公开(公告)号：US20090277819A1

公开(公告)日：2009-11-12

申请号：US12435814

申请日：2009-05-05

Applicant: Cheng-Fang LIN ,  Ping-Yi YANG ,  Karen LIN

Inventor： Cheng-Fang LIN ,  Ping-Yi YANG ,  Karen LIN

IPC: C02F3/12 ,  C02F3/02 ,  C02F3/10

CPC classification number: C02F3/085 ,  C02F3/108 ,  C02F3/1273 ,  C02F3/302 ,  Y02W10/15 ,  Y10S210/903 ,  Y10S261/72

Abstract: The present invention provides a treating unit of activated sludge for wastewater treatment and a treating apparatus having the same. The treating unit is constructed by a cage-shaped supporting structure which defines an interior space for containing the microbial cell therein. The present invention provides a measure for simultaneous removal of organics and nitrogen compounds from the wastewater under a condition of controlled aeration, and makes the configuration of treating apparatus as well as the treating process more simplified. It is also an alternative to replace the traditional A2O process. According to the present invention, the design of sludge return, which is essential for the conventional activated sludge treatment, is not needed. Moreover, the present invention is compatible with the conventional activated sludge treatment process and is advantageous in its short start-up period during which a stable operation is achievable.

Abstract translation: 本发明提供一种污水处理用活性污泥处理装置及其处理装置。 处理单元由笼形支撑结构构成，其形成用于在其中容纳微生物细胞的内部空间。 本发明提供了在受控曝气的条件下同时从废水中除去有机物和氮化合物的措施，并且使处理装置的结构以及处理过程更加简化。 它也是替代传统A2O工艺的替代品。 根据本发明，不需要对常规活性污泥处理所必需的污泥返回设计。 此外，本发明与常规的活性污泥处理方法相兼容，并且在其可实现稳定操作的短启动时段中是有利的。

公开(公告)号：US20090242711A1

公开(公告)日：2009-10-01

申请号：US12079147

申请日：2008-03-25

Applicant: Fang Lin Yang

Inventor： Fang Lin Yang

IPC: F16L3/08

CPC classification number: B60R16/0215 ,  B60J1/2005

Abstract: A wire attachment device for a vehicle includes a strap having a flap extended at one side of an intermediate partition for forming a space between the intermediate partition and the flap, and a panel extended at the other side for forming a compartment between the intermediate partition and the panel, and one or more wires or cables engageable into either of the space or the compartment of the strap and shielded by the strap for preventing the wires from being exposed and from spoiling the outer appearance of the vehicle and for preventing the wires from being hooked by the other objects, and a light device has a carrier for stably anchoring and supporting the strap.

Abstract translation: 一种用于车辆的电线连接装置，包括具有在中间隔板的一侧延伸的翼片的带，用于在中间隔板和翼片之间形成空间，以及在另一侧延伸的面板，用于形成中间隔板和 面板和一个或多个电线或电缆可接合到带的空间或隔间中的任一个中，并被带子屏蔽，以防止电线暴露并损坏车辆的外观并防止电线 被其他物体钩住，并且灯装置具有用于稳定地锚固和支撑带的载体。

公开(公告)号：US07573722B2

公开(公告)日：2009-08-11

申请号：US11654273

申请日：2007-01-16

Applicant: Fang-Lin Tsai ,  Ho-Yi Tsai ,  Wen-Tsung Tseng ,  Chih-Ming Huang

Inventor： Fang-Lin Tsai ,  Ho-Yi Tsai ,  Wen-Tsung Tseng ,  Chih-Ming Huang

IPC: H05K7/10

CPC classification number: H01R43/0256 ,  H01R43/0228 ,  H05K3/3442 ,  H05K3/3452 ,  H05K2201/0989 ,  H05K2201/099 ,  H05K2201/10636 ,  Y02P70/611 ,  Y02P70/613

Abstract: An electronic carrier board is provided, including a carrier, at least two paired bond pads formed on the carrier, and a protective layer covering the carrier. The protective layer is formed with openings corresponding in position to the two bond pads. The openings are aligned in the same direction and expose at least a first sidewall and a fourth sidewall of each of the two bond pads. The first sidewall and the fourth sidewall are both perpendicular to an alignment direction of the bond pads. A distance between the first sidewall of at least one of the bond pads and a corresponding side of a corresponding one of the openings is at least about 50 μm greater than a distance between the fourth sidewall of the at least one bond pad and a corresponding side of the corresponding opening.

