公开(公告)号：US09429465B2

公开(公告)日：2016-08-30

申请号：US14165966

申请日：2014-01-28

Applicant: Krohne AG

Inventor： Jeroen Martin van Klooster ,  Arie Huijzer

IPC: G01H3/00 ,  G01F1/66 ,  G01F15/18

CPC classification number: G01H3/00 ,  G01F1/662 ,  G01F15/18

Abstract: An ultrasonic transducer and a transducer holder for preventing the transmission of housing waves has a decoupling ring between a housing flange of a transducer housing and a holder flange of the transducer holder. Preferably, there is a gasket between the housing flange of the transducer housing and the decoupling ring in addition to a gasket between the decoupling ring and the holder flange of the transducer holder.

Abstract translation: 用于防止壳体波的传输的超声波换能器和换能器支架在换能器壳体的壳体凸缘和换能器支架的保持器凸缘之间具有去耦环。 优选地，除了换能器保持器的解耦环和保持器凸缘之间的垫圈之外，还存在换能器壳体的壳体凸缘和去耦环之间的垫圈。

公开(公告)号：US20160223390A1

公开(公告)日：2016-08-04

申请号：US14864849

申请日：2015-09-24

Applicant: Wistron NeWeb Corp.

Inventor： Yung-Cheng Lin

IPC: G01H11/06 ,  G01P15/08

CPC classification number: G01P15/08 ,  G01H3/00

Abstract: A wireless sensing device including a vibration plate, an antenna, a sensor, an energy harvesting circuit and a data processing circuit is provided. The antenna and the sensor are disposed on the vibration plate. The sensor generates a sensing data according to the vibration of the vibration plate. The energy harvesting circuit generates an electrical energy in response to the vibration of the vibration plate. The data processing circuit is coupled to the sensor and the antenna, and the data processing circuit is operated by the electrical energy to store the sensing data, or to transmit the sensing data through the antenna.

Abstract translation: 提供了包括振动板，天线，传感器，能量采集电路和数据处理电路的无线感测装置。 天线和传感器设置在振动板上。 传感器根据振动板的振动产生感测数据。 能量收集电路响应于振动板的振动而产生电能。 数据处理电路耦合到传感器和天线，并且数据处理电路由电能来操作以存储感测数据，或者通过天线发送感测数据。

公开(公告)号：US20160181144A1

公开(公告)日：2016-06-23

申请号：US15055451

申请日：2016-02-26

Applicant: International Business Machines Corporation

Inventor： Satya V. Nitta ,  Shom Ponoth

IPC: H01L21/768 ,  H01L21/311

CPC classification number: H01L21/7682 ,  G01H3/00 ,  G01H11/00 ,  G01H11/02 ,  G01H11/06 ,  H01L21/31111 ,  H01L21/76802 ,  H01L21/76807 ,  H01L21/76826 ,  H01L21/76829 ,  H01L21/76834 ,  H01L21/76843 ,  H01L21/76877

Abstract: A dual damascene article of manufacture comprises a trench containing a conductive metal column where the trench and the conductive metal column extend down into and are contiguous with a via. The trench and the conductive metal column and the via have a common axis. These articles comprise interconnect structures incorporating air-gap spacers containing metal/insulator structures for Very Large Scale Integrated (VLSI) and Ultra Large Scale Integrated (ULSI) devices and packaging. The trench in this regard comprises a sidewall air-gap immediately adjacent the side walls of the trench and the conductive metal column, the sidewall air-gap extending down to the via to a depth below a line fixed by the bottom of the trench, and continues downward in the via for a distance of from about 1 Angstrom below the line to the full depth of the via. In another aspect, the article of manufacture comprises a capped dual damascene structure.

