公开(公告)号：JP2009118503A

公开(公告)日：2009-05-28

申请号：JP2008329670

申请日：2008-12-25

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  Funai Electric Co Ltd ,  株式会社船井電機新応用技術研究所 ,  船井電機株式会社

Inventor： TAKANO RIKUO ,  SUGIYAMA KIYOSHI ,  FUKUOKA TOSHIMI

IPC: H04R1/40 ,  H04M1/00 ,  H04M1/02 ,  H04M1/03 ,  H04R1/02 ,  H04R3/00

Abstract: PROBLEM TO BE SOLVED: To provide an interactive-type voice input device, its manufacturing method and an information processing system, capable of reducing the size, and of realizing the high-accuracy noise removal function. SOLUTION: This voice input device is an interactive-type voice input device and includes a first microphone 10 having a first vibrating film 12; a second microphone 20, having a second vibrating film 22 and a difference signal generating part 30 generating a difference signal, indicating the difference between a first voltage signal acquired by the first microphone 10; and a second voltage signal acquired by the second microphone 10. The first and second vibrating films 12 and 22 are arranged so that the noise intensity ratio of indicating the ratio of intensity of a noise component, included in the difference signal to intensity of a noise component included in the first or second voltage signal, becomes smaller than the voice intensity ratio of indicating the ratio of the intensity of an input voice component included in the difference signal to the intensity of an input voice component included in the first or second voltage signal. COPYRIGHT: (C)2009,JPO&INPIT

Abstract translation: 要解决的问题：提供能够减小尺寸并实现高精度噪声消除功能的交互式语音输入装置，其制造方法和信息处理系统。 解决方案：该语音输入装置是交互式语音输入装置，包括具有第一振动膜12的第一麦克风10; 第二麦克风20具有第二振动膜22和产生差分信号的差分信号产生部分30，指示由第一麦克风10获取的第一电压信号之间的差; 以及由第二麦克风10获取的第二电压信号。第一和第二振动膜12和22被布置成使得指示包括在差分信号中的噪声分量的强度与噪声强度之间的比率的噪声强度比 包括在第一或第二电压信号中的分量变得小于指示包括在差分信号中的输入语音分量的强度与包括在第一或第二电压信号中的输入语音分量的强度的比率的语音强度比 。 版权所有（C）2009，JPO＆INPIT

公开(公告)号：JP2009068952A

公开(公告)日：2009-04-02

申请号：JP2007236708

申请日：2007-09-12

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  Funai Electric Co Ltd ,  株式会社船井電機新応用技術研究所 ,  船井電機株式会社

Inventor： SHIMOMURA TAKESHI ,  SUMIYA TORU ,  MASUDA YUICHIRO ,  ONO MASATOSHI

IPC: G01N25/16 ,  G01N21/27 ,  G01N21/41 ,  G01N37/00

CPC classification number: G01N21/171 ,  G01N2021/1712

Abstract: PROBLEM TO BE SOLVED: To miniaturize a material-detecting device, based on heat lens spectroscopy and also to provide a detecting method to detect rapidly with simple operations using the material-detecting device.
SOLUTION: The material-detecting device 100 to detect matters in a sample S comprises a sample stand 6 fixed in position; an exciting light source 2 to inject an exciting light into the sample S on the sample stand 6 via an objective lens 5a; a detecting light source 2 to inject a detecting light via the objective lens 5a into a thermal lens formed, by irradiating the sample S with the exciting light; and a driving section 5b to move the objective lens 5a horizontally and vertically, wherein the device is constructed to detect matters by measuring diffusion of the detecting light due to the thermal lens, and the objective lens 5a serves an optical pickup objective lens and also a bifocal lens, constituted so as to prevent the focal position of the exciting light and the focal position of the detecting light from coinciding inside the sample S.
COPYRIGHT: (C)2009,JPO&INPIT

