公开(公告)号：EP3567756A1

公开(公告)日：2019-11-13

申请号：EP17894304.9

申请日：2017-01-24

申请人： Huawei Technologies Co., Ltd.

发明人： FU, Shengmeng ,  XIONG, Yu ,  MAN, Jiangwei ,  WANG, Chengyan ,  ZENG, Xiaofei ,  ZENG, Li

IPC分类号： H04B10/69

摘要： This application discloses an optical receiver, including an optoelectronic detector, a transimpedance amplification circuit, a single-ended-to-differential converter, an I/O interface, and a controller. The optoelectronic detector is configured to convert a received optical signal into a current signal, where bandwidth of the optoelectronic detector is lower than a system transmission bandwidth requirement. The transimpedance amplification circuit is configured to: receive the current signal and a first control signal, and perform transimpedance gain on the current signal based on the first control signal, to obtain a voltage signal, where a frequency response value of the current signal within first bandwidth is greater than that within the bandwidth of the optoelectronic detector, and any frequency in the first bandwidth is not lower than an upper cut-off frequency of the optoelectronic detector. The single-ended-to-differential converter is configured to convert the voltage signal into a differential voltage signal. The I/O interface is configured to output the differential voltage signal. The controller is configured to generate, based on the differential voltage signal, a second control signal that is used to control the transimpedance amplification circuit to perform transimpedance gain on the current signal. According to the optical receiver disclosed in this application, costs are reduced while received signal quality is ensured.

公开(公告)号：EP3998718A1

公开(公告)日：2022-05-18

申请号：EP21191784.4

申请日：2017-01-24

申请人： HUAWEI TECHNOLOGIES CO., LTD.

发明人： FU, Shengmeng ,  XIONG, Yu ,  MAN, Jiangwei ,  WANG, Chengyan ,  ZENG, Xiaofei ,  ZENG, Li

IPC分类号： H04B10/69

摘要： This application discloses an optical receiver, including an optoelectronic detector, a transimpedance amplification circuit, a single-ended-to-differential converter, an I/O interface, and a controller. The optoelectronic detector is configured to convert a received optical signal into a current signal, where bandwidth of the optoelectronic detector is lower than a system transmission bandwidth requirement. The transimpedance amplification circuit is configured to: receive the current signal and a first control signal, and perform transimpedance gain on the current signal based on the first control signal, to obtain a voltage signal, where a frequency response value of the current signal within first bandwidth is greater than that within the bandwidth of the optoelectronic detector, and any frequency in the first bandwidth is not lower than an upper cut-off frequency of the optoelectronic detector. The single-ended-to-differential converter is configured to convert the voltage signal into a differential voltage signal. The I/O interface is configured to output the differential voltage signal. The controller is configured to generate, based on the differential voltage signal, a second control signal that is used to control the transimpedance amplification circuit to perform transimpedance gain on the current signal. According to the optical receiver disclosed in this application, costs are reduced while received signal quality is ensured.