Patent application number | Description | Published |
20150083186 | MULTI-JUNCTION SOLAR CELL - A multi-junction solar cell of an embodiment includes a first solar cell including a first photoelectric conversion device, a second solar cell including a plurality of second photoelectric conversion devices connected in series and having a back contact, and an insulating layer between the first solar cell and the second solar cell. A device isolation region is provided between the second photoelectric conversion devices connected in series. | 03-26-2015 |
20150087107 | METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A method for manufacturing a photoelectric conversion device of an embodiment includes forming, on a first electrode, a photoelectric conversion layer comprising at least one of a chalcopyrite compound, a stannite compound, and a kesterite compound. The forming of the photoelectric conversion layer includes forming a photoelectric conversion layer precursor comprising at least one compound semiconductor of a chalcopyrite compound, a stannite compound, and a kesterite compound on the first electrode. The forming of the photoelectric conversion layer includes immersing the precursor in a liquid including at least one of Group IIa and Group IIb elements at 0° C. to 60° C., after forming of the photoelectric conversion layer precursor. The compound semiconductor on a side of the first electrode is at least either amorphous or larger in average crystal grain size than the compound semiconductor on an opposite side of the first electrode. | 03-26-2015 |
20160087118 | PHOTOELECTRIC CONVERSION DEVICE, AND SOLAR CELL - A photoelectric conversion device of an embodiment has a bottom electrode, an intermediate layer on the bottom electrode, a p-type light absorbing layer on the intermediate layer, and an n-type layer on the p-type light absorbing layer. The bottom electrode is a first metal film or a semiconductor film. When the bottom electrode is a metal film, the intermediate layer comprises an oxide film or a sulfide film. When the bottom electrode is a semiconductor film, the intermediate layer comprises a second metal film and an oxide film or a sulfide film on the second metal film. | 03-24-2016 |
20160087125 | PHOTOELECTRIC CONVERSION DEVICE, AND SOLAR CELL - A photoelectric conversion device of an embodiment has a substrate, a bottom electrode on the substrate, a light absorbing layer on the bottom electrode, an n-type layer on the light absorbing layer, a transparent electrode on the n-type layer, and an oxide layer on the transparent electrode. n | 03-24-2016 |
20160087126 | PHOTOELECTRIC CONVERSION DEVICE, SOLAR CELL AND METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device of an embodiment has a bottom electrode, a light absorbing layer on the bottom electrode. The light absorbing layer comprises a thin film of a semiconductor comprising a group Ib element or elements, a group IIIb element or elements, and a group VIb element or elements and having a chalcopyrite structure. The light absorbing layer has an average crystal grain size of 1.5 μm or more. The group IIIb element or elements include Ga, Al, or both of Ga and Al. | 03-24-2016 |
20160087127 | PHOTOELECTRIC CONVERSION DEVICE, SOLAR CELL AND METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device of an embodiment has a substrate, a bottom electrode comprising an electrode layer on the substrate and an intermediate interface layer, a light absorbing layer on the intermediate interface layer. The electrode layer comprises Mo or W. The intermediate interface layer is a compound thin film of a compound comprising Mo or W and at least one element X selected from the group consisting of S, Se, and Te. The intermediate interface layer has a crystal phase and an amorphous phase with which the crystal phase is covered. | 03-24-2016 |
20160087137 | MULTI-JUNCTION SOLAR CELL - According to one embodiment, a multi-junction solar cell includes a first solar cell, a second solar cell, and an insulating layer. The first solar cell includes a first photoelectric conversion element. The second solar cell is connected in parallel with the first solar cell. The second solar cell includes multiple second photoelectric conversion elements connected in series. The insulating layer is provided between the first solar cell and the second solar cell. The second photoelectric conversion element includes a p-electrode and an n-electrode. The p-electrode is connected to a p | 03-24-2016 |
Patent application number | Description | Published |
20140083496 | PHOTOELECTRIC CONVERSION ELEMENT AND SOLAR CELL - A photoelectric conversion element includes a photoelectric conversion layer, a transparent electrode, an intermediate layer, and a window layer. The photoelectric conversion layer includes a homojunction of a p-type compound semiconductor layer and an n-type compound semiconductor layer. The p-type and n-type compound semiconductors include group I-III-VI | 03-27-2014 |
