公开(公告)号：US20150111319A1

公开(公告)日：2015-04-23

申请号：US14060593

申请日：2013-10-22

Applicant: NATIONAL APPLIED RESEARCH LABORATORIES

Inventor： Ching-Ching Yang ,  Hsin-Yi Tsai ,  Yi-Ju Chen ,  Kuo-Cheng Huang

IPC: H01L21/66 ,  H01L33/00

CPC classification number: H01L33/0095 ,  B23K26/032 ,  B23K26/082 ,  H01L33/54 ,  H01L2933/0091

Abstract: Disclosed are a method and system for eliminating yellow ring phenomenon occurring on the white light emitting diode (LED) based on a blue light chip exciting yellow phosphor powders and having a packaging surface enclosing thereon. Lightspot images are repeatedly acquired outside the white LED, and then each analyzed to see if the yellow ring still exists on a lightspot. If yes, a further atomization process is performed on the packaging surface of white LED, until the acquired and analyzed image shows no yellow ring exists. A lightspot-by-lightspot basis is used in the yellow ring elimination task. In the image analysis, a look up table may be provided in advanced or established at the same time simultaneously with the yellow ring elimination task. The atomization performed on the lightspot may also consider a width issue.

Abstract translation: 本发明公开了一种消除基于蓝光芯片激发黄色荧光体粉末并且具有封装在其上的封装表面的在白色发光二极管（LED）上发生的黄色环现象的方法和系统。 在白色LED外部反复获取光斑图像，然后分析其中是否有一个黄色环仍然存在于光点上。 如果是，则在白色LED的包装表面上进行进一步的雾化处理，直到获得和分析的图像显示不存在黄色环。 在黄环消除任务中使用了基于lightspot-by-lightspot的基础。 在图像分析中，查询表可以与黄环消除任务同时提供或同时建立。 在光点上执行的雾化也可能考虑宽度问题。

公开(公告)号：US20140368638A1

公开(公告)日：2014-12-18

申请号：US14307658

申请日：2014-06-18

Applicant: NATIONAL APPLIED RESEARCH LABORATORIES

Inventor： FRANCO LIN ,  WEN-YI CHANG ,  LUNG-CHENG LEE ,  HUNG-TA HSIAO ,  WHEY-FONE TSAI ,  TAI-SHAN LIAO ,  SHUN-CHUNG TSUNG ,  JIHN-SUNG LAI ,  CHIN-HSIUNG LOH ,  SHIH-CHUNG KANG ,  YAO-YU YANG

IPC: G01B13/00 ,  H04N7/18

CPC classification number: G01F1/002 ,  G01F1/7086 ,  G01P5/22

Abstract: The present invention provides a method of mobile image identification for flow velocity and the apparatus thereof. The present invention integrates laser-light module and mobile photographing devices such as smartphones, cameras, or tablet computers. After multiple laser spots are projected on the surface of flowing water, water-surface images including the laser spots are photographed continuously. Then the software program of image identification in the mobile photographing device performs calculations and coordinate conversion. According to the difference between multiple water-surface images taken continuously, the flow-velocity information of the water surface is given.

Abstract translation: 本发明提供了一种用于流速的移动图像识别方法及其装置。 本发明集成了激光光模块和智能手机，相机或平板计算机等移动摄像装置。 在流水表面投射多个激光点后，连续拍摄包括激光斑点在内的水面图像。 然后，移动摄影装置中的图像识别软件程序执行计算和坐标转换。 根据连续拍摄的多个水面图像之间的差异，给出了水面的流速信息。

公开(公告)号：US20140292364A1

公开(公告)日：2014-10-02

申请号：US13921973

申请日：2013-06-19

Applicant: National Applied Research Laboratories

Inventor： Yin-Cheng CHANG ,  Da-Chiang CHANG

IPC: G01R1/067

CPC classification number: G01R1/06761 ,  G01R1/06772 ,  G01R31/002 ,  G01R31/2886

