会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Electron-emitting device and production process thereof
    • 电子发射器件及其制造方法
    • US06762541B1
    • 2004-07-13
    • US09567522
    • 2000-05-10
    • Masahiko YamamotoAsai HironoriKouhei NakayamaKoji Suzuki
    • Masahiko YamamotoAsai HironoriKouhei NakayamaKoji Suzuki
    • H01J162
    • H01J1/304H01J1/32
    • A horizontal type electron-emitting device structure and process of making, wherein the device includes a low-potential electrode and a high-potential electrode which are formed on a substrate, and an electron-emitting part placed between the electrodes. Above the substrate is an anode. A secondary-electron emitting material is arranged on the top of a region from the electron-emitting part to the high-potential electrode, so that secondary electrons are efficiently emitted to the anode, thereby to contribute to efficient electron emission. An auxiliary electrode may be formed, with a high-resistance or insulating layer interposed, on the substrate in the vicinity of the high-potential electrode. A voltage higher than that of the high-potential electrode is then applied to the auxiliary electrode, so that electrons emitted from the electron-emitting part are attracted to the auxiliary electrode.
    • 水平型电子发射器件结构和制造方法,其中器件包括形成在衬底上的低电位电极和高电位电极以及放置在电极之间的电子发射部分。 衬底上方是阳极。 二次电子发射材料被布置在从电子发射部分到高电位电极的区域的顶部,使得二次电子被有效地发射到阳极,从而有助于有效地发射电子。 辅助电极可以在高电位电极附近的衬底上形成有高电阻或绝缘层。 然后将高于高电位电极的电压施加到辅助电极,使得从电子发射部分发射的电子被吸引到辅助电极。
    • 3. 发明授权
    • Method of driving flat display apparatus and driving system
    • 驱动平板显示装置和驱动系统的方法
    • US07250926B2
    • 2007-07-31
    • US10705966
    • 2003-11-13
    • Koji SuzukiKeiko AlbessardMasahiko Yamamoto
    • Koji SuzukiKeiko AlbessardMasahiko Yamamoto
    • G09G3/20
    • G09G3/22G09G3/3696G09G2320/043
    • In a method of driving a display apparatus, a first combination of a first anode voltage and a first element voltage is selected to apply the first anode voltage to the anode electrode and apply the first element voltages to electron emitting elements selectively, during a first period. The first combination is changed to a second combination of a second anode voltage and a second element voltage after the first period to apply the second anode voltage to the anode electrode and apply the second element voltages to the electron emitting elements selectively, during a second period. After the second period, the second combination is also change to the first combination.
    • 在驱动显示装置的方法中,选择第一阳极电压和第一元件电压的第一组合以将第一阳极电压施加到阳极电极,并且在第一周期期间选择性地将第一元件电压施加到电子发射元件 。 第一组合在第一周期之后被改变为第二阳极电压和第二元件电压的第二组合,以将第二阳极电压施加到阳极电极,并且在第二周期期间选择性地将第二元件电压施加到电子发射元件 。 在第二个时期之后,第二个组合也变成了第一个组合。
    • 4. 发明授权
    • Field emission device
    • 场发射装置
    • US06445124B1
    • 2002-09-03
    • US09654708
    • 2000-09-01
    • Hironori AsaiMasahiko YamamotoKoji Suzuki
    • Hironori AsaiMasahiko YamamotoKoji Suzuki
    • H01J162
    • H01J3/022H01J31/127
    • A field emission device essentially consists of three electrodes, and comprises a cathode on the surface of which an emissive material is formed, a gate electrode formed on an insulation layer formed to upwardly surround the cathode, and having an opening for passing electrons emitted from the emissive material, and an anode for accelerating the electrons passing through the opening, wherein L/S is one or above, where S represents an aperture diameter of the opening, and L represents a typical shortest distance that the electrons emitted from the emissive material take to pass through the insulation layer surrounding the cathode. Based on this structure, it is possible to provide a field emission device that can control the orbit of emitted electrons while employing a simple three-electrode structure.
