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    • 1. 发明专利
    • Liquid-reflecting mirror, illumination apparatus using the same and reflecting telescope using the liquid-reflecting mirror
    • 液体反射镜,使用它的照明设备和使用液体反射镜反射电影
    • JP2006208662A
    • 2006-08-10
    • JP2005019584
    • 2005-01-27
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROONABEDA SHUICHI
    • G02B5/10G02B23/00
    • PROBLEM TO BE SOLVED: To provide a focus-variable liquid reflecting mirror utilizing Moses's effect. SOLUTION: The liquid reflecting mirror is provided with a cylindrical enclosure 11, a yoke 12 which supports the enclosure 11 and a coil 13 wound around a first part 12b of the yoke 12. Nonmagnetic liquid materials 14, 15 are enclosed in the enclosure 11, and volume magnetic susceptibilities of the nonmagnetic liquid materials 14, 15 are different from each other. Therein, one side of principal plane 11a of the enclosure 11 is made to be incident, and outgoing face of light and the other principal plane 11b of the enclosure 11 or an interface between nonmagnetic liquid materials 14, 15 is made to be a reflecting surface. The liquid reflecting mirror has a constitution such that nonmagnetic liquid materials 14, 15 are enclosed in the enclosure 11 and a magnetic field is applied via the yoke 12, disposed on the other principal plane 11b side of the enclosure 11; and thus, optical path can be secured, without blocking one side principal plane 11a of the enclosure 11 which is the incident/outgoing face of light. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种利用摩西效果的可变焦液体反射镜。 解决方案:液体反射镜设置有圆柱形外壳11,支撑外壳11的轭12和缠绕在磁轭12的第一部分12b上的线圈13.非磁性液体材料14,15封闭在 外壳11和非磁性液体材料14,15的体积磁化率彼此不同。 其中,壳体11的主面11a的一侧被入射,并且外壳11的出射面和外壳11的另一主面11b或非磁性液体材料14,15之间的界面被制成为反射表面 。 液体反射镜具有使非磁性液体材料14,15封闭在外壳11中并且经由设置在外壳11的另一主面11b侧的磁轭12施加的磁场的结构; 因此可以确保光路,而不会阻挡作为光入射/出射面的外壳11的一侧主面11a。 版权所有(C)2006,JPO&NCIPI
    • 2. 发明专利
    • Non-contact temperature sensor
    • 非接触式温度传感器
    • JP2012237571A
    • 2012-12-06
    • JP2011104995
    • 2011-05-10
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROKOBAYASHI HIROSHIMATSUO YUTAKASHIRAKI SATOSHI
    • G01J5/06
    • PROBLEM TO BE SOLVED: To provide a non-contact temperature sensor which not only can prevent manufacturing man-hour and cost from increasing, productivity from reducing, and work environment from deteriorating, but also suppress sensitivity error and sensibility decrease of a sensor.SOLUTION: For example, a guiding barrel 30A of the non-contact temperature sensor has a trunk 31 composed of a long side walls 31L and 31L, short side walls 31S and 31S. The trunk 31 has non-light guide means including blades 41L1, 41L2, 41S1 and 41S2, and pores 51L1, 51L2, 51S1 and 51S2, which prevents the infrared component progressing towards an inner wall or reflected by the inner wall among radiated infrared rays IR entering the inside of the guiding barrel 30A through its opening P from reaching a reception range including a heat sensitive element for infrared detection.
