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    • 1. 发明申请
    • Mobile Communication Device and Antenna
    • 移动通信设备和天线
    • US20120098721A1
    • 2012-04-26
    • US13088561
    • 2011-04-18
    • Kin-Lu WongPo-Wei LinChih-Hua Chang
    • Kin-Lu WongPo-Wei LinChih-Hua Chang
    • H01Q13/10H01Q5/01
    • H01Q1/243H01Q1/48H01Q5/40H01Q9/30H01Q13/10
    • A mobile communication device is provided. The mobile communication device includes a system circuit board with a surface, a ground plane having a monopole slot on the surface, a microstrip feedline, and a metal element, wherein the ground plane has a longer edge and a shorter edge. The monopole slot has a first operating band and a second operating band. The microstrip feedline is located on the system circuit board, wherein one end of the microstrip feedline passes over the monopole slot, and the other end of the microstrip feedline is connected to a signal source. The metal element is electrically connected to the shorter edge of the ground plane, and is substantially perpendicular to the ground plane. A distance between the open end of the monopole slot and the shorter edge of the ground plane where the metal element is connected is shorter than 0.05 wavelength of the lowest operating frequency of the first operating band.
    • 提供了一种移动通信设备。 移动通信设备包括具有表面的系统电路板,在表面上具有单极槽的接地平面,微带馈线和金属元件,其中接地平面具有较长边缘和较短边缘。 单极插槽具有第一工作频带和第二操作频带。 微带馈线位于系统电路板上,其中微带馈线的一端通过单极槽,微带馈线的另一端连接到信号源。 金属元件电连接到接地平面的较短边缘,并且基本上垂直于接地平面。 单极槽的开路端与金属元件连接的接地面的短边之间的距离小于第一工作频带的最低工作频率的0.05波长。
    • 2. 发明授权
    • Mobile communication device and antenna
    • 移动通信设备和天线
    • US08599084B2
    • 2013-12-03
    • US13088561
    • 2011-04-18
    • Kin-Lu WongPo-Wei LinChih-Hua Chang
    • Kin-Lu WongPo-Wei LinChih-Hua Chang
    • H01Q9/00
    • H01Q1/243H01Q1/48H01Q5/40H01Q9/30H01Q13/10
    • A mobile communication device is provided. The mobile communication device includes a system circuit board with a surface, a ground plane having a monopole slot on the surface, a microstrip feedline, and a metal element, wherein the ground plane has a longer edge and a shorter edge. The monopole slot has a first operating band and a second operating band. The microstrip feedline is located on the system circuit board, wherein one end of the microstrip feedline passes over the monopole slot, and the other end of the microstrip feedline is connected to a signal source. The metal element is electrically connected to the shorter edge of the ground plane, and is substantially perpendicular to the ground plane. A distance between the open end of the monopole slot and the shorter edge of the ground plane where the metal element is connected is shorter than 0.05 wavelength of the lowest operating frequency of the first operating band.
    • 提供了一种移动通信设备。 移动通信设备包括具有表面的系统电路板,在表面上具有单极槽的接地平面,微带馈线和金属元件,其中接地平面具有较长边缘和较短边缘。 单极插槽具有第一工作频带和第二操作频带。 微带馈线位于系统电路板上,其中微带馈线的一端通过单极槽,微带馈线的另一端连接到信号源。 金属元件电连接到接地平面的较短边缘,并且基本上垂直于接地平面。 单极槽的开路端与金属元件连接的接地面的短边之间的距离小于第一工作频带的最低工作频率的0.05波长。
    • 3. 发明申请
    • COMMUNICATION DEVICE AND ANTENNA STRUCTURE THEREOF
    • 通信设备及其天线结构
    • US20130099979A1
    • 2013-04-25
    • US13409128
    • 2012-03-01
    • Kin-Lu WongPo-Wei Lin
    • Kin-Lu WongPo-Wei Lin
    • H01Q9/04
    • H01Q1/38H01Q1/243H01Q5/40H01Q9/42H01Q13/10
    • A communication device has an antenna structure including a substrate, a ground element, an open slot and a radiating metal portion. The ground element is disposed on a first surface of the substrate. The open slot is formed on the ground element and substantially parallel with an edge of the ground element, wherein the open slot at least generates a first resonant mode, and a distance between the open slot and the edge of the ground element is shorter than 0.05 wavelength of a center frequency of the first resonant mode. The radiating metal portion is disposed on a second surface of the substrate, wherein the open slot at least partially covers the radiating metal portion, the radiating metal portion at least generates a second resonant mode, and a feed point of the radiating metal portion is electrically coupled to a signal source on the substrate.
