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    • 1. 发明申请
    • Printed Circuit Board and Method of Manufacturing the Same
    • 印刷电路板及其制造方法
    • US20080314625A1
    • 2008-12-25
    • US12143214
    • 2008-06-20
    • Kazunori HAMADAHiroshi KawasakiTomoaki Ozaki
    • Kazunori HAMADAHiroshi KawasakiTomoaki Ozaki
    • H05K3/46H05K1/02
    • H05K3/0047H05K1/0237H05K1/0268H05K3/429H05K2203/0207H05K2203/0242Y10T29/49124Y10T29/49156Y10T29/49167
    • The present invention relates to a method of manufacturing a printed circuit board and to a printed circuit board, the method comprising the steps of: preliminarily forming a plurality of test pattern layers 3 and 4 for detecting the depth of an inner layer in a multilayer printed circuit board such that at least a part of a lower test pattern layer is not overlaid with any upper test pattern layer when viewed from a drill entrance side, and preliminarily forming a surface conductor layer 2; applying a voltage between the surface conductor layer 2 and the test pattern layers 3 and 4; performing drilling toward one selected test pattern layer 3 by use of a drill 7 for drilling, and detecting a current produced when the drill comes into contact with the test pattern 3 to measure the depth of the layer (D1); performing drilling toward the other test pattern layer 4 by use of the drill 7, and measuring the depth of the layer (D2); and performing drilling by use of the drill 7 up to just before the conductor-wiring layer 10a with reference to a depth calculated from D1 and D2.
    • 本发明涉及一种制造印刷电路板和印刷电路板的方法,所述方法包括以下步骤:预先形成用于检测多层印刷中的内层的深度的多个测试图案层3和4 电路板,使得当从钻入口侧观察时,下测试图案层的至少一部分不与任何上测试图案层重叠,并且预先形成表面导体层2; 在表面导体层2和测试图案层3和4之间施加电压; 通过使用用于钻孔的钻头7对一个所选择的测试图案层3进行钻孔,并且检测当钻头与测试图案3接触以测量层(D1)的深度时产生的电流; 通过使用钻头7对另一测试图案层4进行钻孔,并测量层(D2)的深度; 并且参照从D1和D2计算的深度,使用钻头7直到刚好在导体布线层10a之前进行钻孔。
    • 2. 发明授权
    • Printed circuit board and method of manufacturing the same
    • 印刷电路板及其制造方法
    • US08151455B2
    • 2012-04-10
    • US12143214
    • 2008-06-20
    • Kazunori HamadaHiroshi KawasakiTomoaki Ozaki
    • Kazunori HamadaHiroshi KawasakiTomoaki Ozaki
    • H05K3/02
    • H05K3/0047H05K1/0237H05K1/0268H05K3/429H05K2203/0207H05K2203/0242Y10T29/49124Y10T29/49156Y10T29/49167
    • A method of manufacturing a printed circuit board is provided. The method includes preliminarily forming a plurality of test pattern layers for detecting the depth of an inner layer in a multilayer printed circuit board such that at least a part of a lower test pattern layer is not overlaid with any upper test pattern layer when viewed from a drill entrance side, and preliminarily forming a surface conductor layer; applying a voltage between the surface conductor layer and the test pattern layers; performing drilling toward one test pattern layer, and detecting a current produced when the drill comes into contact with the test pattern to measure the depth of the layer (D1); performing drilling toward the other test pattern layer, and measuring the depth of the layer (D2); and performing drilling up to just before the conductor-wiring layer based on a depth calculated from D1 and D2.
    • 提供一种制造印刷电路板的方法。 该方法包括预先形成多个用于检测多层印刷电路板中的内层的深度的测试图案层,使得当从一个多层印刷电路板观察时,下部测试图案层的至少一部分不与任何上部测试图案层重叠 钻入口侧,并预先形成表面导体层; 在表面导体层和测试图案层之间施加电压; 对一个测试图案层执行钻孔,并且检测当钻头与测试图案接触时产生的电流以测量层(D1)的深度; 对另一测试图案层执行钻孔,并测量层的深度(D2); 并且基于从D1和D2计算的深度,在导体布线层之前执行钻孔。
    • 3. 发明授权
    • Clutch, motor and vehicle door opening/closing device
    • 离合器,马达和车门打开/关闭装置
    • US08484893B2
    • 2013-07-16
    • US13198742
    • 2011-08-05
    • Natsuto HayakawaTomoaki Ozaki
    • Natsuto HayakawaTomoaki Ozaki
    • E05F15/00B60J5/00F16D7/00F16D23/10
    • F16D43/211F16D43/02F16D43/14
    • A clutch includes a driving-side rotating body, a driven-side rotating body, a holding case, and a power transmitting member held by one of the driving-side rotating body and the holding case. The power transmitting member is moved between a non-engaging position and an engaging position where the driving-side rotating body engages with the driven-side rotating body. The clutch further includes a guiding member held by the other of the driving-side rotating body and the holding case. The guiding member has a cam portion engaged with the power transmitting member and guides movement of the power transmitting member between the engaging position and the non-engaging position. Relative rotation between the driving-side rotating body and the holding case occurs, resulting in that the power transmitting member is guided by the cam portion to move from the non-engaging position to the engaging position.