Abstract translation: 提供一种电子载体板，包括载体，形成在载体上的至少两个成对的接合焊盘和覆盖载体的保护层。 保护层形成有与两个接合焊盘相对应的开口。 开口沿相同的方向排列，并暴露两个接合焊盘中的每一个的至少第一侧壁和第四侧壁。 第一侧壁和第四侧壁都垂直于接合焊盘的对准方向。 至少一个接合焊盘的第一侧壁与对应的一个开口的对应侧之间的距离比至少一个接合焊盘的第四侧壁与相应的侧面之间的距离大至少约50微米 的相应开口。

公开(公告)号：US20090152916A1

公开(公告)日：2009-06-18

申请号：US12389931

申请日：2009-02-20

Applicant: Fang Lin ,  Mohsen Makhsous ,  Ellis K. Nam ,  Sam Perlmutter

Inventor： Fang Lin ,  Mohsen Makhsous ,  Ellis K. Nam ,  Sam Perlmutter

IPC: A47C7/00 ,  A47C3/00 ,  G06F17/00 ,  A47C7/46 ,  A47C31/00

CPC classification number: A47C7/14 ,  A47C1/032 ,  A47C7/024 ,  A47C7/40 ,  A47C7/462 ,  A61G5/006 ,  A61G5/1043 ,  A61G7/0573 ,  A61G2203/34

Abstract: A seat of an apparatus, in one example, comprises a front subportion and a rear subportion that is adjustable in height and/or angle relative to the front subportion. A backrest of the apparatus, in one example, is adjustable in shape. Based on a manipulation of adjustments, a subportion of the seat and the backrest are adjustable between: a first height and/or angle of the rear subportion of the seat and a first shape of the backrest; and a second height and/or angle of the rear subportion of the seat and a second shape of the backrest.

Abstract translation: 在一个示例中，设备的座椅包括前部子部分和后部子部分，其可相对于前部子部分在高度和/或角度上可调节。 在一个示例中，该装置的靠背可调整形状。 基于调节的操作，座椅和靠背的子部分可以在座椅的后部子部分的第一高度和/或角度与靠背的第一形状之间调节; 以及座椅的后部子部分和靠背的第二形状的第二高度和/或角度。

公开(公告)号：US07548835B2

公开(公告)日：2009-06-16

申请号：US11805701

申请日：2007-05-23

Applicant: Ching-Fang Lin

Inventor： Ching-Fang Lin

IPC: G06F19/00

CPC classification number: G01C21/18

Abstract: The present invention provides a method and system for an innovative design of the automatic stabilization and pointing control of a device based on the MEMS technology, which is small enough and has acceptable accuracy to be integrated into many application systems, such as, laser pointing systems, telescopic systems, imaging systems, and optical communication systems. The stabilization mechanism configuration design is based on utilization of AGNC commercial products, the coremicro IMU and the coremicro AHRS/INS/GPS Integration Unit. The coremicro AHRS/INS/GPS Integration Unit is used as the processing platform core for the design of the MEMS coremicro IMU based stabilization mechanism.

Abstract translation: 本发明提供了一种用于基于MEMS技术的设备的自动稳定和指向控制的创新设计的方法和系统，该MEMS技术足够小并且具有可接受的精度被集成到许多应用系统中，例如激光指向系统 伸缩系统，成像系统和光通信系统。 稳定机构配置设计是基于AGNC商用产品，核心IMU和核心AHRS / INS / GPS集成单元的利用。 核心微型AHRS / INS / GPS集成单元用作基于MEMS芯片IMU的稳定机制设计的处理平台核心。

公开(公告)号：US20090134455A1

公开(公告)日：2009-05-28

申请号：US11946016

申请日：2007-11-27

Applicant: Shih-Fang Lin ,  Meng-Yen Hsieh ,  Yi-Tsung Jan ,  Sung-Min Wei ,  Chia-Yi Lee ,  Chun-Yao Li ,  Han-Lung Tsai ,  Zhe-Xiong Wu ,  Wen-Tsung Wang

Inventor： Shih-Fang Lin ,  Meng-Yen Hsieh ,  Yi-Tsung Jan ,  Sung-Min Wei ,  Chia-Yi Lee ,  Chun-Yao Li ,  Han-Lung Tsai ,  Zhe-Xiong Wu ,  Wen-Tsung Wang

IPC: H01L29/78 ,  H01L21/336

CPC classification number: H01L29/7836 ,  H01L29/1087 ,  H01L29/66575

Abstract: A semiconductor device including a substrate, a first well, a second well, a gate, a first doped region, and a second doped region. The substrate includes a first conductive type. The first well includes a second conductive type and is formed in the substrate. The second well includes the second conductive type and is formed in the substrate. The gate is formed on the substrate and overlaps the first and the second wells. The first doped region includes the second conductive type. The first doped region is formed in the first well and self-aligned with the gate. The second doped region includes the second conductive type. The second doped region is formed in the second well and self-aligned with the gate. The gate, the first and the second doped regions constitute a transistor.

