Patents Assigned to Alliance Fiber Optics Products, Inc.
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Patent number: 11750316Abstract: Disclosed herein is wavelength-division multiplexing (WDM) and demultiplexing with signal entry and exit in a common routing surface to increase channel density. In particular, disclosed is a WDM assembly including a plurality of common ports and a plurality of channel sets having one or more channel ports. The WDM assembly includes a first routing surface with a first WDM passband and a second routing surface offset from the first routing surface. The second routing surface is configured to reflect at least one signal passed through the first routing surface back through the first routing surface at a laterally different location. Optical signal paths of at least a portion of the common ports are parallel to and offset from one another. In certain embodiments, such a configuration may increase channel density and decrease a form factor (e.g., footprint).Type: GrantFiled: July 14, 2021Date of Patent: September 5, 2023Assignee: Alliance Fiber Optic Products, Inc.Inventor: Qijun Xiao
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Patent number: 11474299Abstract: Disclosed herein are wavelength-division multiplexing devices using different angles of incidence (AOIs) at the WDM filters to provide for variable placement and orientation of WDM filters and channel ports, thereby decreasing the device footprint and allowing for shorter overall optical signal paths to increase signal performance and reliability. Also disclosed are stacked WDM filters for increased signal isolation.Type: GrantFiled: January 26, 2021Date of Patent: October 18, 2022Assignee: Alliance Fiber Optic Products, Inc.Inventors: Dong Gui, Yao Li, Shudong Xiao, Andy Fenglei Zhou
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Patent number: 11460641Abstract: In various embodiments, free-space optical collimator and multi-channel wavelength division multiplexers including free-space optical collimators are provided. In one embodiment, for example, a free-space optical collimator includes a base having a length, a generally flat bottom surface and a top surface. A groove is disposed along the top surface of the base extending through the length of the base. A lens is disposed within the groove of the base and a fiber optic pigtail is disposed generally adjacent to a focal point of the lens. The lens and fiber optic pigtail are aligned within the groove to reduce an off-angle offset of an optical light signal propagating through the free-space optical collimator. In other embodiments, a process of producing a free-space optical collimator is also provided.Type: GrantFiled: December 16, 2016Date of Patent: October 4, 2022Assignee: Alliance Fiber Optic Products, Inc.Inventors: Yu Huang, Dong Gui, Qijun Xiao, Yao Li, Andy Zhou
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Patent number: 11310570Abstract: Disclosed herein are multi-layer wavelength-division multiplexing (WDM) devices that include a first optical signal router to route first demultiplexed signals from a common layer to a first channel layer and a second optical signal router to route second demultiplexed signals from the common layer to a second channel layer.Type: GrantFiled: October 6, 2020Date of Patent: April 19, 2022Assignee: Alliance Fiber Optic Products, Inc.Inventors: Dong Gui, Yao Li, Shudong Xiao, Andy Fenglei Zhou
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Patent number: 11105981Abstract: Detachable optical connectors for optical chips and methods of their fabrication are disclosed. In one embodiment, an optical connector includes a ferrule that supports ferrule waveguides. The optical connector further includes a waveguide support coupled to the ferrule and that supports transition waveguides that are optically coupled to the ferrule waveguides. Ends of the ferrule waveguides are exposed at one end of the ferrule to define a first pitch while ends of the second waveguides are exposed at a chip coupling surface of the waveguide support. The transition waveguides provide at least one type of transition for the guided light traveling within the ferrule waveguides to enable either edge coupling, surface coupling or evanescent coupling to chip waveguides of an optical chip. The transition can include a change in mode-field diameter, direction of the guided light, and/or pitch.Type: GrantFiled: June 7, 2019Date of Patent: August 31, 2021Assignee: Alliance Fiber Optic Products, Inc.Inventors: Lars Martin Otfried Brusberg, Ximao Feng, Wen-Lung Kuang
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Patent number: 11086075Abstract: A fiber array unit (FAU) includes a substrate, a cover element, and a plurality of optical fibers each including a splice joint connecting fibers of different mode-field diameters with a recoating material arranged over at least a portion of the fibers overlapping the substrate, wherein stripped portions of the fibers are arranged in grooves between the substrate and the cover element. A method for fabricating a compact FAU includes splicing ends of stripped sections of first and second optical fiber segments of different mode-field diameters, applying a recoating material over at least portions of the stripped sections, positioning portions of stripped sections of the second optical fiber segments in grooves defined in a substrate, and arranging a cover over the grooves. Certain embodiments include stripping recoating material portions of the second optical fiber segments before they are placed in the grooves.Type: GrantFiled: October 30, 2019Date of Patent: August 10, 2021Assignee: Alliance Fiber Optic Products, Inc.Inventors: Ximao Feng, Chunlei He, Andy Fenglei Zhou
