公开(公告)号：US06983476B2

公开(公告)日：2006-01-03

申请号：US10337775

申请日：2003-01-08

Applicant: Din-Ping Tsai ,  Yu-Hsuan Lin ,  Wei-Chih Lin ,  Hsun-Hao Chang

Inventor： Din-Ping Tsai ,  Yu-Hsuan Lin ,  Wei-Chih Lin ,  Hsun-Hao Chang

IPC: G11B7/24

CPC classification number: G11B11/10593 ,  B82Y10/00 ,  G11B7/24065 ,  G11B7/252 ,  G11B7/2531 ,  G11B7/2532 ,  G11B7/2533 ,  G11B7/2534 ,  G11B11/10584 ,  G11B2007/24306 ,  G11B2007/24308 ,  G11B2007/2431 ,  G11B2007/24312 ,  G11B2007/24314 ,  G11B2007/24316 ,  G11B2007/25706 ,  G11B2007/2571 ,  G11B2007/25713 ,  G11B2007/25715 ,  G11B2007/25716

Abstract: This invention is a rewritable near-field optical medium using a zinc oxide nano-structured thin film as the localized near-field interaction layer. This rewritable near-field optical medium is a multilayered body at least comprising: (a) a substrate of transparent material; (b) a first protective and spacer layer formed on one surface of the substrate, which is made of transparent dielectric material; (c) a zinc oxide nano-structured thin film which is capable of causing localized near-field optical interactions; (d) a second protective and spacer layer formed on the localized near-field optical interaction layer, which is also made of transparent dielectric material; (e) a rewritable recording layer; (f) a third protective and spacer layer formed on the rewritable recording layer, which is also made of transparent dielectric material. Ultrahigh density near-field optical recording can be achieved by the localized near-field optical interactions of the zinc oxide nanostructured thin film that is in the near-field region of the rewritable recording layer.

Abstract translation: 本发明是使用氧化锌纳米结构薄膜作为局部近场相互作用层的可重写近场光学介质。 这种可重写的近场光学介质是多层体，至少包括：（a）透明材料的基底; （b）形成在由透明电介质材料制成的衬底的一个表面上的第一保护和隔离层; （c）能够引起局部近场光学相互作用的氧化锌纳米结构薄膜; （d）形成在局部近场光学相互作用层上的第二保护和间隔层，其也由透明电介质材料制成; （e）可重写记录层; （f）形成在可重写记录层上的第三保护层和间隔层，其也由透明介电材料制成。 可以通过在可重写记录层的近场区域中的氧化锌纳米结构薄膜的局部近场光学相互作用来实现超高密度近场光学记录。

公开(公告)号：US07027386B2

公开(公告)日：2006-04-11

申请号：US10330151

申请日：2002-12-30

Applicant: Din-Ping Tsai ,  Yu-Hsuan Lin ,  Hsun-Hao Chang

Inventor： Din-Ping Tsai ,  Yu-Hsuan Lin ,  Hsun-Hao Chang

IPC: G11B7/24

CPC classification number: B82Y10/00 ,  G11B7/24 ,  G11B7/252 ,  G11B7/253 ,  G11B7/2531 ,  G11B7/2533 ,  G11B7/2534 ,  G11B7/257 ,  G11B7/2578 ,  G11B7/258 ,  Y10T428/21

Abstract: This invention relates to a read-only near-field optical disk using a zinc-oxide (ZnO) nano-structured thin film as the localized near-field optical interaction layer. This read-only near-field optical disk is a multi-layered body at least comprising; (a) a transparent substrate with pre-recorded pits or marks; (b) a reflection thin film; (c) a zinc-oxide (ZnO) nano-structured thin film which is capable of causing localized near-field optical interactions; (d) a first and a second protective and spacer layers formed above or below the localized near-field optical interaction layer, which are also made of transparent dielectric material. Ultrahigh density near-field optical readout can be achieved by localized near-field optical interaction between the zinc-oxide (ZnO) nano-structured thin film and the reflection layer on pre-recorded structure.