    • 要解决的问题:提供一种非接触式温度传感器,其不仅可以防止制造工时和成本提高,生产率从减少和工作环境劣化,而且抑制灵敏度误差和敏感性降低 传感器。 解决方案:例如,非接触式温度传感器的引导筒30A具有由长侧壁31L和31L,短侧壁31S和31S构成的主体31。 躯干31具有包括叶片41L1,41L2,41S1和41S2以及孔51L1,51L2,51S1和51S2的非光导装置,其防止红外成分向内壁前进或由辐射红外线IR中的内壁反射 通过其开口P进入引导筒30A的内部,到达包括用于红外检测的热敏元件的接收范围。 版权所有(C)2013,JPO&INPIT
    • 4. 发明专利
    • Ceramic capacitor and mounting structure thereof
    • 陶瓷电容器及其安装结构
    • JP2007220751A
    • 2007-08-30
    • JP2006037026
    • 2006-02-14
    • Tdk CorpTdk株式会社
    • TOGASHI MASAAKISHIODA KENTARO
    • H01G4/228H01G2/06
    • H01G2/065H01G4/232H01G4/30H05K3/3426H05K2201/10469H05K2201/10651H05K2201/10818Y02P70/613
    • PROBLEM TO BE SOLVED: To provide a mounting structure of a ceramic capacitor capable of reducing singing noise originated from a substrate, and to provide the ceramic capacitor, without adding a new restriction when the substrate is designed for mounting the capacitor. SOLUTION: A ceramic capacitor C1 comprises a ceramic sintered body 10, and terminal electrodes 2 and 3 formed in the surface outside the ceramic sintered body 10. The terminal electrodes 2 and 3 are electrically connected with lands A1 and B1 formed on a substrate S, via metal terminals 30 and 40. The metal terminals 30 and 40 comprises: capacitor connections 31 and 41 which are mechanically connected respectively to the terminal electrodes 2 and 3; terminals 32 and 42 which are mechanically connected to the lands; and intermediate portions 33 and 43 which connect electrically the capacitor connections 31 and 41 and the terminals 32 and 42. The capacitor connections 31 and 41 of the metal terminals 30 and 40 are parallel to the substrate S. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了提供一种陶瓷电容器的安装结构,其能够降低源自基板的声音噪声,并提供陶瓷电容器,而在基板被设计用于安装电容器时不增加新的限制。 解决方案:陶瓷电容器C1包括陶瓷烧结体10和形成在陶瓷烧结体10的外表面的端电极2和3。端电极2和3与形成在陶瓷烧结体10上的焊盘A1和B1电连接 金属端子30和40包括:电容器连接31和41,其分别机械地连接到端子电极2和3; 端子32和42机械连接到焊盘; 以及中间部分33和43,它们电连接电容器连接件31和41以及端子32和42.金属端子30和40的电容器连接件31和41平行于基板S.版权所有(C) 2007年,日本特许厅和INPIT
    • 5. 发明专利
    • Lc composite element
    • LC复合材料
    • JP2007067800A
    • 2007-03-15
    • JP2005250882
    • 2005-08-31
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROKONDO RYOICHISUZUKI EIJI
    • H03H7/075
    • H01G4/33
    • PROBLEM TO BE SOLVED: To provide an LC composite element wherein a mount efficiency of an inductor and a capacitor can be improved and the characteristic analysis as a filter can easily executed in comparison with that of a distributed constant type filter.
      SOLUTION: The inductor L1 and the capacitor C1 are formed by integrally winding first and second belt-like conductors 1, 2 via first and second belt-like dielectric bodies 3, 4. The inductor L1 is formed by winding a first conductor part 11 of the first belt-like conductor 1 on the magnetic core 7, and the capacitor C1 is formed by integrally winding a second conductor part 12 of the first belt-like conductor 1 and the second belt-like conductor 2 in a region outside the inductor L1. While the first and the second belt-like conductors 1, 2 are wound, the inductor L1 and the capacitor C1 are formed at different regions in a radial direction (diametrical direction) to equivalently form a lumped constant type LC filter.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种LC复合​​元件,其中可以提高电感器和电容器的安装效率,并且与分布常数型滤波器相比,可以容易地执行作为滤波器的特性分析。 解决方案:电感器L1和电容器C1通过第一和第二带状介电体3,4一体地卷绕第一和第二带状导体1,2而形成。电感器L1通过将第一导体 磁芯7上的第一带状导体1的第11部分,电容器C1通过将第一带状导体1和第二带状导体2的第二导体部分12整体地卷绕在外部区域 电感L1。 当缠绕第一和第二带状导体1,2时,电感器L1和电容器C1形成在径向(直径方向)的不同区域,以等效地形成集总常数型LC滤波器。 版权所有(C)2007,JPO&INPIT
    • 6. 发明专利
    • Liquid lens
    • 液晶镜头
    • JP2006208661A
    • 2006-08-10
    • JP2005019583
    • 2005-01-27
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROONABEDA SHUICHI
    • G02B3/14
    • PROBLEM TO BE SOLVED: To provide a focus-variable liquid lens that utilizes Moses's effect.