20140144502 | PHOTOELECTRIC CONVERSION ELEMENT, METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION ELEMENT, AND SOLAR CELL - A photoelectric conversion element of an embodiment includes: a back electrode; a heterojunction-type light absorbing layer on the back electrode, containing Cu, selected from Al, In and Ga, and selected from Se and S, and having a chalcopyrite structure; a transparent electrode on the light absorbing layer, wherein aback electrode side-part of the light absorbing layer is of p-type, and a transparent electrode-side part of the light absorbing layer is of n-type, the light absorbing layer has a part with an average crystal grain size of 1,000 nm to 3,000 nm in the vicinity of the back electrode, and the light absorbing layer has apart with an average crystal grain size of at most 500 nm in the vicinity of the transparent electrode or the light absorbing layer has an amorphous part in the vicinity of the transparent electrode. | 05-29-2014 |
20140144510 | PHOTOELECTRIC CONVERSION ELEMENT AND SOLAR CELL - A photoelectric conversion element of an embodiment includes: a p-type light absorbing layer having a chalcopyrite structure; an n-type semiconductor layer on the p-type light absorbing layer; an oxide layer on the n-type semiconductor layer; and a transparent electrode on the oxide layer. | 05-29-2014 |
20140166078 | LIGHT CONCENTRATOR AND A SOLAR CELL - A light concentrator of an embodiment includes: a first high refractive index layer, a first low refractive index layer, and a second high refractive index layer stacked in sequence, wherein a surface on the first low refractive index layer side of the first high refractive index layer has a periodic concavoconvex region. | 06-19-2014 |
20140290727 | SOLAR CELL - A solar cell of an embodiment has a first solar cell, a second solar cell, and an intermediate layer between the first and second solar cells. The first solar cell has a Si layer as a light absorbing layer. The second solar cell has as a light absorbing layer one of a group I-III-VI | 10-02-2014 |
Patent application number | Description | Published |
20140190940 | WIRE ELECTRICAL DISCHARGE MACHINE WHICH CORRECTS MACHINING PATH IN CORNER PORTION - In a corner portion formed at an intersection of a first block to be machined first and a second block to be machined second, an end point of the first block is extended. Then, after moving from the first block to the extended end point of the first block, a wire electrode of an electrical discharge machine returns to an end point of the original block (an end point of the original first block and a start point of the original second block) therefrom along the same path as before, and machines the second block therefrom. | 07-10-2014 |
20150183038 | WIRE ELECTRIC DISCHARGE MACHINE AND MACHINING PASS GENERATING APPARATUS FOR WIRE ELECTRIC DISCHARGE MACHINE - A key groove is cut in the center along a machining route with a wire electrode and machined to a key bottom surface of the key groove. When the machining reaches the key bottom surface of the key groove, the key groove bottom surface is machined to the left in the figure. When the machining reaches a key groove side surface, the key groove side surface is machined toward a key groove inlet. Subsequently, the key groove is cut in the center along a machining route to be machined to the key groove bottom surface of the key groove. When the machining reaches the key groove bottom surface of the key groove, the key groove bottom surface is machined to the right in the figure. When the machining reaches a key groove side surface, the key groove side surface is machined toward the key groove inlet. | 07-02-2015 |
20150183039 | WIRE ELECTRICAL DISCHARGE MACHINE, MACHINING PATH GENERATOR OF WIRE ELECTRICAL DISCHARGE MACHINE, AND MACHINING METHOD FOR USE IN WIRE ELECTRICAL DISCHARGE MACHINE FOR PERFORMING PATH COMPENSATION IN CONCAVE ARC CORNER PORTION - In the case where the shape of a machining path generated by analyzing a machining program includes a concave arc corner portion, the machining path is compensated by inserting a path leading from the end point to the start point of the concave arc along a path inside the concave arc and leading from the start point to the end point of the concave arc on the concave arc again. | 07-02-2015 |
20150352647 | MACHINING PATH DRAWING APPARATUS FOR WIRE ELECTRIC DISCHARGE MACHINE - A machining path drawing apparatus for a wire electric discharge machine that draws a machining path for the wire electric discharge machine having a core fixation function includes a machining shape information calculation unit for analyzing a machining program to determine machining shape information, a core fixation function operating region detection unit for determining a region where the core fixation function operates in the machining shape information, and a machining path drawing unit for drawing the region where the core fixation function operates with a display attribute changed when a machining path is drawn based on the machining shape information. | 12-10-2015 |
20150367436 | MACHINING PROGRAM CREATING DEVICE FOR KEYWAY MILLING FOR WIRE ELECTRIC DISCHARGE MACHINE - A machining program creating device for a wire electric discharge machine creates a machining program for machining a keyway on the side surface of a round hole in a workpiece, based on a previously specified diameter of the round hole, a center position of the round hole measured by bringing a wire electrode into contact with the workpiece, and a previously defined shape of the keyway. | 12-24-2015 |
