Patents by Inventor Chengpeng FU
Chengpeng FU has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20200153191Abstract: The present invention relates to the field of optical communication, and particularly to a balanced pumping L-band optical fiber amplifier comprising a first erbium-doped optical fiber, a second erbium-doped optical fiber, an absorbing erbium-doped optical fiber and at least two pumping lasers, the first erbium-doped optical fiber, the second erbium-doped optical fiber and the absorbing erbium-doped optical fiber being sequentially arranged in this order, and the at least two pumping lasers providing pumping light; wherein the first erbium-doped optical fiber and the second erbium-doped optical fiber both are injected with forward pumping light and backward pumping light, and the absorbing erbium-doped fiber is arranged downstream of the second erbium-doped optical fiber to absorb amplified spontaneous emission (ASE) generated in the amplifier.Type: ApplicationFiled: December 21, 2018Publication date: May 14, 2020Applicant: Accelink Technologies Co., Ltd.Inventors: Chengpeng FU, Zhenyu YU, Qing LIU, Menghui LE, Chunping YU
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Publication number: 20200007238Abstract: The present disclosure relates to a technical field of optical communication, and provides a method and an apparatus for determining maximum gain of Raman fiber amplifier. Wherein the method includes obtaining transmission performance parameters of a current optical fiber transmission line; respectively obtaining impact factors A1, A2, A4 according to a distance between a joint and a pump source, a fiber loss coefficient, and a fiber length included in the transmission performance parameters; calculating a joint loss value AttAeff according to a distance between a joint and a pump source, a fiber loss coefficient, and looking up impact factor A3 according to AttAeff; determining an actual maximum gain which may actually be achieved by the Raman fiber amplifier according to A1, A2, A3, A4.Type: ApplicationFiled: December 18, 2018Publication date: January 2, 2020Applicant: ACCELINK TECHNOLOGIES CO., LTD.Inventors: Chengpeng Fu, Jintao Tao, Menghui Le, Cuihong Zhang, Di Fang, Qinlian Bu, Chunpin Yu, Fei Liu, Peng Zhang
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Publication number: 20190349111Abstract: An optical circuit includes: a multicast-and-select (MCS) switch and multiple optical selective devices coupled to output ports of the MCS switch. The selective devices may select a single optical channel by blocking some of wavelengths of light passing therethrough and passing at least one other wavelength. The selective devices may be wave blockers or tunable optical filters. The optical circuit further includes an optical amplifying array, wherein each amplifier has an input port optically coupled to one of the selective devices. At least some of the amplifiers have pump light ports for receiving at least a portion of the pump light from one or more laser pumps or from another of the optical amplifiers, wherein the pumps are capable of providing pump light sufficient to fully saturate all of the rare earth doped optical fibers in the array.Type: ApplicationFiled: December 27, 2017Publication date: November 14, 2019Inventors: Alan SOLHEIM, Qinlian BU, Weiqing ZHANG, Chengpeng FU, Lijie QIAO
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Patent number: 10439354Abstract: A cascade control system of an optical fiber amplifier includes a target setting parameter module, a primary controller, at least one controlled module and a secondary controller corresponding to the controlled module. The control system adopts two or more cascade control loops so that disturbance entering into the secondary loop can be overcome quickly, thereby the dynamic characteristics of the system may be improved. The primary controller aims to coarse adjustment and overall target control, and the secondary controller aims to fine adjustment and quick convergence of a short-term target, so that the control quality of the cascade control system may be further improved. The cascade control system may define the overall control target directly in the primary loop and avoid impact of aging characteristics of some special parameters on the application.Type: GrantFiled: December 26, 2014Date of Patent: October 8, 2019Assignee: Accelink Technologies Co., Ltd.Inventors: Peng Zhang, Chengpeng Fu, Chunping Yu, Jintao Tao, Cuihong Zhang
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Publication number: 20190131758Abstract: A method for realizing precise gain control for a hybrid fibre amplifier, and a hybrid fibre amplifier, in which by an erbium-doped fibre amplifier firstly outputting a constant power, a comparable source signal optical power is provided for a raman fibre amplifier of a next stage. A feedback for the gain control may be formed by comparing a source signal optical power calculated after starting pumping of the Raman fibre amplifier and a source signal optical power detected after pumping stops, thereby greatly improving gain control precision of the Raman fibre amplifier. Moreover, the erbium-doped fibre amplifier parts of all the hybrid fibre amplifiers may simultaneously output a constant optical power, and the Raman amplifier parts of all the hybrid fibre amplifiers may simultaneously start calibration, so that the time for starting operation of the entire system may be improved greatly.Type: ApplicationFiled: December 19, 2016Publication date: May 2, 2019Applicant: Accelink Technologies Co., Ltd.Inventors: Jintao Tao, Chengpeng Fu, Cuihong Zhang, Fei Cai, Tao Xiong, Yunyu Jing, Qinlian Bu, Chunping Yu