      SOLUTION: The liquid lens is provided with a cylindrical enclosure 11 and a cylindrical air core inductor 12 wound in the circumferential direction of the enclosure 11. Nonmagnetic liquid materials 13, 14 are enclosed in the enclosure 11, and volume magnetic susceptibilities and refractive indexes of the nonmagnetic liquid materials 13, 14 are different from each other. The liquid lens has a constitution such that the enclosure 11 is disposed on a hollow part of the cylindrical air-core inductor 12 and the nonmagnetic liquid materials 13, 14 are enclosed in the enclosure 11 and, thereby an optical path can be secured, without blocking principal planes 11a, 11b of the enclosure 11 which is to become a lens. Further, the air-core inductor 12 is wound in the circumferential direction of the enclosure 11, and thus, it is possible to generate a relatively large magnetic field gradient. Accordingly, relative increase of the variable range of focal distance can be made.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种利用摩西效果的可变焦液体透镜。

      解决方案:液体透镜设置有沿壳体11的圆周方向缠绕的圆柱形外壳11和圆柱形空心电感器12.非磁性液体材料13,14被封装在外壳11中,并且体积磁化率和 非磁性液体材料13,14的折射率彼此不同。 液体透镜具有外壳11设置在圆筒形空气感应器12的中空部分上的结构,非磁性液体材料13,14封闭在外壳11中,从而可以确保光路,而不需要 阻挡要成为透镜的外壳11的主平面11a,11b。 此外,空心电感器12沿外壳11的圆周方向缠绕,因此可以产生较大的磁场梯度。 因此,可以进行可变范围的焦距的相对增加。 版权所有(C)2006,JPO&NCIPI

    • 7. 发明专利
    • Angular velocity sensor element
    • 角速度传感器元件
    • JP2009243897A
    • 2009-10-22
    • JP2008087198
    • 2008-03-28
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROUNNO TAKESHI
    • G01C19/56G01P9/04
    • PROBLEM TO BE SOLVED: To provide an angular velocity sensor element capable of adjusting the vibration frequency of a vibration arm, and enhancing sensitivity and responsivity. SOLUTION: The angular velocity sensor element 1 pertaining to this embodiment has at least one vibration arm 2b, and a support frame 2 provided with a pair of supporting portions 2a, 2a for fixing both ends of the vibration arm 2b, and expansion/contraction portions 2b which couple the pair of supporting portions 2a, 2a and are capable of expansion and contraction. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种能够调节振动臂的振动频率并提高灵敏度和响应性的角速度传感器元件。 解决方案:本实施例的角速度传感器元件1具有至少一个振动臂2b和设置有用于固定振动臂2b的两端的一对支撑部分2a,2a的支撑框架2和膨胀 /收缩部分2b,其连接一对支撑部分2a,2a并且能够膨胀和收缩。 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Vibration gyro-sensor
    • 振动陀螺传感器
    • JP2009085715A
    • 2009-04-23
    • JP2007254434
    • 2007-09-28
    • Tdk CorpTdk株式会社
    • SUZUKI EIJISHIODA KENTARO
    • G01C19/56G01C19/5628
    • PROBLEM TO BE SOLVED: To provide a vibration gyro-sensor excelling in sensitivity characteristics and in response characteristics.