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Patent number: 11057145Abstract: Disclosed herein is a wavelength-division multiplexing device with a unified passband. In particular, disclosed is a wavelength-division multiplexing (WDM) device with at least a common port, a channel port, and a WDM filter. The common port is configured for optical communication of a multiplexed signal to the WDM filter. A demultiplexed signal of the multiplexed signal includes a first secondary demultiplexed signal within a first wavelength range and a second secondary demultiplexed signal within a second wavelength range, which are separated from each other by a third wavelength range. The first WDM filter has a single unified passband including the first wavelength range, the second wavelength range, and the third wavelength range, such that the first WDM filter is configured to pass the first secondary demultiplexed signal and the second secondary demultiplexed signal to the first channel port.Type: GrantFiled: September 22, 2020Date of Patent: July 6, 2021Assignee: Alliance Fiber Optic Products, Inc.Inventors: Dong Gui, Yao Li, Shudong Xiao, Andy Fenglei Zhou
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Patent number: 11005588Abstract: Disclosed herein is wavelength-division multiplexing (WDM) and demultiplexing with signal entry and exit in a common routing surface to increase channel density. In particular, disclosed is a WDM assembly including one or more common ports and one or more channel sets, with each channel set including one or more channel ports. The WDM assembly includes a first routing surface with a first WDM passband and a second routing surface offset from the first routing surface. The second routing surface is configured to reflect at least one signal passed through the first routing surface back through the first routing surface at a laterally different location. The offset controls a pitch between reflected signals, while maintaining a sufficiently large surface area to ensure proper signal performance and/or structural integrity. Controlling pitch by offset provides higher density routing with smaller channel pitches and/or more channels in a decreased volume.Type: GrantFiled: October 31, 2019Date of Patent: May 11, 2021Assignee: Alliance Fiber Optic Products, Inc.Inventor: Qijun Xiao
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Patent number: 10942316Abstract: A fiber array unit (FAU) connector includes a support substrate having a rear-end section and an elevated front-end section. The front-end section has a top surface with fiber grooves that support bare glass sections of optical fibers, which have respective fiber end faces that reside at a front end face defined by the front-end section. Two alignment pins reside in parallel alignment pin channels on opposite sides of the fiber grooves. The alignment pin channels terminate at respective front-end recessed surfaces that are axially spaced from the front end face. The alignment pins extend from the alignment pin channels to be even with the front end face. A cover secured to the front-end section holds the bare glass sections of the optical fibers and the alignment pins in place. Alignment sleeves are used to establish pin-to-pin alignment of confronting FAU connectors.Type: GrantFiled: October 31, 2019Date of Patent: March 9, 2021Assignee: Alliance Fiber Optic Products, Inc.Inventors: Ximao Feng, Shudong Xiao, Andy Fenglei Zhou
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Patent number: 10852482Abstract: The precision TFF POSA is formed by pressing a TFF glass rod array into a top surface of a master glass block to flatten the otherwise curved TFFs formed using conventional TFF deposition processes on glass. The TFF glass rod array is secured to the master glass block with a securing material to form a fabrication structure, which is singulated to form precision TFF POSAs having TFF members with flat TFFs and long TFF member long axes. A fiber interface device is arranged at a back surface of the TFF POSA. Other fiber interface devices having device axes are arranged proximate the TFF members. The device axes are parallel to the TFF member long axes to form a WDM system with a parallel configuration. In this configuration, there is one positionally adjustable fiber interface device for each wavelength channel, which allows for optimizing WDM optical communication in Mux and DeMux directions.Type: GrantFiled: May 31, 2019Date of Patent: December 1, 2020Assignee: Alliance Fiber Optic Products, Inc.Inventors: Dong Gui, Qijun Xiao
