Patents by Inventor Lijie Qiao
Lijie Qiao 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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Patent number: 10297972Abstract: An erbium doped block of glass has input port and reflective end faces arranged such that a signal is launched into the block and is amplified as it traverses the block following a zig-zag path. A laser diode pump is focused to excite erbium ions within the block thereby amplifying the input signal light traversing the block numerous times. A gain flattening filter flattens the gain of the signal being amplified numerous times as the filter is within the path upon each pass across the block.Type: GrantFiled: April 7, 2017Date of Patent: May 21, 2019Inventor: Lijie Qiao
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Patent number: 10274689Abstract: An optical regroup cable is provided for a fixed optical cross connect. The cable may include holders for supporting the fibers within the cable and to group the fibers into two bundles. The bundles are arranged so that relative positions of two bundle ends at a first end of the cable are different from relative positions of two bundle ends at a second end of the cable.Type: GrantFiled: April 24, 2017Date of Patent: April 30, 2019Inventor: Lijie Qiao
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Publication number: 20180292606Abstract: A self-fit optical filter includes a dual fiber collimator, a diffraction grating for spatially dispersing the input light beam into a plurality of sub-beams, a cylindrical lens for focusing each of the sub-beams at a saturable absorber which becomes saturated dependent on intensity of light, and a reflector for reflecting the sub-beams back along their optical paths. A method of filtering includes: demultiplexing an input beam into a plurality of sub-beams having distinct center wavelengths, at least partially absorbing one or more of the sub-beams by using a saturable absorber while allowing other sub-beams to pass through, substantially unattenuated, and multiplexing the sub-beams into an output optical signal.Type: ApplicationFiled: December 7, 2017Publication date: October 11, 2018Inventor: Lijie QIAO
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Patent number: 10027414Abstract: A bidirectional optical amplifier amplifies optical signals having signal wavelength and signal power input from two directions. The amplifier is arranged so that two counter-propagating signals pass through a first pumped rare earth doped pre-amplifier before passing through other amplifiers downstream. Optical circulators route the two counter propagating signals so that they both pass through in a counter-propagating manner through subsequent pumped rare earth doped amplifiers downstream.Type: GrantFiled: March 8, 2017Date of Patent: July 17, 2018Inventor: Lijie Qiao
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Publication number: 20180052294Abstract: An optical regroup cable is provided for a fixed optical cross connect. The cable may include holders for supporting the fibers within the cable and to group the fibers into two bundles. The bundles are arranged so that relative positions of two bundle ends at a first end of the cable are different from relative positions of two bundle ends at a second end of the cable.Type: ApplicationFiled: April 24, 2017Publication date: February 22, 2018Inventor: Lijie QIAO
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Publication number: 20170363670Abstract: A method for analyzing noise spectrum of an electronic device includes storing a waveform data including a plurality of data points, the waveform data is obtained by measuring a target signal from the electronic device, removing data points corresponding to a background noise fluctuation based on a smooth curve of the waveform data, data points considered candidates for peaks are extracted from the waveform data, classifying the extracted data points based on a distance between adjacent data points in order to discriminate a cluster of distant data points from data points closely positioned to dominant peaks, determining the dominant peaks based on the cluster of distant data points such that the data points closely positioned to the dominant peaks are ignored, each dominant peak corresponds to the characteristic of the electronic device, and outputting the dominant peaks as an analysis result for the electronic device.Type: ApplicationFiled: June 21, 2016Publication date: December 21, 2017Inventors: Shinichi Ikami, Lijie Qiao
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Publication number: 20170363671Abstract: A method for analyzing noise spectrum of an electronic device includes storing a waveform data including a plurality of data points, the waveform data is obtained by measuring a target signal from the electronic device, removing data points corresponding to a background noise fluctuation based on a smooth curve of the waveform data, data points considered candidates for peaks are extracted from the waveform data, classifying the extracted data points based on a distance between adjacent data points in order to discriminate a cluster of distant data points from data points closely positioned to dominant peaks, determining the dominant peaks based on the cluster of distant data points such that the data points closely positioned to the dominant peaks are ignored, each dominant peak corresponds to the characteristic of the electronic device, and outputting the dominant peaks as an analysis result for the electronic device.Type: ApplicationFiled: October 26, 2016Publication date: December 21, 2017Inventors: Shinichi Ikami, Lijie Qiao