20150367437 | WIRE ELECTRIC DISCHARGE MACHINE PROVIDED WITH DISCONNECTION REPAIRING UNIT - A wire electric discharge machine provided with a disconnection repairing unit includes a core-fixing-end-position storing unit for storing a core fixing end position of a depositing and accumulating operation machined most lately among positions at which the depositing and accumulating operation for machining wastes by a core fixing function ends in a machining shape currently being machined and a disconnection repairing unit for executing automatic connection between a disconnection position and the core fixing end position. | 12-24-2015 |
20160107251 | KEYWAY MACHINING PATH CREATING DEVICE FOR WIRE ELECTRIC DISCHARGE MACHINE - A machining path creating device for wire electric discharge machines creates a machining path for machining a keyway in a side surface of a round hole. The machining path creating unit compares a “keyway depth” and a diameter of the round hole input by an operator. The machining path creating device determines that the input “keyway depth” is a cut depth when the input “keyway depth” is smaller than the diameter of the round hole and that a value obtained by subtracting the diameter of the round hole from the input “keyway depth” is the cut depth when the input “keyway depth” is larger than the diameter of the round hole. | 04-21-2016 |
Patent application number | Description | Published |
20080251500 | CONTROLLER FOR WIRE-CUT ELECTRICAL DISCHARGE MACHINES - In a reference (n-th) machining pass, the wire travels along a machining route RTn and passes through a reentrant angular corner with wire position WMn, producing a workpiece edge Hn. In the following (n+1)-th machining pass, the wire travels along a machining route RTn+1, but the straight sections preceding and following the corner are replaced with a circular arc route so that the wire passes smoothly through a straight route, then a circular arc route, and then a straight route. The radius of curvature of the circular arc route is determined in the controller on the basis of the difference between the offset specified for the reference (n-th) machining pass and the offset specified for the (n+1)-th pass in which the circular arc route is inserted. Accordingly, the machining margin does not increase in the reentrant angular corner and the machining accuracy is thereby improved. | 10-16-2008 |
20120312786 | WIRE ELECTRIC DISCHARGE MACHINE FOR TAPER-MACHINING TILTED WORKPIECE - In a wire electric discharge machine, a workpiece mounting unit mounts a workpiece tilted at a preset angle to a plane based on two orthogonal axes, X- and Y-axes. An XY-coordinate system is tilted at the preset angle so that it is transformed into an X′Y′-coordinate system. A machining command value commanded by a machining program is corrected based on the X′Y′-coordinate system. Thus, the tilted workpiece is taper-machined with a wire electrode kept substantially perpendicular to the XY-plane (table surface). | 12-13-2012 |
20130112658 | MACHINING CONDITION ADJUSTING DEVICE FOR ELECTRIC DISCHARGE MACHINE - Machining state information is acquired for each predetermined period by performing test machining by means of an electric discharge machine, and the acquired machining state information is compared with reference machining state information, whereby whether a machining state is satisfactory or not is determined. If the machining state is determined to be unsatisfactory, set items of a machining condition are adjusted. Thereafter, test machining is actually performed again, and the machining condition is adjusted by changing the set items if the machining state is determined again to be unsatisfactory. Thus, the acquisition of the machining state information, determination of the machining state, and adjustment of the machining condition are repeated so that satisfactory machining is finally determined. | 05-09-2013 |
20130178974 | NUMERICAL CONTROLLER WITH AUXILIARY COMMAND EXECUTION FUNCTION - When a program command read from a machining program is an auxiliary command, a command associated with the auxiliary command is transmitted. Monitoring of reception of a completion signal corresponding to the command is started. When the completion signal is not received, and when the auxiliary command is a command indicating the unnecessity of waiting to receive the completion signal, determination is made as to whether or not a condition for ending the monitoring of the completion signal corresponding to the auxiliary command is satisfied without receiving the completion signal. When the condition is satisfied, an error process is executed to end the execution of the machining program. | 07-11-2013 |
20130186865 | WIRE ELECTRICAL DISCHARGE MACHINE CARRYING OUT ELECTRICAL DISCHARGE MACHINING BY INCLINING WIRE ELECTRODE - A wire electrical discharge machine is capable of step machining by setting only a position located anterior to a step portion of the workpiece during a setup operation before machining, without setting an inclination finishing position of a wire electrode after passing the step portion. A machining program is read, and when a wire electrode reaches a preset inclination starting position in front of a step position, inclination control of the wire electrode is started. Then, when the wire electrode has passed the position of the step portion, the inclination control of the wire electrode is finished. | 07-25-2013 |