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Patent number: 10816326Abstract: A polarization maintaining fiber array includes a substrate, a cover, and at least two polarization maintaining optical fibers. The substrate includes at least two main grooves, a first additional groove, and a second additional groove, wherein the main grooves are positioned between the first additional groove and the second additional groove. The fiber array includes at least two polarization maintaining optical fibers positioned in the at least two main grooves, a first dummy fiber positioned in the first additional groove, and a second dummy fiber positioned in the second additional groove. The cover is positioned such that it contacts the polarization maintaining optical fibers, the first dummy fiber, and the second dummy fiber.Type: GrantFiled: September 4, 2019Date of Patent: October 27, 2020Assignee: Alliance Fiber Optic Products, Inc.Inventors: Chia-Hang Chang, Ximao Feng, Wen-Lung Kuang, Andy Fenglei Zhou
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Patent number: 10598870Abstract: A fiber optic connector includes first and second ferrules arranged next to each other. The first and second ferrules each have a plurality of bores configured to support respective optical fibers. The fiber optic connector also includes an inner connector body having a front end from which the first and second ferrules extend, a latch arm extending outwardly from the inner connector body, and an outer body having a housing portion in which the inner connector body is at least partially received and a handle extending rearwardly from the housing portion. The outer body can move relative to the inner connector body to cause the latch arm to flex toward the inner connector body.Type: GrantFiled: February 9, 2017Date of Patent: March 24, 2020Assignee: Alliance Fiber Optic Products, Inc.Inventor: Yen Hsu Lin
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Patent number: 10551569Abstract: A wavelength-division multiplexing (WDM) optical assembly with multiple collimator sets is disclosed herein. The WDM optical assembly includes a WDM optical core subassembly including at least one optical signal router, at least one WDM filter, and a first and second WDM collimator sets. The first WDM collimator set includes a first common optical collimator and at least two channel collimators and the second WDM collimator set includes a second common optical collimator and at least two channel collimators. At least a portion of the first WDM collimator set is optically positioned on a first surface of at least one substrate, and at least a portion of the second WDM collimator set is optically positioned on a second surface of the at least one substrate opposite the first surface. The WDM optical core subassembly increases lane density while decreasing size and minimizing complexity by using a plurality of WDM common ports.Type: GrantFiled: April 7, 2017Date of Patent: February 4, 2020Assignee: Alliance Fiber Optic Products, Inc.Inventors: Dong Gui, Zilong Jiang, Qijun Xiao, Andy Fenglei Zhou
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Patent number: 10520687Abstract: A push-pull type fiber optic connector assembly includes a fiber optic connector connectable to fiber optic adapter and including connector housing, latch having elastic arm extended from top of connector housing for locking connector housing to fiber optic adapter, recessed portion located at bottom side relative to latch, pressure rod extended from recessed portion, fiber ferrule mounted in cable passage inside connector housing, connector sub assembly mounted in connector housing to hold fiber ferrule and fiber optic cable having fiber core inserted through fiber ferrule, and operating handle including sliding cap movably capped on connector housing, push member having push arm forwardly extended from sliding cap, cam located at one side of push arm and inserted into recessed portion of fiber optic connector, and handle shaft extended from sliding cap to pull sliding cap backwards in forcing down wedge-shaped pressure rod for disengaging fiber optic connector from fiber optic adapter.Type: GrantFiled: July 23, 2018Date of Patent: December 31, 2019Assignee: Alliance Fiber Optic Products, Inc.Inventor: Jhih-Ping Lee
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Patent number: 10473860Abstract: Disclosed is a compact device for wavelength-division multiplexing applications. In particular, disclosed is a device that includes a housing and a core at least partially positioned within the housing. The core includes a first single fiber stub, a second single fiber stub, and at least one functional layer positioned between a first fiber of the first single fiber stub and a second fiber of the second single fiber stub. The at least one functional layer is configured to: (i) permit routing of a transmission signal of a multiplexed signal along an optical path from the first fiber stub to the second fiber stub, and (ii) prevent routing of a non-transmission signal of the multiplexed signal along the optical path from the first fiber stub to the second fiber stub. A distance between a first ferrule of the first fiber stub and a second ferrule of the second fiber stub is less than about 0.05 mm.Type: GrantFiled: September 26, 2018Date of Patent: November 12, 2019Assignee: Alliance Fiber Optic Products, Inc.Inventors: Chen Xia, Andy Fenglei Zhou
