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
    • 1. 发明授权
    • Methods for selecting antennas to avoid signal bus interference
    • 选择天线以避免信号总线干扰的方法
    • US08577321B2
    • 2013-11-05
    • US12959258
    • 2010-12-02
    • Peter C. CotterillRobert W. Schlub
    • Peter C. CotterillRobert W. Schlub
    • H04B1/06
    • H04B7/0805H04B7/0877
    • Electronic devices may have multiple antennas. A first antenna may be located at one end of a device and a second antenna may be located at another end of the device. An input-output port in a device may have a connector that receives a mating connector associated with external equipment. The input-output port and the second antenna may be located at one of the ends of the electronic device. When equipment such as an external video accessory is in use, input-output circuitry in an electronic device may transmit high speed data signals through the input-output port. The presence of activity on the input-output port such as video data or other data transmissions may be monitored by control circuitry in the electronic device. When input-output port activity is detected, use of the second antenna in receiving radio-frequency signals can be inhibited.
    • 电子设备可以具有多个天线。 第一天线可以位于设备的一端,并且第二天线可以位于设备的另一端。 设备中的输入 - 输出端口可以具有接收与外部设备相关联的匹配连接器的连接器。 输入输出端口和第二天线可以位于电子设备的一端。 当使用诸如外部视频附件的设备时,电子设备中的输入 - 输出电路可以通过输入 - 输出端口传输高速数据信号。 诸如视频数据或其他数据传输的输入输出端口上的活动的存在可以由电子设备中的控制电路监视。 当检测到输入输出端口活动时,可以禁止在接收射频信号中使用第二天线。
    • 2. 发明申请
    • Methods For Selecting Antennas To Avoid Signal Bus Interference
    • 选择天线避免信号总线干扰的方法
    • US20120142296A1
    • 2012-06-07
    • US12959258
    • 2010-12-02
    • Peter C. CotterillRobert W. Schlub
    • Peter C. CotterillRobert W. Schlub
    • H04B1/10H04B1/06
    • H04B7/0805H04B7/0877
    • Electronic devices may have multiple antennas. A first antenna may be located at one end of a device and a second antenna may be located at another end of the device. An input-output port in a device may have a connector that receives a mating connector associated with external equipment. The input-output port and the second antenna may be located at one of the ends of the electronic device. When equipment such as an external video accessory is in use, input-output circuitry in an electronic device may transmit high speed data signals through the input-output port. The presence of activity on the input-output port such as video data or other data transmissions may be monitored by control circuitry in the electronic device. When input-output port activity is detected, use of the second antenna in receiving radio-frequency signals can be inhibited.
    • 电子设备可以具有多个天线。 第一天线可以位于设备的一端,并且第二天线可以位于设备的另一端。 设备中的输入 - 输出端口可以具有接收与外部设备相关联的配合连接器的连接器。 输入输出端口和第二天线可以位于电子设备的一端。 当使用诸如外部视频附件的设备时,电子设备中的输入 - 输出电路可以通过输入 - 输出端口传输高速数据信号。 诸如视频数据或其他数据传输的输入输出端口上的活动的存在可以由电子设备中的控制电路监视。 当检测到输入输出端口活动时,可以禁止在接收射频信号中使用第二天线。
    • 4. 发明授权
    • Antenna structures in electronic devices with hinged enclosures
    • 具有铰链外壳的电子设备中的天线结构
    • US09122446B2
    • 2015-09-01
    • US13484040
    • 2012-05-30
    • James W. JervisJayesh NathErdinc IrciJerzy GutermanMattia PascoliniRobert W. Schlub
    • James W. JervisJayesh NathErdinc IrciJerzy GutermanMattia PascoliniRobert W. Schlub
    • G06F1/16H01Q1/22H01Q1/38H01Q1/42H04M1/02
    • G06F1/1616H01Q1/2266H01Q1/2291H01Q1/38H01Q1/42H04M1/0216
    • Electronic devices may include radio-frequency transceiver circuitry and antenna structures. The antenna structures may include antenna resonating elements, parasitic antenna resonating elements, and antenna ground structures. The antenna structures may include metal traces that are wrapped around an elongated plastic carrier. The plastic carrier may have metal traces that are coupled to a metal bracket using solder that protrudes through a hole in the metal bracket. A printed circuit board may be mounted between the metal bracket and a metal housing. The metal housing may have a protruding ridge portion that is gripped between prongs on the metal bracket. A cover may cover the metal traces on the elongated plastic carrier. The antenna structures may be mounted between hinge structures that couple upper and lower housing structures. The antenna structures may be configured to operate with comparable performance when the upper and lower housing structures are open and closed.