20130238114 | WIRE ELECTRIC DISCHARGE MACHINE CONTROLLER FOR CORRECTING MACHINING ROUTE USING PROGRAM COMMANDS - A block in an electric discharge machining program is read out and analyzed, and when determined that a machining route correction command is issued to correct the machining route at a corner formed by consecutive first and second machining blocks, the machining route is corrected such that the end point of the first machining block, an extension point obtained by extending the first machining block from the end point thereof by a predetermined distance in the machining advancing direction, and a new start point obtained by partially removing the second machining block by a predetermined distance from the start point thereof are connected. Then, the wire electrode is moved with respect to the workpiece, following the corrected machining route. | 09-12-2013 |
20140175063 | WIRE ELECTRIC DISCHARGE MACHINE THAT AUTOMATICALLY CORRECTS MACHINING ROUTE ACCORDING TO CORNER ANGLE - A wire electric discharge machine corrects a machining route according to an angle between two moving blocks that form a corner portion. A correction distance and a return distance are computed based on a detected corner angle. The correction is implemented so that an end point of a block to be machined first is extended according to the correction distance, and a portion extending from a start point of a block to be machined subsequently to an intermediate point of this block is removed according to the return distance. A machining route is created so that the end point of the new block created by the extension is connected to the start point of the other block created by the removal, and the wire electrode is moved along the machining route relative to a workpiece. | 06-26-2014 |
Patent application number | Description | Published |
20090034309 | Electric power conversion system - In the present invention, miniaturization of an electric power conversion system is made possible while the reduction of a rise in temperature is achieved through a cooling operation by a cooling fan. The electric power conversion system is provided with a casing for covering cooling fins for cooling power semiconductors, a main circuit board having a driver circuit for driving the power semiconductors, and a cover for covering up the main circuit board. The system includes a first airflow hole provided at a part of the main circuit board, on the upper side of an air-intake provided in the cover, and a second airflow hole provided on the lower side of the first airflow hole, and on the lower side of the cooling fins, wherein air from the second airflow hole is driven to the cooling fins by a cooling fan. | 02-05-2009 |
20120119685 | POWER TRANSDUCER - The performance of a power transducer is improved while efficiently using a power semiconductor also by managing the permissible duty factor of the power semiconductor in the regenerative braking circuit provided in the power transducer. The user is allowed to set, through an operation panel provided on the power transducer, the resistance value of the regenerative braking resistor for thermally consuming the rotational energy generated during motor deceleration. The power transducer performs the steps of: calculating the current which flows in the regenerative braking circuit from the resistance value setting; obtaining the generation loss of the power semiconductor in the regenerative braking circuit with the calculated current value; and determining the permissible duty factor of the power semiconductor from the obtained generation loss. | 05-17-2012 |
20130127382 | POWER TRANSDUCER - The performance of a power transducer is improved while efficiently using a power semiconductor also by managing the permissible duty factor of the power semiconductor in the regenerative braking circuit provided in the power transducer. The user is allowed to set, through an operation panel provided on the power transducer, the resistance value of the regenerative braking resistor for thermally consuming the rotational energy generated during motor deceleration. The power transducer performs the steps of: calculating the current which flows in the regenerative braking circuit from the resistance value setting; obtaining the generation loss of the power semiconductor in the regenerative braking circuit with the calculated current value; and determining the permissible duty factor of the power semiconductor from the obtained generation loss. | 05-23-2013 |
