公开(公告)号：US09010194B2

公开(公告)日：2015-04-21

申请号：US13538599

申请日：2012-06-29

Applicant: Jen-Huang Albert Chiou

Inventor： Jen-Huang Albert Chiou

IPC: G01L1/00 ,  H01R12/51 ,  H01R12/58 ,  G01L19/00 ,  G01L19/14

CPC classification number: G01L1/005 ,  G01L19/0084 ,  G01L19/148 ,  H01L2224/48137 ,  H01L2224/73265 ,  H01R12/51 ,  H01R12/585

Abstract: A pin and circuit board assembly includes at least three pins (24′, 24″). Each pin includes a first end (35) and a second end (37). All of the first ends of the pins are arranged on a common plane. The second ends of at least two of the pins are disposed on the common plane and a second end of at least one of the pins, other than the two pins, are disposed on a second plane that is offset from the common plane. The second end of each pin is spaced apart from a second end of another pin substantially at an angle of 360/N, where N is the total number of pins. A printed circuit board (22′) includes at least three pin holes (28′, 28″), each arranged to receive a second end of an associated pin in a press-fit arrangement. The assembly avoids tilting of the PCB upon inserting the pins.

Abstract translation: 销和电路板组件包括至少三个销（24'，24“）。 每个销包括第一端（35）和第二端（37）。 销的所有第一端都布置在公共平面上。 至少两个销的第二端设置在公共平面上，并且除了两个销之外的至少一个销的第二端设置在从公共平面偏移的第二平面上。 每个销的第二端与另一个销的第二端基本上以360 / N的角度间隔开，其中N是销的总数。 印刷电路板（22'）包括至少三个销孔（28'，28“），每个销孔被设置成以压配合装置接收相关销的第二端。 该组件避免了插入插脚时PCB的倾斜。

公开(公告)号：US20150101417A1

公开(公告)日：2015-04-16

申请号：US14382169

申请日：2013-02-28

Applicant: WAKE FOREST UNIVERSITY

Inventor： David Loren Carroll ,  Tadhg O'Gara ,  Thomas Smith

IPC: G01L1/00

CPC classification number: G01L1/005 ,  B82Y30/00 ,  G01L1/22 ,  G01L1/2287

Abstract: In one aspect, wireless strain gauges are described herein. In some embodiments, a wireless strain gauge comprises a radio frequency identification (RFID) tag and a nano-composite backplane coupled to the RFID tag, wherein the resonant frequency of the RFID tag antenna demonstrates an exponential dependence or substantially exponential dependence on the strain sensed by the strain gauge.

Abstract translation: 在一个方面，本文描述了无线应变计。 在一些实施例中，无线应变仪包括射频识别（RFID）标签和耦合到RFID标签的纳米复合背板，其中RFID标签天线的谐振频率表现出对所检测的应变的指数依赖性或基本指数依赖性 通过应变仪。

公开(公告)号：US08966993B2

公开(公告)日：2015-03-03

申请号：US13719588

申请日：2012-12-19

Applicant: U.S. Army Research Laboratory

Inventor： Jeffrey S. Pulskamp ,  Ronald G. Polcawich

IPC: G01N3/00 ,  H03H9/205 ,  G01L1/00 ,  H03H3/02 ,  H03H9/15

CPC classification number: H03H9/205 ,  G01L1/005 ,  G01L1/16 ,  H03H3/02 ,  H03H2009/155 ,  Y10T29/42

Abstract: Method and apparatus for a piezoelectric apparatus are provided. In some embodiments, a method for fabricating a piezoelectric device may include etching a series of vertical trenches in a top substrate portion, depositing a first continuous conductive layer over the trenches and substrate, depositing a continuous piezoelectric layer over the first continuous conductive layer such that the piezoelectric material has trenches and sidewalls, depositing a second continuous conductive layer over the continuous piezoelectric layer, etching through the vertical trenches of the first continuous conductive layer, continuous piezoelectric layer, second continuous conductive layer, and top substrate portion into a bottom substrate portion, etching a series of horizontal trenches in the bottom substrate portion such that the horizontal trenches and vertical trenches occupy a continuous free space and allow movement of a piezoelectric MEMS device created by the above method in three dimensions.