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Patent number: 9835802Abstract: A method of manufacturing an optical cable includes providing a plurality of fibers supported by a support structure, wherein, positions of the plurality of fibers in a reference cross-section form N rows extending in a first direction and M rows extending in a second direction different from the first direction. The method includes separating fiber ends at the first cable end into N rows and connectorizing them with N connectors. The method also includes separating fiber ends at the second cable end into M rows and connectorizing them with M connectors.Type: GrantFiled: May 25, 2017Date of Patent: December 5, 2017Inventor: Lijie Qiao
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Publication number: 20170294756Abstract: An erbium doped block of glass has input port and reflective end faces arranged such that a signal is launched into the block and is amplified as it traverses the block following a zig-zag path. A laser diode pump is focused to excite erbium ions within the block thereby amplifying the input signal light traversing the block numerous times. A gain flattening filter flattens the gain of the signal being amplified numerous times as the filter is within the path upon each pass across the block.Type: ApplicationFiled: April 7, 2017Publication date: October 12, 2017Inventor: Lijie QIAO
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Publication number: 20170294758Abstract: A multi-stage optical amplifier has an input port for receiving an optical signal and a relatively short erbium doped optical fiber is coupled to the input port. Complex costly pump feedback is not required as a constant non-varying saturation pump is configured to provide non varying output power pump light of a predetermined wavelength suitable for excitation and full saturation of the erbium ions such that a full population inversion occurs. The length of the short erbium doped fiber and rare earth doping concentration of the erbium doped fiber is such that when pumped by said pump provides amplification of the optical signal of less than 15 dB. Locating a gain flattening filter after the short erbium doped optical fiber provides a relatively flat amplified output signal. Multi-stages of similar short erbium doped fibers pumped and saturated by the same pump signal economically provide increased amplification of the signal and filters after each state flatten the gain.Type: ApplicationFiled: April 7, 2017Publication date: October 12, 2017Inventor: Lijie QIAO
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Publication number: 20170294759Abstract: A multi-stage optical amplifier has an input port for receiving an optical signal and a relatively short erbium doped optical fiber is coupled to the input port. Complex costly pump feedback is not required as a constant non-varying saturation pump is configured to provide non varying output power pump light of a predetermined wavelength suitable for excitation and full saturation of the erbium ions such that a full population inversion occurs. The length of the short erbium doped fiber and rare earth doping concentration of the erbium doped fiber is such that when pumped by said pump provides amplification of the optical signal of less than 15 dB. Locating a gain flattening filter after the short erbium doped optical fiber provides a relatively flat amplified output signal. Multi-stages of similar short erbium doped fibers pumped and saturated by the same pump signal economically provide increased amplification of the signal and filters after each state flatten the gain.Type: ApplicationFiled: April 7, 2017Publication date: October 12, 2017Inventor: Lijie QIAO
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Publication number: 20170279243Abstract: Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for optical communications. In one aspect, an optical amplifier includes an input port, a wavelength division multiplexing fiber coupled to a pump source and to a bar-cross switch, a first gain stage optically coupled between a first port of the bar-cross switch and to an output port, the first gain stage including a first gain flattening filter, and a secondary gain stage optically coupled between a second port and a third port of the bar-cross switch, the secondary gain stage including a second gain flattening filter. When in a bar-state of the bar-cross switch, the secondary gain stage is bypassed. And when in a cross-state of the bar-cross switch, the secondary gain stage and the first gain stage are applied to an input light beam.Type: ApplicationFiled: June 12, 2017Publication date: September 28, 2017Applicant: Oplink Communications, LLCInventors: Chiachi WANG, Lifu GONG, Lijie QIAO, Weihua GUAN
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Publication number: 20170272159Abstract: A bidirectional optical amplifier amplifies optical signals having signal wavelength and signal power input from two directions. The amplifier is arranged so that two counter-propagating signals pass through a first pumped rare earth doped pre-amplifier before passing through other amplifiers downstream. Optical circulators route the two counter propagating signals so that they both pass through in a counter-propagating manner through subsequent pumped rare earth doped amplifiers downstream.Type: ApplicationFiled: March 8, 2017Publication date: September 21, 2017Inventor: Lijie QIAO