20130342136 | POWER TRANSDUCER - The performance of a power transducer is improved while efficiently using a power semiconductor also by managing the permissible duty factor of the power semiconductor in the regenerative braking circuit provided in the power transducer. The user is allowed to set, through an operation panel provided on the power transducer, the resistance value of the regenerative braking resistor for thermally consuming the rotational energy generated during motor deceleration. The power transducer performs the steps of: calculating the current which flows in the regenerative braking circuit from the resistance value setting; obtaining the generation loss of the power semiconductor in the regenerative braking circuit with the calculated current value; and determining the permissible duty factor of the power semiconductor from the obtained generation loss. | 12-26-2013 |
Patent application number | Description | Published |
20080262750 | POWER CONVERSION APPARATUS AND METHOD OF ESTIMATING POWER CYCLE LIFE - For applications in a facility where a power conversion apparatus is frequently started and stopped, a power conversion apparatus and a power cycle longevity estimation method are provided which improve an ease of use of the facility. | 10-23-2008 |
20090040733 | FILTER APPARATUS AND FREQUENCY CONVERTER TO WHICH THE FILTER APPARATUS IS CONNECTED - A filter apparatus connected to a wiring drawing portion of a frequency converter, said filter apparatus including: a condenser element having an electronic part having an insulator as a dielectric material held between conductor plates; a sealing agent sealing said condenser element; a filter circuit comprising said condenser element; a connection conductor establishing wiring connections of said filter circuit; and a filter housing supporting said sealing agent wherein said filter apparatus is fixed to said frequency converter based on a positioning portion provided in part of the housing of said frequency converter. | 02-12-2009 |
20090040743 | FILTER APPARATUS AND FREQUENCY COVERTER TO WHICH THE FILTER APPARATUS IS CONNECTED - A power converter connected to a wiring drawing portion of a frequency converter, said filter apparatus including: a condenser element having an electronic part having an insulator as a dielectric material held between conductor plates; a sealing agent sealing said condenser element; a filter circuit comprising said condenser element; a connection conductor establishing wiring connections of said filter circuit; and a filter housing supporting said sealing agent. | 02-12-2009 |
20090046434 | FILTER APPARATUS AND FREQUENCY CONVERTER TO WHICH THE FILTER APPARATUS IS CONNECTED - A power converter in which a filter apparatus reducing noises is connected to a wiring drawing portion, wherein a conductor plate is arranged along an inner wall of a filter housing of said filter apparatus, and part of a housing of said frequency converter and part of a filter housing of said filter apparatus are fitted to each other to fix said filter housing to the housing of said frequency converter. | 02-19-2009 |
20090046435 | FILTER APPARATUS AND FREQUENCY CONVERTER TO WHICH THE FILTER APPARATUS IS CONNECTED - A power converter in which a filter apparatus is connected to a wiring drawing portion, said filter apparatus including: a condenser element having an electronic part having an insulator as a dielectric material held between conductor plates; a sealing agent sealing said condenser element; a filter circuit comprising said condenser element; a connection conductor establishing wiring connections of said filter circuit; and a filter housing supporting said sealing agent. | 02-19-2009 |
Patent application number | Description | Published |
20140312863 | CONTROL CIRCUIT FOR STEP-UP DC/DC CONVERTER - A switching transistor is configured such that its on resistance R | 10-23-2014 |
20140368212 | ELECTRIC CIRCUIT EVALUATION METHOD - The electric circuit evaluation method according to the present invention comprises: a step for finding a malfunction power frequency property, in which the magnitude of a critical noise signal at which a designated electric circuit causes a malfunction is represented by the power injected into the designated electric circuit; and a step for finding a malfunction current frequency property, in which the magnitude of the critical noise signal at which the designated electric circuit causes a malfunction is represented by a current (I_LSI) flowing to a predetermined portion of the designated electric circuit, and a malfunction voltage frequency property, in which the magnitude of the critical noise signal at which the designated electric circuit causes a malfunction is represented by a voltage (V_LSI) occurring between predetermined points of the designated electric circuit, both of which properties found from the malfunction power frequency property. | 12-18-2014 |
20140368213 | Electric Circuit Evaluation Method and Electric Circuit - A noise signal for a malfunction test is inputted to a ground terminal, and a frequency property of the magnitude of the power at which a designated electric circuit causes a malfunction is found. A detection reference ground of a detection part for detecting malfunctions of the designated electric circuit is connected at high impedance to a ground of the targeted circuit. Differential input parts are provided to the detection part, a to-be-detected part of the designated electric circuit is connected to one differential input part, and the ground of the targeted circuit is connected to the other differential input part. A ground of a noise source is isolated from a ground of a power source circuit for supplying a power source to the designated electric circuit. The ground of the noise source is galvanically isolated from the ground of the designated electric circuit. | 12-18-2014 |
