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    • 1. 发明授权
    • Display
    • 显示
    • US08568182B2
    • 2013-10-29
    • US12891414
    • 2010-09-27
    • James A. BrugLihua Zhao
    • James A. BrugLihua Zhao
    • H01J9/00H01J9/24
    • H01L27/3251H01L27/3253H01L27/326
    • A method of forming a display is provided, wherein the method includes forming a first electrode layer on a first substrate, forming an organic light emitting diode (OLED) stack on the first electrode, forming a second electrode layer over the OLED stack, and forming a bonding layer over the second electrode layer, wherein the bonding layer comprises a conductive material. The bonding layer and the second electrode layer are patterned to form a plurality of micro-OLEDs, wherein the patterning is performed by removing a portion of the bonding layer and the second electrode layer. The plurality of micro-OLEDs on the first substrate is joined to a plurality of pixels in an electronic backplane on a second substrate, wherein any one pixel in the electronic backplane can couple to a varied subset of micro-OLEDs in the plurality of micro-OLEDs.
    • 提供一种形成显示器的方法,其中所述方法包括在第一基板上形成第一电极层,在第一电极上形成有机发光二极管(OLED)堆叠,在OLED堆叠上形成第二电极层,以及形成 在所述第二电极层上方的结合层,其中所述结合层包括导电材料。 将结合层和第二电极层图案化以形成多个微型OLED,其中通过去除结合层和第二电极层的一部分来进行图案化。 第一衬底上的多个微型OLED被连接到第二衬底上的电子背板中的多个像素,其中电子背板中的任何一个像素可以耦合到多个微型OLED中的微观OLED的不同子集, OLEDs。
    • 4. 发明授权
    • Stabilization of magnetoresistive sensors using the longitudinal field
produced by the current in the contact leads
    • 使用由接触引线中的电流产生的纵向磁场来稳定磁阻传感器
    • US5216560A
    • 1993-06-01
    • US762244
    • 1991-09-19
    • James A. BrugThomas C. Anthony
    • James A. BrugThomas C. Anthony
    • G01R33/09G11B5/39
    • G11B5/3903G01R33/09G01R33/096G11B5/3954
    • A magnetoresistive sensor having a longitudinal field that is produced along its axis and that stabilizes the sensor. The longitudinal field is produced by the current in conductors that are connected to the magnetoresistive sensor elements. By controlling the direction and distribution of the current in the conductors, a longitudinal field is produced that has the required direction and magnitude to stabilize the single domain state of the sensor. The resulting lack of domain wall motion in the sensor during operation prevents instabilities in its electrical output, commonly known as Barkhausen noise. Four different sensor designs are provided that include two single element sensors with two conductors, a dual element sensor with four conductors, and a dual element sensor with three conductors. The ease of implementation makes the stabilized sensor of the present invention superior to conventional approaches that rely on permanent magnets or exchange coupled layers to provide longitudinal bias.
    • 磁阻传感器具有沿其轴线产生并使传感器稳定的纵向场。 纵向场由连接到磁阻传感器元件的导体中的电流产生。 通过控制导体中电流的方向和分布,产生具有所需方向和幅度以稳定传感器的单畴状态的纵向场。 传感器在操作过程中由于缺少畴壁运动,可防止其电气输出不稳定,通常称为巴克豪森噪声。 提供了四种不同的传感器设计,其中包括两个单元件传感器,两个导体,一个双元件传感器,四个导体和一个双元件传感器,三个导体。 实现的便利性使得本发明的稳定的传感器优于依靠永磁体或交换耦合层提供纵向偏压的常规方法。
    • 5. 发明申请
    • DISPLAY
    • 显示
    • US20120075185A1
    • 2012-03-29
    • US12891414
    • 2010-09-27
    • James A. BrugLihua Zhao
    • James A. BrugLihua Zhao
    • G09G3/32H01L51/50H01L33/08G09G5/00G06F3/033
    • H01L27/3251H01L27/3253H01L27/326
    • A method of forming a display is provided, wherein the method includes forming a first electrode layer on a first substrate, forming an organic light emitting diode (OLED) stack on the first electrode, forming a second electrode layer over the OLED stack, and forming a bonding layer over the second electrode layer, wherein the bonding layer comprises a conductive material. The bonding layer and the second electrode layer are patterned to form a plurality of micro-OLEDs, wherein the patterning is performed by removing a portion of the bonding layer and the second electrode layer. The plurality of micro-OLEDs on the first substrate is joined to a plurality of pixels in an electronic backplane on a second substrate, wherein any one pixel in the electronic backplane can couple to a varied subset of micro-OLEDs in the plurality of micro-OLEDs.
    • 提供一种形成显示器的方法,其中所述方法包括在第一基板上形成第一电极层,在第一电极上形成有机发光二极管(OLED)堆叠,在OLED堆叠上形成第二电极层,以及形成 在所述第二电极层上方的结合层,其中所述结合层包括导电材料。 将结合层和第二电极层图案化以形成多个微型OLED,其中通过去除结合层和第二电极层的一部分来进行图案化。 第一衬底上的多个微型OLED被连接到第二衬底上的电子背板中的多个像素,其中电子背板中的任何一个像素可以耦合到多个微型OLED中的微观OLED的不同子集, OLEDs。
    • 6. 发明授权
    • Test subject monitoring device
    • 测试对象监控设备
    • US07386333B1
    • 2008-06-10
    • US11117974
    • 2005-04-29
    • Henryk BireckiManish SharmaJames A. Brug
    • Henryk BireckiManish SharmaJames A. Brug
    • A61B5/1455
    • A61B5/0088A61B5/682A61B8/12
    • A device for monitoring a test subject includes a light source and at least one optical waveguide configured for at least one of directing light from the light source onto a biological substrate and receiving the light directed onto the biological substrate. The device also includes a sensor operable to detect the light received, a logic component operable to analyze the light detected by the sensor, an output component operable to convey information from the logic component to a user of the device, and a housing containing the light source, the sensor, the logic component, and the output component, where the at least one optical waveguide forms at least one bristle extending outside of the housing.
    • 用于监测测试对象的装置包括光源和至少一个光波导,其被配置用于将来自光源的光引导到生物基底上并接收指向生物基底的光中的至少一个。 该装置还包括可操作以检测所接收的光的传感器,可操作以分析由传感器检测到的光的逻辑部件,可操作以将信息从逻辑部件传送到装置的使用者的输出部件,以及容纳光 源,传感器,逻辑部件和输出部件,其中至少一个光波导形成延伸到壳体外部的至少一个刷毛。