Abstract translation: 本发明涉及使用氧化锌（ZnO）纳米结构薄膜作为局部近场光学相互作用层的只读近场光盘。 该只读近场光盘是多层体，至少包括： （a）具有预先记录的凹坑或痕迹的透明基底; （b）反射薄膜; （c）能够引起局部近场光学相互作用的氧化锌（ZnO）纳米结构薄膜; （d）形成在局部近场光学相互作用层之上或之下的第一和第二保护层和间隔层，其也由透明电介质材料制成。 可以通过在预记录结构上的氧化锌（ZnO）纳米结构薄膜和反射层之间的局部近场光学相互作用来实现超高密度近场光学读出。

公开(公告)号：US06938266B2

公开(公告)日：2005-08-30

申请号：US10337785

申请日：2003-01-08

Applicant: Din-Ping Tsai ,  Yu-Hsuan Lin ,  Hsun-Hao Chang

Inventor： Din-Ping Tsai ,  Yu-Hsuan Lin ,  Hsun-Hao Chang

IPC: B41M5/26 ,  G11B7/24 ,  G11B7/241 ,  G11B7/243 ,  G11B7/244 ,  G11B7/253 ,  G11B7/254 ,  G11B7/257

CPC classification number: G11B7/252 ,  B82Y10/00 ,  G11B7/2403 ,  G11B7/2467 ,  G11B7/2472 ,  G11B7/248 ,  G11B7/249 ,  G11B7/2531 ,  G11B7/2532 ,  G11B7/2533 ,  G11B7/2534 ,  G11B2007/25706 ,  G11B2007/2571 ,  G11B2007/25713 ,  G11B2007/25715 ,  G11B2007/25716

Abstract: This invention is a write-once near-field optical medium using a zinc oxide nano-structured thin film as the localized near-field optical interaction layer. This write-once near-field optical medium is a multi-layered body at least comprising: (a) a substrate of transparent material; (b) a first protective and spacer layer formed on one surface of the substrate, which is made of transparent dielectric material; (c) a zinc oxide nano-structured thin film which is capable of causing localized near-field optical interactions; (d) a second protective and spacer layer formed on the localized near-field optical interaction layer, which is also made of transparent dielectric material; (e) a write-once recording layer; (f) a third protective and spacer layer formed on the write-once recording layer, which is also made of transparent dielectric material. Ultra-high density near-field optical recording can be achieved by the localized near-field optical interactions of the zinc-oxide (ZnO) nano-structured thin film that is in the near-field region of the write-once recording layer.

Abstract translation: 本发明是使用氧化锌纳米结构薄膜作为局部近场光学相互作用层的一次写入式近场光学介质。 这种一次写入的近场光学介质是多层体，至少包括：（a）透明材料的基底; （b）形成在由透明电介质材料制成的衬底的一个表面上的第一保护和隔离层; （c）能够引起局部近场光学相互作用的氧化锌纳米结构薄膜; （d）形成在局部近场光学相互作用层上的第二保护和间隔层，其也由透明电介质材料制成; （e）一次写入记录层; （f）形成在一次记录层上的第三保护层和间隔层，其也由透明介电材料制成。 可以通过在一次写入记录层的近场区域中的氧化锌（ZnO）纳米结构薄膜的局部近场光学相互作用来实现超高密度近场光学记录。

公开(公告)号：US06737167B2

公开(公告)日：2004-05-18

申请号：US10307370

申请日：2002-12-02

Applicant: Din-Ping Tsai ,  Yu-Hsuan Lin

Inventor： Din-Ping Tsai ,  Yu-Hsuan Lin

IPC: B32B1706

CPC classification number: C03C17/3417 ,  C03C17/3435 ,  G01Q60/22 ,  G02B21/34

Abstract: This invention is a super-resolution optical cover glass slip or mount which can resolve the optical information on a sample surface without diffraction limit. This super-resolution optical cover glass slip or mount is a multi-layered body at least comprising: (a) a substrate of transparent material; (b) a first protective and spacer layer formed on one surface of the substrate, which is made from transparent dielectric material; (c) a nano structure thin film which is capable of causing localized non-linear near-field optical interaction; (d) a second protective and spacer layer formed on the localized non-linear near-field optical interaction layer, which is also made from transparent dielectric material.