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Patent number: 9680284Abstract: Devices and methods for lessening a thermal dependence of gain profile of an optical amplifier are disclosed. An optical beam is split in a plurality of sub-beams with a thermally variable power splitting ratio, e.g. one sub-beam may travel a longer optical path length than another. When the sub-beams are recombined, they interfere with each other, causing the throughput to be wavelength dependent. An amplitude of this wavelength dependence is thermally variable due to the thermally variable power splitting ratio. The thermally variable power splitting ratio and the optical path length difference are selected so as to offset a thermal variation of a spectral gain profile of an optical amplifier.Type: GrantFiled: October 13, 2015Date of Patent: June 13, 2017Inventor: Lijie Qiao
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Patent number: 9680283Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for optical communications. One optical amplifier includes an input port; a bar-cross switch optically coupled to the input port; a first gain stage optically coupled between first port of the bar-cross switch and to an output port; and a secondary gain stage optically coupled between a second port and a third port of the bar-cross switch, wherein in a bar-state of the bar-cross switch the secondary gain stage is bypassed and in a cross-state, the secondary gain stage and the first gain stage are applied to an input light beam.Type: GrantFiled: December 20, 2013Date of Patent: June 13, 2017Assignee: Oplink Communications, LLCInventors: Chiachi Wang, Lifu Gong, Lijie Qiao, Weihua Guan
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Publication number: 20160064890Abstract: Devices and methods for lessening a thermal dependence of gain profile of an optical amplifier are disclosed. An optical beam is split in a plurality of sub-beams with a thermally variable power splitting ratio, e.g. one sub-beam may travel a longer optical path length than another. When the sub-beams are recombined, they interfere with each other, causing the throughput to be wavelength dependent. An amplitude of this wavelength dependence is thermally variable due to the thermally variable power splitting ratio. The thermally variable power splitting ratio and the optical path length difference are selected so as to offset a thermal variation of a spectral gain profile of an optical amplifier.Type: ApplicationFiled: October 13, 2015Publication date: March 3, 2016Inventor: Lijie QIAO
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Patent number: 9184554Abstract: Devices and methods for lessening a thermal dependence of gain profile of an optical amplifier are disclosed. An optical beam is split in two sub-beams with a thermally variable power splitting ratio. One sub-beam travels a longer optical path length than the other. When the two sub-beams are recombined, they interfere with each other, causing the throughput to be wavelength dependent. An amplitude of this wavelength dependence is thermally variable due to the thermally variable power splitting ratio. The thermally variable power splitting ratio and the optical path length difference are selected so as to offset a thermal variation of a spectral gain profile of an optical amplifier.Type: GrantFiled: August 27, 2014Date of Patent: November 10, 2015Inventor: Lijie Qiao
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Publication number: 20150180196Abstract: Methods, systems, and apparatus, including computer programs encoded on computer storage media, for optical communications. One optical amplifier includes an input port; a bar-cross switch optically coupled to the input port; a first gain stage optically coupled between first port of the bar-cross switch and to an output port; and a secondary gain stage optically coupled between a second port and a third port of the bar-cross switch, wherein in a bar-state of the bar-cross switch the secondary gain stage is bypassed and in a cross-state, the secondary gain stage and the first gain stage are applied to an input light beam.Type: ApplicationFiled: December 20, 2013Publication date: June 25, 2015Applicant: Oplink Communications, Inc.Inventors: Chiachi Wang, Lifu Gong, Lijie Qiao, Weihua Guan
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Patent number: 9042007Abstract: Methods, systems, and apparatus for optical communications. In one aspect, an optical amplifier includes a feed-forward first amplification stage including a rare-earth doped fiber receiving an optical signal and an injected pump light; and a plurality of subsequent amplification stages each including a corresponding rare-earth doped fiber, wherein each of the subsequent amplification stages receives a separately injected portion of the remnant pump light from the first amplification stage, the remnant pump light being split into portions directed to each respective subsequent amplification stage.Type: GrantFiled: July 22, 2014Date of Patent: May 26, 2015Assignee: Oplink Communications, Inc.Inventors: Lijie Qiao, Ting Yang
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Publication number: 20150062692Abstract: Devices and methods for lessening a thermal dependence of gain profile of an optical amplifier are disclosed. An optical beam is split in two sub-beams with a thermally variable power splitting ratio. One sub-beam travels a longer optical path length than the other. When the two sub-beams are recombined, they interfere with each other, causing the throughput to be wavelength dependent. An amplitude of this wavelength dependence is thermally variable due to the thermally variable power splitting ratio. The thermally variable power splitting ratio and the optical path length difference are selected so as to offset a thermal variation of a spectral gain profile of an optical amplifier.Type: ApplicationFiled: August 27, 2014Publication date: March 5, 2015Inventor: Lijie QIAO