    • 场致发射器件基本上由三个电极组成,并且包括在其表面上形成发光材料的阴极,形成在向上包围阴极的绝缘层上的栅电极,并且具有用于使从 发射材料和用于加速穿过开口的电子的阳极,其中L / S是一个或更多个,其中S表示开口的孔径,L表示从发射材料发射的电子的典型最短距离 穿过阴极周围的绝缘层。 基于该结构,可以提供一种可以在采用简单的三电极结构的同时控制发射的电子的轨道的场发射装置。
    • 6. 发明授权
    • Motorcycle with acoustic system
    • 摩托车与声学系统
    • US09094745B2
    • 2015-07-28
    • US11117608
    • 2005-04-29
    • Koji SuzukiKoichi Shimamura
    • Koji SuzukiKoichi Shimamura
    • H04R5/02
    • H04R5/02
    • To enable a regenerated sound in the high-note range to sufficiently reach an ear of an operator (rider) during travel. A meter display unit is provided for displaying drive information such as a vehicle speed or a travel distance. Left and right speakers are disposed on both sides of the meter display unit for generating regenerated sounds such as English conversation and music. The left speaker includes a left midrange/woofer unit disposed on the left side of the meter display unit for regenerating midrange/low-note sound and a left tweeter unit disposed between the meter display unit and the left midrange/woofer unit for regenerating high-note sounds. The right speaker includes a right midrange/woofer unit disposed on the right side of the meter display unit for regenerating midrange/low-note sound and a right tweeter unit disposed between the meter display unit and the right midrange/woofer unit for regenerating high-note sounds.
    • 为了在高音范围内使再生声音能够在旅行期间足够地到达操作者(骑手)的耳朵。 提供用于显示诸如车速或行驶距离的驱动信息的仪表显示单元。 左右扬声器设置在仪表显示单元的两侧,用于产生再现的声音,例如英语会话和音乐。 左扬声器包括设置在仪表显示单元的左侧的用于再生中音/低音的声音的左中音/低音单元和设置在仪表显示单元与左中音/低音单元之间的左高音单元, 注意音 右扬声器包括设置在仪表显示单元右侧的右中音/低音扬声器单元,用于再生中音/低音声音,以及设置在仪表显示单元和右中音/低音单元之间的右扬声器单元, 注意音
    • 10. 发明授权
    • Object detecting device, and object detecting method
    • 物体检测装置和物体检测方法
    • US08718916B2
    • 2014-05-06
    • US12597355
    • 2008-05-08
    • Koji Suzuki
    • Koji Suzuki
    • G08G1/16
    • G08G1/166B60R21/0134B60W30/08
    • An object detecting device and an object detecting method capable of performing appropriate object detection that distinguishes an approaching moving object from a stationary object accurately. The relative velocity of an object, which exists in the lateral direction of a vehicle, with respect to the vehicle is detected, the absolute velocity of the object in the horizontal direction of the vehicle is calculated on the basis of the detection signal, and it is determined whether or not the object is an approaching moving object on the basis of the absolute velocity of the object in the horizontal direction of the vehicle. Accordingly, since it is possible to accurately distinguish whether an object existing in the lateral or oblique direction of the vehicle is an approaching moving object or a stationary object, it is possible to appropriately determine whether or not the object is an approaching moving object.
    • 一种物体检测装置和物体检测方法,其能够进行适当的物体检测,从而将接近的移动物体与静止物体精确地区分开。 检测在车辆的横向存在的物体相对于车辆的相对速度,基于检测信号计算车辆的水平方向上物体的绝对速度,并且 基于车辆的水平方向上的物体的绝对速度来确定物体是否是接近的移动物体。 因此,由于可以准确地区分存在于车辆的横向或倾斜方向上的物体是否是接近的移动物体或静止物体,因此可以适当地确定物体是否是接近移动物体。