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    • 4. 发明公开
    • RADIO FREQUENCY PROCESSING DEVICE AND METHOD
    • 射频处理设备和方法
    • EP3193474A1
    • 2017-07-19
    • EP15840772.6
    • 2015-09-14
    • Samsung Electronics Co., Ltd.
    • PARK, Jun-YoungSON, Ju-HoLEE, Dae-YoungLEE, Jeong-Ho
    • H04L7/027H04L25/02
    • H04L7/042H04B1/3888H04B1/50H04B7/0413H04J3/0685H04L7/06H04L25/02H04W56/001H04W56/0015H04W56/005
    • The present invention relates to a fifth generation (5G) or pre-5G communication system to be provided to support a data transmission rate higher than that of a fourth generation (4G) communication system, such as long term evolution (LTE), and subsequent communication systems. The radio frequency (RF) processing device of the present invention comprises: at least one antenna; an RF unit for performing communication with a base station by using the at least one antenna; a signal filter unit for dividing and outputting, when a signal is received from another RF processing device connected through one interface, a radio signal and a control signal for communicating with the base station from the received signal; a clock signal detection unit for detecting a clock signal from the control signal when the control signal is output from the signal filter unit; and a control unit for performing an operation according to the control signal according to the clock signal-based timing.
    • 本发明涉及第五代(5G)或预-5G通信系统,其被提供以支持比第四代(4G)通信系统(诸如长期演进(LTE))更高的数据传输速率,并且随后 通信系统。 本发明的射频(RF)处理设备包括:至少一个天线; RF单元,用于通过使用所述至少一个天线执行与基站的通信; 信号滤波器单元,用于当从通过一个接口连接的另一个RF处理设备接收到信号时,从接收到的信号中分离并输出无线电信号和用于与基站通信的控制信号; 时钟信号检测单元,用于当从信号滤波单元输出控制信号时,从控制信号中检测时钟信号; 以及控制单元,用于根据基于时钟信号的定时根据控制信号执行操作。
    • 8. 发明公开
    • OPTICAL MEASURING DEVICE
    • 光学测量装置
    • EP2604173A1
    • 2013-06-19
    • EP12776623.6
    • 2012-04-18
    • Olympus Medical Systems Corp.
    • KAMIMURA, Kenji
    • A61B1/00A61B1/06A61B5/1459G01N21/27
    • A61B5/0075A61B5/0084A61B5/42A61B5/6852A61B5/7246A61B2562/0238A61B2562/0242G01N21/4738G01N2021/4742H04L7/0075H04L7/06
    • An optical measurement 1 apparatus according to the present invention includes: an irradiation fiber 5; a plurality of light receiving fibers 7 to 9; a light source unit 22 that generates and outputs light to irradiate a biological tissue 6 and supplies the light to the irradiation fiber 5; a measurement unit 23 that has a plurality of measurement units and performs spectrometry on each returned light from the biological tissue, the returned light output by each of the light receiving fibers 7 to 9; and a control unit 26 that causes a predetermined storage unit 27 to store a measurement result by the measurement unit 23, and the measurement unit 23 sequentially performs pre-characteristic-value-obtainment measurement of the returned light under a predetermined condition after power is supplied and, in the pre-characteristic-value-obtainment measurement, starts spectrometry for characteristic value obtainment when an increase in a received light intensity is detected, the increase being an amount set based on an amount of supplied light from the light source unit 22 and a light reflection or scattering state of the biological tissue 6.
    • 根据本发明的光学测量装置1包括:照射光纤5; 多个光接收光纤7至9; 产生和输出光以照射生物组织6并将光提供给照射光纤5的光源单元22; 测量单元23,其具有多个测量单元并且对来自生物组织的每个返回光进行光谱测量,每个光接收纤维7至9输出的返回光; 以及控制部26,其使规定的存储部27存储测定部23的测定结果,测定部23在通电后的规定条件下依次进行返回光的前期特征值获得测定 并且在前特征值获得测量中,当检测到接收到的光强度的增加时开始用于特征值获得的光谱测量,该增加量是基于来自光源单元22的供应光量而设置的量,以及 生物组织6的光反射或散射状态。