Abstract: The present invention discloses a semiconductor chip probe for measuring conducted electromagnetic emission (EME) of a bare die and a conducted EME measurement apparatus with the semiconductor chip probe. The semiconductor chip probe comprises a substrate, a dielectric layer, an impedance unit, a measuring unit and a connection unit. The measurement apparatus comprises a semiconductor chip probe, a high frequency probe, a signal cable and a test receiver. The integrated passive component network designed and embedded inside the semiconductor chip probe forms the 1Ω or 150Ω impedance network. And the semiconductor chip probe is able to directly couple the EME conducted current or voltage from the test pin of the flipped chip under test to the test receiver for measurement.

Abstract translation: 本发明公开了一种用于测量裸片的传导电磁发射（EME）和带有半导体芯片探针的传导式EME测量装置的半导体芯片探针。 半导体芯片探针包括衬底，电介质层，阻抗单元，测量单元和连接单元。 测量装置包括半导体芯片探针，高频探针，信号电缆和测试接收器。 半导体芯片探针内部设计和嵌入的集成无源元件网络形成1＆OHgr; 或150＆OHgr; 阻抗网络。 并且半导体芯片探针能够将EME传导电流或电压从测试的被翻转芯片的测试引脚耦合到测试接收器进行测量。

公开(公告)号：US08805135B2

公开(公告)日：2014-08-12

申请号：US13941065

申请日：2013-07-12

Applicant: National Applied Research Laboratories ,  National Tsing Hua University

Inventor： Ming-Chang Lee ,  Ren-Young Liu

IPC: G02B6/27 ,  G02B6/26 ,  G02B6/28 ,  G02B6/10

CPC classification number: G02B6/26 ,  G02B6/105 ,  G02B6/2813

Abstract: This patent disclosure is based on a silicon, instead of LiNbO3, waveguide chip. The disclosed silicon-based multi-function integrated-optic chip comprises a unique design and fabrication features onto it. A unique polarization-diversity coupler is designed and fabricated to couple the external light into the silicon waveguide structure. A unique two-step (vertical and lateral) taper waveguide region is designed and fabricated to bridge the polarization-diversity coupler output with the input of a multi-mode interferometer (MMI) splitter for power loss reduction. At either end of the Y-junction output, there is a phase modulator to achieve optical phase modulation through various physics mechanisms. With this newly-developed silicon-based multi-function integrated optic chip, the size and cost of fiber sensors including FOG's can be greatly reduced.

Abstract translation: 该专利公开是基于硅，而不是LiNbO 3波导芯片。 所公开的硅基多功能集成光学芯片包括其独特的设计和制造特征。 设计并制造了一种独特的极化分集耦合器，将外部光耦合到硅波导结构中。 设计并制造了一个独特的两步（垂直和横向）锥形波导区域，以便将偏振分集耦合器输出与多模干涉仪（MMI）分离器的输入端桥接，以降低功率损耗。 在Y结输出的任一端，存在通过各种物理机制实现光相位调制的相位调制器。 利用这种新开发的硅基多功能集成光学芯片，可大大降低包括FOG在内的光纤传感器的尺寸和成本。

公开(公告)号：US08763320B1

公开(公告)日：2014-07-01

申请号：US14019652

申请日：2013-09-06

Applicant: National Applied Research Laboratories

Inventor： Chung-Che Chou ,  Ping-Ting Chung ,  Wen-Jing Tsai

IPC: E04B1/98 ,  E04H9/00 ,  E04B2/78 ,  E04C3/00 ,  E04H12/16

CPC classification number: E04H9/00 ,  E04B1/98 ,  E04B2/78 ,  E04C3/00 ,  E04C3/02 ,  E04C2003/026 ,  E04H9/02 ,  E04H12/16

Abstract: A dual-core self-centering buckling-restrained brace includes a core unit, a restraining unit clamping the core unit therein, a middle sleeve disposed around the an energy dissipating section of the core unit and the restraining unit and having an end welded to one end of the core unit, an outer sleeve disposed around the middle sleeve and having an end welded to the other end of the core unit, two inner plates disposed respectively at two ends of the restraining unit, two outer plates disposed respectively at two ends of each of the middle sleeve and said outer sleeve, at least one first tensing member connecting the first inner plate to the second outer plate, and at least one second tensioning element connecting the first outer plate to the second inner plate.

