公开(公告)号：US07348931B2

公开(公告)日：2008-03-25

申请号：US11497737

申请日：2006-08-02

Applicant: Hiromichi Suzuki ,  Isao Ohba ,  Takayuki Shibuya ,  Yusuke Okada ,  Kenji Matsuzaki

Inventor： Hiromichi Suzuki ,  Isao Ohba ,  Takayuki Shibuya ,  Yusuke Okada ,  Kenji Matsuzaki

IPC: H01Q1/50

CPC classification number: H01Q1/50

Abstract: An antenna device which is connected to a radio module performing radio communications with a system using a first band and a system using a second band, has an antenna element which transmits/receives radio signals in the first and second bands. The antenna device has first and second matching circuits corresponding to the first and second bands, and also disposes a switching circuit between the first and second bands and the radio module. A first filter circuit is connected between the first matching circuit and the antenna element. The first filter circuit passes the radio signal in the first band and also attenuates the radio signal in the second band. Meanwhile, a second filter circuit is connected between the second matching circuit and the antenna element. The second filter circuit passes the radio signal in the second band and also attenuates the radio signal in the first band.

Abstract translation: 连接到与使用第一频带的系统进行无线电通信的无线电模块和使用第二频带的系统的天线装置具有在第一和第二频带中发送/接收无线电信号的天线单元。 天线装置具有对应于第一和第二频带的第一和第二匹配电路，并且还在第一和第二频带与无线电模块之间配置切换电路。 第一滤波电路连接在第一匹配电路和天线元件之间。 第一滤波器电路通过第一频带中的无线电信号，并且还使第二频带中的无线电信号衰减。 同时，第二滤波电路连接在第二匹配电路和天线元件之间。 第二滤波器电路通过第二频带中的无线电信号，并且还使第一频带中的无线电信号衰减。

公开(公告)号：US5915309A

公开(公告)日：1999-06-29

申请号：US973853

申请日：1998-04-06

Applicant: Seiichi Nakai ,  Ryozo Shiji ,  Takeshi Matsui ,  Norihiro Aoki ,  Yoshimasa Miura ,  Yusuke Okada

Inventor： Seiichi Nakai ,  Ryozo Shiji ,  Takeshi Matsui ,  Norihiro Aoki ,  Yoshimasa Miura ,  Yusuke Okada

IPC: F23G5/14 ,  F23G5/30 ,  F23B5/00 ,  F23D21/00

CPC classification number: F23G5/30 ,  F23G5/14 ,  F23G2202/101 ,  F23G2203/502

Abstract: The oblique bed wall (6) of the furnace main unit (1) is inclined in downward direction towards the ash discharge outlet (5). Oblique side walls (24R, 24L) are formed in the right and left side walls (1c, 1d) on the inlet (4) side of the furnace main unit (1), and fluidized bed material (S) blown up from the side fluid layers (RS, LS) is guided into the central fluid layer (CS). The fluidized bed material (S) is caused to circulate in succession from the central fluid layer (CS) at the inlet (4) side towards the central fluid layer (CS) at the ash discharge outlet (5) side towards side fluid layers (RS, LS) at the ash discharge outlet (5) side towards side fluid layers (RS, LS) at the inlet (4) side towards central fluid layer (CS) at the inlet (4) side, by dispersive air emitted from dispersive air pipes (21A, 21B, 25). In this way, the fluidized bed material (S) is caused to circulate in virtually a horizontal plane without partitioning walls. Slow combustion is conducted due to a slow fluid speed, particularly in the drying and pyrolyzing zone. Stable combustion is achieved, and generation of carbon monoxide and dioxin is suppressed.

Abstract translation: PCT No.PCT / JP97 / 01376 Sec。 371日期：1998年4月6日 102（e）日期1998年4月6日PCT 1997年4月21日PCT PCT。 公开号WO97 / 41390 日期1997年11月6日炉主体（1）的倾斜床壁（6）向下倾斜朝向排灰口（5）倾斜。 倾斜侧壁（24R，24L）形成在炉主体（1）的入口（4）侧的左右侧壁（1c，1d）中，从侧面吹出的流化床材料（S） 流体层（RS，LS）被引导到中心流体层（CS）中。 使流化床材料（S）从入口（4）侧的中心流体层（CS）连续循环到在灰分排出口（5）侧朝向侧流体层（ （4）侧的侧流体层（RS，LS）在入口（4）侧的中心流体层（CS）处的灰分排出口（5）侧的分散空气 空气管（21A，21B，25）。 以这种方式，使流化床材料（S）在几乎水平的平面中循环而没有分隔壁。 由于流体速度慢，特别是在干燥和热解区域，进行缓慢燃烧。 实现稳定的燃烧，抑制一氧化碳和二恶英的产生。