    • 离合器包括驱动侧旋转体,从动侧旋转体,保持壳体和由驱动侧旋转体和保持壳体中的一个保持的动力传递部件。 动力传递构件在非接合位置与驱动侧旋转体与从动侧旋转体接合的接合位置之间移动。 离合器还包括由驱动侧旋转体和保持壳体中的另一个保持的引导构件。 引导构件具有与动力传递构件接合的凸轮部分,并且引导动力传递构件在接合位置和非接合位置之间的运动。 发生驱动侧旋转体和保持壳体之间的相对旋转,导致动力传递部件被凸轮部引导以从非接合位置移动到接合位置。
    • 4. 发明授权
    • Clutch, motor device, and vehicle door opening and closing apparatus
    • 离合器,电动机装置和车门打开和关闭装置
    • US07866455B2
    • 2011-01-11
    • US12137921
    • 2008-06-12
    • Chikara GotouTomoaki OzakiSatoshi OhtaMasaaki Shimizu
    • Chikara GotouTomoaki OzakiSatoshi OhtaMasaaki Shimizu
    • F16D43/22F16D43/28F16D41/10
    • H02K7/108E05F15/646E05Y2201/242E05Y2201/434E05Y2600/41E05Y2600/46E05Y2800/11E05Y2900/531H02K7/1166
    • When a drive shaft is in a non-drive state, a second drive rotor is in a non-engaged state with a driven rotor with respect to its own rotating direction. When the drive shaft is in a drive state, a rotating force of a first drive rotor is transmitted to the second drive rotor through an urging member. As a result, a power transmitting member revolves, and a centrifugal force arranges the power transmitting member at a second clamping position. The second drive rotor receives a reaction force from a driven rotor via the power transmitting member. As a result, the second drive rotor is relatively rotated in an opposite direction to a rotating direction of the first drive rotor with respect to the first drive rotor, against an urging force of the urging member. As a result, the first drive rotor is engaged with the driven rotor with respect to its own rotating direction. Accordingly, the clutch is stably operated.
    • 当驱动轴处于非驱动状态时,第二驱动转子与从动转子相对于其自身的旋转方向处于非接合状态。 当驱动轴处于驱动状态时,第一驱动转子的旋转力通过施力部件传递到第二驱动转子。 结果,动力传递构件旋转,离心力将动力传递构件布置在第二夹紧位置。 第二驱动转子通过动力传递部件从被驱动转子接收反作用力。 结果,第二驱动转子相对于第一驱动转子相对于第一驱动转子的旋转方向相对于相对于第一驱动转子的旋转方向相对于施力构件的作用力相对旋转。 结果,第一驱动转子相对于其自身的旋转方向与从动转子接合。 因此,离合器被稳定地操作。
    • 5. 发明申请
    • SIMD MICROPROCESSOR, IMAGE PROCESSING APPARATUS INCLUDING SAME, AND IMAGE PROCESSING METHOD USED THEREIN
    • SIMD微处理器,包括其的图像处理装置和使用其的图像处理方法
    • US20080209165A1
    • 2008-08-28
    • US12038518
    • 2008-02-27
    • Tomoaki Ozaki
    • Tomoaki Ozaki
    • G06F15/80G06F9/30
    • G06F9/30014G06F9/3885G06F9/3887
    • A SIMD microprocessor, which can be included in an image processing apparatus using an image processing method used therein, includes a global processor and multiple processor elements controlled by the global processor. Each single processor element of the multiple processor elements includes multiple operation units. The global processor is configured to control the multiple processing elements to uniformly change a configuration of the multiple operation units in the single processor element to determine a number of data units of operation according to the multiple operation units either operated individually or in cooperation with each other in the single processor element and a width of data processed per data unit of operation performed in the single processor element. A processor element number is assigned per data unit of operation to the single processor element to use for executing an operation.