Abstract translation: 提供了压电装置的方法和装置。 在一些实施例中，用于制造压电器件的方法可以包括蚀刻顶部衬底部分中的一系列垂直沟槽，在沟槽和衬底上沉积第一连续导电层，在第一连续导电层上沉积连续的压电层，使得 压电材料具有沟槽和侧壁，在连续压电层上沉积第二连续导电层，通过第一连续导电层，连续压电层，第二连续导电层和顶部衬底部分的垂直沟槽蚀刻成底部衬底部分 蚀刻底部衬底部分中的一系列水平沟槽，使得水平沟槽和垂直沟槽占据连续的自由空间，并允许通过上述方法在三维中产生的压电MEMS器件的移动。

公开(公告)号：US20150046100A1

公开(公告)日：2015-02-12

申请号：US14525734

申请日：2014-10-28

Applicant: CLUB KONG CO., LTD.

Inventor： Hitoshi Matsumoto

IPC: G01L1/00 ,  A63B22/06 ,  A63B24/00

CPC classification number: G01L1/005 ,  A63B22/0605 ,  A63B24/0062 ,  A63B2024/0071 ,  A63B2071/0652 ,  B62J99/00 ,  B62J2099/0013 ,  B62J2099/002 ,  B62K2207/00 ,  B62M3/00 ,  G01L3/242 ,  G01L3/26 ,  G01L5/161 ,  G01L5/165

Abstract: The inventive pedaling motion measuring device includes: a measurement body unit having a first sensor unit for sensing the number of rotation of a wheel by sensing the motion of the wheel of a bicycle, and second sensor units arranged at right and left crank arms for sensing magnitude and direction of a force applied to each of the right and left crank arms. The first work calculation unit calculates work performed by the bicycle based on the number of rotation of the wheel sensed by the first sensor unit. The second work calculation unit calculates work provided to the crank member by the user within a prescribed time, based on the magnitude and direction of the force applied to each of the right and left crank arms and sensed by the second sensor units. The efficiency calculation unit calculates the efficiency of the bicycle.

Abstract translation: 本发明的踏板运动测量装置包括：测量体单元，具有第一传感器单元，用于通过感测自行车的车轮的运动来感测车轮的旋转次数;以及第二传感器单元，布置在左右曲柄臂处以感测 施加到右和左曲柄臂中的每一个的力的大小和方向。 第一作业计算单元基于由第一传感器单元感测到的车轮的旋转次数来计算由自行车执行的作业。 第二工作计算单元基于施加到右曲柄臂和左曲柄臂中的每一个并由第二传感器单元感测的力的大小和方向来计算用户在规定时间内提供给曲柄构件的作业。 效率计算单元计算自行车的效率。

公开(公告)号：US20150046095A1

公开(公告)日：2015-02-12

申请号：US14383213

申请日：2013-03-06

Applicant: Seiko Epson Corporation

Inventor： Yusuke Takahashi ,  Masao Kuroda

IPC: A61B5/024 ,  G01L1/00

CPC classification number: A61B5/02444 ,  A61B5/02416 ,  A61B5/02427 ,  A61B5/02438 ,  A61B5/0245 ,  A61B5/11 ,  A61B5/681 ,  A61B5/6826 ,  A61B5/6843 ,  A61B5/7257 ,  A61B2562/0219 ,  G01L1/005

Abstract: A pulse monitor, a program, and the like which perform determination of an appropriate pressing force and store and display holding state specification information when it is determined to be an appropriate pressing force, thereby facilitating device mounting in an appropriate state are provided. A pulse monitor includes a pulse wave detection unit 10 which has a pulse wave sensor 11 configured to output a pulse wave sensor signal, a processing unit 100 which calculates pulse information based on the signal from the pulse wave detection unit 10, a display unit 70 which displays a processing result in the processing unit 100, a storage unit 90 which stores the processing result in the processing unit 100, and a holding mechanism which holds the pulse monitor on a subject.

Abstract translation: 提供了当确定为适当的按压力时执行适当的按压力的确定并存储和显示保持状态指定信息的脉冲监视器，程序等，从而便于在适当的状态下进行装置安装。 脉搏监视器包括：脉搏波检测单元10，其具有输出脉波传感器信号的脉波传感器11;基于来自脉波检测单元10的信号计算脉冲信息的处理单元100;显示单元70 其在处理单元100中显示处理结果，将处理结果存储在处理单元100中的存储单元90以及保存对象的脉冲监视器的保持机构。

公开(公告)号：US20140228838A1

公开(公告)日：2014-08-14

申请号：US13764189

申请日：2013-02-11

Applicant: ST. JUDE MEDICAL ATRIAL TIBRILLATION DIVISION, INC.