公开(公告)号：US08605168B2

公开(公告)日：2013-12-10

申请号：US13362304

申请日：2012-01-31

Applicant: Yusuke Okada ,  Sanzo Ugawa ,  Takeo Azuma ,  Taro Imagawa

Inventor： Yusuke Okada ,  Sanzo Ugawa ,  Takeo Azuma ,  Taro Imagawa

IPC: H04N9/73

CPC classification number: H04N9/045 ,  H04N5/23232 ,  H04N5/3537 ,  H04N5/35509

Abstract: An image capture device according to the embodiment of the present invention includes an image capture section 20 for reading a pixel signal of a first color component at a low frame rate and reading a pixel signal of a second color component at a high frame rate, and a frame rate correction section 22. The image capture section 20 performs non-destructive read of the pixel signal of the first color component in synchronization with the timing at which the pixel signal of the second color component is read during a charge accumulation time period defined by the first frame rate.

Abstract translation: 根据本发明的实施例的图像捕获装置包括：图像捕获部分20，用于以低帧速率读取第一颜色分量的像素信号，并以高帧速率读取第二颜色分量的像素信号;以及 帧速率校正部分22.图像捕获部分20与在定义的电荷累积时间段期间读取第二颜色分量的像素信号的定时同步地执行第一颜色分量的像素信号的非破坏性读取 按第一帧速率。

公开(公告)号：US08692177B2

公开(公告)日：2014-04-08

申请号：US13562062

申请日：2012-07-30

Applicant: Shigetaka Kasuga ,  Motonori Ishii ,  Sanzo Ugawa ,  Yusuke Okada

Inventor： Shigetaka Kasuga ,  Motonori Ishii ,  Sanzo Ugawa ,  Yusuke Okada

IPC: H01L27/00 ,  H01J40/14 ,  H03K17/78

CPC classification number: H04N5/37455 ,  H04N5/3575 ,  H04N5/378

Abstract: A solid-state imaging device includes an imager including pixels arranged in a matrix, and analog to digital (AD) converters, each of which is provided in each pixel column and converts a signal voltage read from one of the pixels located in the column to a digital value. Each of the AD converters includes a comparator and a counter section including a counter circuit, which receives a comparison result of the comparator and includes a first D flip-flop (DFF) for n-bits, and a transfer circuit, which includes a second DFF for n-bits holding and outputting a count value of the counter circuit. The second DFFs provided in the columns are coupled in series to form a transfer section transferring the signal voltage which has been digitally converted.

Abstract translation: 固态成像装置包括：成像器，其包括以矩阵形式排列的像素;以及模数（AD）转换器，每个转换器设置在每个像素列中，并将从列中的一个像素读出的信号电压转换为 数字值。 每个AD转换器包括比较器和包括计数器电路的计数器部分，该计数器电路接收比较器的比较结果，并且包括用于n位的第一D触发器（DFF）和传输电路，其包括第二 DFF用于n位保持并输出计数器电路的计数值。 列中提供的第二DFF串联耦合以形成传送已被数字转换的信号电压的传送部分。

公开(公告)号：US08570421B2

公开(公告)日：2013-10-29

申请号：US13478628

申请日：2012-05-23

Applicant: Yusuke Okada ,  Takeo Azuma ,  Sanzo Ugawa ,  Taro Imagawa

Inventor： Yusuke Okada ,  Takeo Azuma ,  Sanzo Ugawa ,  Taro Imagawa

IPC: H04N3/14 ,  H04N5/335 ,  H04N5/228 ,  H04N9/07 ,  H04N9/04 ,  H01L27/00

CPC classification number: H04N5/3728 ,  G06T3/4015 ,  H04N5/347 ,  H04N9/045

Abstract: In one embodiment, an image sensor includes, a bank 301 of charge-coupled devices, and charge sensing amplifiers 302, each of which transforms electric charges extracted from an associated pixel into an electrical signal. After the electric charges accumulated in every pixel have been extracted to the charge-coupled devices 301 at the same time, a color component with a high resolution is output to a horizontal transfer path 316 via the charge sensing amplifiers 302 and then output to a device outside of the image sensor. Thereafter, pixel signals representing another low-resolution color component are vertically added together on the bank 301 of charge-coupled devices. Those pixel signals are horizontally added together on the horizontal transfer path 316 and output. The image obtained by this image sensor is then input to an image processing section, thereby obtaining an output color image with a high resolution and a high frame rate.