Abstract translation: 要解决的问题：为了使材料检测装置基于热透镜光谱法小型化，并且还提供使用材料检测装置的简单操作来快速检测的检测方法。 检测样品S中的物质的材料检测装置100包括固定在位的样品台6。 激励光源2，经由物镜5a向样品台6上的样品S注入激发光; 检测光源2，通过经由物镜5a将检测光注入到形成的热透镜中，通过用激发光照射样品S; 以及用于水平和垂直地移动物镜5a的驱动部分5b，其中该装置被构造成通过测量由于透镜而导致的检测光的扩散来检测物体，并且物镜5a用于光学拾取物镜，并且还 双焦点透镜，其构造为防止激发光的焦点位置和检测光的焦点位置在样品S内部重合。（C）2009年，JPO和INPIT

公开(公告)号：JP2009049287A

公开(公告)日：2009-03-05

申请号：JP2007215864

申请日：2007-08-22

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  Funai Electric Co Ltd ,  株式会社船井電機新応用技術研究所 ,  船井電機株式会社

Inventor： FURUTA SHIGEO ,  TAKAHASHI TAKESHI ,  ONO MASATOSHI

IPC: H01L27/10 ,  B82B1/00

CPC classification number: H01L45/124 ,  H01L27/2463 ,  H01L45/04 ,  H01L45/12 ,  Y10S977/943 ,  Y10T29/49105

Abstract: PROBLEM TO BE SOLVED: To provide an efficiently-usable switching element; a manufacturing method of a switching element; and a manufacturing method of a memory element array capable of efficiently using arranged switching elements. SOLUTION: This switching element 1 is composed by including: an insulative substrate 10; a first electrode 20 and a second electrode 40 provided to the insulative substrate 10; an interelectrode gap part 50 formed between the first electrode 20 and the second electrode 40, comprising a gap of a nanometer order which causes a switching phenomenon of resistance by applying a predetermined voltage between the first electrode 20 and the second electrode 40; and a sealing member 60 to seal the interelectrode gap part 50 with the gap retained. COPYRIGHT: (C)2009,JPO&INPIT

Abstract translation: 要解决的问题：提供可有效利用的开关元件; 开关元件的制造方法; 以及能够有效地使用布置的开关元件的存储元件阵列的制造方法。 解决方案：该开关元件1包括：绝缘基板10; 设置在绝缘基板10上的第一电极20和第二电极40; 形成在第一电极20和第二电极40之间的电极间隙部分50，包括通过在第一电极20和第二电极40之间施加预定电压而引起电阻切换现象的纳米级的间隙; 以及用间隙保持密封电极间间隙50的密封构件60。 版权所有（C）2009，JPO＆INPIT

公开(公告)号：JP2009004643A

公开(公告)日：2009-01-08

申请号：JP2007165393

申请日：2007-06-22

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  Funai Electric Co Ltd ,  National Institute Of Advanced Industrial & Technology ,  株式会社船井電機新応用技術研究所 ,  独立行政法人産業技術総合研究所 ,  船井電機株式会社

Inventor： FURUTA SHIGEO ,  MASUDA YUICHIRO ,  TAKAHASHI TAKESHI ,  ONO MASATOSHI ,  NAITO YASUHISA ,  HORIKAWA MASAYO ,  SHIMIZU TETSUO

IPC: H01L45/00 ,  B82B1/00 ,  B82B3/00 ,  H01L29/41 ,  H01L49/00

CPC classification number: H01L45/04 ,  H01L45/1226 ,  H01L45/124

Abstract: PROBLEM TO BE SOLVED: To lower the operating voltage of a switching element.
SOLUTION: The switching element 100 comprises: an insulative substrate 10; a first electrode 20 and a second electrode 30 provided on one surface of the insulative substrate 10; and an interelectrode gap portion 40 which is provided between the first electrode 20 and the second electrode 30, and which has a gap such that a switching phenomenon of resistance occurs by applying predetermined voltage between the first electrode 20 and the second electrode 30, wherein the one surface of the insulative substrate 10 contains nitrogen.
COPYRIGHT: (C)2009,JPO&INPIT