Inventor： Mark Kirschenman

IPC: A61B18/14

CPC classification number: A61B5/0422 ,  A61B5/6885 ,  A61B18/1492 ,  A61B2018/00577 ,  A61B2018/00642 ,  A61B2018/00875 ,  A61M25/01 ,  A61M2205/332 ,  A61N1/056 ,  G01L1/005 ,  G01L1/16 ,  G01L5/00

Abstract: An elongate medical device may comprise an elongate tubular body, an electrode, and a trace. The elongate tubular body may comprise a distal end portion and a proximal end portion, the body defining a longitudinal axis. The electrode may comprise electrically-conductive ink extending circumferentially about a portion of the distal end portion. The trace may comprise electrically-conductive ink, electrically coupled with the electrode, extending proximally from the electrode.

Abstract translation: 细长的医疗装置可以包括细长的管状体，电极和痕迹。 细长管状体可以包括远端部分和近端部分，该主体限定纵向轴线。 电极可以包括围绕远端部分的一部分周向延伸的导电油墨。 痕迹可以包括导电油墨，与电极电耦合，从电极向近侧延伸。

公开(公告)号：US20140218634A1

公开(公告)日：2014-08-07

申请号：US13985676

申请日：2013-07-05

Applicant: NANCHANG O-FILM TECH. CO., LTD.

Inventor： Fei Zhou

IPC: G06F1/16 ,  G01L1/00

CPC classification number: G01L1/005 ,  G06F3/044 ,  G06F2203/04112

Abstract: A touch sensing element is provided comprising an insulating substrate and a conductive layer located on a surface of the insulating substrate. The conductive layer comprises: a plurality of first conductive traces arranged at intervals along a first direction, each first conductive trace extending along a second direction; and a plurality of second conductive traces arranged to form second conductive trace columns, each second conductive trace column comprises a plurality of second conductive traces arranged at intervals along the second direction, each second conductive trace column is correspondingly located corresponding to a lateral direction of the first conductive trace. Each second conductive trace of each conductive trace column is spaced from and forms a mutual inductance with a corresponding first conductive trace. The conductive layer is formed on a surface of the insulating substrate; the structure and process are much simpler. A touch panel having the touch sensing element is also provided.

Abstract translation: 提供了一种触摸感测元件，其包括绝缘基板和位于绝缘基板的表面上的导电层。 所述导电层包括：沿着第一方向隔开布置的多个第一导电迹线，每个第一导电迹线沿着第二方向延伸; 以及布置成形成第二导电迹线列的多个第二导电迹线，每个第二导电迹线列包括沿着第二方向以间隔布置的多个第二导电迹线，每个第二导电迹线列相应地对应于所述第二导电迹线的横向方向 第一导电迹线。 每个导电迹线列的每个第二导电迹线与对应的第一导电迹线间隔开并形成互感。 导电层形成在绝缘基板的表面上; 结构和过程要简单得多。 还提供了具有触摸感测元件的触摸面板。

公开(公告)号：US20140191627A1

公开(公告)日：2014-07-10

申请号：US14235106

申请日：2012-07-24

Applicant: Toru Takahashi ,  Makoto Yasui ,  Yui Masuda

Inventor： Toru Takahashi ,  Makoto Yasui ,  Yui Masuda

IPC: G01L1/00 ,  H02K11/00

CPC classification number: G01L1/005 ,  B60T13/74 ,  B60T13/741 ,  F16D65/18 ,  F16D2066/005 ,  F16D2125/10 ,  F16D2125/36 ,  F16D2125/40 ,  F16D2125/48 ,  G01L1/122 ,  H02K11/20

Abstract: A magnetic load sensor unit (1) is provided which can detect the magnitude of an axial load applied by a linear motion actuator (14) to a friction pad (22). The magnetic load sensor unit (1) includes a magnetic target (4) which generates a magnetic field, and a magnetic sensor (5) designed to move relative to the magnetic target (4) corresponding to the axial load.