    • 通信装置具有包括基板,接地元件,开口槽和辐射金属部分的天线结构。 接地元件设置在基板的第一表面上。 开放槽形成在接地元件上并且基本上与接地元件的边缘平行,其中开口槽至少产生第一谐振模式,并且开放槽和接地元件的边缘之间的距离短于0.05 第一谐振模式的中心频率的波长。 辐射金属部分设置在基板的第二表面上,其中开口槽至少部分地覆盖辐射金属部分,辐射金属部分至少产生第二谐振模式,辐射金属部分的馈电点是电 耦合到衬底上的信号源。
    • 4. 发明授权
    • Communication device and antenna structure thereof
    • 通信设备及其天线结构
    • US09325059B2
    • 2016-04-26
    • US13409128
    • 2012-03-01
    • Kin-Lu WongPo-Wei Lin
    • Kin-Lu WongPo-Wei Lin
    • H01Q1/38H01Q1/24H01Q9/42H01Q13/10H01Q5/40
    • H01Q1/38H01Q1/243H01Q5/40H01Q9/42H01Q13/10
    • A communication device has an antenna structure including a substrate, a ground element, an open slot and a radiating metal portion. The ground element is disposed on a first surface of the substrate. The open slot is formed on the ground element and substantially parallel with an edge of the ground element, wherein the open slot at least generates a first resonant mode, and a distance between the open slot and the edge of the ground element is shorter than 0.05 wavelength of a center frequency of the first resonant mode. The radiating metal portion is disposed on a second surface of the substrate, wherein the open slot at least partially covers the radiating metal portion, the radiating metal portion at least generates a second resonant mode, and a feed point of the radiating metal portion is electrically coupled to a signal source on the substrate.
    • 通信装置具有包括基板,接地元件,开口槽和辐射金属部分的天线结构。 接地元件设置在基板的第一表面上。 开放槽形成在接地元件上并且基本上与接地元件的边缘平行,其中开口槽至少产生第一谐振模式,并且开放槽和接地元件的边缘之间的距离短于0.05 第一谐振模式的中心频率的波长。 辐射金属部分设置在基板的第二表面上,其中开口槽至少部分地覆盖辐射金属部分,辐射金属部分至少产生第二谐振模式,辐射金属部分的馈电点是电 耦合到衬底上的信号源。
    • 5. 发明申请
    • Recording medium for storing video file and method for editing video file
    • 用于存储视频文件的记录介质和用于编辑视频文件的方法
    • US20060239656A1
    • 2006-10-26
    • US11165649
    • 2005-06-23
    • Po-Wei LinChun-Tang Weng
    • Po-Wei LinChun-Tang Weng
    • H04N7/26
    • G11B27/031G11B20/1217G11B27/329G11B2020/1221G11B2020/1288G11B2020/1294G11B2220/20
    • A recording medium for storing video files and a method for editing video files are disclosed. In the method, when a video file is stored in a computer-accessible recording medium for storing video files of the present invention, the end positions of groups of pictures (GOPs) align with cluster boundaries of the computer-accessible recording medium. When editing the video file, implementation points are also at cluster boundaries of the recording medium. Therefore, the original video file is directly split by modifying the cluster-chain relationship and the file length of the corresponding file descriptor in the recording medium, without copying and moving actual data in the computer-accessible recording medium. Consequently, the efficiency of editing video files is enhanced.
