Patents by Inventor Osamu Moriwaki
Osamu Moriwaki 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: 11979694Abstract: An optical and electronic integrated switch includes a network processor that controls the functions of the packet switch, a plurality of optical transceivers having photoelectric conversion functions, and a plurality of optical switches. The optical switches include different types of optical core switch and a plurality of optical-path selection switches. The optical transceivers provided near the processor have a regenerative relay function that regenerates optical signals and turns back the optical signals, and perform optical communication with a communication counterpart via the optical switches. In the optical communication, optical switches of the different types can cooperate to set paths for optical cut-through in which path selection is performed such that inputted optical signals are outputted without the intervention of the processor. This optical cut-through can be effectively performed without imposing a signal processing burden that consumes electric power on the processor.Type: GrantFiled: January 30, 2020Date of Patent: May 7, 2024Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Osamu Moriwaki, Shunichi Soma, Keita Yamaguchi, Kenya Suzuki, Seiki Kuwabara, Tetsuro Inui, Shuto Yamamoto, Seiji Okamoto, Hideki Nishizawa
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Patent number: 11973535Abstract: A wavelength monitoring circuit obtains a light output proportional to only an input optical signal, independent of wavelength, by adding a light split circuit to the configuration in the related art, or changing the light split circuit to a light trifurcation circuit. In addition, wavelength monitoring with high accuracy is possible while improving the resistance to noise. The extraction of the light output proportional to only the input optical signal is performed by a light split circuit for input light at the top stage of the wavelength monitoring circuit or a light split circuit for interference in a stage in the middle of the circuit. The changed light split circuit causes the MZI included in the wavelength monitoring circuit to operate in a state of losing the balance of the configuration or the optical signal level, and increases the signal level near the bottom portion of the transmission characteristics.Type: GrantFiled: January 17, 2020Date of Patent: April 30, 2024Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Osamu Moriwaki, Manabu Oguma, Kenya Suzuki, Takashi Go, Yuichiro Ikuma
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Patent number: 11930309Abstract: A photonics-electronics convergence switch with which, even if an optical network system is built by combining a plurality of packet switches, the amount of processing in the packet switches does not increase, the optical network system operates with low electric power consumption, and this enables wide-range optical communication between the nodes of a communication origin and of a communication partner, includes a network processor that is an electronic circuit configured to control the functions of the packet switch, a plurality of optical transmitter-receivers having photoelectric conversion functions, and a plurality of optical switches.Type: GrantFiled: February 26, 2020Date of Patent: March 12, 2024Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Keita Yamaguchi, Osamu Moriwaki, Shunichi Soma, Kenya Suzuki, Seiki Kuwabara, Tetsuro Inui, Shuto Yamamoto, Seiji Okamoto, Hideki Nishizawa
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Patent number: 11881897Abstract: A photo-electron fusion switch that can perform optical communications without any trouble, even when nodes of a communication source and a communication partner that are large in transmission capacity are connected, and makes it possible to realize a concentrated arrangement of devices having similar functions and reduce the communication processing time is connected to communication source's information processing devices and communication partner's information processing devices and information processing devices that are each different in transmission speed so as to configure an optical network system.Type: GrantFiled: February 26, 2020Date of Patent: January 23, 2024Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Hideki Nishizawa, Seiki Kuwabara, Seiji Okamoto, Shuto Yamamoto, Tetsuro Inui, Shunichi Soma, Kenya Suzuki, Osamu Moriwaki, Keita Yamaguchi
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Patent number: 11835761Abstract: The invention provides a planar optical waveguide circuit capable of preventing part of the input signal light that has not been combined in the waveguide and propagates as leaked light from interfering with the output signal. A planar optical waveguide circuit having an optical waveguide embedded in a cladding layer includes: a plurality of parallel output optical waveguides configured to emit light from a same end face; a groove having a reflective interface formed at an angle of +45 degrees relative to the output optical waveguides and configured to reflect leaked light propagating in the cladding layer; and a groove having a reflective interface formed at an angle of ?45 degrees, the reflective interface formed at an angle of +45 degrees, the output optical waveguide, and the reflective interface formed at ?45 degrees being arranged repeatedly in that order.Type: GrantFiled: January 8, 2020Date of Patent: December 5, 2023Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Osamu Moriwaki, Kenya Suzuki, Takashi Go, Manabu Oguma, Yuichiro Ikuma
