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    • 7. 发明授权
    • Identification level control method and optical receiver
    • 识别级别控制方法和光接收机
    • US07382987B2
    • 2008-06-03
    • US10821853
    • 2004-04-12
    • Setsuo MisaizuYuko YoshidaTetsuji Sato
    • Setsuo MisaizuYuko YoshidaTetsuji Sato
    • H04B10/06
    • H03F3/087H03G3/3084H03K5/082H04B10/695H04L25/063
    • An identification level control method and an optical receiver are disclosed to determine an optimal identification level in a simple structure without clock extraction. In the identification level control method, an identification level supplied to a limiter amplifier is changed from a lower bound to an upper bound thereof and is stored together with an output average of the limiter amplifier. Then, a first average and a second average are set based on the output average. A first identification level corresponding to the first average and a second identification level corresponding to the second average are obtained, and an optimal identification level is computed based on the first identification level and the second identification level, and is supplied to the limiter amplifier.
    • 公开了一种识别电平控制方法和光接收器,以便在没有时钟提取的情况下以简单结构确定最佳识别电平。 在识别电平控制方法中,提供给限幅放大器的识别电平从下限变化到其上限,并与限幅放大器的输出平均值一起存储。 然后,基于输出平均值设定第一平均值和第二平均值。 获得与第一平均值对应的第一识别电平和与第二平均值对应的第二识别电平,并且基于第一识别电平和第二识别电平来计算最佳识别电平,并将其提供给限幅放大器。
    • 8. 发明授权
    • PLO device
    • PLO设备
    • US06807245B2
    • 2004-10-19
    • US10211232
    • 2002-08-05
    • Sadao IbukuroSetsuo MisaizuIsao Nakajima
    • Sadao IbukuroSetsuo MisaizuIsao Nakajima
    • H03D324
    • H04L7/033H03L7/085
    • There is provided a PLO device which performs high-accuracy, high-quality clock recovery. A shifted data generation part generates shifted data, and a first phase comparison part outputs first difference data. A first filter removes an alternating-current component from the first difference data and outputs a first detection voltage. A delay part delays input data for a time corresponding to half of one time slot with the use of an analog delay element and outputs delayed data. A second phase comparison part compares the phases of the input data and delayed data with each other and outputs second difference data. A second filter removes an alternating-current component from the second difference data and outputs a second detection voltage. An arithmetic section divides the first detection voltage by the second detection voltage to obtain a control voltage. A clock oscillation section outputs recovered clock based on the control voltage.
    • 提供了一种执行高精度,高质量时钟恢复的PLO设备。 移位数据生成部生成移位数据,第一相位比较部输出第一差分数据。 第一滤波器从第一差分数据中去除交流分量并输出第一检测电压。 延迟部分使用模拟延迟元件在一个时隙的一半时间内延迟输入数据并输出延迟数据。 第二相位比较部分将输入数据和延迟数据的相位彼此进行比较,并输出第二差分数据。 第二滤波器从第二差分数据中去除交流分量并输出第二检测电压。 运算部将第一检测电压除以第二检测电压,得到控制电压。 时钟振荡部分根据控制电压输出恢复时钟。
    • 9. 发明授权
    • Laser diode protecting circuit
    • 激光二极管保护电路
    • US6097746A
    • 2000-08-01
    • US41752
    • 1998-03-13
    • Mitsuharu NodaMotoyoshi SekiyaSetsuo MisaizuTetsuya Kiyonaga
    • Mitsuharu NodaMotoyoshi SekiyaSetsuo MisaizuTetsuya Kiyonaga
    • H01S5/042H01S5/068H01S5/0683H01S3/00
    • H01S5/06825H01S5/06804H01S5/0683
    • Disclosed is a laser diode protecting circuit adapted to prevent a laser diode from producing an excessive emission when the laser diode is driven at low temperature, thereby assuring that the laser diode will not be damaged or degraded in terms of its characteristic. When the laser diode is started at low temperature, a laser diode protecting circuit has a power monitor circuit for monitoring backward power of the laser diode and a laser diode current limiting circuit for limiting the laser diode current when the backward power becomes equal to the set power. When the laser diode temperature subsequently rises and the backward power falls below the set power, an automatic current control circuit performs automatic current control in such a manner that the laser diode current attains a set current value. Alternatively, a temperature monitor circuit monitors the temperature of the laser diode and the laser diode current limiting circuit limits the laser diode current when the monitored temperature of the laser diode is less than the set temperature. When the laser diode temperature exceeds the set temperature, the automatic current control circuit performs automatic current control in such a manner that the laser diode attains the set current value.