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Publication number: 20180241473Abstract: Provided are a control method and system for a cascade hybrid amplifier, in which respective hybrid amplifiers in the cascade hybrid amplifier simultaneously start to implement a pump-starting process comprising: when the hybrid amplifier receives a request to start pumping, determining whether conditions are satisfied, if yes, determining stability of power of an input light of a Raman, starting pumping of an EDFA so that the EDFA enters into an APC operation mode; starting pumping of the Raman, and calculating a gain deviation according to the calculated input light powers before and after pump-starting of the Raman when no reflection alarm exists; and adjusting gain of the Raman according to the gain deviation, and switching to an AGC (automatic gain control) operation mode after the adjustment; and switching the EDFA to the AGC operation mode.Type: ApplicationFiled: December 18, 2015Publication date: August 23, 2018Applicant: Accelink Technologies Co., Ltd.Inventors: Yunyu Jing, Chengpeng Fu, Jintao Tao, Cuihong Zhang, Tao Xiong, Zhi Yang
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Publication number: 20170324210Abstract: A cascade control system of an optical fiber amplifier includes a target setting parameter module, a primary controller, at least one controlled module and a secondary controller corresponding to the controlled module. The control system adopts two or more cascade control loops so that disturbance entering into the secondary loop can be overcome quickly, thereby the dynamic characteristics of the system may be improved. The primary controller aims to coarse adjustment and overall target control, and the secondary controller aims to fine adjustment and quick convergence of a short-term target, so that the control quality of the cascade control system may be further improved. The cascade control system may define the overall control target directly in the primary loop and avoid impact of aging characteristics of some special parameters on the application.Type: ApplicationFiled: December 26, 2014Publication date: November 9, 2017Applicant: Accelink Technologies Co., Ltd.Inventors: Peng Zhang, Chengpeng Fu, Chunping Yu, Jintao Tao, Cuihong Zhang
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Patent number: 9800013Abstract: A Raman pump laser control apparatus comprises a wavelength division multiplexer, a tap coupler, a photoelectric detector, an analog amplification processing circuit, an analog-to-digital converter, a fast Raman pump control unit, an digital-analog converter, and a Raman pump laser. The fast Raman pump control unit, after having known anticipated output light power of the Raman pump laser, based on a direct relationship between a current anticipated output light power of the Raman pump laser and input digital quantity that is needed by the digital-analog converter, uses a feedforward control mechanism so that actual output light power of the Raman pump laser fastly approximates the anticipated output light power thereof, and then synchronously combines with a feedback control mechanism so that the actual output light power of the Raman pump laser is precisely locked on the anticipated output light power, thereby achieving fast and precise control of the Raman pump laser.Type: GrantFiled: December 25, 2013Date of Patent: October 24, 2017Assignees: Accelink Technologies Co., Ltd., Accelink Electronic Technology Co., LtdInventors: Tao Xiong, Chengpeng Fu, Menghui Le, Jintao Tao, Yunyu Jing, Qinlian Bu, Chunping Yu
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Patent number: 9722559Abstract: A hybrid fiber amplifier and method of adjusting gain and gain slope of thereof. The hybrid fiber amplifier comprises: RFA and EDFA that does not comprise variable optical attenuator. The RFA comprises pump signal combiner, pump laser group, out-of-band narrow-band filter, and photodetector. The EDFA comprises input coupler, erbium-doped fiber, output coupler, input photodetector, and output photodetector that are connected in sequence. The hybrid fiber amplifier also comprises control module that coordinates and controls EDFA and/or RFA to adjust gain and/or the gain slope based on desired amplification requirements. The EDFA and/or RFA can be coordinated and controlled by using the control module to achieve desired amplification effect. In addition, the EDFA does not comprise the variable optical attenuator, which avoids problems caused by the variable optical attenuator.Type: GrantFiled: September 27, 2012Date of Patent: August 1, 2017Assignee: Accelink Technologies Co., Ltd.Inventors: Chengpeng Fu, Cuihong Zhang, Tao Xiong, Menghui Le, Jintao Tao, Zhenyu Yu, Yunyu Jing, Qinlian Bu, Chunping Yu
