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    • 64. 发明申请
    • ATTENUATING ANTENNA SWITCH AND COMMUNICATION DEVICE
    • 衰减天线开关和通信设备
    • US20130072134A1
    • 2013-03-21
    • US13610237
    • 2012-09-11
    • Satoshi GOTOKazuaki HoriSatoshi Sakurai
    • Satoshi GOTOKazuaki HoriSatoshi Sakurai
    • H01P1/15H04W88/02H01P1/10H04B1/44
    • H04B1/109Y02D70/00
    • An attenuating antenna switch may be used to suppress increase in the scale and power consumption of an RFIC. The antenna switch has a first terminal, a second terminal, and an antenna terminal coupled to the first and second terminals and configured to be connected to an antenna. The first switch switches between a first state in which a high frequency signal is propagated between the first terminal and the antenna terminal, and a second state in which the high frequency signal is interrupted. A second switch switches between the first and second states between the second terminal and the antenna terminal. The first and second switches are controlled in a mutually exclusive manner such that only one of the two switches can be in the first state at any given time. When in the first state, each switch adjusts an attenuation amount of the high frequency signal.
    • 可以使用衰减天线开关来抑制RFIC的规模和功耗的增加。 天线开关具有耦合到第一和第二端子并被配置为连接到天线的第一端子,第二端子和天线端子。 第一开关在高频信号在第一端子和天线端子之间传播的第一状态和高频信号被中断的第二状态之间切换。 第二开关在第二端子和天线端子之间的第一和第二状态之间切换。 第一和第二开关以相互排斥的方式进行控制,使得两个开关中只有一个可以在任何给定时间处于第一状态。 当处于第一状态时,每个开关调节高频信号的衰减量。
    • 68. 发明授权
    • Communication apparatus, KVM switch and communication control method
    • 通讯设备,KVM切换及通讯控制方式
    • US08214565B2
    • 2012-07-03
    • US12010559
    • 2008-01-25
    • Satoshi SakuraiKatsuji IdeuraKazuhiro YasunoFujio Seki
    • Satoshi SakuraiKatsuji IdeuraKazuhiro YasunoFujio Seki
    • G06F13/12H04B3/36
    • G06F3/023
    • A KVM switch includes: server units respectively connected to computers; user units respectively connected to input/output devices for transmitting signals to the computers and receiving signals from the computers; and a main unit that connects the server units and the user units. Each of the server units, user units and main unit is a communication unit and includes: a first part communicating with another communication unit to inform the above another communication unit of unit type information about the communication unit and receive unit type information about the above another communication unit therefrom; and a second part controlling communications with the above another communication unit on the basis of the unit type information acquired from the above another communication unit.
    • KVM切换器包括:分别连接到计算机的服务器单元; 用户单元分别连接到输入/输出设备,用于向计算机发送信号并从计算机接收信号; 以及连接服务器单元和用户单元的主单元。 每个服务器单元,用户单元和主单元是通信单元,并且包括:与另一个通信单元通信的第一部分,以通知上述另一个通信单元关于通信单元的单元类型信息,以及接收关于上述另一个的单元类型信息 通信单元; 以及第二部分,其基于从上述另一通信单元获取的单元类型信息来控制与上述另一通信单元的通信。
    • 69. 发明申请
    • Position detection device
    • 位置检测装置
    • US20110267044A1
    • 2011-11-03
    • US13067070
    • 2011-05-05
    • Satoshi SakuraiNobuo YatsuShinichirio AkiedaNobuyoshi ShimizuKeita Harada
    • Satoshi SakuraiNobuo YatsuShinichirio AkiedaNobuyoshi ShimizuKeita Harada
    • G01B7/14
    • G06F3/0354
    • A position detection device includes an electromagnetic conversion element and a magnetic field generator. The electromagnetic conversion element is arranged on a given plane. The magnetic field generator is arranged facing one side of the electromagnetic conversion element in a direction vertical to the given plane and generates a magnetic field covering the electromagnetic conversion element. A relative position between the electromagnetic conversion element and the magnetic field generator is detected when a relative displacement parallel to the given plane is made by the electromagnetic conversion element and the magnetic field generator based on an output signal of the electromagnetic conversion element. The magnetic field generator has an opposed face that tilts to the electromagnetic conversion element, and generates the magnetic field from the opposed face.
    • 位置检测装置包括电磁转换元件和磁场发生器。 电磁转换元件设置在给定的平面上。 磁场发生器沿垂直于给定平面的方向布置成面对电磁转换元件的一侧,并产生覆盖电磁转换元件的磁场。 当电磁转换元件和磁场发生器基于电磁转换元件的输出信号进行平行于给定平面的相对位移时,检测电磁转换元件与磁场发生器之间的相对位置。 磁场发生器具有倾斜于电磁转换元件的相对面,并从相对面产生磁场。