20140368225 | Electric Circuit Evaluation Method - The electric circuit evaluation method according to the present invention is characterized in that a designated electric circuit is placed inside a shield structure, a noise signal for a malfunction test is inputted to the designated electric circuit, a short-circuit is established between a ground of the shield structure and a ground of a noise source for inputting a noise signal for a malfunction test to the designated electric circuit, and the ground of the designated electric circuit and the ground of the shield structure are isolated. | 12-18-2014 |
20150097575 | METHOD OF EVALUATING DEVICE INCLUDING NOISE SOURCE - A method of evaluating a device includes a first electric circuit acting as a noise source and a second electric circuit which is likely to malfunction due to a noise signal. The method includes: obtaining malfunction frequency characteristics indicating magnitudes of a threshold noise signal causing malfunction of the second electric circuit; obtaining internal noise arrival frequency characteristics indicating magnitudes of an internal noise signal arriving at the second electric circuit from the first electric circuit; and comparing the malfunction frequency characteristics with the internal noise arrival frequency characteristics. | 04-09-2015 |
Patent application number | Description | Published |
20120231404 | COMBUSTION DEVICE - A combustion device has tubular burners with mixing tubes made by joining together two plate members which have formed therein half-split mixing tubes at a distance from one another and which, when joined together, form a clearance serving as a carryover flame hole to communicate a mixing tube with an adjoining mixing tube. An intermediate flame hole portion is formed by recessing backward the front end of the carryover flame hole. A cover portion is formed in each of the two plate members so as to lie opposite to each other with a recessed space lying therebetween. The recessed space is defined as a space that is generated between the intermediate flame hole portion and a line that is drawn in front of the intermediate flame hole portion along the same longitudinal direction as the front end, except for the part of the intermediate flame hole portion. | 09-13-2012 |
20130101948 | TUBULAR BURNER - A flame hole member of a tubular burner has a front plate and a rear plate both of sheet metal make. The front plate has a first flame hole in the central portion of the front plate, and a plurality of second flame holes located around a periphery of the first flame hole, each of the second flame holes being of a slit shape in a width below a quenching distance. The rear plate has a first ventilation hole in the central portion of the rear plate, and a plurality of second ventilation holes of smaller diameter than the first ventilation hole, each of the second ventilation holes being located around a periphery of the first ventilation hole. At least one of the rear plate and the front plate is provided with a cylindrical section for introducing into the first flame hole. | 04-25-2013 |
20160109119 | TUBULAR BURNER - A tubular burner includes: a mixing tube having an inlet port into which a fuel gas and primary air flow; and a flame hole member having a plurality of flame holes and being fitted into a front end portion of the mixing tube. The flame holes of the flame hole member are made up of a central main flame hole and a plurality of subsidiary flame holes positioned around, and each being smaller than, the central main flame hole. In an annular region of the flame hole member defined between an outer periphery of the flame hole member and the central main flame hole, a plurality of non-flame-hole regions which are free from formation of the subsidiary flame holes are provided at a circumferential distance from one another. The plurality of the subsidiary flame holes are formed in each of flame hole regions defined between the non-flame-hole regions. | 04-21-2016 |
Patent application number | Description | Published |
20090022453 | Optical Deflection Method and Optical Deflection Apparatus - An optical deflection apparatus includes a signal light source configured to emit signal light having one or more wavelengths, a control light source configured to emit control light having a wavelength different from the wavelength of the signal light, a thermal lens forming optical element including a light absorption layer configured to transmit the signal light and selectively absorb the control light, and a beam-condensing unit configured to cause beam-condensation of the control light and the signal light at different convergence points in the light absorption layer. The thermal lens forming optical element causes convergence and divergence of the control light and the signal light on an incidence plane of the light absorption layer or its vicinity in a light traveling direction, wherein a thermal lens is reversibly formed in the light absorption layer due to a temperature increase occurring in a region where the control light is absorbed and its peripheral region, and the thermal lens changes a refractive index to change a traveling direction of the signal light. | 01-22-2009 |