      SOLUTION: When reducing only the quality factor of a detection vibrator relating to the response characteristics of this vibration gyro-sensor with the quality factor left as it is of a driven vibrator relating to the sensitivity characteristics thereof, the response characteristics can be enhanced with the sensitivity characteristics maintained. Methods are suitable such as: (1) The resistance value of an electrode of the detection vibrator is made larger than that of an electrode of the driven vibrator; (2) The resistance value of an electrode material for forming an electrode of the detection vibrator is made larger than that of an electrode material forming an electrode of the driven vibrator; and (3) A conductive metal oxide is selected as an electrode material for forming an electrode of the detection vibrator while a metallic material is selected as an electrode material for forming an electrode of the driven vibrator.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供灵敏度特性和响应特性优异的振动陀螺仪。 解决方案:当仅降低与该振动陀螺仪传感器的响应特性有关的检测振动器的品质因数时,其质量因数与其灵敏度特性相关的驱动振动器相同,因此响应特性可以是 增强灵敏度特性保持。 方法是适合的,如:(1)检测振动器的电极的电阻值大于被驱动振动器的电极的电阻值; (2)用于形成检测振动器的电极的电极材料的电阻值大于形成驱动振动器的电极的电极材料的电阻值; 和(3)选择导电金属氧化物作为用于形成检测振动器的电极的电极材料,同时选择金属材料作为用于形成被驱动振动器的电极的电极材料。 版权所有(C)2009,JPO&INPIT
    • 9. 发明专利
    • Filter module
    • 过滤器模块
    • JP2007067981A
    • 2007-03-15
    • JP2005252919
    • 2005-08-31
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROTAKAHASHI MASAMI
    • H03H7/075H01F27/00
    • PROBLEM TO BE SOLVED: To provide a filter module that can be downsized without deteriorating a filter characteristic by magnetic coupling and heat dissipation performance. SOLUTION: The filter module includes: a filter structure 10 comprising an inductor 13 including a coil 12 and a capacitor 14 connected in series with the coil 12; and a filter structure 20 comprising an inductor 23 including a coil 22 and a capacitor 24 connected in series with the coil 22. The filter structures 10, 20 are configured to be integrally combined in a way that the capacitors 14, 24 are sandwiched between the inductors 13 and 23. Thus, the inductors are not directly in contact with each other and separated at least by the thickness of the capacitors. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种可以通过磁耦合和散热性能而不会使过滤器特性恶化的尺寸减小的过滤器模块。 滤波器模块包括:滤波器结构10,包括电感器13,电感器13包括线圈12和与线圈12串联连接的电容器14; 以及包括电感器23的滤波器结构20,其包括线圈22和与线圈22串联连接的电容器24.滤波器结构10,20被构造成一体地组合,使得电容器14,24夹在 电感器13和23.因此,电感器不直接彼此接触并且至少分离电容器的厚度。 版权所有(C)2007,JPO&INPIT
    • 10. 发明专利
    • Temperature sensor
    • 温度感应器
    • JP2012098088A
    • 2012-05-24
    • JP2010244377
    • 2010-10-29
    • Tdk CorpTdk株式会社
    • SHIODA KENTAROKOBAYASHI HIROSHI
    • G01J5/10G01J1/02
    • PROBLEM TO BE SOLVED: To provide a temperature sensor having excellent temperature followability and temperature compensation properties.SOLUTION: A temperature sensor comprises a temperature sensing element for detection 31 which outputs an electric signal corresponding to the temperature of a heat source and a plurality of lead wiring 41 and 42 drawn out from the temperature sensing element for detection 31. The plurality of lead wiring have a concentrated part 40 in which they are concentrated to a degree where they are thermally coupled to each other. The concentrated part 40 serves as thermal ground common to the plurality of lead wiring 41, 42, 43 and 44 and reduces the variation of thermal conditions of each lead wiring. Consequently, the thermal conditions of each lead wiring are uniformized and the temperature compensation performance is optimized.
    • 要解决的问题:提供具有优异的温度跟随性和温度补偿特性的温度传感器。 解决方案:温度传感器包括用于检测的温度感测元件31,其输出对应于热源的温度的电信号和从用于检测的温度感测元件41引出的多个引线布线41和42。 多个引线布线具有集中部分40,其中它们被集中到彼此热耦合的程度。 集中部分40用作多个引线41,42,43和44共同的热地,并减少每个引线布线的热条件的变化。 因此,每个引线的热条件均匀化,并且优化了温度补偿性能。 版权所有(C)2012,JPO&INPIT