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    • 21. 发明申请
    • STRUCTURE AND CIRCUIT BOARD
    • 结构与电路板
    • US20130037316A1
    • 2013-02-14
    • US13583277
    • 2011-02-18
    • Hiroshi ToyaoNaoki KobayashiNoriaki Ando
    • Hiroshi ToyaoNaoki KobayashiNoriaki Ando
    • H05K1/11
    • H05K1/0236H01P3/00H05K1/0298
    • A structure (10) includes a conductor (151), conductors (111, 131) that are located on the same side with respect to the conductor (151), that are opposed to at least a part of the conductor (151), and that overlap each other when seen in a plan view, a connection member (101) that penetrates the conductors (111, 131, 151), that is connected to the conductor (151), and that is insulated from the conductors (111, 131), openings (112, 132) that are formed in the conductors (111, 131), respectively, and which the connection member (101) passes through, and conductor elements (121, 141) that are formed to be opposed to the openings (112, 132), that are connected to the connection member (101) passing through the openings (112, 132), and that are larger than the openings (112, 132). The number of layers in which the conductor elements (121, 141) are located is two or more and less than or equal to the number of layers in which the conductors (111, 131) are located.
    • 结构(10)包括导体(151),相对于导体(151)位于同一侧的与导体(151)的至少一部分相对的导体(111,131),以及 在平面图中看到彼此重叠的连接构件(101),其连接到与导体(151)连接并且与导体(111,131)绝缘的导体(111,131,151) ),分别形成在导体(111,131)中并且连接构件(101)通过的开口(112,132)以及形成为与开口相对的导体元件(121,141) (112,132),其连接到穿过所述开口(112,132)的所述连接构件(101),并且大于所述开口(112,132)。 导体元件(121,141)所在的层数为两个以上且小于等于导体(111,131)所在的层数。
    • 23. 发明申请
    • CONNECTION STRUCTURE OF TERMINAL TO ELECTRIC WIRE
    • 端子到电线的连接结构
    • US20120329318A1
    • 2012-12-27
    • US13583143
    • 2011-03-23
    • Hiroshi AokiNaoki Kobayashi
    • Hiroshi AokiNaoki Kobayashi
    • H01R13/52
    • H01R4/02H01R4/023H01R4/029H01R4/723H01R12/57H01R43/0207
    • In a connection structure of a terminal (10), a distal end of the electric wire (W) is inserted into the electric wire connection part (12) of the terminal (10) and a conductor (Wa) and a portion of an insulating sheath (Wb) of the electric wire (W) are placed on an upper surface of the base plate parts (21, 23) and the conductor (Wa) is bonded to the base plate parts (21, 23) by welding in that state, a portion of at least the conductor (Wa) of the distal end of the electric wire (W) inserted into the electric wire connection part (12) is covered with a metallic cover member (30) and the conductor (Wa) is bonded to the base plate parts (21, 23) together with the cover member (30) by welding.
    • 在端子(10)的连接结构中,电线(W)的前端插入端子(10)的电线连接部(12)中,导体(Wa)和绝缘体 电线(W)的护套(Wb)被放置在基板部件(21,23)的上表面上,并且在该状态下通过焊接将导体(Wa)接合到基板部件(21,23) 至少插入电线连接部分(12)中的电线(W)的远端的导体(Wa)的一部分被金属盖构件(30)覆盖,导体(Wa)被接合 通过焊接与盖构件(30)一起连接到基板部件(21,23)。
    • 25. 发明授权
    • Printed board design system and method including decoupling capacitor arrangement examination unit
    • 印刷电路板设计系统及方法,包括去耦电容布置检查单元
    • US08271925B2
    • 2012-09-18
    • US12628350
    • 2009-12-01
    • Naoki Kobayashi
    • Naoki Kobayashi
    • G06F17/50
    • H05K3/0005G06F17/5077H05K1/0231H05K2201/093H05K2201/09309H05K2201/10689
    • A decoupling capacitor pin position information obtain unit calculates based on board design data of a printed board, position information indicating positions of decoupling capacitors on the printed board. A power supply plane position/shape information obtain unit calculates based on the board design data, position/shape information indicating a position and shape of a power supply plane of the printed board. A restriction condition input unit collects restriction conditions from an input device. A decoupling capacitor examination unit judges based on the position information, the position/shape information and the restriction conditions, whether or not arrangement of the decoupling capacitors is adequate. Therefore, a designer, while designing arrangement/wiring of the printed board, can check in real time whether or not the arrangement of the decoupling capacitors is adequate, and thus can design at higher speed a printed board in which arrangement of decoupling capacitors is adequate.
