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    • 1. 发明申请
    • OPTICAL SIGNAL TRANSMITTER, AND BIAS VOLTAGE CONTROL METHOD
    • US20120155865A1
    • 2012-06-21
    • US13393101
    • 2010-09-07
    • Hiroto KawakamiEiji YoshidaMasahiro Tachibana
    • Hiroto KawakamiEiji YoshidaMasahiro Tachibana
    • H04J14/00
    • G02F1/0123H04B10/5053H04B10/5057H04B10/50572H04B10/50575H04B10/5561
    • An optical signal transmitter of the present invention includes: two phase modulating portions; a phase shifter which displaces carrier phases of two output lights from the phase modulating portions by π/2; a multiplexing portion which multiplexes two signal lights, carrier phases of the two signal lights being made orthogonal to each other by the phase shifter; a drive signal electrode portion which supplies a differential data signal to each of four paths of interference optical waveguides, each of the two phase modulating portions having the interference optical waveguides, the differential data signal having an amplitude which is equal to a half-wave voltage Vπ of the two phase modulating portions; a drive amplifier which amplifies the differential data signal to be supplied to each of the four paths of the interference optical waveguides; a data bias electrode portion which supplies a total of four data bias voltages to two arms, each of the two phase modulating portions having the two arms; an orthogonal bias electrode portion which supplies an orthogonal bias voltage to the phase shifter; a data bias power supply portion that adjusts delay times in the two phase modulating portions by applying the data bias voltages to the data bias electrode portion; an orthogonal bias power supply portion that adjusts a delay amount relative to a light output from at least one of the two phase modulating portions by applying the orthogonal bias voltage to the orthogonal bias electrode portion; a dither signal adding portion that adds a dither signal to at most three of the four data bias voltages; a dither detecting portion which detects a wave that is n-times a dither component from an output of the multiplexing portion (where n is an integer equal to or greater than one); and an orthogonal bias control portion which feeds back a detection result of the dither detecting portion to the orthogonal bias power supply portion. The orthogonal bias power supply portion adjusts the delay amount relative to the light output from at least one of the two phase modulating portions by controlling the orthogonal bias voltage to be applied to the orthogonal bias electrode portion based on feedback from the orthogonal bias control portion.
    • 2. 发明授权
    • Optical signal transmitter, and bias voltage control method
    • US09020361B2
    • 2015-04-28
    • US13393101
    • 2010-09-07
    • Hiroto KawakamiEiji YoshidaMasahiro Tachibana
    • Hiroto KawakamiEiji YoshidaMasahiro Tachibana
    • H04B10/04G02F1/01H04B10/50
    • G02F1/0123H04B10/5053H04B10/5057H04B10/50572H04B10/50575H04B10/5561
    • An optical signal transmitter of the present invention includes: two phase modulating portions; a phase shifter which displaces carrier phases of two output lights from the phase modulating portions by π/2; a multiplexing portion which multiplexes two signal lights, carrier phases of the two signal lights being made orthogonal to each other by the phase shifter; a drive signal electrode portion which supplies a differential data signal to each of four paths of interference optical waveguides, each of the two phase modulating portions having the interference optical waveguides, the differential data signal having an amplitude which is equal to a half-wave voltage Vπ of the two phase modulating portions; a drive amplifier which amplifies the differential data signal to be supplied to each of the four paths of the interference optical waveguides; a data bias electrode portion which supplies a total of four data bias voltages to two arms, each of the two phase modulating portions having the two arms; an orthogonal bias electrode portion which supplies an orthogonal bias voltage to the phase shifter; a data bias power supply portion that adjusts delay times in the two phase modulating portions by applying the data bias voltages to the data bias electrode portion; an orthogonal bias power supply portion that adjusts a delay amount relative to a light output from at least one of the two phase modulating portions by applying the orthogonal bias voltage to the orthogonal bias electrode portion; a dither signal adding portion that adds a dither signal to at most three of the four data bias voltages; a dither detecting portion which detects a wave that is n-times a dither component from an output of the multiplexing portion (where n is an integer equal to or greater than one); and an orthogonal bias control portion which feeds back a detection result of the dither detecting portion to the orthogonal bias power supply portion. The orthogonal bias power supply portion adjusts the delay amount relative to the light output from at least one of the two phase modulating portions by controlling the orthogonal bias voltage to be applied to the orthogonal bias electrode portion based on feedback from the orthogonal bias control portion.
