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    • 1. 发明授权
    • Structure and driving method of plasma display panel
    • 等离子显示面板的结构和驱动方法
    • US07535437B2
    • 2009-05-19
    • US11109689
    • 2005-04-20
    • Jin Young KimSeong Ho Kang
    • Jin Young KimSeong Ho Kang
    • G09G3/28
    • H01J11/28G09G3/2986G09G2310/0218H01J11/12
    • A structure and driving method of a plasma display panel is provided, in which an amount of priming particles within a discharge cell increases to reduce discharge lag of address discharge. The structure of the plasma display panel includes a plurality of sustain electrode pairs successively formed on an upper electrode, a plurality of common electrodes formed one by one between a pair of the sustain electrodes, and a dielectric layer formed on the substrate to deposit the sustain electrodes and the common electrodes. The method for driving the plasma display panel includes the steps of applying a common pulse, which is periodically turned on/off, to the common electrodes, applying a scan pulse to one of a pair of the sustain electrodes, and applying an address pulse to the address electrodes when the scan pulse is applied to the one sustain electrode. Thus, since discharge conditions within the discharge cell can be improved, discharge lag less occurs than the related art plasma display panel.
    • 提供了一种等离子体显示面板的结构和驱动方法,其中放电单元内的起动粒子的量增加以减少寻址放电的放电滞后。 等离子体显示面板的结构包括依次形成在上电极上的多个维持电极对,在一对维持电极之间一个接一个地形成的多个公共电极和形成在基板上以沉积维持电极的电介质层 电极和公共电极。 用于驱动等离子体显示面板的方法包括以下步骤:将周期性地接通/断开的公共脉冲施加到公共电极,向一对维持电极中的一个施加扫描脉冲,并将寻址脉冲施加到 当扫描脉冲被施加到一个维持电极时的寻址电极。 因此,由于可以提高放电单元内的放电条件,所以与现有技术的等离子体显示面板相比,放电滞后少。
    • 2. 发明授权
    • Structure and driving method of plasma display panel
    • 等离子显示面板的结构和驱动方法
    • US06975284B1
    • 2005-12-13
    • US09695976
    • 2000-10-26
    • Jin Young KimSeong Ho Kang
    • Jin Young KimSeong Ho Kang
    • G09F9/313G09G3/20G09G3/288G09G3/291G09G3/293G09G3/294G09G3/298H01J11/12H01J11/14H01J11/22H01J11/24H01J11/26H01J11/28H01J11/32H01J11/34H01J11/38H01J11/44G09G3/28
    • H01J11/28G09G3/2986G09G2310/0218H01J11/12
    • A structure and driving method of a plasma display panel is provided, in which an amount of priming particles within a discharge cell increases to reduce discharge lag of address discharge. The structure of the plasma display panel includes a plurality of sustain electrode pairs successively formed on an upper electrode, a plurality of common electrodes formed one by one between a pair of the sustain electrodes, and a dielectric layer formed on the substrate to deposit the sustain electrodes and the common electrodes. The method for driving the plasma display panel includes the steps of applying a common pulse, which is periodically turned on/off, to the common electrodes, applying a scan pulse to one of a pair of the sustain electrodes, and applying an address pulse to the address electrodes when the scan pulse is applied to the one sustain electrode. Thus, since discharge conditions within the discharge cell can be improved, discharge lag less occurs than the related art plasma display panel.
    • 提供了一种等离子体显示面板的结构和驱动方法,其中放电单元内的起动粒子的量增加以减少寻址放电的放电滞后。 等离子体显示面板的结构包括依次形成在上电极上的多个维持电极对,在一对维持电极之间一个接一个地形成的多个公共电极和形成在基板上以沉积维持电极的电介质层 电极和公共电极。 用于驱动等离子体显示面板的方法包括以下步骤:将周期性地接通/断开的公共脉冲施加到公共电极,向一对维持电极中的一个施加扫描脉冲,并将寻址脉冲施加到 当扫描脉冲被施加到一个维持电极时的寻址电极。 因此,由于可以提高放电单元内的放电条件,所以与现有技术的等离子体显示面板相比,放电滞后少。
    • 3. 发明授权
    • Power generation apparatus
    • US11499518B2
    • 2022-11-15
    • US17418923
    • 2020-01-03
    • Jin Young Kim
    • Jin Young Kim
    • F03B13/06F03B17/06
    • The present invention relates to a power generation apparatus, and more particularly to a power generation apparatus that generates power by dropping collected water. A power generation apparatus according to an embodiment of the present invention includes: a chamber having an accommodation space for accommodating water, and configured to accommodate water introduced through an intake pipe disposed on the bottom surface thereof; a pressure pump configured to discharge the air of the accommodation space out of the chamber through a discharge pipe provided on the ceiling surface of the chamber by generating pressure; a spray unit provided on the side surface of the chamber, and configured to spray water, introduced by the pressure pump and accommodated in the accommodation space, out of the chamber; and a power generation unit configured to generate power using the pressure of water sprayed by the spray unit.