Abstract translation: 要解决的问题：降低开关元件的工作电压。 解决方案：开关元件100包括：绝缘基板10; 设置在绝缘基板10的一个面上的第一电极20和第二电极30; 以及设置在第一电极20和第二电极30之间并且具有通过在第一电极20和第二电极30之间施加预定电压而发生电阻的切换现象的间隙的电极间间隙部分40，其中， 绝缘基板10的一个表面含有氮。 版权所有（C）2009，JPO＆INPIT

公开(公告)号：JP2009004641A

公开(公告)日：2009-01-08

申请号：JP2007165383

申请日：2007-06-22

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  Funai Electric Co Ltd ,  株式会社船井電機新応用技術研究所 ,  船井電機株式会社

Inventor： FURUTA SHIGEO ,  MASUDA YUICHIRO ,  TAKAHASHI TAKESHI ,  ONO MASATOSHI

IPC: H01L27/10

CPC classification number: H01L27/101 ,  B82Y10/00 ,  G11C13/003 ,  G11C2213/76 ,  H01L27/2418 ,  H01L45/04 ,  H01L45/124

Abstract: PROBLEM TO BE SOLVED: To facilitate data reading, writing, and erasure of a memory element array including switching elements having nanogaps as memory elements with simple configurations. SOLUTION: Disclosed is the memory element array 100 comprising a plurality of memory elements arranged in an array, wherein the memory elements are switching elements 70 each including a gap (nanogap) of nanometer order in which a switching phenomenon of resistance is caused by applying a predetermined voltage between electrodes (first electrode 20 and second electrode 60), and the memory element array is provided with tunnel elements 40 respectively connected to the switching elements 70 in series, each of the tunnel elements preventing generation of a sneak path current flowing to another switching element at a time of applying the predetermined voltage. COPYRIGHT: (C)2009,JPO&INPIT

Abstract translation: 要解决的问题：为了便于具有简单配置的具有纳米角的开关元件作为存储元件的存储元件阵列的数据读取，写入和擦除。 解决方案：公开了包括以阵列布置的多个存储器元件的存储元件阵列100，其中存储器元件是开关元件70，每个开关元件包括纳米级的间隙（纳米隙），其中引起电阻的切换现象 通过在电极（第一电极20和第二电极60）之间施加预定电压，并且存储元件阵列设置有分别与开关元件70串联连接的隧道元件40，每个隧道元件防止产生潜行路径电流 在施加预定电压时流向另一个开关元件。 版权所有（C）2009，JPO＆INPIT

公开(公告)号：JP2008037916A

公开(公告)日：2008-02-21

申请号：JP2006210755

申请日：2006-08-02

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  Funai Electric Co Ltd ,  Kokusai Kiban Zairyo Kenkyusho:Kk ,  株式会社国際基盤材料研究所 ,  株式会社船井電機新応用技術研究所 ,  船井電機株式会社

Inventor： TAKEUCHI YASUMASA ,  IGUCHI TAKAYASU ,  SAKAKIBARA MITSUHIKO

IPC: C08L101/00 ,  C08K3/34 ,  C08K7/06

Abstract: PROBLEM TO BE SOLVED: To provide a highly heat-conductive thermoplastic elastomer composition excellent in heat conductivity and heat radiation ability and recyclable, and a sheet excellent in heat-conductive anisotropy comprising the same.
SOLUTION: The highly heat-conductive thermoplastic elastomer composition is prepared by blending 10-600 wt.% carbon fiber having ≥3 aspect ratio and ≥2μm length with the thermoplastic elastomer as a heat-conductive filler.
COPYRIGHT: (C)2008,JPO&INPIT

Abstract translation: 要解决的问题：提供导热性和热辐射能力和可回收性优异的高导热性热塑性弹性体组合物，以及包含该热塑性弹性体组合物的导热各向异性优异的片材。 解决方案：高导热性热塑性弹性体组合物通过将具有≥3倍纵横比和≥2μm长度的10-600重量％碳纤维与作为导热填料的热塑性弹性体共混来制备。 版权所有（C）2008，JPO＆INPIT