Abstract translation: 一种半导体器件，包括衬底，第一阱，第二阱，栅极，第一掺杂区域和第二掺杂区域。 基板包括第一导电类型。 第一阱包括第二导电类型并且形成在衬底中。 第二阱包括第二导电类型并形成在衬底中。 栅极形成在衬底上并与第一和第二阱重叠。 第一掺杂区域包括第二导电类型。 第一掺杂区形成在第一阱中并与栅极自对准。 第二掺杂区域包括第二导电类型。 第二掺杂区形成在第二阱中并与栅极自对准。 栅极，第一和第二掺杂区域构成晶体管。

公开(公告)号：US20090129098A1

公开(公告)日：2009-05-21

申请号：US11941987

申请日：2007-11-19

Applicant: Yi-Fang Lin ,  Yong-Zhi Wang ,  Mitsuo Araya ,  Ying-Fu Wang

Inventor： Yi-Fang Lin ,  Yong-Zhi Wang ,  Mitsuo Araya ,  Ying-Fu Wang

IPC: F21V7/00

CPC classification number: G02B6/0038 ,  G02B6/0036 ,  G02B6/0061

Abstract: The light guide plate has a flat body. At least one of the light emission plane and the light reflection plane of the light guide plate has a number of linear reflection structures arranged in parallel along the surface. The reflection structures have a V-shaped cross section pointing outward from or inward into the surface. Each reflection structure further has at least one of its end surfaces slanting towards the other end. It is the reflection structures' slant end surfaces that provide additional collimation and enhancement to the light beams traveling through the light guide plate.

Abstract translation: 导光板具有平坦的主体。 导光板的光发射面和光反射面中的至少一个具有沿着表面平行布置的多个线性反射结构。 反射结构具有从表面向外或向内指向的V形横截面。 每个反射结构还具有朝向另一端倾斜的端面中的至少一个。 反射结构的倾斜端面为穿过导光板的光束提供额外的准直和增强。

公开(公告)号：US20090089001A1

公开(公告)日：2009-04-02

申请号：US12228754

申请日：2008-08-14

Applicant: Ching-Fang Lin

Inventor： Ching-Fang Lin

IPC: G01C25/00 ,  G01C19/00 ,  G06F19/00

CPC classification number: G01C25/005 ,  G01C21/16

Abstract: A method and system for Self-calibrated Azimuth and Attitude Accuracy Enhancing are disclosed, wherein SAAAEMS approach is based on fully auto-calibration self-contained INS principles, not depending on magnetometers for azimuth/heading determination, and thus the system outputs and performance are not affected by the environmental magnetic fields. In order to reduce the system size and cost, this new innovative methods and algorithms are used for SAAAEMS system configuration and integration. Compared to a conventional INS for gyrocompassing, AGNC's approach uses a smaller number of high accuracy sensors: SAAAEMS uses only one 2-axis high accuracy gyro (for example, one DTG) instead of 3-axis; the third axis gyro is a MEMS gyro. It uses only 2 high accuracy accelerometers instead of 3, since the two accelerometers are used only for gyrocompassing not for navigation. These two changes to the conventional INS system configuration remarkably reduce the whole system size and cost. SAAAEMS, uses dynamic gyrocompassing processing for isolation of Base motion disturbance/interference and vibration. SAAAEMS provides a method and system for using automatic methods for system calibration.

Abstract translation: 公开了一种用于自校准方位和姿态精度提高的方法和系统，其中SAAAEMS方法基于完全自动校准自包含INS原理，而不依赖于用于方位角/方位确定的磁力计，因此系统输出和性能是 不受环境磁场的影响。 为了降低系统尺寸和成本，这种新的创新方法和算法用于SAAAEMS系统的配置和集成。 与传统的用于陀螺仪的INS相比，AGNC的方法使用较少数量的高精度传感器：SAAAEMS仅使用一个2轴高精度陀螺仪（例如一个DTG）而不是3轴; 第三轴陀螺仪是一个MEMS陀螺仪。 它仅使用2个高精度加速度计而不是3个，因为两个加速度计仅用于不用于导航的陀螺仪。 对传统INS系统配置的这两个改变显着地降低了整个系统的尺寸和成本。 SAAAEMS使用动态陀螺仪处理来分离基运动扰动/干扰和振动。 SAAAEMS提供了一种使用自动方法进行系统校准的方法和系统。

