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    • 2. 发明申请
    • FLOATING VIRTUAL PLASMA DISPLAY APPARATUS
    • 浮动虚拟等离子显示设备
    • US20120327130A1
    • 2012-12-27
    • US13244457
    • 2011-09-24
    • CHIH-HSIUNG LIN
    • CHIH-HSIUNG LIN
    • G09G3/28G09G5/10G02B27/20
    • G09G3/025G02B26/0833G02B26/101G02B27/2292
    • A floating virtual plasma display apparatus includes a scanning mechanism, an optical focusing unit and a laser light source; a laser line is focused by the optical focusing unit, allowing air particles in the air around a focus of the optical focusing unit to be ionized into plasma to generate an ionized beam spot when the laser line is emitted from the laser light source; a floating virtual image is generated after the position of the beam spot is altered through the scanning of the scanning mechanism; the floating virtual image is allowed to display a variable virtual image like a floating moving screen by controlling the laser light source to emit bright, dark laser lines corresponding to an image.
    • 浮动虚拟等离子体显示装置包括扫描机构,光聚焦单元和激光光源; 激光线被光聚焦单元聚焦,当激光线从激光光源发射时,允许围绕光聚焦单元的焦点的空气中的空气颗粒被电离成等离子体以产生电离束斑; 在通过扫描机构的扫描改变光束点的位置之后产生浮动虚像; 通过控制激光光源发出对应于图像的亮暗激光线,浮动虚像可以显示像浮动移动屏幕的可变虚像。
    • 3. 发明申请
    • TRANSPARENT LATERAL-LIGHT-SOURCE STRUCTURE AND PLATE BODY THEREOF
    • 透明的横向光源结构及其板体
    • US20120127725A1
    • 2012-05-24
    • US13244403
    • 2011-09-24
    • CHIH-HSIUNG LINShih-Yuan Chang
    • CHIH-HSIUNG LINShih-Yuan Chang
    • F21V9/04G02B5/26
    • G02B5/208G02B5/045G02B6/0038G02B6/005G02B27/141
    • A transparent lateral-light-source structure comprises an invisible light source; and a plate body, comprising a transparent plate, having a rear end face being disposed with a plurality of convex-concave structures; a coating layer, capable of reflecting invisible light, allowing visible light, to pass through, and one end face of the coating layer being coupled to the rear end face; and a transparent material layer, coupled to another end face of the coating layer, and the transparent material layer filling and leveling up the plurality of convex-concave structures; wherein, when invisible light emitted from the invisible light source is projected into the transparent plate, the incident invisible light is reflected by the plurality of convex-concave structures and the coating layer, and further projected out of a front end of the transparent plate, and visible light can pass through the plate body.
    • 透明的侧光源结构包括不可见的光源; 以及板体,其包括透明板,其后端面设置有多个凸凹结构; 涂层,其能够反射不可见光,允许可见光通过,并且所述涂层的一个端面联接到所述后端面; 以及耦合到所述涂层的另一端面的透明材料层,并且所述透明材料层填充并调平所述多个凸凹结构; 其中,当从所述不可见光源发出的不可见光投射到所述透明板中时,所述入射的不可见光被所述多个凸凹结构和所述涂层反射,并且进一步从所述透明板的前端突出, 可见光可以穿过板体。
    • 8. 发明申请
    • MOTHERBOARD AND PORTABLE ELECTRONIC DEVICE USING THE SAME
    • 使用相同的主板和便携式电子设备
    • US20110043989A1
    • 2011-02-24
    • US12857550
    • 2010-08-16
    • Kai-Chen TienChih-Hsiung LinChih-Chieh Chou
    • Kai-Chen TienChih-Hsiung LinChih-Chieh Chou
    • G06F1/16
    • G06F1/184
    • This invention provides a motherboard and a portable electronic device using the same. The motherboard includes a first circuit board and a second circuit board. The first circuit board includes a first connector, an input/output controller, and a plurality of peripheral device connectors. The input/output controller is electrically connected with the first connector and the peripheral device connectors, respectively. The second circuit board includes a second connector, a central processing unit (CPU), and a chipset. The chipset is electrically connected with the second connector and the CPU, respectively. The first circuit board is connected with the second circuit board via the first connector and the second connector.