Abstract translation: 本发明是一种超分辨率光学玻璃滑盖或安装座，可以解析样品表面上的光学信息而无衍射极限。 这种超分辨率光学盖玻璃滑盖或支架是多层体，至少包括：（a）透明材料的基底; （b）由透明介电材料制成的在基板的一个表面上形成的第一保护和隔离层; （c）能够引起局部非线性近场光学相互作用的纳米结构薄膜; （d）形成在局部非线性近场光学相互作用层上的第二保护和间隔层，其也由透明介电材料制成。

公开(公告)号：US11686669B2

公开(公告)日：2023-06-27

申请号：US17748084

申请日：2022-05-19

Applicant: Tsung-Hsien Ou ,  Hsin-Yueh Sung ,  Shih-Min Hsu ,  Yu-Hsuan Lin

Inventor： Tsung-Hsien Ou ,  Hsin-Yueh Sung ,  Shih-Min Hsu ,  Yu-Hsuan Lin

IPC: G02B27/10 ,  G01N21/25 ,  G02B27/14 ,  G01N21/27

CPC classification number: G01N21/255 ,  G01N21/27 ,  G02B27/1013 ,  G02B27/141

Abstract: The invention provides an optical measurement device for measuring light to be inspected. The optical measurement device comprises a light receiving module, a light splitting module, and a plurality of color filters. The light receiving module is used for converting the light to be inspected into a first parallel light. The light splitting module is used for splitting the first parallel light into a plurality of parallel lights to be inspected. Each color filter receives at least one of the plurality of parallel lights to be inspected. The plurality of parallel lights to be inspected filtered by the plurality of color filters are used to calculate tristimulus values in the CIE color space.

公开(公告)号：US08115661B2

公开(公告)日：2012-02-14

申请号：US13084098

申请日：2011-04-11

Applicant: Gwo-Huei Wu ,  Kuo-Jung Lan ,  Yu-Hsuan Lin ,  You-Wen Chang

Inventor： Gwo-Huei Wu ,  Kuo-Jung Lan ,  Yu-Hsuan Lin ,  You-Wen Chang

IPC: H03M1/10

CPC classification number: G11B7/0941 ,  G11B7/0062 ,  G11B7/0903 ,  G11B7/0912 ,  G11B7/1263 ,  H03M1/1225 ,  H03M1/129

Abstract: A method and system for calibrating an initial driving signal for driving an optical pick-up head of an optical disk drive is provided. On one embodiment, said optical disk drive is utilized for reading or writing data on an optical disk, the optical disk includes a plurality of auto power control areas (APC areas) and a plurality of data areas, and the APC areas and the data areas are interleaved in between. In at least one of the APC areas that before the data areas for a normal data writing, an initial driving signal is used for the normal data writing to drive the optical pick-up head to emit laserbeam. A detected level of the laserbeam is then obtained. An update initial driving signal is then calibrated according to the detected level and a target level.

Abstract translation: 提供了用于校准用于驱动光盘驱动器的光学拾取头的初始驱动信号的方法和系统。 在一个实施例中，所述光盘驱动器用于在光盘上读取或写入数据，该光盘包括多个自动功率控制区域（APC区域）和多个数据区域，以及APC区域和数据区域 在它们之间交错。 在正常数据写入的数据区之前的至少一个APC区域中，初始驱动信号用于正常数据写入以驱动光学拾取头发射激光束。 然后获得激光束的检测水平。 然后根据检测到的电平和目标电平校准更新初始驱动信号。

公开(公告)号：US08071142B2

公开(公告)日：2011-12-06

申请号：US12345254

申请日：2008-12-29

Applicant: Yuan-Ling Ku ,  Shih-Tsun Liang ,  Yu-Hsuan Lin ,  Liang-Hua Chen ,  Ying-Yu Kuo ,  Feng-Nien Ko

Inventor： Yuan-Ling Ku ,  Shih-Tsun Liang ,  Yu-Hsuan Lin ,  Liang-Hua Chen ,  Ying-Yu Kuo ,  Feng-Nien Ko

IPC: A61K36/00 ,  A61K36/605

CPC classification number: A61K31/352

Abstract: An extract prepared from the root barks of Morus australis Poir. and its use as an anti-bacteria agent, and use of a compound Kuwanon H having the following formula (I) separated from the extract as an anti-bacteria agent:

Abstract translation: 从桑the的根皮制备的提取物。 及其作为抗菌剂的用途，以及使用具有下述式（I）的化合物Kuwanon H作为抗菌剂从提取物中分离出来：

公开(公告)号：US20110188363A1

公开(公告)日：2011-08-04

申请号：US13084098

申请日：2011-04-11

Applicant: Gwo-Huei Wu ,  Kuo-Jung Lan ,  Yu-Hsuan Lin ,  You-Wen Chang

Inventor： Gwo-Huei Wu ,  Kuo-Jung Lan ,  Yu-Hsuan Lin ,  You-Wen Chang

IPC: G11B7/12

CPC classification number: G11B7/0941 ,  G11B7/0062 ,  G11B7/0903 ,  G11B7/0912 ,  G11B7/1263 ,  H03M1/1225 ,  H03M1/129