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Publication number: 20230280524Abstract: An optical waveguide component is configured to have a dual structure in which a core region of the first optical waveguide is contained within the core region of the second optical waveguide in a cross-section perpendicular to the length direction of the optical waveguide. The refractive index of a first material of the core of the first optical waveguide is greater than a refractive index of a second material of the core of a second optical waveguide. The refractive index of a second material constituting the core of a second optical waveguide is greater than a refractive index of a third material constituting cladding of the second optical waveguide. The center height of the core of the first optical waveguide and the center height of the core of the second optical waveguide are aligned, which solves connectivity problems caused by worsened butt coupling efficiency, and incomplete adiabatic coupling in an SSC structure of prior art.Type: ApplicationFiled: August 25, 2020Publication date: September 7, 2023Inventors: Yoshie Morimoto, Kenya Suzuki, Osamu Moriwaki, Yu Kurata
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Publication number: 20230251422Abstract: An optical circuit including an optical waveguide including temperature compensation structure filled with a temperature compensation material, the optical circuit including adiabatic transition structure in which an optical wave propagating through the optical waveguide adiabatically transitions to the temperature compensation structure filled with the temperature compensation material.Type: ApplicationFiled: August 3, 2020Publication date: August 10, 2023Inventors: Masashi Ota, Keita Yamaguchi, Osamu Moriwaki, Kenya Suzuki
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Publication number: 20230244037Abstract: For waveguide type optical switch circuits, there is a problem in that both reduction in time required for switching and switching-back and reduction in power consumption cannot be achieved. One embodiment of a waveguide type optical switch circuit includes: a waveguide that has a clad layer stacked on a substrate and a waveguide core embedded in the clad layer; a heater that is formed on an upper surface of the clad layer above the waveguide core; and a groove that is obtained by removing the clad layer in a vertical direction of the substrate and has a surface parallel to a side surface of the waveguide core.Type: ApplicationFiled: January 24, 2020Publication date: August 3, 2023Inventors: Osamu Moriwaki, Kenya Suzuki
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Patent number: 11656405Abstract: Provided is an optical wavelength multi/demultiplexing circuit with a high rectangular transmission loss spectrum that is able to secure loss flatness of a transmission band, maintain/reduce a guard bandwidth of wavelength channel spacing, and broaden a transmission bandwidth. The circuit uses a multimode waveguide for a connecting part between a field modulation device and an AWG. The field modulation device is constituted by a common input waveguide, an optical branching unit, optical delay lines, a multiplex interference unit, and a mode converter/multiplexer.Type: GrantFiled: August 1, 2019Date of Patent: May 23, 2023Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Manabu Oguma, Osamu Moriwaki, Kenya Suzuki
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Publication number: 20230136142Abstract: A high-performance optical and electronic integrated switch capable of effectively extending the transmission distance includes a network processor that controls the functions of the packet switch, a plurality of optical transceivers provided near the processor and having a photoelectric conversion function, and an optical relay switch. A plurality of optical waveguides are connected to the input and output sides of the optical relay switch. Each optical transceiver has a regeneration function that performs optical-electrical conversion on inputted optical signals, then turns back the converted signals, and performs signal conversion on them, and its input side is connected with a routing optical waveguide included in the optical waveguides on the output side of the switch and its output side is connected with a routing optical waveguide included in the optical waveguides on the input side of the switch. The optical waveguides include ones for connecting to an external communication counterpart.Type: ApplicationFiled: January 30, 2020Publication date: May 4, 2023Inventors: Osamu Moriwaki, Shunichi Soma, Keita Yamaguchi, Kenya Suzuki, Seiki Kuwabara, Tetsuro Inui, Shuto Yamamoto, Seiji Okamoto, Hideki Nishizawa