    • 本发明提供一种主板和使用该母板的便携式电子设备。 主板包括第一电路板和第二电路板。 第一电路板包括第一连接器,输入/输出控制器和多个外围设备连接器。 输入/输出控制器分别与第一连接器和外围设备连接器电连接。 第二电路板包括第二连接器,中央处理单元(CPU)和芯片组。 芯片组分别与第二连接器和CPU电连接。 第一电路板经由第一连接器和第二连接器与第二电路板连接。
    • 9. 发明申请
    • METHOD AND DEVICE FOR DETECTING ROTATING ANGLE OF REFLECTOR
    • 用于检测反射器旋转角度的方法和装置
    • US20100292954A1
    • 2010-11-18
    • US12777977
    • 2010-05-11
    • CHIH-HSIUNG LIN
    • CHIH-HSIUNG LIN
    • G01B11/26G01J3/00G06F15/00
    • G01B11/26
    • A device for detecting a rotating angle of a reflector includes a light emitting module, a photosensitive element, a microprocessor and a timer; the photosensitive element is used to sense time at which a beam emitted directly from the light emitting module is reflected by the rotatable reflector, and time at which a beam emitted from the light module is reflected to a target by the reflector, reflected to the reflector by the target and then reflected by the reflector, a rotating angle of the reflector is calculated by a time difference between these two times. Whereby, the accuracy of the detection of the reflector's rotating angle can be increased and the production cost of the device can be reduced.
    • 用于检测反射器的旋转角度的装置包括发光模块,感光元件,微处理器和定时器; 感光元件用于感测从发光模块直接发射的光束被可旋转反射器反射的时间,并且从光模块发射的光束被反射器反射到目标的时间,反射到反射器 通过目标反射,然后由反射器反射,通过这两次之间的时间差来计算反射器的旋转角度。 由此,能够提高反射器的旋转角度的检测精度,能够降低装置的制造成本。
    • 10. 发明申请
    • INPUT DEVICE WITH PHOTOSENSITIVE ELEMENTS AND METHOD FOR INPUTTING INFORMATION THEREBY
    • 具有感光元件的输入装置和用于输入信息的方法
    • US20100290027A1
    • 2010-11-18
    • US12777944
    • 2010-05-11
    • CHIH-HSIUNG LIN
    • CHIH-HSIUNG LIN
    • G01C3/08
    • G01S17/48G06F3/0423
    • A method for inputting information by an input device with photosensitive elements uses laser light to illuminate a target and two photosensitive elements to sense the time at which beams reflected by the target and then reflected respectively by rotatable first and second mirrors, and determines an included angle between a virtual connecting line of the target and the first mirror and a virtual connecting line of the first mirror and the second mirror and an included angle between a virtual connecting line of the target and the second mirror and the virtual connecting line of the first and second mirrors depending on the time, thereby calculating a coordinate of the target and taking it as relative input information, capable of saving the time for obtaining the target's coordinate and the production cost of the input device.
    • 通过具有感光元件的输入装置输入信息的方法使用激光照射目标物和两个感光元件,以感测由目标反射的光束,然后分别由可旋转的第一和第二反射镜反射的时间,并确定夹角 在所述目标的虚拟连接线与所述第一反射镜之间以及所述第一反射镜和所述第二反射镜的虚拟连接线之间以及所述目标的虚拟连接线与所述第二反射镜之间的夹角以及所述第一反射镜和所述第二反射镜的虚拟连接线之间的夹角, 从而计算目标的坐标并将其作为相对输入信息,能够节省获取目标坐标的时间和输入装置的生产成本。