    • 3. 发明申请
    • OPTICAL MODULATION DEVICE AND BIAS VOLTAGE CONTROL METHOD
    • 光学调制装置和偏置电压控制方法
    • US20140153077A1
    • 2014-06-05
    • US14122687
    • 2012-08-21
    • Hiroto KawakamiEiji YoshidaYutaka Miyamoto
    • Hiroto KawakamiEiji YoshidaYutaka Miyamoto
    • G02F1/01
    • G02F1/0123G02B6/28G02F1/21G02F2001/212H04B10/5053H04B10/50575H04B10/50595H04B10/541H04B10/548H04L27/3411H04L27/364
    • An optical modulation device including: bias power supplies that output a signal having a bias voltage corresponding to the null point of an optical modulation unit to the optical modulation unit; and synchronous detection circuits that determine whether an intensity of a QAM signal at a drift non-occurrence time where no drift occurs in the bias voltage becomes larger or smaller than the intensity of the QAM signal at a drift occurrence time where a drift occurs in the bias voltage, adjust the bias voltage to maximize the intensity of the QAM signal when determining that the intensity of the QAM signal at the drift non-occurrence time becomes larger than the intensity of the QAM signal at the drift occurrence time, and adjust the bias voltage to minimize the intensity of the QAM signal when determining that the intensity of the QAM signal at the drift non-occurrence time becomes smaller than the intensity of the QAM signal at the drift occurrence time.
    • 一种光调制装置,包括:向光调制单元输出具有对应于光调制单元的零点的偏置电压的信号的偏置电源; 以及同步检测电路,其确定在偏置电压中不发生漂移的漂移不发生时间的QAM信号的强度是否大于或者小于在漂移发生时的QAM信号的强度, 当确定漂移不发生时间的QAM信号的强度变得大于漂移发生时的QAM信号的强度时,调整偏置电压以最大化QAM信号的强度,并且调整偏置 电压,以便在确定漂移不发生时间的QAM信号的强度变得小于漂移发生时的QAM信号的强度时,使QAM信号的强度最小化。
    • 10. 发明申请
    • COINCIDENCE DETERMINATION METHOD AND APPARATUS OF PET DEVICE
    • PET装置的确定方法和装置
    • US20130009064A1
    • 2013-01-10
    • US13635753
    • 2010-03-25
    • Eiji YoshidaTaiga Yamaya
    • Eiji YoshidaTaiga Yamaya
    • G01T1/164
    • G01T1/2985
    • In a coincidence determination processing of a PET device for regarding and counting a pair of annihilation radiations detected within a predetermined time as occurring from the same nuclide, a priority of a line of response to acquire is set and a true coincidence is extracted from multiple coincidences by using information on a detection time difference if a plurality of coincidences are detected with the predetermined time. Consequently, a true coincidence is extracted from multiple coincidences which have heretofore been discarded. This improves detection sensitivity at high radioactive concentration and contributes to an improved dynamic range.
    • 在从同一个核素发生的在预定时间内检测到的一对湮灭辐射的关联和计数的PET装置的重合确定处理中,设置对获取的响应行的优先级,并且从多个重合中提取真正的重合 如果在预定时间内检测到多个重合,则通过使用关于检测时间差的信息。 因此,从以前被丢弃的多个巧合中提取出真正的符合性。 这提高了在高放射性浓度下的检测灵敏度,并有助于改善动态范围。