Abstract translation: 双镶嵌制品包括包含导电金属柱的沟槽，其中沟槽和导电金属柱向下延伸并且与通孔邻接。 沟槽和导电金属柱和通孔具有共同的轴线。 这些物品包括包含用于超大规模集成（VLSI）和超大规模集成（ULSI）设备和包装的金属/绝缘体结构的气隙间隔物的互连结构。 在这方面的沟槽包括紧邻沟槽的侧壁和导电金属柱的侧壁气隙，侧壁气隙向下延伸到通孔，深度低于由沟槽的底部固定的线，以及 在通孔中向下延伸距离线下方约1埃至通孔的整个深度。 在另一方面，制品包括封盖的双镶嵌结构。

公开(公告)号：US09341603B1

公开(公告)日：2016-05-17

申请号：US13949322

申请日：2013-07-24

Applicant: John Jenkins ,  Howard Sampson ,  Michael Stumpf ,  Myles Izikoff

Inventor： John Jenkins ,  Howard Sampson ,  Michael Stumpf ,  Myles Izikoff

IPC: G01N29/14 ,  G01N29/28 ,  G01N29/36 ,  G01N29/40 ,  G01N29/24 ,  G01M3/24 ,  G01N29/22

CPC classification number: G01N29/36 ,  G01H3/00 ,  G01M3/24 ,  G01N29/221 ,  G01N29/226 ,  G01N29/2456 ,  G01N29/40

Abstract: A handheld ultrasound detection apparatus includes a portable housing with a flexible tube that extends from the housing and includes a sound cup and an ultrasound receiver for converting received ultrasound energy into an electronic signal. A gain/active filter includes four amplifiers each having an associated gain range. The apparatus is programmed based on a size of the electronic signal, to direct the electronic signal along a linear scale through one or more amplifiers and apply an appropriate gain to the signal, and to generate a percentage value corresponding to the gain and with respect to the linear scale. In a manual mode, data is generated corresponding to a particular gain range and a percentage value from 0-100% with respect to the particular gain range, while during an automatic mode data is generated corresponding to a percentage value from 0-400% with respect to a collective gain range.

Abstract translation: 手持式超声波检测装置包括具有柔性管的便携式外壳，所述柔性管从壳体延伸并且包括声杯和用于将接收到的超声能量转换为电子信号的超声波接收器。 增益/有源滤波器包括四个具有相关增益范围的放大器。 该装置基于电子信号的大小进行编程，以沿着线性标度引导电子信号通过一个或多个放大器并对该信号施加适当的增益，并产生对应于增益的百分比值，并相对于 线性刻度。 在手动模式中，相对于特定增益范围产生数据，相对于特定增益范围产生从0-100％的百分比值，而在自动模式期间，生成对应于0-400％的百分比值的数据， 尊重集体收益范围。

公开(公告)号：US09154893B1

公开(公告)日：2015-10-06

申请号：US13714880

申请日：2012-12-14

Applicant: Intelligent Technologies International, Inc.

Inventor： David S Breed

IPC: H04R29/00

CPC classification number: G01H3/00 ,  G01C21/3691 ,  G01C21/3697 ,  G08G1/095 ,  G08G1/09623 ,  G08G1/096725 ,  G08G1/096758 ,  G08G1/096775 ,  G08G1/205 ,  H04R2410/00 ,  H04R2499/11 ,  H04R2499/13

Abstract: System for monitoring an environment, such as a vehicular environment, including at least one sound-receiving/vibration-detecting component that receives sounds from an environment in or around the vehicle, a processor coupled to the at least one sound-receiving/vibration-detecting component and that analyzes the sounds to identify non-speech sounds, and a communications device coupled to the processor that transmits a signal, data or information about analysis by the processor of the identified non-speech sounds.

