Abstract: An optical device includes an optical modulator formed on an optical IC chip. A shape of the IC chip is a rectangle or a parallelogram. The optical modulator includes an interferometer, wiring patterns, a first polymer pattern, and a second polymer pattern. The interferometer includes an optical waveguide that is formed in a direction from a first edge to a second edge of the optical IC chip. The wiring patterns are formed parallel to the optical waveguide. The first polymer pattern is formed along the first edge or the second edge. The second polymer pattern is connected to the first polymer pattern and formed on the optical waveguide without overlapping the wiring patterns.

Abstract: An optical transmission device includes: a substrate; a waveguide that is provided in the substrate and transmits an optical signal; a signal wiring that is provided in the substrate and transmits an electric signal; and a silicon wiring that is provided in the substrate and is silicon added with an impurity. The signal wiring is placed in an area of the substrate, the area being away from an end of the substrate by a predetermined distance or more. One end of the silicon substrate is connected to the signal wiring, and the other end of the silicon wiring extends to the end of the substrate.

Abstract: A gas meter includes a meter entrance that allows a fluid to flow in, a meter exit that allows the fluid to flow out, and a flow rate measurer that measures a flow rate of the fluid. In addition, the flow rate measurer includes a plurality of flow rate measuring units having the same shape and composed of a flow passage portion with a rectangular cross section shape on the outer side and a sensor portion disposed on one face of the flow passage portion. The plurality of flow rate measuring units are integrally configured by bonding faces having no sensor portion so as to serve as bonding faces of the flow rate measuring units.

Abstract: An optical device has an optical transmitter circuit formed in a substrate, a first port configured to output an optical signal generated by the optical transmitter circuit from an edge of the substrate during services and to input a test light from the edge of the substrate during a test, and a photodetector configured to detect the test light input from the first port.

Abstract: A method for manufacturing a powder magnetic core according to an aspect includes filling a case with a soft magnetic powder obtained by pulverizing a soft magnetic foil having an amorphous structure or a nanocrystal structure, applying at least one of a vibration and a magnetic field to the soft magnetic powder contained in the case and thereby aligning the soft magnetic powder, and injecting a curable resin into the case, impregnating the aligned soft magnetic powder with the curable resin, and then curing the curable resin while deaerating the curable resin under a reduced pressure.

Abstract: An optical communication device includes a support substrate, an optical waveguide, and a detector. The optical waveguide includes a first cladding layer that is formed on the support substrate, and is composed of silicon oxide or a material containing silicon oxide; a second cladding layer formed on the first cladding layer; and a core that is formed within the second cladding layer or between the first cladding layer and the second cladding layer, and is composed of silicon or a silicon-containing material. The detector contacts a part of the core, and is adapted to detect an intensity of light propagating through the core.

Abstract: Flow rate measurement unit includes flow rate measurement section having straight-tube-shaped measurement flow passage provided with lead-in port and lead-out port for a fluid-to-be-measured, and shutoff valve having valve seat provided on lead-in port and valve body that is in contact with valve seat. Using flow rate measurement unit configured in this manner in a gas meter allows stable flow rate measurement regardless of a shape of the gas meter. Integrating flow rate measurement section with shutoff valve simplifies a structure of the gas meter and reduces a size of the gas meter.

Abstract: An optical transceiver has a first optical waveguide connected to an input/output port for signal light, a second optical waveguide configured to input and output test light, an optical circuit configured to perform optical-to-electrical conversion or electrical-to-optical conversion, and an optical switch provided between the optical circuit and the first and the second optical waveguides and configured to switch between a first path connecting the optical circuit to the first optical waveguide and a second path connecting the optical circuit to the second optical waveguide, wherein the optical switch is configured to select the second path in an ON state with an electrical voltage being applied to the optical switch, and select the first path in an OFF state without the electrical voltage being applied to the optical switch.

Abstract: A light transmitter-receiver includes a signal processor that carries out a process of transmitting or receiving a light signal; a rigid substrate that is in a plate shape and that has a first through-hole terminal; a package that is fixed to the rigid substrate, that accommodates the signal processor, and that includes a second terminal disposed on a side wall of the package and electrically coupled to the signal processor; and a flexible substrate that extends along the side wall and that includes a third terminal disposed at an tip of the flexible substrate and electrically coupled to the second terminal, the third terminal being coupled to the first through-hole terminal in a state where the third terminal is placed in the first through-hole terminal.

Abstract: An optical device is formed on an optical IC chip. The shape of the optical IC chip is rectangular or parallelogram. The optical device induces: an optical device circuit; a first optical waveguide that is coupled to the optical device circuit; a pad that is electrically connected to the optical device circuit; a grating coupler; and a second optical waveguide that is coupled to the grating coupler. The pad is formed in a region close to a first side of the optical IC chip. The grating coupler is formed in a specified region, which is not close to the first side, on the optical IC chip. The first optical waveguide and the second optical waveguide are respectively extended to an edge of the optical IC chip.

Abstract: A gas meter includes meter body having meter inlet into which a fluid-to-be-measured flows and meter outlet from which the fluid-to-be-measured flows out, and extended section extended from meter outlet to the interior of meter body. The gas meter further includes flow rate measurement unit disposed inside meter body, flow rate measurement unit having measurement flow passage having a straight tubular shape and provided with lead-in port and lead-out port for the fluid-to-be-measured, and shutoff valve disposed in internal passage of extended section. In flow rate measurement unit, lead-in port is airtightly connected to extended section to communicate with internal passage.