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Publication number: 20230082854Abstract: A photo-electron fusion switch that can perform optical communications without any trouble, even when nodes of a communication source and a communication partner that are large in transmission capacity are connected, and makes it possible to realize a concentrated arrangement of devices having similar functions and reduce the communication processing time is connected to communication source's information processing devices and communication partner's information processing devices and information processing devices that are each different in transmission speed so as to configure an optical network system.Type: ApplicationFiled: February 26, 2020Publication date: March 16, 2023Inventors: Hideki Nishizawa, Seiki Kuwabara, Seiji Okamoto, Shuto Yamamoto, Tetsuro Inui, Shunichi Soma, Kenya Suzuki, Osamu Moriwaki, Keita Yamaguchi
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Publication number: 20230073384Abstract: An optical and electronic integrated switch includes a network processor that controls the functions of the packet switch, a plurality of optical transceivers having photoelectric conversion functions, and a plurality of optical switches. The optical switches include different types of optical core switch and a plurality of optical-path selection switches. The optical transceivers provided near the processor have a regenerative relay function that regenerates optical signals and turns back the optical signals, and perform optical communication with a communication counterpart via the optical switches. In the optical communication, optical switches of the different types can cooperate to set paths for optical cut-through in which path selection is performed such that inputted optical signals are outputted without the intervention of the processor. This optical cut-through can be effectively performed without imposing a signal processing burden that consumes electric power on the processor.Type: ApplicationFiled: January 30, 2020Publication date: March 9, 2023Inventors: Osamu Moriwaki, Shunichi Soma, Keita Yamaguchi, Kenya Suzuki, Seiki Kuwabara, Tetsuro Inui, Shuto Yamamoto, Seiji Okamoto, Hideki Nishizawa
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Publication number: 20230060777Abstract: A photonics-electronics convergence switch with which, even if an optical network system is built by combining a plurality of packet switches, the amount of processing in the packet switches does not increase, the optical network system operates with low electric power consumption, and this enables wide-range optical communication between the nodes of a communication origin and of a communication partner, includes a network processor that is an electronic circuit configured to control the functions of the packet switch, a plurality of optical transmitter-receivers having photoelectric conversion functions, and a plurality of optical switches.Type: ApplicationFiled: February 26, 2020Publication date: March 2, 2023Inventors: Keita Yamaguchi, Osamu Moriwaki, Shunichi Soma, Kenya Suzuki, Seiki Kuwabara, Tetsuro Inui, Shuto Yamamoto, Seiji Okamoto, Hideki Nishizawa
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Publication number: 20220272427Abstract: In order to reduce the number of power driving elements, an optical signal processing device includes a control unit, a current generation unit, a connection portion, and an optical signal processing unit, the current generation unit includes one or a plurality of power driving elements s, the optical signal processing unit is an optical waveguide on a substrate, and a plurality of driven elements are connected in parallel to an identical one of the plurality of power driving elements and are driven.Type: ApplicationFiled: July 1, 2019Publication date: August 25, 2022Inventors: Keita Yamaguchi, Kenya Suzuki, Takashi Go, Osamu Moriwaki, Ai Yanagihara
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Publication number: 20220269001Abstract: Provided is an optical wavelength multi/demultiplexing circuit with a high rectangular transmission loss spectrum that is able to secure loss flatness of a transmission band, maintain/reduce a guard bandwidth of wavelength channel spacing, and broaden a transmission bandwidth. The circuit uses a multimode waveguide for a connecting part between a field modulation device and an AWG. The field modulation device is constituted by a common input waveguide, an optical branching unit, optical delay lines, a multiplex interference unit, and a mode converter/multiplexer.Type: ApplicationFiled: August 1, 2019Publication date: August 25, 2022Inventors: Manabu Oguma, Osamu Moriwaki, Kenya Suzuki