Abstract translation: 用于监视环境的系统，例如车辆环境，包括至少一个接收/振动检测部件，其接收来自车辆内部或周围的环境的声音，耦合到所述至少一个声音接收/振动检测部件的处理器， 检测组件并且分析声音以识别非语音声音;以及耦合到处理器的通信设备，其发送关于由所述处理器分析的所识别的非语音声音的信号，数据或信息。

公开(公告)号：US20150222964A1

公开(公告)日：2015-08-06

申请号：US14419529

申请日：2013-08-09

Applicant: ALCATEL LUCENT

Inventor： Domhnaill Hernon ,  Christophe Grangeat ,  Markus Berg ,  Ronan Frizzell

IPC: H04Q9/00 ,  H04W84/18

CPC classification number: H04Q9/00 ,  G01D3/10 ,  G01H1/00 ,  G01H3/00 ,  H02N2/186 ,  H04W84/18 ,  Y02B10/30

Abstract: It is disclosed a wireless sensing device comprising a vibration sensor configured to detect a mechanical vibration and to generate an electric signal in response to the mechanical vibration. The device also comprises a transceiver suitable for establishing a wireless connection between the wireless sensing device and a remote device. The transceiver is configured to receive at least a portion of the electric signal from the vibration sensor and, depending on the intensity of electric signal portion, to switch on and transmit a radio signal to the remote device. The radio signal is suitable for triggering a consequent action at the remote device.

Abstract translation: 公开了一种无线感测装置，其包括被配置为检测机械振动并响应于机械振动而产生电信号的振动传感器。 该设备还包括适于在无线传感设备和远程设备之间建立无线连接的收发器。 收发器被配置为从振动传感器接收电信号的至少一部分，并且根据电信号部分的强度来接通并向远程设备发送无线电信号。 无线电信号适用于在远程设备上触发相应的动作。

公开(公告)号：US20150208185A1

公开(公告)日：2015-07-23

申请号：US14415473

申请日：2013-07-11

Applicant: NITTOBO ACOUSTIC ENGINEERING CO., LTD.

Inventor： Hiroshi Ohyama ,  Taichi Higashioka ,  Kazuhiro Takashima ,  Shinji Ohashi ,  Yoshio Tadahira

IPC: H04R29/00

CPC classification number: H04R29/00 ,  G01H3/00 ,  G10L21/028 ,  H04R29/005 ,  H04S7/303 ,  H04S2400/11

Abstract: Provided is a noise identifying apparatus and noise identifying method, allowing automatic identification of whether or not a measured noise has been influenced by a non-object noise, using a simple system.Apparatus includes a sound detection unit, including plural microphones and/or particle velocity sensors; a sound source direction specifying unit, specifying an instantaneous direction of a sound source for each unit time, on the result of detection by the sound detection unit; a variation degree calculating unit, calculating a variation degree of the plural instantaneous directions specified by the sound source direction specifying unit for a prescribed period set longer than the unit time; and a non-object noise determining unit, determining the existence/absence of a non-object noise having influenced the measurement of an object noise taken as an object to be measured, coming from a noise source, on the variation degree calculated by the variation degree calculating unit.

Abstract translation: 提供了一种噪声识别装置和噪声识别方法，允许使用简单的系统自动识别被测噪声是否受到非对象噪声的影响。 装置包括声音检测单元，包括多个麦克风和/或粒子速度传感器; 根据声音检测单元的检测结果，指定每单位时间的声源的瞬时方向的声源方向指定单元; 变化度计算单元，计算由声源方向指定单元指定的多个瞬时方向在比单位时间长的规定时间段的变化度; 以及非对象噪声判定单元，根据由变化量计算出的变化度，判定影响来自噪声源的被摄体作为测量对象噪声的测量的非对象噪声的存在/不存在 度计算单位。

公开(公告)号：US20150098577A1

公开(公告)日：2015-04-09

申请号：US14506514

申请日：2014-10-03

Applicant: JS Products, Inc.

Inventor： James Moore ,  Javier Hernandez ,  Kevin Jones

IPC: H04R29/00

CPC classification number: G01H3/00

Abstract: An audio controller is provided which includes an audio transducer interface that is capable of receiving audio signals from one or more audio transducers each associated with a channel. A channel selector is configured to selectively connect the audio signals to an output of the audio controller. A tone detector receives a tone from a mobile device and the tone is associated with a selected channel or indicating a channel change. The tone causes the channel selector to output audio associated with a channel. A listening device interface transmits the audio output from the channel selector to a listening device. The audio signal is presented to a mobile device, such as a smartphone or table device. Audio signal received by mobile device may be displayed in graphical form, recorded, or processed and one or more modification may be made to the audio signal such as equalization or an offset.

