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    • 83. 发明授权
    • Wireless communication terminal
    • 无线通信终端
    • US09037117B2
    • 2015-05-19
    • US13391077
    • 2010-08-28
    • Stefan AustTetsuya ItoAkira MatsumotoPeter Christopher Davis
    • Stefan AustTetsuya ItoAkira MatsumotoPeter Christopher Davis
    • H04Q7/10H04W64/00G01S5/02
    • H04W64/00G01S5/0252
    • A wireless communication terminal includes a communication status measurement element for measuring communication status data representing a communication status of the self terminal at the time of wireless communications; a reference data storage element for storing respective pieces of preset reference data representing communication statuses of a terminal which can be measured at respective locations at the time of wireless communications, in association with respective pieces of location data identifying the respective locations, and a location specifying element for comparing the communication status data measured by the communication status measurement element with the respective pieces of reference data stored in the reference data storage element, and based on the comparison result, specifying a location corresponding to the location data associated with a particular piece of reference data as a location of the self terminal.
    • 无线通信终端包括通信状态测量元件,用于测量表示无线通信时自身终端的通信状态的通信状态数据; 参考数据存储元件,用于存储表示在无线通信时在各个位置可测量的终端的通信状态的各条预置参考数据,与标识各个位置的各个位置数据相关联,以及指定 元件,用于将由通信状态测量元件测量的通信状态数据与存储在参考数据存储元件中的各个参考数据进行比较,并且基于比较结果,指定与特定片段相关联的位置数据相对应的位置 参考数据作为自身终端的位置。
    • 86. 发明授权
    • Sensing device and biosensor
    • 感应装置和生物传感器
    • US08668871B2
    • 2014-03-11
    • US13513939
    • 2011-07-20
    • Akira MatsumotoYuji Miyahara
    • Akira MatsumotoYuji Miyahara
    • G01N33/53
    • C07F5/025C07B2200/11G01N5/02G01N27/4145
    • Provided are a sensing device and a biosensor that are capable of achieving stable performance in sensing saccharides or hydroxyl group-containing polymers, and that can be stored for a long time. The biosensor 8 of the present invention uses, as a component for sensing glucose, a sensing device 16 in which a completely synthetic phenylboronic acid compound 21 is bound without using enzymes that have been conventionally used. Consequently, the biosensor 8 can eliminate the problem of protein denaturation to achieve stable performance in sensing glucose, and it is possible to achieve the biosensor 8 can be stored for a long time.
    • 提供能够在感测糖类或含羟基聚合物中获得稳定性能的感测装置和生物传感器,并且可以长期储存。 本发明的生物传感器8使用传感装置16作为检测葡萄糖的组分,其中完全合成的苯基硼酸化合物21不经过常规使用的酶结合。 因此,生物传感器8可以消除蛋白质变性的问题,以实现感测葡萄糖的稳定性能,并且可以实现生物传感器8的存储长时间。
    • 88. 发明授权
    • Semiconductor device with dynamically calibrated oscillator
    • 具有动态校准振荡器的半导体器件
    • US08547148B2
    • 2013-10-01
    • US13026245
    • 2011-02-12
    • Akira MatsumotoTatsunori Usugi
    • Akira MatsumotoTatsunori Usugi
    • H03L7/06
    • H03L7/087H03L7/0995
    • A digital compensation phase locked loop circuit of a semiconductor device includes a phase locked loop circuit including a voltage controlled oscillator having capacitors at oscillation nodes and consecutively controlled by an applied voltage, and a digital compensation circuit which variably controls the capacitors at the oscillation nodes of the voltage controlled oscillator in accordance with an input phase difference. A gain of the conventional voltage controlled oscillator whose gain is determined by an applied voltage is discretely changed by a control signal of the digital compensation circuit. The digital compensation circuit dynamically controls the gain so as to secure the optimum phase margin by applying a load (capacitor) to the oscillation node of the voltage controlled oscillator with respect to a phase lead and decreasing the load (capacitor) with respect to a phase delay.
    • 半导体器件的数字补偿锁相环电路包括:锁相环电路,包括在振荡节点处具有电容器并由施加电压连续控制的压控振荡器;以及数字补偿电路,其可变地控制振荡节点处的电容器 压控振荡器根据输入相位差。 增益由施加电压决定的传统压控振荡器的增益由数字补偿电路的控制信号离散地改变。 数字补偿电路动态地控制增益,以通过相对于相位引线施加负载(电容器)到压控振荡器的振荡节点并相对于相位减小负载(电容器)来确保最佳相位裕度 延迟。
    • 89. 发明授权
    • Semiconductor integrated circuit device and method for evaluating an eye-opening margin
    • 半导体集成电路装置及评估开眼余量的方法
    • US08443243B2
    • 2013-05-14
    • US12367067
    • 2009-02-06
    • Akira MatsumotoDaisuke HamanoAtsuhiro HayashiKazuhisa Suzuki
    • Akira MatsumotoDaisuke HamanoAtsuhiro HayashiKazuhisa Suzuki
    • G06F11/00
    • H03L7/08H04L1/205H04L7/0008H04L7/0331H04L7/043
    • An eye-opening margin measurement method for a high-speed serial data reception circuit which uses a circuit for eye-opening margin measurement involving operation of a clock data recovery circuit without fixing the clock phase. In this method, an error acceleration test can also be made on received data by giving an offset pulse signal to phase information to add a jitter component. The method uses a semiconductor integrated circuit device which includes a serializer/deserializer circuit (SerDes) for receiving serial data and a reference serializer/deserializer circuit (Ref_SerDes) for receiving an accompanying clock signal. The SerDes circuit converts received serial data into parallel data through a recovery clock whose phase is controlled using phase control signal P_CS generated by the Ref_SerDes circuit. An offset pulse signal Offset_Pulse from the pulse-forming circuit is applied to the phase control signal P_CS to make eye-opening margin measurement.
    • 一种用于高速串行数据接收电路的开眼边缘测量方法,其使用涉及在不固定时钟相位的情况下操作时钟数据恢复电路的眼睛开度边缘测量电路。 在该方法中,也可以通过向相位信息给出偏移脉冲信号来添加抖动分量,来对接收到的数据进行误差加速度测试。 该方法使用包括用于接收串行数据的串行器/解串行器电路(SerDes)和用于接收伴随时钟信号的参考串行器/解串行器电路(Ref_SerDes)的半导体集成电路器件。 SerDes电路通过恢复时钟将接收的串行数据转换成并行数据,恢复时钟的相位由Ref_SerDes电路生成的相位控制信号P_CS进行控制。 来自脉冲形成电路的偏移脉冲信号Offset_Pulse被施加到相位控制信号P_CS以进行开眼余量测量。