    • 公开了一种激光二极管保护电路,其适于在激光二极管在低温下被驱动时防止激光二极管产生过多的发射,从而确保激光二极管在其特性方面不会被损坏或劣化。 当激光二极管在低温下启动时,激光二极管保护电路具有用于监视激光二极管反向功率的功率监控电路和激光二极管限流电路,用于在反向功率等于设定值时限制激光二极管电流 功率。 当激光二极管温度随后上升并且反向功率下降到设定功率以下时,自动电流控制电路以激光二极管电流达到设定电流值的方式进行自动电流控制。 或者,温度监视电路监测激光二极管的温度,激光二极管限流电路在激光二极管的监视温度小于设定温度时限制激光二极管电流。 当激光二极管温度超过设定温度时,自动电流控制电路以激光二极管达到设定电流值的方式进行自动电流控制。
    • 10. 发明授权
    • Laser diode protecting circuit and laser driving current control circuit
    • 激光二极管保护电路和激光驱动电流控制电路
    • US06229833B1
    • 2001-05-08
    • US09274248
    • 1999-03-23
    • Mitsuharu NodaMotoyoshi SekiyaSetsuo MisaizuTetsuya KiyonagaNobuaki SatoYasunori Nagakubo
    • Mitsuharu NodaMotoyoshi SekiyaSetsuo MisaizuTetsuya KiyonagaNobuaki SatoYasunori Nagakubo
    • H01S300
    • H01S5/06825H01S5/042H01S5/06804
    • Disclosed is a laser diode protecting circuit adapted to prevent a laser diode from producing an excessive emission when the laser diode is driven at low temperature, thereby assuring that the laser diode will not be damaged or degraded in terms of its characteristic. When the laser diode is started at low temperature, a laser diode protecting circuit has a power monitor circuit for monitoring backward power of the laser diode and a laser diode current limiting circuit for limiting the laser diode current when the backward power becomes equal to the set power. When the laser diode temperature subsequently rises and the backward power falls below the set power, an automatic current control circuit performs automatic current control in such a manner that the laser diode current attains a set current value. Alternatively, a temperature monitor circuit monitors the temperature of the laser diode and the laser diode current limiting circuit limits the laser diode current when the monitored temperature of the laser diode is less than the set temperature. When the laser diode temperature exceeds the set temperature, the automatic current control circuit performs automatic current control in such a manner that the laser diode attains the set current value.
    • 公开了一种激光二极管保护电路,其适于在激光二极管在低温下被驱动时防止激光二极管产生过多的发射,从而确保激光二极管在其特性方面不会被损坏或劣化。 当激光二极管在低温下启动时,激光二极管保护电路具有用于监视激光二极管反向功率的功率监控电路和激光二极管限流电路,用于在反向功率等于设定值时限制激光二极管电流 功率。 当激光二极管温度随后上升并且反向功率下降到设定功率以下时,自动电流控制电路以激光二极管电流达到设定电流值的方式进行自动电流控制。 或者,温度监视电路监测激光二极管的温度,激光二极管限流电路在激光二极管的监视温度小于设定温度时限制激光二极管电流。 当激光二极管温度超过设定温度时,自动电流控制电路以激光二极管达到设定电流值的方式进行自动电流控制。