    • 电子设备可以包括射频收发器电路和天线结构。 天线结构可以包括天线谐振元件,寄生天线谐振元件和天线地面结构。 天线结构可以包括围绕细长塑料载体缠绕的金属迹线。 塑料载体可以具有金属迹线,其使用通过金属支架中的孔突出的焊料耦合到金属支架。 印刷电路板可以安装在金属支架和金属外壳之间。 金属壳体可以具有突出的脊部,该脊部被夹在金属支架上的尖头之间。 盖可以覆盖细长塑料载体上的金属迹线。 天线结构可以安装在耦合上部和下部壳体结构的铰链结构之间。 天线结构可以被配置为当上部和下部壳体结构打开和关闭时以相当的性能运行。
    • 5. 发明授权
    • Antenna with folded monopole and loop modes
    • 具有折叠单极和环路模式的天线
    • US08963784B2
    • 2015-02-24
    • US13402831
    • 2012-02-22
    • Jiang ZhuQingxiang LiRodney A. Gomez AnguloRobert W. SchlubRuben Caballero
    • Jiang ZhuQingxiang LiRodney A. Gomez AnguloRobert W. SchlubRuben Caballero
    • H01Q1/24
    • H01Q1/243H01Q9/30H01Q13/18
    • Electronic devices may be provided that contain wireless communications circuitry. The wireless communications circuitry may include radio-frequency transceiver circuitry and antennas. An antenna may have an antenna ground that is configured to form a cavity for the antenna. The antenna ground may be formed on a support structure. The antenna ground may have an opening. The support structure may have a planar surface on which the opening is formed. A folded monopole antenna resonating element and an L-shaped conductive antenna element may be formed in the opening and may be capacitively coupled. The folded monopole antenna resonating element may have an end at which a positive antenna feed terminal is formed. A ground antenna feed terminal may be formed on the antenna ground. A segment of the antenna ground may extend between the ground antenna feed terminal and an end of the L-shaped conductive antenna element.
    • 可以提供包含无线通信电路的电子设备。 无线通信电路可以包括射频收发器电路和天线。 天线可以具有被配置为形成用于天线的空腔的天线接地。 天线接地可以形成在支撑结构上。 天线地面可能有一个开口。 支撑结构可以具有形成开口的平坦表面。 可以在开口中形成折叠的单极天线谐振元件和L形导电天线元件,并且可以电容耦合。 折叠的单极天线谐振元件可以具有形成正天线馈电端子的端部。 地天线馈电端子可以形成在天线地面上。 天线接地的一段可以在接地天线馈电端子和L形导电天线元件的一端之间延伸。
    • 9. 发明授权
    • Adjustable wireless circuitry with antenna-based proximity detector
    • 可调无线电路,天线接近检测器
    • US08781420B2
    • 2014-07-15
    • US12759243
    • 2010-04-13
    • Robert W. SchlubRuben Caballero
    • Robert W. SchlubRuben Caballero
    • H04B7/04
    • H04W8/22H01Q1/243H04B1/401H04W4/12
    • An electronic device such as a portable electronic device has wireless communications circuitry. Antennas in the electronic device may be used in transmitting radio-frequency antenna signals. A coupler and antenna signal phase and magnitude measurement circuitry may be used to determine when external objects are in the vicinity of the antenna by making antenna impedance measurements. In-band and out-of-band phase and magnitude signal measurements may be made in determining whether external objects are present. Additional sensors such as motion sensors, light and heat sensors, acoustic and electrical sensors may produce data that can be combined with the proximity data gathered using the antenna-based proximity sensor. In response to detecting that an external object such as a user's body is within a given distance of the antenna, the electronic device may reduce transmit powers, switch antennas, steer a phased antenna array, switch communications protocols, or take other actions.
    • 诸如便携式电子设备的电子设备具有无线通信电路。 电子设备中的天线可以用于发送射频天线信号。 耦合器和天线信号相位和幅度测量电路可用于通过进行天线阻抗测量来确定外部物体何时位于天线附近。 可以在确定外部物体是否存在时进行带内和带外相位和幅度信号测量。 附加的传感器,例如运动传感器,光和热传感器,声学和电传感器可以产生可以与使用基于天线的接近传感器收集的邻近数据组合的数据。 响应于检测到诸如用户身体的外部对象在天线的给定距离内,电子设备可以降低发射功率,切换天线,引导相控天线阵列,切换通信协议或采取其他动作。
    • 10. 发明授权
    • Radio-frequency test probes with integrated matching circuitry for testing transceiver circuitry
    • 具有集成匹配电路的射频测试探头,用于测试收发器电路
    • US08610439B2
    • 2013-12-17
    • US13086670
    • 2011-04-14
    • Joshua G. NickelRobert W. Schlub
    • Joshua G. NickelRobert W. Schlub
    • G01R27/04G01R27/00
    • G01R1/06772G01R31/2822H04B17/20
    • Wireless electronic devices include wireless communications circuitry such as transceiver circuitry coupled to an antenna resonating element. The transceiver circuitry and the antenna element may be formed on first and second substrates, respectively. In compact wireless devices, transceiver and antenna matching circuits may be formed on the first substrate. During production testing, a radio-frequency test probe with integrated matching circuitry may be used to mate with a corresponding contact point on the first substrate. The integrated matching circuitry may include resistors, capacitors, and inductors soldered in desired series-parallel configurations within the test probe. When the test probe is mated to the contact point on the first substrate, a test unit connected to the test probe may be used to perform radio-frequency measurements to determine whether the transceiver circuitry satisfies design criteria.
    • 无线电子设备包括诸如耦合到天线谐振元件的收发器电路之类的无线通信电路。 收发器电路和天线元件可以分别形成在第一和第二基板上。 在紧凑型无线设备中,可以在第一基板上形成收发器和天线匹配电路。 在生产测试期间,可以使用具有集成匹配电路的射频测试探针与第一基板上的相应接触点相配合。 集成匹配电路可以包括在测试探针内以期望的串并联配置焊接的电阻器,电容器和电感器。 当测试探针与第一衬底上的接触点配合时,连接到测试探针的测试单元可用于执行射频测量,以确定收发器电路是否满足设计标准。