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Publication number: 20170025814Abstract: A Raman pump laser control apparatus comprises a wavelength division multiplexer, a tap coupler, a photoelectric detector, an analogue amplification processing circuit, an analogue-to-digital converter, a fast Raman pump control unit, an digital-analog converter, and a Raman pump laser. The fast Raman pump control unit, after having known anticipated output light power of the Raman pump laser, based on a direct relationship between a current anticipated output light power of the Raman pump laser and input digital quantity that is needed by the digital-analog converter, uses a feedforward control mechanism so that actual output light power of the Raman pump laser fastly approximates the anticipated output light power thereof, and then synchronously combines with a feedback control mechanism so that the actual output light power of the Raman pump laser is precisely locked on the anticipated output light power, thereby achieving fast and precise control of the Raman pump laser.Type: ApplicationFiled: December 25, 2013Publication date: January 26, 2017Applicants: Accelink Technologies Co., Ltd., Accelink Electronic Technology Co., LtdInventors: Tao Xiong, Chengpeng Fu, Menghui Le, Jintao Tao, Yunyu Jing, Qinlian Bu, Chunping Yu
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Publication number: 20150214913Abstract: A hybrid fiber amplifier and method of adjusting gain and gain slope of thereof. The hybrid fiber amplifier comprises: RFA and EDFA that does not comprise variable optical attenuator. The RFA comprises pump signal combiner, pump laser group, out-of-band narrow-band filter, and photodetector. The EDFA comprises input coupler, erbium-doped fiber, output coupler, input photodetector, and output photodetector that are connected in sequence. The hybrid fiber amplifier also comprises control module that coordinates and controls EDFA and/or RFA to adjust gain and/or the gain slope based on desired amplification requirements. The EDFA and/or RFA can be coordinated and controlled by using the control module to achieve desired amplification effect. In addition, the EDFA does not comprise the variable optical attenuator, which avoids problems caused by the variable optical attenuator.Type: ApplicationFiled: September 27, 2012Publication date: July 30, 2015Applicant: Accelink Technologies Co., Ltd.Inventors: Chengpeng Fu, Cuihong Zhang, Tao Xiong, Menghui Le, Jintao Tao, Zhenyu Yu, Yunyu Jing, Qinlian Bu, Chunping Yu
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Patent number: 8797640Abstract: An embodiment of the present invention discloses a method of performing target Raman gain locking and a Raman fiber amplifier. The Raman fiber amplifier comprises a coupler (1) and a control unit (15), wherein the control unit comprises a target gain locking module. A detection circuit formed by filters and optical power detectors is connected between an output side of the coupler (1) and an input side of the control unit (15). Said method uses the control unit (15) to adjust power of the pump laser, making the detected out-of-band ASE power value reach target out-of-band ASE optical signal power value. Thus, the target amplification gain locking can be realized. Optical path according to embodiments of the present invention has a simple structure. The Raman gain can be configured flexibly according to line condition, and automatic control and locking of gain of the Raman fiber amplifier can be realized.Type: GrantFiled: December 12, 2011Date of Patent: August 5, 2014Assignee: Accelink Technologies Co., LtdInventors: Chengpeng Fu, Peng Zhang, Yi Jiang, Chunping Yu, Cuihong Zhang
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Publication number: 20120327505Abstract: An embodiment of the present invention discloses a method of performing target Raman gain locking and a Raman fiber amplifier. The Raman fiber amplifier comprises a coupler (1) and a control unit (15), wherein the control unit comprises a target gain locking module. A detection circuit formed by filters and optical power detectors is connected between an output side of the coupler (1) and an input side of the control unit (15). Said method uses the control unit (15) to adjust power of the pump laser, making the detected out-of-band ASE power value reach target out-of-band ASE optical signal power value. Thus, the target amplification gain locking can be realized. Optical path according to embodiments of the present invention has a simple structure. The Raman gain can be configured flexibly according to line condition, and automatic control and locking of gain of the Raman fiber amplifier can be realized.Type: ApplicationFiled: December 12, 2011Publication date: December 27, 2012Inventors: Chengpeng FU, Peng Zhang, Yi Jiang, Chunping Yu, Cuihong Zhang