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Patent number: 10469923Abstract: Disclosed herein is a routing band-pass filter for routing optical signals between multiple optical channel sets. In particular, disclosed is a wavelength-division multiplexing (WDM) optical assembly including a first WDM filter, a second WDM filter, and a first routing filter. The first and second WDM filter are in communication with first and second sets of channel ports, respectively. The routing filter has a routing passband and forms a primary routing optical path for signals outside the routing passband between the first WDM filter and a common port. The routing filter also forms a secondary routing optical path for signals within the routing passband between the second WDM filter and the common port. The routing band-pass filter increases the number of channel ports in optical communication with a common port while maintaining signal integrity and increasing speed.Type: GrantFiled: December 22, 2017Date of Patent: November 5, 2019Assignee: Alliance Fiber Optic Products, Inc.Inventors: Qijun Xiao, Andy Fenglei Zhou
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Patent number: 10330868Abstract: The loopback apparatus disclosed herein is used with an optical fiber system having an optical fiber cable. The loopback apparatus includes an optical fiber having input and output ends and an output optical fiber having input and output ends. The loopback apparatus also includes an optical system that defines an optical path and that is configured to optically couple the output end of the input optical fiber with the input end of the output optical fiber over the optical path. The loopback apparatus also includes a thin-film filter disposed in the optical path and configured to provide a select amount of attenuation for light traveling over the optical path. The loopback apparatus can be plugged into and unplugged from the optical fiber cable. Loopback methods for measuring the performance of the optical fiber system using the loopback apparatus are also disclosed.Type: GrantFiled: May 31, 2017Date of Patent: June 25, 2019Assignee: Alliance Fiber Optic Products, Inc.Inventors: Yao Li, Chen Xia, Shiping Zhang
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Patent number: 10313045Abstract: A wavelength-division multiplexing (WDM) optical assembly with increased lane density is disclosed herein. The WDM optical assembly includes a WDM optical core subassembly including an optical signal router for routing an optical signal between a first side and a second side of a substrate. The WDM optical core subassembly further includes a first WDM filter having a first passband and a second WDM filter having a second passband. The WDM optical core subassembly forms a first optical path between a first common port, the first WDM filter, and a first channel port, and to form a second optical path between the second WDM filter, a second common port, and a second channel port. The WDM optical core subassembly increases lane density while decreasing size and complexity by including a plurality of common ports in optical communication with the same plurality of WDM filters.Type: GrantFiled: April 7, 2017Date of Patent: June 4, 2019Assignee: Alliance Fiber Optic Products, Inc.Inventors: Qijun Xiao, Shudong Xiao, Andy Fenglei Zhou, Dong Gui
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Publication number: 20190137701Abstract: A push-pull type fiber optic connector assembly includes a fiber optic connector connectable to fiber optic adapter and including connector housing, latch having elastic arm extended from top of connector housing for locking connector housing to fiber optic adapter, recessed portion located at bottom side relative to latch, pressure rod extended from recessed portion, fiber ferrule mounted in cable passage inside connector housing, connector sub assembly mounted in connector housing to hold fiber ferrule and fiber optic cable having fiber core inserted through fiber ferrule, and operating handle including sliding cap movably capped on connector housing, push member having push arm forwardly extended from sliding cap, cam located at one side of push arm and inserted into recessed portion of fiber optic connector, and handle shaft extended from sliding cap to pull sliding cap backwards in forcing down wedge-shaped pressure rod for disengaging fiber optic connector from fiber optic adapter.Type: ApplicationFiled: July 23, 2018Publication date: May 9, 2019Applicant: ALLIANCE FIBER OPTIC PRODUCTS, INC.Inventor: JHIH-PING LEE
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Patent number: 10281652Abstract: An optical signal isolation device comprising a common port, an isolated diagnostic port, an integrated circulator comprising an input circulator fiber, an output circulator fiber, and a fiber-to-fiber optical coupler configured to couple an isolated optical signal propagating along the input circulator fiber to the output circulator fiber for propagation along the output circulator fiber, a multi-fiber alignment body that secures at least portions of each of the multi-signal fiber, the isolated diagnostic signal fiber, the input circulator fiber, and the output circulator fiber, and a wavelength-selective optical assembly including an optical signal filter, fiber-to-filter focusing optics, and a communications signal reflector. The integrated circulator and the wavelength selective optical assembly are configured such that the communications component is retro-reflected back to the common port and the diagnostic component is passes out of the isolated diagnostic port.Type: GrantFiled: June 29, 2017Date of Patent: May 7, 2019Assignee: Alliance Fiber Optic Products, Inc.Inventors: Chen Xia, Yao Li