    • 去耦电容针脚位置信息获取单元根据印刷电路板的板设计数据计算位置信息,指示印刷电路板上去耦电容器的位置。 供电平面位置/形状信息获取单元基于板设计数据,指示印刷板的电源平面的位置和形状的位置/形状信息来计算。 限制条件输入单元从输入装置收集限制条件。 去耦电容器检查单元基于位置信息,位置/形状信息和限制条件判断去耦电容器的布置是否足够。 因此,设计人员在设计印刷电路板的布置/接线时,可以实时检查去耦电容器的布置是否足够,从而可以更高速度设计去耦电容器布置足够的印刷电路板 。
    • 26. 发明授权
    • Memory device and device and method for detecting motion vector
    • 用于检测运动矢量的记忆装置及装置及方法
    • US08073058B2
    • 2011-12-06
    • US12559212
    • 2009-09-14
    • Tetsujiro KondoWataru NiitsumaNaoki Kobayashi
    • Tetsujiro KondoWataru NiitsumaNaoki Kobayashi
    • H04N7/12G06K9/36
    • H04N5/145G06T7/231G06T2200/28G06T2207/10016G11C7/1006G11C11/565H04N19/43H04N19/436H04N19/51H04N19/61
    • This invention relates to a memory device and the like that are preferably applied to a case where motion vector is detected using a block matching. Pixel data of a first frame (a reference frame) is stored in a unit A of memory cell array portion 20a in straight binary format. Pixel data of a second frame (a search frame) is stored in a unit B of memory cell array portion 20b in two's complement format. The units A and B have a plurality of memory cells, respectively. Word lines WL related to the pixel data of the first and second frames are simultaneously activated so that charges accumulated in capacitors of each of the memory cells can be combined along one bit line BL. A/D converter 53 outputs a digital signal (absolute difference value) having a value that corresponds to a total amount of charges. When reading the pixel data, a subtraction and a conversion into the absolute difference value are simultaneously performed.
    • 本发明涉及优选地应用于使用块匹配检测运动矢量的情况的存储器件等。 第一帧(参考帧)的像素数据以直二进制格式存储在存储单元阵列部分20a的单元A中。 第二帧(搜索帧)的像素数据以二进制格式存储在存储单元阵列部分20b的单元B中。 单元A和B分别具有多个存储单元。 与第一和第二帧的像素数据相关的字线WL被同时激活,使得可以沿着一个位线BL组合每个存储单元的电容器中积累的电荷。 A / D转换器53输出具有与总电荷量对应的值的数字信号(绝对差值)。 当读取像素数据时,同时执行减法和转换成绝对差值。
    • 28. 发明授权
    • Electric-motor three-wheeled vehicle
    • 电动三轮车
    • US07926608B2
    • 2011-04-19
    • US12166105
    • 2008-07-01
    • Yoshiyuki HoriiKatsumi SahodaNaoki KobayashiKoji AokiKuniaki IkuiTakashi Sone
    • Yoshiyuki HoriiKatsumi SahodaNaoki KobayashiKoji AokiKuniaki IkuiTakashi Sone
    • B60K1/00
    • B62K5/027B62K2202/00B62K2204/00
    • An electric-motor three-wheeled vehicle includes a motor for applying a drive force to drive wheels, a motor control unit for controlling the motor, a secondary battery for storing electric power generated by a fuel cell, a rear body supporting a pair of left and right rear wheels and a connecting mechanism for connecting the rear body with a front body so as to tilt the front body while the rear wheels are in contact with the ground. The secondary battery is housed in the inside of a luggage carrier above the rear wheels. The motor and the motor control unit, including a motor driver and a main CPU, are mounted between the left and right rear wheels. The voltage converter increases or decreases the voltage of the electric power supplied from the fuel cell. The control drivers controls a supercharger of reaction gas and a electric pump of cooling water.
    • 电动机三轮车包括用于向驱动轮施加驱动力的电动机,用于控制电动机的电动机控制单元,用于存储由燃料电池产生的电力的二次电池,支撑一对左侧的后部体 右后轮和用于将后体与前身连接的连接机构,以便在后轮与地面接触的同时倾斜前身。 二次电池被容纳在后轮上方的行李架的内部。 电动机和电动机控制单元(包括电动机驱动器和主CPU)安装在左后轮和右后轮之间。 电压转换器增加或减少从燃料电池供应的电力的电压。 控制驱动器控制反应气体的增压器和冷却水的电动泵。