Abstract translation: 提供一种磁负载传感器单元（1），其可以检测由直线运动致动器（14）施加到摩擦垫（22）的轴向载荷的大小。 磁负载传感器单元（1）包括产生磁场的磁性目标（4）和设计为相应于轴向载荷相对于磁性目标（4）移动的磁性传感器（5）。

公开(公告)号：US20140032136A1

公开(公告)日：2014-01-30

申请号：US13943593

申请日：2013-07-16

Applicant: Alex Grau ,  Charles Hendee

Inventor： Alex Grau ,  Charles Hendee

IPC: G01L1/20 ,  G01L1/00

CPC classification number: G01L1/20 ,  G01L1/005 ,  G01L1/205 ,  G01L1/2293

Abstract: A method for sensing. The method includes the steps of transmitting mechanical forces to one or more printed mechanical sensing elements. There is the step of sending prompting signals associated with the mechanical forces to a computer in communication with one or more printed diodes and the one or more printed mechanical sensing elements. There is the step of reconstructing with the computer the mechanical forces that were applied to the one or more printed mechanical sensing elements. An apparatus for sensing. The apparatus includes a computer. The apparatus includes one or more printed electronic diodes and printed mechanical sensing elements connected to the computer, the one or more printed electronic diodes detect mechanical signals applied to the one or more mechanical-sensing elements and that provide corresponding values to the computer.

Abstract translation: 一种感测方法。 该方法包括将机械力传递到一个或多个印刷机械传感元件的步骤。 将与机械力相关联的提示信号发送到与一个或多个印刷二极管和一个或多个印刷机械感测元件通信的计算机的步骤。 存在用计算机重新应用于一个或多个印刷机械传感元件的机械力的步骤。 一种感测装置。 该装置包括计算机。 该装置包括连接到计算机的一个或多个印刷电子二极管和印刷的机械感测元件，一个或多个印刷电子二极管检测施加到一个或多个机械感测元件的机械信号，并且向计算机提供相应的值。

公开(公告)号：US08519449B2

公开(公告)日：2013-08-27

申请号：US12842298

申请日：2010-07-23

Applicant: Viorel-Georgel Dumitru ,  Cornel Cobianu ,  Stefan-Dan Costea ,  Bogdan-Catalin Serban

Inventor： Viorel-Georgel Dumitru ,  Cornel Cobianu ,  Stefan-Dan Costea ,  Bogdan-Catalin Serban

IPC: H01L29/84

CPC classification number: G01L1/16 ,  B82Y10/00 ,  G01L1/005 ,  H01L29/0665 ,  H01L29/78654 ,  H01L29/78681 ,  H01L29/7869 ,  H01L29/84 ,  H01L51/0048 ,  H01L51/0516 ,  H01L51/055

Abstract: A piezoelectric strain sensor and method thereof for detecting strain, vibration, and/or pressure. The sensor incorporates a sequence of piezoelectric and semiconductor layers in a thin-film transistor structure. The thin-film transistor structure can be configured on a flexible substrate via a low-cost fabrication technique. The piezoelectric layer generates an electric charge resulting in a modulation of a transistor current, which is a measure of external strain. The sensor can be formed as a single gate field-effect piezoelectric sensor and a dual gate field-effect piezoelectric sensor. The semiconductor layer can be configured from a nanowire array resulting in a metal-piezoelectric-nanowire field effect transistor. The single and dual gate field-effect piezoelectric sensor offer increased sensitivity and device control due to the presence of the piezoelectric layer in the transistor structure and low cost manufacturability on large area flexible substrates.

Abstract translation: 一种用于检测应变，振动和/或压力的压电应变传感器及其方法。 传感器在薄膜晶体管结构中包含一系列压电和半导体层。 薄膜晶体管结构可以通过低成本制造技术配置在柔性基板上。 压电层产生电荷，导致晶体管电流的调制，这是外部应变的量度。 传感器可以形成为单栅场效应压电传感器和双栅场效应压电传感器。 半导体层可以由纳米线阵列构成，形成金属压电纳米线场效应晶体管。 由于晶体管结构中存在压电层并且在大面积柔性基板上具有低成本可制造性，单栅双极场效应压电传感器提供增加的灵敏度和器件控制。