Abstract: A method and system for calibrating an initial driving signal for driving an optical pick-up head of an optical disk drive is provided. On one embodiment, said optical disk drive is utilized for reading or writing data on an optical disk, the optical disk includes a plurality of auto power control areas (APC areas) and a plurality of data areas, and the APC areas and the data areas are interleaved in between. In at least one of the APC areas that before the data areas for a normal data writing, an initial driving signal is used for the normal data writing to drive the optical pick-up head to emit laserbeam. A detected level of the laserbeam is then obtained. An update initial driving signal is then calibrated according to the detected level and a target level.

Abstract translation: 提供了用于校准用于驱动光盘驱动器的光学拾取头的初始驱动信号的方法和系统。 在一个实施例中，所述光盘驱动器用于在光盘上读取或写入数据，该光盘包括多个自动功率控制区域（APC区域）和多个数据区域，以及APC区域和数据区域 在它们之间交错。 在正常数据写入的数据区之前的至少一个APC区域中，初始驱动信号用于正常数据写入以驱动光学拾取头发射激光束。 然后获得激光束的检测水平。 然后根据检测到的电平和目标电平校准更新初始驱动信号。

公开(公告)号：US20100124154A1

公开(公告)日：2010-05-20

申请号：US12510258

申请日：2009-07-27

Applicant: Chih-Ching Yu ,  Yu-Hsuan Lin

Inventor： Chih-Ching Yu ,  Yu-Hsuan Lin

IPC: G11B7/00

CPC classification number: G11B7/0948 ,  G11B20/10009 ,  G11B20/10342 ,  G11B20/10453 ,  G11B20/1816 ,  G11B2020/1826 ,  G11B2220/2541

Abstract: A signal processing device includes a processing circuit and a signal generating circuit. The processing circuit is implemented for determining a position of at least one defective area on an optical storage medium according to a defect signal, and accordingly recording defect position information of the at least one defective area. The signal generating circuit is coupled to the processing circuit, and implemented for generating an output signal according to at least the recorded defect position information of the at least one defective area.

Abstract translation: 信号处理装置包括处理电路和信号发生电路。 处理电路被实现为根据缺陷信号确定光存储介质上的至少一个缺陷区的位置，并据此记录至少一个缺陷区的缺陷位置信息。 信号发生电路被耦合到处理电路，并被实现为至少根据至少一个缺陷区的记录的缺陷位置信息产生输出信号。

公开(公告)号：US07706219B2

公开(公告)日：2010-04-27

申请号：US11758017

申请日：2007-06-05

Applicant: Chia-Wei Liao ,  Chih-Ching Chen ,  Yuh Cheng ,  Ming-Jiou Yu ,  Kuo-Jung Lan ,  Chun-Yu Lin ,  Shiue-Shin Liu ,  Shu-Hung Chou ,  Yu-Hsuan Lin ,  Jong-Woei Chen

Inventor： Chia-Wei Liao ,  Chih-Ching Chen ,  Yuh Cheng ,  Ming-Jiou Yu ,  Kuo-Jung Lan ,  Chun-Yu Lin ,  Shiue-Shin Liu ,  Shu-Hung Chou ,  Yu-Hsuan Lin ,  Jong-Woei Chen

IPC: G11B7/00

CPC classification number: G11B20/10 ,  G11B7/0903 ,  G11B7/0909 ,  G11B7/0943 ,  G11B7/1263 ,  G11B20/10009 ,  G11B2220/2537

Abstract: A signal processing apparatus includes sample and hold units for holding a plurality of analog photo diode signals. A signal holding controller generates control signals to the sample and hold units for holding the analog photo diode signals. Analog adjusting modules adjust the held analog photo diode signals. A multiplexer selectively couples one input end of the multiplexer to the output end of the multiplexer for outputting the adjusted analog photo diode signals. An analog to digital converter converts the adjusted analog photo diode signals into digital photo diode signals.

Abstract translation: 信号处理装置包括用于保持多个模拟光电二极管信号的采样和保持单元。 信号保持控制器产生用于保持模拟光电二极管信号的采样和保持单元的控制信号。 模拟调整模块调节保持的模拟光电二极管信号。 复用器选择性地将多路复用器的输入端耦合到多路复用器的输出端，以输出经调整的模拟光电二极管信号。 模数转换器将调整后的模拟光电二极管信号转换为数字光电二极管信号。