公开(公告)号：JP2007052236A

公开(公告)日：2007-03-01

申请号：JP2005237362

申请日：2005-08-18

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  株式会社船井電機新応用技術研究所

Inventor： SUZUKI MASAO ,  HIGUCHI TETSUYA

IPC: G02F1/19 ,  G09F9/30

Abstract: PROBLEM TO BE SOLVED: To develop a display element using precipitation dissolution of a metallic film having high reflectivity and to provide the display element capable of attaining full-color paper-like display of high performance using a color filter useful for technology of a liquid crystal display etc.
SOLUTION: The display element includes a transparent electrode, a metallic salt, an electrolyte including at least two or more kinds of the compounds expressed by general formula (1), and an electrode disposed to face the transparent electrode across the electrolyte. In the general formula (1), M denotes a periodic table group Vb atom; R
1 , R
2 , and R
3 denote substituted or unsubstituted aryl group and may be respectively the same or be different from each other.
COPYRIGHT: (C)2007,JPO&INPIT

Abstract translation: 要解决的问题：为了利用具有高反射率的金属膜的沉淀溶解来开发显示元件，并且提供能够使用有用于技术的滤色器来获得高性能的全色纸状显示器的显示元件 液晶显示器等。解决方案：显示元件包括透明电极，金属盐，包含至少两种或更多种通式（1）表示的化合物的电解质，以及电极，其被设置为面对 透明电极穿过电解液。 在通式（1）中，M表示周期表组Vb原子; R SB 1，R SB 2，R SB 3表示取代或未取代的芳基，可以分别相同也可以不同。 版权所有（C）2007，JPO＆INPIT

公开(公告)号：JP2013238400A

公开(公告)日：2013-11-28

申请号：JP2012109379

申请日：2012-05-11

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  株式会社船井電機新応用技術研究所 ,  Funai Electric Co Ltd ,  船井電機株式会社

Inventor： SUMIYA TORU ,  ONO MASATOSHI ,  SHIMOMURA TAKESHI

IPC: G01N27/416 ,  G01N27/327

Abstract: PROBLEM TO BE SOLVED: To provide a detection method for detecting a substance to be detected in a sample solution by an enzyme sensor, capable of quickly performing highly sensitive and precise detection with improved reproducibility.SOLUTION: A detection method includes: a formation step of forming a sealed space that stores an electrode 12 of an enzyme sensor 10 and an enzyme layer 13, communicates with a vacuum pump 30 via a first opening/closing valve 51, and communicates with a solution tank 40 via a second opening/closing valve 52; a pressure-reducing step of opening the first opening/closing valve 51 while the second opening/closing valve 51 has been closed and reducing pressure in the sealed space (inside a liquid reservoir forming unit 14) by the vacuum pump 30; a first valve closing step of closing the first opening/closing valve 51 when the sealed space reaches a predetermined pressure-reduced state; and an injection step of injecting solution in the solution tank 40 into the sealed space by opening the second opening/closing valve 52. After the injection step, a substance to be detected in the sample solution is detected.

Abstract translation: 要解决的问题：提供一种通过酶传感器检测样品溶液中待检测物质的检测方法，其能够以改进的再现性快速进行高灵敏度和精确的检测。解决方案：检测方法包括：形成步骤 形成存储酶传感器10和酶层13的电极12的密封空间，经由第一开闭阀51与真空泵30连通，经由第二开闭阀52与溶液罐40连通 ; 在第二开闭阀51关闭的同时打开第一开闭阀51的减压步骤，通过真空泵30在密封空间（液体储存器形成单元14内）减压; 第一阀关闭步骤，当所述密封空间达到预定压力降低状态时，关闭所述第一开闭阀51; 以及通过打开第二打开/关闭阀52将溶液槽40中的溶液注入密封空间的注射步骤。在注射步骤之后，检测样品溶液中待检测的物质。

公开(公告)号：JP2013238399A

公开(公告)日：2013-11-28

申请号：JP2012109378

申请日：2012-05-11

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  株式会社船井電機新応用技術研究所 ,  Funai Electric Co Ltd ,  船井電機株式会社

