiconductor LED improved in lighting efficiency and a fabrication method thereof, in which an n-doped semiconductor layer is formed on a substrate. An active layer is formed on the n-doped semiconductor layer to expose at least a partial area of the n-doped semiconductor layer. A p-doped semiconductor layer is formed on the active layer. A p+-doped semiconductor layer is formed on the p-doped semiconductor layer. An n+-doped semiconductor layer is formed in at least a partial upper region of the p+-doped semiconductor layer via n-dopant ion implantation. The n+-doped semiconductor layer cooperates with an underlying partial region of the p+-doped semiconductor layer to realize a reverse bias tunneling junction. Also, an upper n-doped semiconductor layer is formed on the n+-doped semiconductor layer to realize lateral current spreading. The invention can improve lighting efficiency by using the reverse bias tunneling junction and/or the lateral current spreading.
    • 提高了照明效率的氮化物半导体LED及其制造方法,其中在衬底上形成n掺杂半导体层。 在n掺杂半导体层上形成有源层,以露出n掺杂半导体层的至少一部分区域。 在有源层上形成p掺杂半导体层。 在p掺杂半导体层上形成p +掺杂的半导体层。 通过n掺杂剂离子注入在p +掺杂的半导体层的至少部分上部区域中形成n +掺杂的半导体层。 n +掺杂的半导体层与p +掺杂的半导体层的下面的部分区域配合以实现反向偏压隧道结。 此外,在n +掺杂的半导体层上形成上部n掺杂半导体层,以实现横向电流扩展。 本发明可以通过使用反向偏置隧道结和/或横向电流扩展来提高照明效率。
    • 26. 发明申请
    • Hydraulic control system of automatic transmission for vehicle
    • 车辆自动变速器液压控制系统
    • US20060105882A1
    • 2006-05-18
    • US11264853
    • 2005-11-02
    • Jong ParkHyeog LeeJin ParkByung Shin
    • Jong ParkHyeog LeeJin ParkByung Shin
    • F16H47/08F16H61/26
    • F16H61/061F16H61/0206F16H2061/0253Y10T477/6936Y10T477/6937
    • A hydraulic control system of an automatic transmission that precisely control is operating hydraulic pressure supplied to a frictional element during shifting and can eliminate oil leak under a maximum operating hydraulic pressure. The hydraulic control system controls a hydraulic pressure generated by a hydraulic pump to from an operating hydraulic pressure for a frictional element selectively operating at each shift ratio. A hydraulic line is configured such that the operating hydraulic pressure of the frictional element is controlled by a pressure control valve and a switching valve that are controlled by a solenoid valve. An exhaust hydraulic line of the pressure control valve is connected to an exhaust hydraulic line of the switching valve such that the exhaust hydraulic line of the pressure control valve can be controlled by a switching of the switching valve.
    • 精密控制的自动变速器的液压控制系统在变速期间提供给摩擦元件的液压操作,并且可以在最大工作液压下消除油泄漏。 液压控制系统控制由液压泵产生的液压,以从用于在每个换档比选择性地运行的摩擦元件的操作液压。 液压管路构造成使得摩擦元件的操作液压由通过电磁阀控制的压力控制阀和切换阀来控制。 压力控制阀的排气液压管线连接到切换阀的排气液压管线,使得可以通过切换阀的切换来控制压力控制阀的排气液压管路。
    • 27. 发明申请
    • Flash memory device and method of erasing flash memory cell thereof
    • 闪速存储器件及其闪存单元的擦除方法
    • US20060050594A1
    • 2006-03-09
    • US11011725
    • 2004-12-14
    • Jin Park
    • Jin Park
    • G11C8/00
    • G11C16/16
    • A flash memory device and method of erasing flash memory cells thereof are provided. The erase of a cell block unit or a page unit is effected by a word line switch included in a predecoder according to a page erase signal. If the erase is effected in the cell block unit, all word lines of one cell block are made to keep 0V. Meanwhile, if the erase is effected in the page unit, only word lines of a corresponding page are made to keep 0V and the remaining word lines are made floated, so that the erase is not performed. Accordingly, the erase can be carried out in the cell block unit or the page unit. It is thus possible to improve efficiency of data management.
    • 提供了一种闪速存储器件及其擦除闪存单元的方法。 单元块单元或页单元的擦除由包含在根据页擦除信号的预解码器中的字线开关来实现。 如果在单元块单元中进行擦除,则使一个单元块的所有字线保持0V。 同时,如果在页面单元中进行擦除,则仅使对应页面的字线保持0V并且使剩余的字线浮动,使得不执行擦除。 因此,可以在单元块单元或页单元中执行擦除。 因此,可以提高数据管理的效率。
    • 28. 发明申请
    • Nitride semiconductor LED improved in lighting efficiency and fabrication method thereof
    • 氮化物半导体LED的照明效率提高和制造方法
    • US20050208686A1
    • 2005-09-22
    • US10875321
    • 2004-06-25
    • Yung RyuKee YangBang OhJin ParkYoung Kim
    • Yung RyuKee YangBang OhJin ParkYoung Kim
    • H01L21/00H01L29/76H01L29/94H01L31/062H01L31/113H01L31/119H01L33/06H01L33/12H01L33/32H01L33/42
    • H01L33/007
    • A nitride semiconductor LED improved in lighting efficiency and a fabrication method thereof, in which an n-doped semiconductor layer is formed on a substrate. An active layer is formed on the n-doped semiconductor layer to expose at least a partial area of the n-doped semiconductor layer. A p-doped semiconductor layer is formed on the active layer. A p+-doped semiconductor layer is formed on the p-doped semiconductor layer. An n+-doped semiconductor layer is formed in at least a partial upper region of the p+-doped semiconductor layer via n-dopant ion implantation. The n+-doped semiconductor layer cooperates with an underlying partial region of the p+-doped semiconductor layer to realize a reverse bias tunneling junction. Also, an upper n-doped semiconductor layer is formed on the n+-doped semiconductor layer to realize lateral current spreading. The invention can improve lighting efficiency by using the reverse bias tunneling junction and/or the lateral current spreading.
    • 提高了照明效率的氮化物半导体LED及其制造方法,其中在衬底上形成n掺杂半导体层。 在n掺杂半导体层上形成有源层,以露出n掺杂半导体层的至少一部分区域。 在有源层上形成p掺杂半导体层。 在p掺杂半导体层上形成p +掺杂的半导体层。 通过n掺杂剂离子注入在p +掺杂的半导体层的至少部分上部区域中形成n +掺杂的半导体层。 n +掺杂的半导体层与p +掺杂的半导体层的下面的部分区域配合以实现反向偏压隧道结。 此外,在n +掺杂的半导体层上形成上部n掺杂半导体层,以实现横向电流扩展。 本发明可以通过使用反向偏置隧道结和/或横向电流扩展来提高照明效率。