公开(公告)号：US20090087029A1

公开(公告)日：2009-04-02

申请号：US12229450

申请日：2008-08-22

Applicant: Norman P. Coleman ,  Ching-Fang Lin

Inventor： Norman P. Coleman ,  Ching-Fang Lin

IPC: G06K9/00

CPC classification number: G06K9/0063 ,  G06K9/00208 ,  G06K9/3241 ,  G06T7/277 ,  G06T2207/10016 ,  G06T2207/30212 ,  G06T2207/30241

Abstract: The technology of the 4D-GIS system deploys a GIS-based algorithm used to determine the location of a moving target through registering the terrain image obtained from a Moving Target Indication (MTI) sensor or small Unmanned Aerial Vehicle (UAV) camera with the digital map from GIS. For motion prediction the target state is estimated using an Extended Kalman Filter (EKF). In order to enhance the prediction of the moving target's trajectory a fuzzy logic reasoning algorithm is used to estimate the destination of a moving target through synthesizing data from GIS, target statistics, tactics and other past experience derived information, such as, likely moving direction of targets in correlation with the nature of the terrain and surmised mission.

Abstract translation: 4D-GIS系统的技术部署了基于GIS的算法，用于通过注册从具有数字的移动目标指示（MTI）传感器或小型无人机（UAV）摄像机获得的地形图像来确定移动目标的位置 地图GIS。 对于运动预测，使用扩展卡尔曼滤波器（EKF）估计目标状态。 为了增强移动目标轨迹的预测，采用模糊逻辑推理算法，通过合成GIS数据，目标统计，战术等经验导出信息，将可能的移动方向 目标与地形的性质和推测的使命相关。

公开(公告)号：US07498556B2

公开(公告)日：2009-03-03

申请号：US11725041

申请日：2007-03-15

Applicant: Wen-Kun Yang ,  Diann-Fang Lin ,  Jui-Hsien Chang ,  Tung-Chuan Wang

Inventor： Wen-Kun Yang ,  Diann-Fang Lin ,  Jui-Hsien Chang ,  Tung-Chuan Wang

IPC: H01L27/00

CPC classification number: H01L27/14618 ,  H01L24/19 ,  H01L27/14625 ,  H01L27/14627 ,  H01L27/14643 ,  H01L27/14685 ,  H01L2224/05001 ,  H01L2224/05026 ,  H01L2224/05124 ,  H01L2224/05147 ,  H01L2224/05166 ,  H01L2224/05548 ,  H01L2224/05644 ,  H01L2224/05647 ,  H01L2224/05655 ,  H01L2224/05666 ,  H01L2224/12105 ,  H01L2224/73267 ,  H01L2924/14 ,  H04N5/2253 ,  H04N5/2257 ,  H01L2924/00 ,  H01L2924/00014 ,  H01L2924/01029 ,  H01L2924/01079 ,  H01L2924/01028 ,  H01L2924/013

Abstract: The present invention provides an image sensor module having build-in package cavity and the Method of the same. An image sensor module structure comprising a substrate with a package receiving cavity formed within an upper surface of the substrate and conductive traces within the substrate, and a package having a die with a micro lens disposed within the package receiving cavity. A dielectric layer is formed on the package and the substrate, a re-distribution conductive layer (RDL) is formed on the dielectric layer, wherein the RDL is coupled to the die and the conductive traces and the dielectric layer has an opening to expose the micro lens. A lens holder is attached on the substrate and the lens holder has a lens attached an upper portion of the lens holder. A filter is attached between the lens and the micro lens. The structure further comprises a passive device on the upper surface of the substrate within the lens holder.

Abstract translation: 本发明提供了一种具有内置封装空腔的图像传感器模块及其方法。 一种图像传感器模块结构，包括具有形成在所述基板的上表面内的封装容纳腔的衬底和所述衬底内的导电迹线，以及具有设置在所述封装容纳腔内的具有微透镜的裸片的封装。 在封装和基板上形成电介质层，在介电层上形成再分配导电层（RDL），其中RDL耦合到管芯，导电迹线和电介质层具有露出 微透镜。 透镜保持器附接在基板上，并且透镜保持器具有安装在透镜保持器的上部的透镜。 滤光片安装在透镜和微透镜之间。 该结构还包括在透镜保持器内的衬底的上表面上的无源器件。