    • 可以包括在使用其中使用的图像处理方法的图像处理装置中的SIMD微处理器包括全局处理器和由全局处理器控制的多个处理器元件。 多个处理器元件的每个单个处理器元件包括多个操作单元。 全局处理器被配置为控制多个处理元件以均匀地改变单个处理器元件中的多个操作单元的配置,以根据多个操作单元或者彼此协作地操作来确定多个操作单元的数量单元的数量 在单个处理器元件中以及在单个处理器元件中执行的每个操作数据单元处理的数据宽度。 每个数据操作单元将处理器元件编号分配给用于执行操作的单个处理器元件。
    • 6. 发明申请
    • IMAGE PROCESSING APPARATUS WITH SIMD-TYPE MICROPROCESSOR TO PERFORM LABELING
    • 具有SIMD型微处理器的图像处理设备来执行标签
    • US20080107339A1
    • 2008-05-08
    • US11968521
    • 2008-01-02
    • Tomoaki OzakiShinichi Yamaura
    • Tomoaki OzakiShinichi Yamaura
    • G06K9/00
    • G06K9/00986
    • An image processing apparatus includes a plurality of processor elements including registers and configured to process respective data items, a global processor configured to control the plurality oaf processor elements; the global processor and the plurality of processor elements constituting an SIMD microprocessor, and a data control device coupled to a data transfer port for accessing the registers, the processor elements configured to perform a contiguity check and tentative labeling of pixels adjacent in a sub-scan direction as parallel processes with respect to binary image data, the data control device configured to perform a contiguity check and tentative labeling of pixels adjacent in a main scan direction as consecutive processes, and the parallel processes performed ahead of the consecutive processes with respect to a line of interest in the binary image data.
    • 图像处理装置包括多个处理器元件,包括寄存器,并被配置为处理相应的数据项,配置成控制多个处理器元件的全局处理器; 构成SIMD微处理器的全局处理器和多个处理器元件以及耦合到用于访问寄存器的数据传送端口的数据控制设备,处理器元件被配置为执行邻近检查和临时标记子扫描中相邻的像素 方向作为二进制图像数据的并行处理,所述数据控制装置被配置为对主扫描方向相邻的像素执行连续性检查和临时标记作为连续处理,并且在连续处理之前执行的并行处理相对于 对二进制图像数据的兴趣线。
    • 7. 发明申请
    • Image processing apparatus and method of image processing capable of effective labeling
    • 能够进行有效标签的图像处理装置和图像处理方法
    • US20060274940A1
    • 2006-12-07
    • US11430861
    • 2006-05-10
    • Tomoaki OzakiShinichi Yamaura
    • Tomoaki OzakiShinichi Yamaura
    • G06K9/34
    • G06K9/4638G06T7/11G06T7/194
    • A method of labeling of image data includes reading the image data sequentially with units of two successive pixels and providing one label to a target unit of two successive pixels in the image data when a preliminary label is to be assigned to at least one of the two successive pixels of the target unit. And an image processing apparatus includes a memory configured to store image data, a processor configured to process the image data with units of two successive pixels and to provide one label to a target unit of two successive pixels when a preliminary label is to be assigned to at least one of the two successive pixels of the target unit and a memory controller arranged between the memory and the processor and configured to control reading and writing the image data.
    • 标记图像数据的方法包括以两个连续像素的单位顺序读取图像数据,并且当将初步标签分配给两个连续像素中的至少一个时,向图像数据中的两个连续像素的目标单元提供一个标签 目标单位的连续像素。 并且图像处理装置包括被配置为存储图像数据的存储器,配置成以两个连续像素的单位处理图像数据的处理器,并且当将初步标签分配给两个连续像素时,向两个连续像素的目标单元提供一个标签 目标单元的两个连续像素中的至少一个和布置在存储器和处理器之间并被配置为控制读取和写入图像数据的存储器控​​制器。
    • 9. 发明授权
    • SIMD microprocessor, image processing apparatus including same, and image processing method used therein
    • SIMD微处理器,包括其的图像处理装置及其中使用的图像处理方法
    • US08060726B2
    • 2011-11-15
    • US12038518
    • 2008-02-27
    • Tomoaki Ozaki
    • Tomoaki Ozaki
    • G06F15/80G06F15/82
    • G06F9/30014G06F9/3885G06F9/3887
    • A SIMD microprocessor, which can be included in an image processing apparatus using an image processing method used therein, includes a global processor and multiple processor elements controlled by the global processor. Each single processor element of the multiple processor elements includes multiple operation units. The global processor is configured to control the multiple processing elements to uniformly change a configuration of the multiple operation units in the single processor element to determine a number of data units of operation according to the multiple operation units either operated individually or in cooperation with each other in the single processor element and a width of data processed per data unit of operation performed in the single processor element. A processor element number is assigned per data unit of operation to the single processor element to use for executing an operation.
    • 可以包括在使用其中使用的图像处理方法的图像处理装置中的SIMD微处理器包括全局处理器和由全局处理器控制的多个处理器元件。 多个处理器元件的每个单个处理器元件包括多个操作单元。 全局处理器被配置为控制多个处理元件以均匀地改变单个处理器元件中的多个操作单元的配置,以根据多个操作单元或者彼此协作地操作来确定多个操作单元的数量单元的数量 在单个处理器元件中以及在单个处理器元件中执行的每个操作数据单元处理的数据宽度。 每个数据操作单元将处理器元件编号分配给用于执行操作的单个处理器元件。