Abstract translation: 双芯自对中屈曲约束支架包括芯单元，夹紧芯单元的约束单元，设置在芯单元的能量消散部分周围的中间套筒和限制单元，并且具有焊接到一个的端部 芯部单元的端部，设置在中间套筒周围并具有焊接到芯部单元的另一端的端部的外套筒，分别设置在限制单元的两端的两个内板，分别设置在限制单元的两端的两个外板 每个中间套筒和所述外套筒，至少一个将第一内板连接到第二外板的第一张紧构件和将第一外板连接到第二内板的至少一个第二张紧元件。

公开(公告)号：US20140099023A1

公开(公告)日：2014-04-10

申请号：US13709232

申请日：2012-12-10

Applicant: National Applied Research Laboratories

Inventor： SHI-WEI LO ,  FANG-PANG LIN

IPC: G06F17/30

CPC classification number: G06F17/30802

Abstract: The present invention provide an automatic, frame-by-frame, rapid, and accurate search method for video clip. It comprises the following steps. First, acquire and store a plurality of videos to a storage unit. Each video comprises a plurality of frames, respectively. Then, a processing unit extracts the characteristics of the plurality of frames and gives a plurality of characteristic values. Next, the processing unit calculates a plurality of difference values between the characteristic value of each frame and that of the previous frame and between the characteristic value of the subsequent frame and that of the current frame. Store a data set, which is produced by corresponding the plurality of difference values between all frames of each video to the time axis, to the storage unit. Finally, the processing unit compares a data set of any video with a plurality of data sets of other videos and gives a search result.

Abstract translation: 本发明提供了一种用于视频剪辑的自动逐帧，快速，准确的搜索方法。 它包括以下步骤。 首先，将多个视频获取并存储到存储单元。 每个视频分别包括多个帧。 然后，处理单元提取多个帧的特性并给出多个特征值。 接下来，处理单元计算各帧的特征值与前一帧的特征值之间以及后续帧的特征值与当前帧的特征值之间的多个差值。 存储通过将每个视频的所有帧之间的多个差值对应于时间轴而产生的数据集存储到存储单元。 最后，处理单元将任何视频的数据集与其他视频的多个数据集比较，并给出搜索结果。

公开(公告)号：US20140083855A1

公开(公告)日：2014-03-27

申请号：US14030830

申请日：2013-09-18

Applicant: National Applied Research Laboratories

Inventor： I-Fang Cheng ,  Fu-Liang Yang ,  Hsien-Chang Chang ,  Tzu-Ying Chen

IPC: B03C5/00

CPC classification number: B03C5/005 ,  B03C5/026 ,  B03C2201/26

Abstract: A bio-chip adapted for separating and concentrating particles in a solution includes a chip body defining a receiving space therein for receiving the solution, an inner electrode disposed in the receiving space, an outer electrode unit disposed in the receiving space of the chip body and including a first outer electrode that is spaced apart from and surrounds the inner electrode, and a second outer electrode that is spaced apart from and surrounds the first outer electrode, and a power source electrically connected to the inner electrode, the first outer electrode, and the second outer electrode. A method for using the bio-chip to separating and concentrating the particles in the solution is also disclosed in the present invention.