Abstract translation: 在一个实施例中，图像传感器包括电荷耦合器件的存储体301和电荷感测放大器302，每个电荷感测放大器302将从相关像素提取的电荷转换为电信号。 在每个像素中累积的电荷已经同时提取到电荷耦合器件301之后，具有高分辨率的色彩分量经由电荷感测放大器302输出到水平传输路径316，然后输出到器件 在图像传感器外面。 此后，代表另一低分辨率颜色分量的像素信号在电荷耦合器件的组301上垂直相加。 这些像素信号在水平传送路径316上水平相加在一起并输出。 然后将由该图像传感器获得的图像输入到图像处理部分，从而获得具有高分辨率和高帧率的输出彩色图像。

公开(公告)号：US20120292485A1

公开(公告)日：2012-11-22

申请号：US13562062

申请日：2012-07-30

Applicant: Shigetaka Kasuga ,  Motonori Ishii ,  Sanzo Ugawa ,  Yusuke Okada

Inventor： Shigetaka Kasuga ,  Motonori Ishii ,  Sanzo Ugawa ,  Yusuke Okada

IPC: H01L27/146

CPC classification number: H04N5/37455 ,  H04N5/3575 ,  H04N5/378

Abstract: A solid-state imaging device includes an imager including pixels arranged in a matrix, and AD converters, each of which is provided in each pixel column and converts a signal voltage read from one of the pixels located in the column to a digital value. Each of the AD converters includes a comparator and a counter section including a counter circuit, which receives a comparison result of the comparator and includes a first DFF for n bits, and a transfer circuit, which includes a second DFF for n bits holding and outputting a count value of the counter circuit. The second DFFs provided in the columns are coupled in series to form a transfer section transferring the signal voltage which has been digitally converted.

Abstract translation: 固态成像装置包括：成像器，其包括排列成矩阵的像素;以及AD转换器，每个像素列设置在每个像素列中，并将从列中的一个像素读出的信号电压转换为数字值。 每个AD转换器包括比较器和包括计数器电路的计数器部分，该计数器电路接收比较器的比较结果并且包括用于n位的第一DFF，以及传输电路，其包括用于n位保持和输出的第二DFF 计数器电路的计数值。 列中提供的第二DFF串联耦合以形成传送已被数字转换的信号电压的传送部分。

公开(公告)号：US20120229669A1

公开(公告)日：2012-09-13

申请号：US13478628

申请日：2012-05-23

Applicant: Yusuke OKADA ,  Takeo AZUMA ,  Sanzo UGAWA ,  Taro IMAGAWA

Inventor： Yusuke OKADA ,  Takeo AZUMA ,  Sanzo UGAWA ,  Taro IMAGAWA

IPC: H04N5/335 ,  H04N5/228

CPC classification number: H04N5/3728 ,  G06T3/4015 ,  H04N5/347 ,  H04N9/045

Abstract: In one embodiment, an image sensor includes, a bank 301 of charge-coupled devices, and charge sensing amplifiers 302, each of which transforms electric charges extracted from an associated pixel into an electrical signal. After the electric charges accumulated in every pixel have been extracted to the charge-coupled devices 301 at the same time, a color component with a high resolution is output to a horizontal transfer path 316 via the charge sensing amplifiers 302 and then output to a device outside of the image sensor. Thereafter, pixel signals representing another low-resolution color component are vertically added together on the bank 301 of charge-coupled devices. Those pixel signals are horizontally added together on the horizontal transfer path 316 and output. The image obtained by this image sensor is then input to an image processing section, thereby obtaining an output color image with a high resolution and a high frame rate.

Abstract translation: 在一个实施例中，图像传感器包括电荷耦合器件的存储体301和电荷感测放大器302，每个电荷感测放大器302将从相关像素提取的电荷转换为电信号。 在每个像素中累积的电荷已经同时提取到电荷耦合器件301之后，具有高分辨率的色彩分量经由电荷感测放大器302输出到水平传输路径316，然后输出到器件 在图像传感器外面。 此后，代表另一低分辨率颜色分量的像素信号在电荷耦合器件的组301上垂直相加。 这些像素信号在水平传送路径316上水平相加在一起并输出。 然后将由该图像传感器获得的图像输入到图像处理部分，从而获得具有高分辨率和高帧率的输出彩色图像。

公开(公告)号：US20120127337A1

公开(公告)日：2012-05-24

申请号：US13362304

申请日：2012-01-31

Applicant: Yusuke Okada ,  Sanzo Ugawa ,  Takeo Azuma ,  Taro Imagawa

Inventor： Yusuke Okada ,  Sanzo Ugawa ,  Takeo Azuma ,  Taro Imagawa

IPC: H04N9/73

CPC classification number: H04N9/045 ,  H04N5/23232 ,  H04N5/3537 ,  H04N5/35509

Abstract: An image capture device according to the embodiment of the present invention includes an image capture section 20 for reading a pixel signal of a first color component at a low frame rate and reading a pixel signal of a second color component at a high frame rate, and a frame rate correction section 22. The image capture section 20 performs non-destructive read of the pixel signal of the first color component in synchronization with the timing at which the pixel signal of the second color component is read during a charge accumulation time period defined by the first frame rate.

