会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Communication systems for use with magnetic resonance imaging systems
    • 用于磁共振成像系统的通信系统
    • US07221159B2
    • 2007-05-22
    • US10064846
    • 2002-08-22
    • David M. GriffithsGeorge J. MisicWilliam J. MonskiMo Shuen NgJohn A. Brosovich
    • David M. GriffithsGeorge J. MisicWilliam J. MonskiMo Shuen NgJohn A. Brosovich
    • G01V3/00
    • G01R33/283A61B5/0017A61B5/002A61B5/055
    • An antenna coupling enables communication across a barrier to radio frequencies. The antenna coupling comprises first and second antennas. The first antenna is adapted for positioning on a first side of the barrier, and is capable of receiving from and transmitting to a first transceiver disposed on the first side. The second antenna is adapted for positioning on a second side of the barrier, and is capable of receiving from and transmitting to a second transceiver on the second side. The interconnection of the first and second antennas through the barrier comprises the antenna coupling. The antenna coupling enables the first and second transceivers to communicate across the barrier over the desired range(s) of radio frequencies. In a related aspect, the antenna coupling may also include a filter interconnected between the first and second antennas to prevent radio frequencies outside of the desired range(s) from being transmitted across the barrier.
    • 天线耦合使得能够跨屏障到无线电频率的通信。 天线耦合包括第一和第二天线。 第一天线适于定位在屏障的第一侧上,并且能够从设置在第一侧的第一收发机接收和发送。 第二天线适于定位在屏障的第二侧上,并且能够从第二侧接收和发送到第二收发器。 通过屏障的第一和第二天线的互连包括天线耦合。 天线耦合使得第一和第二收发器能够在无线电频率的期望范围内跨越屏障通信。 在相关方面,天线耦合还可以包括在第一和第二天线之间互连的滤波器,以防止在期望范围之外的无线电频率穿过屏障传输。
    • 3. 再颁专利
    • Continuous battery charger system
    • 连续电池充电系统
    • USRE42611E1
    • 2011-08-16
    • US12116505
    • 2008-05-07
    • Edward P. LiscioJohn A. BrosovichRichard A. RiggioMark Trocki
    • Edward P. LiscioJohn A. BrosovichRichard A. RiggioMark Trocki
    • H01M10/46H02J7/00
    • H02J7/0068A61B5/0046A61M5/007A61M5/14546A61M2205/8206A61M2205/8237H02J7/045
    • A battery charger system, for use with an injector system, comprises a power supply and a battery pack. The power supply converts AC power to DC power. The battery pack includes a battery and a charging module. The module monitors the operating mode of the injector system. When the battery pack is disconnected from the injection control unit, the module enables the power supply to charge the battery with DC power. When the battery pack is connected to the injection control unit: (A) upon detecting the injector system in an idle mode, the module routes DC power from the power supply to both the battery for charging thereof and the injection control unit for operation thereof; and (B) upon detecting the injector system in a non-idle mode, the module prevents the power supply from charging the battery and enables the battery to provide DC power to the injection control unit.
    • 与注射器系统一起使用的电池充电器系统包括电源和电池组。 电源将交流电转换成直流电源。 电池组包括电池和充电模块。 模块监控喷油器系统的运行模式。 当电池组与注射控制单元断开连接时,该模块可使电源以直流电为电池充电。 当电池组连接到喷射控制单元时:(A)在空气模式下检测到喷射器系统时,该模块将来自电源的DC电力传送到用于充电的电池和用于操作的注射控制单元; 和(B)当在非空闲模式下检测到喷射器系统时,该模块防止电源对电池充电并使电池能够向喷射控制单元提供直流电力。
    • 6. 发明授权
    • Injector with continuous battery charger system
    • 注射器连续充电系统
    • US07414382B2
    • 2008-08-19
    • US11733215
    • 2007-04-10
    • Edward P. LiscioJohn A. BrosovichRichard A. RiggioMark Trocki
    • Edward P. LiscioJohn A. BrosovichRichard A. RiggioMark Trocki
    • H02J7/00
    • H02J7/0068A61B5/0046A61M5/007A61M5/14546A61M2205/8206A61M2205/8237H02J7/045
    • A battery charger system, for use with an injector system, comprises a power supply and a battery pack. The power supply converts AC power to DC power. The battery pack includes a battery and a charging module. The module monitors the operating mode of the injector system. When the battery pack is disconnected from the injection control unit, the module enables the power supply to charge the battery with DC power. When the battery pack is connected to the injection control unit: (A) upon detecting the injector system in an idle mode, the module routes DC power from the power supply to both the battery for charging thereof and the injection control unit for operation thereof; and (B) upon detecting the injector system in a non-idle mode, the module prevents the power supply from charging the battery and enables the battery to provide DC power to the injection control unit.
    • 与注射器系统一起使用的电池充电器系统包括电源和电池组。 电源将交流电转换成直流电源。 电池组包括电池和充电模块。 模块监控喷油器系统的运行模式。 当电池组与注射控制单元断开连接时,该模块可使电源以直流电为电池充电。 当电池组连接到喷射控制单元时:(A)在空气模式下检测到喷射器系统时,该模块将来自电源的直流电力传送到用于充电的电池和用于其操作的喷射控制单元; 和(B)当在非空闲模式下检测到喷射器系统时,该模块防止电源对电池充电并使电池能够向喷射控制单元提供直流电力。
    • 7. 发明授权
    • Continuous battery charger system
    • 连续电池充电系统
    • US07224143B2
    • 2007-05-29
    • US10723183
    • 2003-11-26
    • Edward P. LiscioJohn A. BrosovichRichard A. RiggioMark Trocki
    • Edward P. LiscioJohn A. BrosovichRichard A. RiggioMark Trocki
    • H01M10/46
    • H02J7/0068A61B5/0046A61M5/007A61M5/14546A61M2205/8206A61M2205/8237H02J7/045
    • A battery charger system, for use with an injector system, comprises a power supply and a battery pack. The power supply converts AC power to DC power. The battery pack includes a battery and a charging module. The module monitors the operating mode of the injector system. When the battery pack is disconnected from the injection control unit, the module enables the power supply to charge the battery with DC power. When the battery pack is connected to the injection control unit: (A) upon detecting the injector system in an idle mode, the module routes DC power from the power supply to both the battery for charging thereof and the injection control unit for operation thereof; and (B) upon detecting the injector system in a non-idle mode, the module prevents the power supply from charging the battery and enables the battery to provide DC power to the injection control unit.
    • 与注射器系统一起使用的电池充电器系统包括电源和电池组。 电源将交流电转换成直流电源。 电池组包括电池和充电模块。 模块监控喷油器系统的运行模式。 当电池组与注射控制单元断开连接时,该模块可使电源以直流电为电池充电。 当电池组连接到喷射控制单元时:(A)在空气模式下检测到喷射器系统时,模块将来自电源的直流电力传送到用于充电的电池和用于操作的注射控制单元; 和(B)当在非空闲模式下检测到喷射器系统时,该模块防止电源对电池充电并使电池能够向喷射控制单元提供直流电力。