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    • 3. 发明授权
    • Method for fabricating a field emission display
    • 制造场致发射显示器的方法
    • US6121066A
    • 2000-09-19
    • US648844
    • 1996-05-15
    • Byeong Kwon JuMyung Hwan OhYun Hi Lee
    • Byeong Kwon JuMyung Hwan OhYun Hi Lee
    • H01J9/02H01L21/00
    • H01J9/025
    • A field emission display and a method for fabricating the same are disclosed. The method includes the steps of: forming a silicon mold; growing a diamond on the silicon mold, to form a diamond tip; forming a conductive layer on the diamond tip; bonding a first substrate to the conductive layer; removing the silicon mold; forming a gate insulating layer and gate electrode on the diamond tip; and etching the gate electrode and gate insulating layer to expose an electron emission portion of the tip, and thereby form a gate hole. By doing so, the operation voltage is reduced, compared with the diode-type display, and high-responsibility field emission display can be realized by applying (-) or (+) voltage to the gate electrode.
    • 公开了一种场致发射显示器及其制造方法。 该方法包括以下步骤:形成硅模具; 在硅模上生长金刚石,形成金刚石尖端; 在金刚石尖端上形成导电层; 将第一衬底接合到所述导电层; 去除硅模具; 在金刚石尖端上形成栅极绝缘层和栅电极; 并且蚀刻栅电极和栅极绝缘层以暴露尖端的电子发射部分,从而形成栅极孔。 通过这样做,与二极管型显示器相比,操作电压降低,并且可以通过向栅电极施加( - )或(+)电压来实现高责任场发射显示。
    • 4. 发明授权
    • Field emission display device
    • 场致发射显示装置
    • US5977703A
    • 1999-11-02
    • US648845
    • 1996-05-15
    • Byeong Kwon JuMyung Hwan OhYun Hi Lee
    • Byeong Kwon JuMyung Hwan OhYun Hi Lee
    • H01J1/304H01J29/04
    • H01J1/3042H01J2329/00
    • A field emission display device and a fabrication method thereof, by which a vacuum sealing can be simple, and electric and optical characteristics between pixels can be improved by achieving a device package by means of a junction between substrates in vacuum without a spacer, which includes a semiconductor substrate having a groove having a predetermined depth; an n-well formed on the semiconductor substrate under the bottom of the groove; an emitter formed on the n-well; an insulation film formed on a portion of the semiconductor substrate, in which the groove is not formed; a transparent electrode bonded to the upper portion of the insulation film; a light emitting layer arranged on the upper portion of the emitter and formed within the transparent electrode; and a glass substrate formed on the transparent electrode.
    • 一种场致发射显示装置及其制造方法,其中真空密封可以简单,并且可以通过在没有间隔件的真空中通过基板之间的接合实现器件封装来提高像素之间的电和光学特性,其包括 半导体衬底,具有具有预定深度的凹槽; 在沟槽底部的半导体衬底上形成的n阱; 在n阱上形成的发射极; 形成在半导体衬底的不形成沟槽的部分上的绝缘膜; 连接到绝缘膜的上部的透明电极; 发光层,配置在发光体的上部并形成在透明电极内; 以及形成在透明电极上的玻璃基板。
    • 7. 发明授权
    • Vacuum packaging apparatus for a field emission display and a method
thereof using a glass-to-glass bonding
    • 用于场发射显示器的真空包装装置及其使用玻璃 - 玻璃接合的方法
    • US6007397A
    • 1999-12-28
    • US103741
    • 1998-06-24
    • Byeong Kwon JuWoo Beom ChoiMyung Hwan Oh
    • Byeong Kwon JuWoo Beom ChoiMyung Hwan Oh
    • H01J17/49H01J9/26H01J9/40
    • H01J9/261H01J9/40
    • In the present invention, the vacuum packaging of a field emission display (FED) is achieved in a high vacuum apparatus using a glass-to-glass bonding. The apparatus may eliminate the problems encountered in the conventional art in which a ventilation tube is used, so that vacuum degree of the interior of panels of the FED is affected (decreased) by the gases generated in sealing the ventilation tube. Furthermore, in the prior art, a part of the ventilation tube remains on the panel of the FED for thereby increasing the thickness of the panels, and the ventilating of gases is not effectively performed by the extension of the tube and a big size hole. The vacuum packaging apparatus of the FED and method therefor according to the present invention are capable of more effectively packaging FED by implementing a glass-to-glass bonding by ventilating gases from the interior of the panel of the FED in a manner of a high temperature ventilation in a high vacuum apparatus, contacting a glass substrate piece with a hole formed in the panel of the FED and applying a DC voltage thereto. Therefore, it is possible to easily implement a vacuum packaging of the FED and vacuum degree of the interior of the FED panel may be increased.
    • 在本发明中,在使用玻璃 - 玻璃粘合的高真空装置中实现了场致发射显示器(FED)的真空包装。 该装置可以消除使用通风管的常规技术中遇到的问题,从而通过在密封通气管中产生的气体影响(减少)FED的面板内部的真空度。 此外,在现有技术中,通气管的一部分保留在FED的面板上,从而增加了面板的厚度,并且通过管的延伸和大尺寸的孔不能有效地执行气体的通风。 根据本发明的FED的真空包装装置及其方法能够通过以高温的方式从FED的面板的内部通气来实施玻璃 - 玻璃接合,从而更有效地包装FED 在高真空装置中通风,使玻璃基片与FED的面板中形成的孔接触并向其施加直流电压。 因此,可以容易地实现FED的真空包装,并且可以增加FED面板的内部的真空度。
    • 10. 发明授权
    • Circuit for driving alternating current thin film electroluminescence
device using relative potential difference
    • 使用相对电位差驱动交流薄膜电致发光器件的电路
    • US5627556A
    • 1997-05-06
    • US326548
    • 1994-10-20
    • Yong-Moo KwonMyung Hwan Oh
    • Yong-Moo KwonMyung Hwan Oh
    • G09G3/30
    • G09G3/30G09G2310/0267G09G2310/0275
    • A circuit for driving an AC TFEL device which is a complete solid luminescence element, capable of generating positive and negative AC voltages from a single DC voltage by utilizing a relative potential difference and thereby providing a compact voltage supply unit required for driving the AC TFEL device. A circuit is also provided which is constructed to reduce the number of operating voltages required in the refresh drive method and the scan inversion symmetric drive method upon driving the matrix of the AC TFEL device by using a relative potential generating circuit. By employing such a circuit, it is possible to simply provide a voltage supply circuit required in a portable display system using the AC TFEL device and supply a voltage required for the refresh driving and the scanning sequence inversion driving by using only one clock control signal.
    • 用于驱动作为完整的固体发光元件的AC TFEL器件的电路,其能够通过利用相对电位差从单个DC电压产生正和负的AC电压,从而提供用于驱动AC TFEL器件所需的紧凑的电压供应单元 。 还提供一种电路,其被构造为通过使用相对电位发生电路来驱动AC TFEL器件的矩阵来减少刷新驱动方法和扫描反转对称驱动方法中所需的工作电压的数量。 通过采用这种电路,可以简单地提供使用AC TFEL装置的便携式显示系统所需的电压供给电路,并且仅使用一个时钟控制信号来提供刷新驱动和扫描顺序反转驱动所需的电压。