Abstract translation: 提供一种音频控制器，其包括能够从每个与频道相关联的一个或多个音频换能器接收音频信号的音频换能器接口。 通道选择器被配置为选择性地将音频信号连接到音频控制器的输出。 音调检测器从移动设备接收音调，并且音调与所选频道相关联或指示频道改变。 音调使频道选择器输出与频道相关联的音频。 听音装置接口将音频输出从频道选择器发送到听音装置。 音频信号被呈现给诸如智能电话或桌面设备的移动设备。 由移动设备接收的音频信号可以以图形形式显示，记录或处理，并且可以对诸如均衡或偏移的音频信号进行一个或多个修改。

公开(公告)号：US08995670B2

公开(公告)日：2015-03-31

申请号：US13097906

申请日：2011-04-29

Applicant: Timothy M. Lambert ,  Johan Rahardjo

Inventor： Timothy M. Lambert ,  Johan Rahardjo

IPC: H04R29/00 ,  G10K11/16 ,  G10L25/48 ,  G10L21/0208 ,  G01H3/00

CPC classification number: G10K11/16 ,  G01H3/00 ,  G10L21/0208 ,  G10L25/48 ,  H04R2227/001 ,  H04R2410/01

Abstract: Systems and methods are disclosed that may be implemented to locally and remotely record, control, monitor and analyze sounds generated in an information handling system environment, e.g., such as in a server environment. Among other things, remote monitoring and observation of sound in a data center environment may be implemented to assist administrators with data center management and forensics analysis related to physical chassis events (e.g., such as chassis access and/or chassis intrusion), as well as providing live streaming, and local technician recorded sound bite capabilities. A sound policy may also be implemented involving server sound optimizations that works in conjunction with system thermal and power algorithms.

Abstract translation: 公开了可以实现的系统和方法，以在本地和远程记录，控制，监视和分析在诸如在服务器环境中的信息处理系统环境中产生的声音。 除了别的以外，可以实现对数据中心环境中的声音的远程监视和观察，以帮助管理员进行与物理机箱事件（例如机箱访问和/或机箱入侵）相关的数据中心管理和取证分析，以及 提供现场直播，本地技术人员录制声音叮咬功能。 还可以实现一个健全的策略，涉及与系统热和功率算法相结合的服务器声音优化。

公开(公告)号：US20150036463A1

公开(公告)日：2015-02-05

申请号：US13956625

申请日：2013-08-01

Applicant: Semih Bilgen ,  Alper Bereketli

Inventor： Semih Bilgen ,  Alper Bereketli

IPC: G10K15/00

CPC classification number: G01H3/00 ,  G01V1/02

Abstract: A Remotely Powered Underwater Acoustic Sensor Networks (RPUASN) paradigm and the node architecture for RPUASN are disclosed. In RPUASN, sensor nodes harvest and store power supplied by an external acoustic source, extending their lifetime indefinitely. Necessary source characteristics are determined. The ability of an RPUASN sensor to harvest its required power is disclosed with respect to source parameters and distance to the source. Performance of RPUASN is directly related to the sensing coverage and communication connectivity over the field the sensor nodes are deployed. The required number of RPUASN nodes and the volume which is guaranteed to be covered by the nodes is disclosed in terms of electrical power, range, directivity and transmission frequency of the external acoustic source, and node power requirements.

Abstract translation: 公开了一种远程供水水声传感器网络（RPUASN）范例和RPUASN的节点架构。 在RPUASN中，传感器节点收集并存储外部声源提供的电力，无限期延长其使用寿命。 必要的源特征被确定。 关于源参数和到源的距离，公开了RPUASN传感器收获其所需功率的能力。 RPUASN的性能与传感器节点部署的现场的传感覆盖和通信连接直接相关。 根据外部声源的电功率，范围，方向性和传输频率以及节点功率要求，公开所需数量的RPUASN节点和保证被节点覆盖的音量。