Inventor： SHIMOMURA TAKESHI ,  SUMIYA TORU ,  ONO MASATOSHI

IPC: G01N27/416 ,  G01N27/327

Abstract: PROBLEM TO BE SOLVED: To provide a sensor system capable of high-speed and high-sensitive measurement with a simple structure.SOLUTION: A sensor system 1 includes an enzyme sensor 10 that detects a substance contained in a predetermined sample as a detection object and inhibiting the activity of enzyme. The sensor system 1 determines the density of the detection object based on a ratio between a first response ratio, which is a ratio between a first reference side response value obtained before bringing a detection sensor part into contact with the sample and a first detection side response value, and a second response ratio, which is a ratio between a second reference side response value obtained after bringing the detection sensor part into contact with the sample and a second detection side response value. Here, the first reference side response value and the second reference side response value are output values output by a reference sensor part after a waiting time has elapsed since the output value of the reference sensor part due to the contact with the substrate has exceeded a response detection threshold value; the first detection side response value and the second detection side response value are output values output by the detection sensor part after a waiting time has elapsed since the output value of the detection sensor part due to the contact with the substrate has exceeded a response detection threshold value.

Abstract translation: 要解决的问题：提供一种能够以简单的结构进行高速和高灵敏度测量的传感器系统。解决方案：传感器系统1包括酶传感器10，其检测包含在预定样品中的物质作为检测对象， 抑制酶的活性。 传感器系统1基于第一响应比（第一响应比）来确定检测对象的密度，第一响应比是将检测传感器部分与样本接触之前获得的第一参考侧响应值与第一检测侧响应 值和第二响应比，其是使检测传感器部件与样品接触后获得的第二参考侧响应值与第二检测侧响应值之间的比率。 这里，第一参考侧响应值和第二参考侧响应值是由于与基板的接触引起的参考传感器部分的输出值超过响应之后经过等待时间之后由参考传感器部分输出的输出值 检测阈值; 第一检测侧响应值和第二检测侧响应值是由于与基板接触而导致的检测传感器部分的输出值超过响应检测阈值后经过等待时间之后由检测传感器部分输出的输出值 值。

公开(公告)号：JP2013053926A

公开(公告)日：2013-03-21

申请号：JP2011192318

申请日：2011-09-05

Applicant: Funai Electric Advanced Applied Technology Research Institute Inc ,  株式会社船井電機新応用技術研究所 ,  Funai Electric Co Ltd ,  船井電機株式会社

Inventor： SHIMOMURA TAKESHI ,  SUMIYA TORU ,  ONO MASATOSHI

IPC: G01N27/416 ,  G01N27/327

Abstract: PROBLEM TO BE SOLVED: To enable high-speed and high sensitive measurement by a simple structure.SOLUTION: A detection target substance measuring device 1 includes: a plurality of enzyme sensors 10 for detecting detection target substances; obtaining means 20 for obtaining a detection value and a base line value by a reference sensor which is not contacted with the detection target substances, of the plurality of the enzyme sensors 10, and obtaining a detection value and a base line value by a detection sensor which is in contact with the detection target substances; and density calculating means 30 for calculating the density of the detection target substances on the basis of an obtained result by the obtaining means 20. The obtaining means 20 can simultaneously obtain the detection value by the reference sensor and the detection value by the detection sensor. The density calculating means 30 calculates the density of the detection target substances, on the basis of a ratio of difference between the detection value and the base line value by the detection sensor which are obtained by the obtaining means 20 to difference between the detection value and the base line value by the reference sensor which are obtained by the obtaining means 20.

Abstract translation: 要解决的问题：通过简单的结构实现高速和高灵敏度测量。 检测对象物质测定装置1包括：检测检测对象物质的多个酶传感器10; 获取装置20，用于通过与多个酶传感器10不接触检测目标物质的参考传感器获得检测值和基线值，并且通过检测传感器获得检测值和基线值 与检测对象物质接触; 以及密度计算装置30，用于根据获得装置20的获得结果计算检测目标物质的浓度。获得装置20可以同时获得基准传感器的检测值和检测传感器的检测值。 密度计算装置30基于由获取装置20获得的检测传感器的检测值和基线值之间的差值与检测目标物质的检测值和检测目标物质的浓度之差 由获取装置20获得的参考传感器的基线值。（C）2013，JPO和INPIT