Abstract translation: 适于分离和浓缩溶液中的颗粒的生物芯片包括限定其中用于接收溶液的接收空间的芯片体，设置在容纳空间中的内部电极，设置在芯片体的容纳空间中的外部电极单元，以及 包括与内部电极间隔开并围绕内部电极的第一外部电极，以及与第一外部电极间隔开并围绕第一外部电极的第二外部电极，以及电连接到内部电极，第一外部电极和 第二外电极。 在本发明中还公开了使用生物芯片分离和浓缩溶液中的颗粒的方法。

公开(公告)号：US20140027823A1

公开(公告)日：2014-01-30

申请号：US13735551

申请日：2013-01-07

Applicant: NATIONAL APPLIED RESEARCH LABORATORIES

Inventor： Yao-Jen Lee ,  Fu-Kuo Hsueh ,  Po-Jung Sung ,  Da-Wei Heh ,  Fu-Ju Hou ,  Chih-Hung Lo ,  Hsiu-Chih Chen

IPC: H01L29/40

CPC classification number: H01L29/401 ,  H01L21/28052 ,  H01L21/28255 ,  H01L21/28264 ,  H01L21/28518 ,  H01L21/324 ,  H01L29/40 ,  H01L29/665

Abstract: A method for forming a metal compound film includes: providing a substrate structure; forming a first metal layer on the substrate structure; performing a first microwave annealing process to conduct a reaction between the first metal layer and the substrate structure so as to form a first polycrystalline film of a metal compound; and performing a second microwave annealing process to transform the first polycrystalline film into a second polycrystalline film of the metal compound with an enlarged grain size, wherein a microwave power output used in the second microwave annealing process is higher than that used in the first microwave annealing process.

Abstract translation: 金属化合物膜的形成方法包括：提供基板结构; 在所述基板结构上形成第一金属层; 进行第一微波退火处理以在第一金属层和基板结构之间进行反应，以形成金属化合物的第一多晶膜; 并且进行第二微波退火处理，以使第一微晶退火工艺中使用的微波功率输出高于第一微波退火中使用的微波功率输出，将第一多晶膜转变为具有扩大晶粒尺寸的金属化合物的第二多晶膜 处理。

公开(公告)号：US20250135587A1

公开(公告)日：2025-05-01

申请号：US18918301

申请日：2024-10-17

Applicant: NATIONAL APPLIED RESEARCH LABORATORIES ,  Evergreen Steel Corporation ,  Chun Yuan Steel Industry Co., Ltd. ,  Tung Kang Steel Structure Corporation ,  China Steel Structure Co., Ltd.

Inventor： Chung-Che CHOU ,  Wei-Tze CHANG ,  Gee-Jin YU ,  Kung-Juin WANG ,  Chiun-Lin WU ,  Chun-Yao YANG

IPC: B23K31/12 ,  B23K31/00 ,  B23K31/02 ,  B23K37/02

Abstract: An automated multi-pass welding method is provided. An optical measuring instrument measures a welding space to obtain reference geometry information, and then the reference geometry information is inputted into an AI model to obtain control parameters that are used by a welding device and a robotic arm as operation settings to perform welding. The optical measuring instrument measures the welding space after the welding to obtain post-welding geometry information for a computerized control device to generate a classification result. When the computerized control device determines to form a next weld pass based on the classification result, the aforesaid actions are repeated until the computerized control device determines to stop welding.

公开(公告)号：US20250133968A1

公开(公告)日：2025-04-24

申请号：US18921034

申请日：2024-10-21

Applicant: National Applied Research Laboratories

Inventor： Ya-Jui Tsou ,  Duan-Lee Tang ,  Yuan-Chen Sun ,  Kai-Shin Li ,  Ya-Ling Wu ,  Jia-Min Shieh

IPC: H10N50/10 ,  G11C11/16 ,  H10B61/00 ,  H10N50/80

Abstract: The present invention provides a spin-orbit torque magnetoresistive memory structure, which comprises a first conductive layer, a magnetic tunneling junction (MTJ) layer, a channel layer, and a second conductive layer stacked sequentially. The MTJ layer is disposed on the first conductive layer. The channel layer is disposed on the MTJ layer. The second conductive layer is disposed on the channel layer. These structures are fabricated sequentially using lithography. By forming the MTJ layer before the channel layer, redeposition of the metal of the channel layer on the MTJ layer can be avoided.