    • 公开了一种用于存储视频文件的记录介质和用于编辑视频文件的方法。 在该方法中,当将视频文件存储在用于存储本发明的视频文件的计算机可访问记录介质中时,图像组(GOP)的结束位置与计算机可访问记录介质的集群边界对齐。 当编辑视频文件时,实现点也在记录介质的簇边界。 因此,原始视频文件通过修改记录介质中相应文件描述符的集群链关系和文件长度直接分割,而不复制和移动计算机可访问记录介质中的实际数据。 因此,增强了编辑视频文件的效率。
    • 8. 发明申请
    • Cyclic video recording method for an optical storage medium
    • 用于光存储介质的循环视频记录方法
    • US20080292288A1
    • 2008-11-27
    • US12153465
    • 2008-05-20
    • Po-Wei LinFong-Hwa Song
    • Po-Wei LinFong-Hwa Song
    • H04N5/00
    • H04N5/85G11B7/0037G11B7/007G11B20/10G11B20/1217G11B2020/1062G11B2020/10916G11B2020/1242G11B2020/1285H04N9/8205
    • In a cyclic video recording method for an optical storage medium, the optical storage medium is divided into a set of forward seeking sub-zones and a set of backward seeking sub-zones. Initial values of a current sub-zone and a flag are set. The flag indicates a direction to seek the sub-zones and the initial value of the flag is determined by the initial value of the current sub-zone. When the flag indicates a forward direction, it determines whether the current sub-zone is the last sub-zone. When the current sub-zone is not the last sub-zone, a next sub-zone in the forward direction is set to become the current sub-zone and the write operation is performed. When the current sub-zone is the last sub-zone, the flag is set to a backward direction, the last sub-zone is set to become the current sub-zone and the write operation is performed.
    • 在光存储介质的循环视频记录方法中,光存储介质被分成一组前向寻找子区和一组向后寻找子区。 设置当前子区域和标志的初始值。 标志指示寻找子区域的方向,并且标志的初始值由当前子区域的初始值确定。 当标志指示正向时,它确定当前子区是否是最后一个子区。 当前子区域不是最后一个子区域时,向前方的下一个子区域设置为当前子区域,并执行写入操作。 当前子区域是最后一个子区域时,将该标志设置为反向,最后一个子区域设置为当前子区域,并执行写入操作。
    • 10. 发明申请
    • Microarray bioprobe device integrated with an amplifier having bottom-gate thin film transistors
    • 与具有底栅薄膜晶体管的放大器集成的微阵列生物探针器件
    • US20080297135A1
    • 2008-12-04
    • US11806786
    • 2007-06-04
    • Jium-Ming LinLi-Chern PanPo-Wei Lin
    • Jium-Ming LinLi-Chern PanPo-Wei Lin
    • G01N27/00
    • G01N27/4145G01N27/4148
    • The present invention provides a microarray bioprobe device integrated with an amplifier having bottom-gate thin film transistors. The present invention utilizes a micro-electro-mechanical process as well as a semiconductor process to integrate microarray bioprobes and an amplifier having bottom-gate thin film transistors on a flexible substrate. As such, a signal obtained by the microarray bioprobes can be amplified nearby to improve the signal-to-noise ratio and impedance matching. The microarray bioprobes are formed on the flexible substrate such that the present microarray bioprobe device can be disposed to conform to the profile of a living body's portion so as to improve electrical contact between the bioprobes and the living body's portion.
    • 本发明提供了一种与具有底栅薄膜晶体管的放大器集成的微阵列生物探针器件。 本发明利用微机电工艺以及半导体工艺将微阵列生物探针和具有底栅薄膜晶体管的放大器集成在柔性衬底上。 因此,通过微阵列生物探针获得的信号可以在附近放大,以提高信噪比和阻抗匹配。 微阵列生物探针形成在柔性基底上,使得本发明的微阵列生物探针装置可以被设置成符合活体部分的轮廓,以改善生物探针与生物体部分之间的电接触。