Endotracheal tube with a selectively positional electrode
    2.
    发明授权
    Endotracheal tube with a selectively positional electrode 有权
    具有选择性位置电极的气管内管

    公开(公告)号:US08577477B2

    公开(公告)日:2013-11-05

    申请号:US12813745

    申请日:2010-06-11

    IPC分类号: A61N1/00 A61B5/04 A61B18/04

    摘要: An endotracheal tube usable for intraopertive monitoring of the laryngeal nerve. The endotracheal tube includes at least one electrical contact that is movable along and about an exterior sidewall of the endotracheal tube and connected to the exterior sidewall by a connector when the electrode is placed in a position to optimize the conductivity between the nerve being monitored and the electrical contact. The electrical contact may be connected using a locking tube, tape, adhesive, etc.

    摘要翻译: 可用于喉内神经内窥镜监测的气管内管。 气管内管包括至少一个电触头,其可以沿着气体插管的外侧壁并且围绕气管插管的外侧壁移动,并且当电极被放置在优化被监测的神经和被监测的神经之间的电导率的位置时通过连接器连接到外部侧壁 电接触。 可以使用锁定管,胶带,粘合剂等连接电接触。

    BITE BLOCK
    7.
    发明申请
    BITE BLOCK 有权
    BITE块

    公开(公告)号:US20120130216A1

    公开(公告)日:2012-05-24

    申请号:US12951975

    申请日:2010-11-22

    IPC分类号: A61B5/04 A61C5/14

    摘要: A bite block for use during intraopeartive monitoring of nerves is provided. The bite block is formed of a resilient material to inhibit injury to one or more teeth or the tongue of the patient. The bite block includes at least one access port angled with the respect to a plane and sized to slidingly receive an electrode. The electrode may be advanced through the access port and into the tongue of the patient.

    摘要翻译: 提供了在神经内监测期间使用的咬合块。 咬合块由弹性材料形成,以抑制对患者的一个或多个牙齿或舌头的伤害。 所述咬合块包括至少一个相对于平面成角度并且尺寸适于滑动地接收电极的进入端口。 电极可以通过入口进入患者的舌头。

    Distributed SCADA system for remote monitoring and control of access points utilizing an intelligent uninterruptible power supply system for a WISP network
    9.
    发明申请
    Distributed SCADA system for remote monitoring and control of access points utilizing an intelligent uninterruptible power supply system for a WISP network 审中-公开
    分布式SCADA系统,用于利用WISP网络的智能不间断电源系统远程监控和控制接入点

    公开(公告)号:US20050271128A1

    公开(公告)日:2005-12-08

    申请号:US10859448

    申请日:2004-06-02

    IPC分类号: H04B1/38 H04L12/24 H04L12/26

    CPC分类号: H04L43/0817

    摘要: An intelligent uninterruptible power supply (IUPS) for an access point (AP) within a wireless Internet service provider (WISP) network allows for the interaction with and integration of a supervisory control and data acquisition (SCADA) system. This results in an integrated wireless network management system allows for the control, monitoring and reporting of the system. The access points include at least one antenna, CPU, supporting passive and dynamic component electronics and an access point program module including volatile and/or non-volatile memory. Further, the IUPS includes one or more batteries, power regulation and charging circuits, logic circuits and a resident power supply program module for communication with the access point. Commands can be initiated remotely and status communication requests can be initiated either locally from the access point to the IUPS or from a remote central control console and relayed from the IUPS via the access point. The access point further acts as a liaison to the IUPS requesting status and event monitoring via a messaging protocol, and access point file system. The IUPS module is configured to trigger an automatic power supply cycling of the AP upon determination that the AP is not operating properly. The SCADA system configuration includes multiple components incorporating the concepts of centralized control and data acquisition, access point relays and their management via an IUPS and remote centralized control console.

    摘要翻译: 用于无线因特网服务提供商(WISP)网络中的接入点(AP)的智能不间断电源(IUPS)允许与监控和数据采集(SCADA)系统的交互和集成。 这导致集成的无线网络管理系统允许系统的控制,监控和报告。 接入点包括至少一个天线,CPU,支持无源和动态组件电子设备以及包括易失性和/或非易失性存储器的接入点程序模块。 此外,IUPS包括一个或多个电池,功率调节和充电电路,逻辑电路和用于与接入点通信的驻留电源程序模块。 命令可以远程启动,状态通信请求可以从本地从接入点发送到IUPS,也可以从远程中央控制台发起,并通过接入点从IUPS进行中继。 接入点还充当IUPS通过消息传递协议和接入点文件系统请求状态和事件监视的联络人。 IUPS模块被配置为在确定AP不正常操作时触发AP的自动电源循环。 SCADA系统配置包括集成了集中控制和数据采集,接入点中继和通过IUPS和远程集中控制台进行管理的多个组件。

    Method of and apparatus for performing antenna cosite analysis
    10.
    发明授权
    Method of and apparatus for performing antenna cosite analysis 有权
    执行天线复合分析的方法和装置

    公开(公告)号:US6064861A

    公开(公告)日:2000-05-16

    申请号:US195722

    申请日:1998-11-18

    IPC分类号: H04B17/00 H04B1/38

    CPC分类号: H04B17/20 H04B17/15

    摘要: An antenna cosite analysis system with: interactive displays for i) designing an antenna tower for placement of one or more antennas on the tower, ii) designing wireless communication circuits, and iii) relating the antennas on the tower to the wireless communication circuits; and an RF analysis system for analyzing interference between the wireless communication circuits. A process for determining intermodulation interference between transmitters and one or more receivers includes the steps of: determining a minimum susceptibility of the receivers; determining a highest order intermodulation product generated as a result of interference between the victim transmitter and each other transmitter with a power level sufficient to exceed the minimum susceptibility of the one or more receivers at the victim transmitter; and determining the intermodulation products generated as a result of interference between the victim transmitter and the other transmitters, the intermodulation products being determined up to the highest order intermodulation product of a minimum leakage transmitter-victim transmitter pair. Also disclosed is a process for determining intermodulation interference in a receiver, an apparatus for determining intermodulation interference in transmitter, and an apparatus for determining intermodulation interference in a receiver.

    摘要翻译: 一种天线复合分析系统,具有:交互式显示器,用于i)设计用于在塔架上放置一个或多个天线的天线塔,ii)设计无线通信电路,以及iii)将塔架上的天线与无线通信电路相关联; 以及用于分析无线通信电路之间的干扰的RF分析系统。 用于确定发射机与一个或多个接收机之间的互调干扰的过程包括以下步骤:确定接收机的最小磁敏度; 确定作为受害者发射机和每个其他发射机之间的干扰的结果产生的最高级互调产物,其功率电平足以超过受害者发射机上的一个或多个接收机的最小敏感度; 并且确定作为受害者发射机与其他发射机之间的干扰的结果产生的互调产物,所述互调产物被确定为最小泄漏发射机 - 受害者发射机对的最高阶互调产物。 还公开了一种用于确定接收机中的互调干扰的过程,用于确定发射机中的互调干扰的装置,以及用于确定接收机中的互调干扰的装置。