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    • 2. 发明授权
    • Light-guide module, method of manufacturing the same and backlight assembly having the same
    • 光导模块及其制造方法以及具有该光导模块的背光组件
    • US08851732B2
    • 2014-10-07
    • US13039009
    • 2011-03-02
    • Tae-Ho LeeSang-Won Lee
    • Tae-Ho LeeSang-Won Lee
    • F21V7/04F21V8/00
    • G02B6/0025G02B6/0053G02B6/0065
    • In a light-guide module, a method of manufacturing the light-guide module and a backlight assembly having the light-guide module, the light-guide module includes a light-guide plate (“LGP”) and a thin-film layer. The LGP has a light-incident surface into which lights are incident and a light-exiting surface through which lights exit. The thin-film layer is formed on the LGP. The thin-film layer has a concavo-convex pattern formed on an opposite surface of a surface contacting the LGP. Accordingly, a thin-film layer having a concavo-convex pattern is formed on a light-incident surface of an LGP, so that a reflectance of light incident into the LGP may be decreased. Moreover, a light amount transmitted through the LGP is increased in accordance with a decreasing of reflectance, so that a light transmittance may be increased in total.
    • 在导光模块中,制造导光模块的方法和具有导光模块的背光组件,所述导光模块包括导光板(“LGP”)和薄膜层。 LGP具有光入射的光入射表面和光出射的光出射表面。 薄膜层形成在LGP上。 薄膜层具有形成在与LGP接触的表面的相对表面上的凹凸图案。 因此,在LGP的光入射面上形成具有凹凸图案的薄膜层,从而可以减少入射到LGP中的光的反射率。 此外,根据反射率的降低,通过LGP透射的光量增加,从而可以总共增加透光率。
    • 3. 发明申请
    • ELECTRODELESS BULB, AND ELECTRODELESS LIGHTING SYSTEM HAVING THE SAME
    • 无电极灯,以及具有该电极的无电极照明系统
    • US20100156295A1
    • 2010-06-24
    • US12513115
    • 2006-10-31
    • Kyung-Hoon ParkTae-Ho Lee
    • Kyung-Hoon ParkTae-Ho Lee
    • H01J7/46H01J61/00H01J61/12
    • H01J65/044H01J61/54
    • Disclosed are an electrodeless bulb (10), and an electrodeless lighting system having the same. The electrodeless bulb (10) includes; a light emitting unit (11, 13) having an airtight inside space (116, 13a); a main discharge material filled in the inside space (11a, 13a) of the light emitting unit (11, 13) and discharged by microwave, for emitting light; a discharge assistant material filled in the light emitting unit (11, 13), for forming plasma in the inside space (11a, 13a) before the main discharge material generates plasma; and a discharge catalyst material filled in the light emitting unit (11, 13), for inducing initial discharge of the main discharge material and the discharge assistant material. The lighting system improves lighting efficiency of the main discharge material filled in the light emitting unit (11, 13), and has an eco-friendly characteristic by excluding an environmental contaminant such as mercury.
    • 公开了一种无电极灯泡(10)和具有该无电极灯泡的无电极照明系统。 无电极灯泡(10)包括: 具有气密内部空间(116,13a)的发光单元(11,13); 填充在发光单元(11,13)的内部空间(11a,13a)中并通过微波放电的主放电材料用于发光; 填充在发光单元(11,13)中的放电辅助材料,用于在主放电材料产生等离子体之前在内部空间(11a,13a)中形成等离子体; 以及填充在发光单元(11,13)中的用于引起主放电材料和放电辅助材料的初始放电的放电催化剂材料。 照明系统提高了填充在发光单元(11,13)中的主放电材料的照明效率,并且通过排除汞等环境污染物具有环保特性。
    • 10. 发明授权
    • Plasma display panel electrode system
    • 等离子显示面板电极系统
    • US07429824B2
    • 2008-09-30
    • US11288581
    • 2005-11-29
    • Tae-Ho LeeMin-Sun YooEui-Jeong Hwang
    • Tae-Ho LeeMin-Sun YooEui-Jeong Hwang
    • H01J17/49
    • H01J11/24H01J11/12H01J11/32H01J2211/245H01J2211/326
    • A plasma display panel including address electrodes extending in a first direction, and scanning and sustain electrodes extending in a second direction, the electrodes corresponding to discharge cells. Each of the scanning and sustain electrodes includes a transparent electrode that extends toward the other of the scanning and sustain electrode, and over the discharge cell; a main bus electrode positioned adjacent to and parallel with a barrier rib member; and a sub-bus electrode disposed between the main bus electrode and the other of the scanning and sustain electrode. Some embodiments also include an intermediate electrode disposed between the scanning and sustain electrodes. Embodiments of the disclosed plasma display panel exhibit a reduced voltage drop over the transparent electrodes of the sustain electrodes and scanning electrodes, thereby permitting the generation of a sustain discharge at a lower voltage, and a reduced time for generating an address discharge light.
    • 一种等离子体显示面板,包括沿第一方向延伸的寻址电极,以及沿着第二方向延伸的扫描和维持电极,所述电极对应于放电单元。 扫描和维持电极中的每一个包括朝向扫描和维持电极中的另一个并且在放电单元上方延伸的透明电极; 邻近并平行于阻挡肋构件的主母线电极; 以及设置在主总线电极和扫描和维持电极的另一个之间的副总线电极。 一些实施例还包括设置在扫描和维持电极之间的中间电极。 所公开的等离子体显示面板的实施例在维持电极和扫描电极的透明电极上表现出降低的电压降,从而允许在较低电压下产生维持放电,并减少产生寻址放电光的时间。