Abstract translation: 根据本发明的实施例的图像捕获装置包括：图像捕获部分20，用于以低帧速率读取第一颜色分量的像素信号，并以高帧速率读取第二颜色分量的像素信号;以及 帧速率校正部分22.图像捕获部分20与在定义的电荷累积时间段期间读取第二颜色分量的像素信号的定时同步地执行第一颜色分量的像素信号的非破坏性读取 按第一帧速率。

公开(公告)号：US08721486B2

公开(公告)日：2014-05-13

申请号：US13140919

申请日：2009-12-22

Applicant: Stephen William Murray ,  Yusuke Okada

Inventor： Stephen William Murray ,  Yusuke Okada

IPC: F16H37/02

CPC classification number: F16H37/086 ,  F16H61/664 ,  F16H2037/0886 ,  F16H2061/6601 ,  F16H2061/6609

Abstract: A continuously variable transmission having a variator (5) comprising input discs (2) coupled to an input shaft (12) and an output disc (3) providing a rotary variator output. The input and output discs are mounted for rotation about a common axis and at last one roller (4) is arranged between the discs to transfer drive from one to the other at a continuously variable variator drive ratio. The roller is mounted in a carrier (30) in a manner which permits it to spin about its own axis and to tilt relative to the disks to vary the variator drive ratio. A hydraulic actuator (22) is arranged to apply to the carrier (30) a reaction force determined by a hydraulic pressure difference acting on the actuator. The reaction force opposes a traction force applied to the roller (4) by the action of the discs (2, 3). Power-recirculation gearing (6), preferably in the form of planetary gearing, receives as inputs the rotation of the input shaft (12) and the rotary variator output, and produces an output speed which is a function of both its inputs.

Abstract translation: 一种具有变速器（5）的无级变速器，变速器（5）包括联接到输入轴（12）的输入盘（2）和提供旋转变换器输出的输出盘（3）。 输入和输出盘被安装为围绕公共轴线旋转，并且最后一个辊（4）布置在盘之间，以可变变速器驱动比将驱动器从一个传递到另一个。 辊子以允许其围绕其自身的轴线旋转并相对于盘倾斜以改变变速器驱动比率的方式安装在载体（30）中。 液压致动器（22）被布置成向载体（30）施加由作用在致动器上的液压压力差确定的反作用力。 反作用力通过盘（2,3）的作用抵抗施加到辊（4）的牵引力。 优选地以行星齿轮形式的动力再循环齿轮（6）接收输入轴（12）和旋转变换器输出的旋转作为输入，并产生作为其输入的函数的输出速度。

公开(公告)号：US20140013835A1

公开(公告)日：2014-01-16

申请号：US14008055

申请日：2012-03-29

Applicant: Yusuke Okada ,  Hiroshi Fukuda ,  Hideaki Magome

Inventor： Yusuke Okada ,  Hiroshi Fukuda ,  Hideaki Magome

IPC: G01N3/44 ,  G01N35/00

CPC classification number: G01N3/44 ,  G01N3/42 ,  G01N35/0099 ,  Y10S901/44

Abstract: Provided is an in-line hardness inspection apparatus, which can perform total inspection of hardness of work in a non-destructive manner in a manufacture line. Also provided are an in-line hardness inspection method and a robot. An in-line hardness inspection apparatus of the present invention has: a robot having a hardness inspection unit that inspects hardness of work; a work transfer means, which constitutes a part of a manufacture line, and transfers, to the robot, the work to be inspected; and a control means, which makes the robot perform the hardness inspection with respect to the work transferred by means of the work transfer means.

Abstract translation: 提供一种在线硬度检查装置，其可以在制造线中以非破坏性的方式对工件的硬度进行全面检查。 还提供了在线硬度检查方法和机器人。 本发明的在线硬度检查装置具有：具有检查作业硬度的硬度检查单元的机器人; 构成制造线的一部分的工件转移装置，并将要检查的工件传送给机器人; 以及控制装置，其使得机器人相对于通过工件传送装置传送的作业执行硬度检查。