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Patent number: 11405702Abstract: An optical signal processing device is described herein for reducing electric wirings in an optical switch or an optical filter realized using an optical waveguide. The optical signal processing device includes an optical waveguide formed on a substrate. In the optical signal processing device, the optical waveguide includes at least one input port and at least one output port, a plurality of driven elements are provided including a phase shifter that produces a phase shift to an optical signal from the input port, each of the driven elements includes at least two control terminals, control wirings are provided to have control signals being time-division synchronized applied between the two control terminals, and the control wiring for accessing the driven element is shared by the plurality of driven elements.Type: GrantFiled: June 19, 2019Date of Patent: August 2, 2022Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Keita Yamaguchi, Kenya Suzuki, Takashi Go, Osamu Moriwaki, Ai Yanagihara
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Publication number: 20220091473Abstract: To provide an optical signal processing device capable of reducing the crosstalk while narrowing the space between switch elements for downsizing, the optical signal processing device includes a plurality of input optical waveguides, a plurality of output optical waveguides, a plurality of optical waveguide elements arranged between the plurality of input optical waveguides and the plurality of output optical waveguides, and a connection optical waveguide. The connection optical waveguide positioned closely to the optical waveguide element is differentiated in propagation constant from the optical waveguide configuring the closely arranged optical waveguide element. The connection optical waveguide positioned closely to the optical waveguide element is a connection optical waveguide having one end or both ends connected to the optical waveguide element, or a connection optical waveguide having both ends not connected to the optical waveguide elements.Type: ApplicationFiled: January 7, 2020Publication date: March 24, 2022Inventors: Keita Yamaguchi, Kenya Suzuki, Takashi Go, Osamu Moriwaki, Ai Yanagihara
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Publication number: 20220091329Abstract: The invention provides a planar optical waveguide circuit capable of preventing part of the input signal light that has not been combined in the waveguide and propagates as leaked light from interfering with the output signal. A planar optical waveguide circuit having an optical waveguide embedded in a cladding layer includes: a plurality of parallel output optical waveguides configured to emit light from a same end face; a groove having a reflective interface formed at an angle of +45 degrees relative to the output optical waveguides and configured to reflect leaked light propagating in the cladding layer; and a groove having a reflective interface formed at an angle of ?45 degrees, the reflective interface formed at an angle of +45 degrees, the output optical waveguide, and the reflective interface formed at ?45 degrees being arranged repeatedly in that order.Type: ApplicationFiled: January 8, 2020Publication date: March 24, 2022Inventors: Osamu Moriwaki, Kenya Suzuki, Takashi Go, Manabu Oguma, Yuichiro Ikuma
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Publication number: 20220086538Abstract: A wavelength monitoring apparatus includes a wavelength monitoring circuit. The wavelength monitoring circuit includes: a split circuit that splits an input optical signal into two; an optical delay circuit that applies a delay time difference to the two split optical signals; and a two-input two-output optical multiplexer/demultiplexer circuit that outputs a result of applying multiplexing interference to the optical signals to which the delay time difference has been applied. The wavelength monitoring apparatus further includes photoelectric conversion elements that perform photoelectric conversions on the two optical signals output from the wavelength monitoring circuit so as to output electrical signals.Type: ApplicationFiled: January 8, 2020Publication date: March 17, 2022Inventors: Osamu Moriwaki, Takashi Saida, Kenya Suzuki, Takashi Go, Manabu Oguma, Yuichiro Ikuma
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Publication number: 20220066244Abstract: The present invention realizes an optical signal processing device that enables using a thermal oxidation silica film as the under clad of a silica PLC while also increasing the thickness of the under clad and reducing the time required for film growth during manufacturing. The optical signal processing device is formed as a planar optical circuit that includes an optical waveguide formed on a silicon substrate, and has a phase modulation element that employs a thermo-optical effect. A plurality of silica films are provided between a core of the optical waveguide and the silicon substrate, and at least one of the silica films was formed by thermal oxidation.Type: ApplicationFiled: December 24, 2019Publication date: March 3, 2022Inventors: Keita Yamaguchi, Ai Yanagihara, Kenya Suzuki, Takashi Go, Osamu Moriwaki