Abstract: An optical device is formed on an optical IC chip. The optical device includes: an optical device circuit; a first optical waveguide that is coupled to the a first grating coupler; a second grating coupler; a polarization rotator that is coupled to the first grating coupler; a polarization beam combiner or a polarization beam splitter that is coupled to the polarization rotator and to the second grating coupler; and a second optical waveguide that is coupled to the polarization beam combiner or to the polarization beam splitter. The first optical waveguide and the second optical waveguide respectively extend to an edge of the optical IC chip.

Abstract: A tunable light source includes a substrate; a light source; a wavelength selecting device that selects, according to a control signal, output light with a specific wavelength from light output from the light source; a wavelength filter that is disposed on the substrate, filters the output light, and outputs the filtered light; a light-receiving device that receives the filtered light from the wavelength filter; and a controller configured to generate the control signal based on an output transmittance corresponding to a quantity of the received light received by the light-receiving device, a first transmittance corresponding to a target wavelength, a second transmittance corresponding to a shorter-wavelength limit of a control range including the target wavelength, and a third transmittance corresponding to a longer-wavelength limit of the control range, and output the generated control signal to the wavelength selecting device.

Abstract: A tunable optical source includes a substrate, a light source disposed on the substrate, and a wavelength selecting element configured to select light of a specific wavelength as output light, from light emitted from the light source, in accordance with a control signal. On the substrate, a wavelength filter including multiple output ports and a photodetector are disposed. The wavelength filter is configured to receive a part of the output light and to output light beams to the respective output ports. The photodetector is configured to receive the light beam output from one of the output ports. The tunable optical source further includes an inspection waveguide connecting to the photodetector at one end, and an inspection light input unit for inputting inspection light provided at the other end of the inspection waveguide.

Abstract: A tunable light source includes a light source; a wavelength selecting device that selects, according to a control signal, output light with a specific wavelength from light output from the light source; and a wavelength monitor including a wavelength filter including multiple output ports corresponding to filtering paths through which the output light passes, and a light-receiving device that is disposed to face one of the output ports and receives light output from the one of the output ports. The wavelength filter is configured such that a maximum quantity of the light output from the one of the output ports facing the light-receiving device becomes greater than a maximum quantity of light output from another one of the output ports.

Abstract: An optical device with an optical transmitter circuit and an optical receiver circuit integrated on a substrate has at least one of a first oblique waveguide extending obliquely with respect to an edge of the substrate at or near an incident port for introducing a light emitted from a light source to the optical device, a second oblique waveguide extending obliquely with respect to the edge of the substrate at or near a signal receiving port optically connected to the optical receiver circuit, and a third oblique waveguide extending obliquely with respect to the edge of the substrate at or near a signal transmission port optically connected to the optical transmitter circuit.

Abstract: An optical device has a photonic IC having a modulator block and a photodetector block for transmitting and receiving optical signals via multiple channels, and a wiring board to transmit and receive electrical signals to and from the photonic IC, multiple electrical wirings formed on the wiring board being associated with the multiple channels, wherein the photonic IC has a first optical waveguide set extending from an output end of the modulator block to an output port of the photonic IC and a second optical waveguide set extending from an input port of the photonic IC to an input end of the photodetector block, the optical waveguides are arranged in the shortest paths for the respective channels in the first and the second optical waveguide sets, and the lengths of the electrical wirings are set so as to compensate for a difference in optical waveguide length among the channels.

Abstract: A gas meter includes meter body that has internal space, meter inlet into which a fluid flows, meter outlet from which the fluid flows out, and shielding plate that is located with a predetermined distance from an opening portion of meter inlet. In addition, the gas meter includes flow rate measurer that measures a flow rate of the fluid, and connection member that connects outlet of flow rate measurer and meter outlet to each other. Furthermore, meter inlet, shielding plate, flow rate measurer, connection member, and meter outlet are linearly located in this order.

Abstract: A rotor core manufacturing equipment used in a manufacture of a rotor core where magnets are inserted into magnet housing holes formed in a core body and a resin is supplied into the holes and subsequently cured therein. The equipment includes a stationary mold for holding the core body, a movable mold which is arranged on the core body and in which a resin flow passage is formed, and a cull plate that is arranged between the core body and the movable mold, the cull plate including a filling pot that guides the resin flowing out through the resin flow passage to the magnet housing holes and holds a cull as the cured resin. The filling pot includes an inlet which is opposite an outlet of the resin flow passage. The inlet of the filling pot has an area greater than the outlet of the resin flow passage.

Abstract: An optical modulator includes: an optical modulator chip having an optical waveguide having a bent waveguide portion that is bent between a light input end portion and a light output end portion, a bias electrode provided between the light input end portion and the bent waveguide portion along the optical waveguide, and a signal electrode provided between the bent waveguide portion and the light output end portion along the optical waveguide; a bias input terminal configured to input a bias voltage, the bias input terminal being electrically connected to the bias electrode, and a signal input terminal configured to input an electric signal, the signal input terminal being provided closer to a receiver configured to receive an electric signal than the bias input terminal and being electrically connected to the signal electrode.