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    • 6. 发明授权
    • Double-faced field emission display device
    • 双面场发射显示装置
    • US07449825B2
    • 2008-11-11
    • US11115455
    • 2005-04-27
    • Pi-Jin ChenPeng LiuLi QianYang WeiLei-Mei ShengYou-Hua LeiLiang LiuShou-Shan Fan
    • Pi-Jin ChenPeng LiuLi QianYang WeiLei-Mei ShengYou-Hua LeiLiang LiuShou-Shan Fan
    • H01J1/62
    • H01J31/127H01J2329/005
    • A double-faced field emission display device includes two parallel fluorescent screens (10, 10′) and an electron emission structure (20) located between the fluorescent screens. Each fluorescent screen includes a transparent substrate (21, 21′) with an anode plate (12, 12′) and coplanar fluorescent layers (13, 13′) formed at an inner surface of the transparent substrate. The electron emission structure includes an opaque insulative substrate (28) with cathode plates (26, 26′), electron emitters (27, 27′) and grid plates (25, 25′) formed at each of opposite surfaces (281, 282) thereof. Symmetrically opposite pairs of same electrodes are electrically interconnected so that the fluorescent screens can simultaneous display a same image. Only a single driving system is needed to achieve the simultaneous display.
    • 双面场发射显示装置包括位于荧光屏之间的两个平行荧光屏(10,10')和电子发射结构(20)。 每个荧光屏包括具有形成在透明基板的内表面处的阳极板(12,12')和共面荧光层(13,13')的透明基板(21,21')。 电子发射结构包括具有形成在每个相对表面(281,282)上的阴极板(26,26'),电子发射器(27,27')和栅极板(25,25')的不透明绝缘基板(28) 其中。 对称相对的相对电极电互连,使得荧光屏可以同时显示相同的图像。 只需要一个驱动系统来实现同时显示。
    • 7. 发明授权
    • Field emission lamp
    • 场发射灯
    • US07355329B2
    • 2008-04-08
    • US11184454
    • 2005-07-19
    • Yang WeiPeng LiuLei-Mei ShengLiang LiuZhao-Fu HuCai-Lin GuoPi-Jin ChenShou-Shan Fan
    • Yang WeiPeng LiuLei-Mei ShengLiang LiuZhao-Fu HuCai-Lin GuoPi-Jin ChenShou-Shan Fan
    • H01J1/02H01J19/00
    • H01J63/06
    • A field emission lamp includes: a transparent bulb (10) having a neck portion; a lamp head mated with the neck portion; an anode layer (20) formed on an inner surface of the bulb; a fluorescence layer (30) formed on the anode layer; a cathode electrode (43) and an anode electrode (23) located at the lamp head; an anode down-lead ring (24) located at the neck portion, the anode down-lead ring engaging with the anode layer and electrically connecting with the anode electrode via an anode down-lead pole (21) and a pair of down-leads (22); and an electron emitting cathode positioned in the bulb and engaging with the cathode electrode. The field emission lamp is safe for humans and environmentally friendly, provides a high electrical energy utilization ratio, and has a reduced cost.
    • 场致发射灯包括:具有颈部的透明灯泡(10); 灯头与颈部配合; 阳极层(20),形成在所述灯泡的内表面上; 形成在所述阳极层上的荧光层(30) 位于灯头的阴极电极(43)和阳极电极(23) 位于颈部的阳极下引线环(24),阳极下引线环与阳极层接合并经由阳极引线极(21)和一对下引线与阳极电连接 (22); 以及位于灯泡中并与阴极接合的电子发射阴极。 场致发射灯对人体安全,环保,提供高电能利用率,成本降低。
    • 8. 发明授权
    • Reference leak
    • 参考泄漏
    • US07353687B2
    • 2008-04-08
    • US11228821
    • 2005-09-16
    • Jie TangLiang LiuPeng LiuZhao-Fu HuBing-Chu DuCai-Lin GuoPi-Jin ChenShou-Shan Fan
    • Jie TangLiang LiuPeng LiuZhao-Fu HuBing-Chu DuCai-Lin GuoPi-Jin ChenShou-Shan Fan
    • G01F25/00
    • G01M3/007
    • A reference leak includes a leak layer formed of one of a metallic material, a glass material, and a ceramic material. The metallic material is selected from the group consisting of copper, nickel, and molybdenum. The leak layer comprises a number of substantially parallel leak through holes defined therein. The leak through holes may be cylindrical holes or polyhedrical holes. A length of each of the leak through holes is preferably not less than 20 times a diameter thereof. A diameter of each of the leak through holes is generally in the range from 10 nm to 500 nm. A length of each of the leak through holes is generally in the range from 100 nm to 100 μm. A leak rate of the reference leak is in the range from 10−8 to 10−15 tor×l/s. The leak through holes have substantially same length and diameter.
    • 参考泄漏包括由金属材料,玻璃材料和陶瓷材料之一形成的泄漏层。 金属材料选自铜,镍和钼。 泄漏层包括限定在其中的多个基本上平行的泄漏通孔。 泄漏孔可以是圆柱形孔或多面孔。 每个泄漏通孔的长度优选不小于其直径的20倍。 每个泄漏通孔的直径通常在10nm至500nm的范围内。 每个泄漏通孔的长度通常在100nm至100μm的范围内。 参考泄漏的泄漏率在10 -8至10 -15 torxl / s的范围内。 泄漏孔具有基本相同的长度和直径。