20100245960 | Optical deflection method and optical deflection apparatus - An optical deflection apparatus includes a signal light source configured to emit signal light having one or more wavelengths, a control light source configured to emit control light having a wavelength different from the wavelength of the signal light, a thermal lens forming optical element including a light absorption layer configured to transmit the signal light and selectively absorb the control light, and a beam-condensing unit configured to cause beam-condensation of the control light and the signal light at different convergence points in the light absorption layer. The thermal lens forming optical element causes convergence and divergence of the control light and the signal light on an incidence plane of the light absorption layer or its vicinity in a light traveling direction, wherein a thermal lens is reversibly formed in the light absorption layer due to a temperature increase occurring in a region where the control light is absorbed and its peripheral region, and the thermal lens changes a refractive index to change a traveling direction of the signal light. | 09-30-2010 |
20100265568 | THERMAL LENS FORMING ELEMENT - A thermal lens forming element includes a first chamber serving as a control light absorbing region, which is configured as a columnar body or an N prismatic body (wherein N is an integer equal to or greater than 4) circumscribing the columnar body and filled with a control light absorbing dyestuff solution containing a solvent having a viscosity of 0 to 3 mPa·s at 160° C. or above and a ratio of the viscosity of the solvent at 160° C. to a viscosity of the solvent at 40° C. not less than 1 and not greater than 6, wherein the columnar body or the N prismatic body circumscribing the columnar body has a central axis coinciding with an optical axis of incident signal light. The first chamber is connected to a second chamber via a solution channel and a dam. The dyestuff solution and a bubble of an inert gas are confined in the second chamber. | 10-21-2010 |
20110081478 | Organic electroluminescent element and manufacturing method thereof - An method for manufacturing an organic electroluminescent element, the method including a positive electrode and a glass substrate sequentially laminated on one side of a light-emitting layer and a negative electrode formed on the other side of the light-emitting layer. The organic electroluminescent element has a functional layer which is formed by causing gas molecules of at least one type of compound selected from the group consisting of dyes and charge transport materials to contact and penetrate a π conjugated organic polymer compound. | 04-07-2011 |
20120063777 | OPTICAL PATH SWITCHING SIGNAL TRANSMISSION/RECEPTION APPARATUS AND CORRESPONDING METHOD - An optical path switching type optical signal transmission/reception apparatus includes a one-to-seven compatible optically controlled optical path switching apparatus | 03-15-2012 |
20130057945 | OPTICAL-PATH-SWITCHING APPARATUS AND LIGHT SIGNAL OPTICAL-PATH-SWITCHING METHOD - An optical-path-switching apparatus according to the present invention includes a reducing optical system capable of guiding signal light and control light along the direction of gravity into a thermal-lens-forming optical element having an incidence plane positioned to be perpendicular to the direction of gravity in such a way as to differentiate respective convergence points in a direction perpendicular to the optical axis. The apparatus further includes a light-receiving unit configured to converge or condense straight-traveling signal light in the absence of irradiation with the control light and signal light whose optical path has been switched due to irradiation with the control light using the same optical element. Further, the apparatus includes a wedge-type prism provided at a passing position of the optical-path-switched signal light to increase the distance between the optical axis of the optical-path-changed signal light and the optical axis of the straight-traveling signal light. | 03-07-2013 |
Patent application number | Description | Published |
20110312313 | MOBILE COMMUNICATION SYSTEM, RADIO NETWORK CONTROLLER AND METHOD - A radio network controller connected to multiple exchanges in a mobile communication system includes an exchange side interface configured to communicate with the multiple exchanges, a mobile station side interface configured to receive a call connection signal from a mobile station via a radio base station, a management unit configured to manage congestion levels indicative of congestion states of the respective exchanges and a control unit. The exchange side interface acquires the congestion levels from the respective exchanges, and the control unit determines to transfer a predefined ratio of call connection signals destined for an exchange having a higher congestion level to an exchange having a lower congestion level, the ratio being predefined corresponding to the congestion level. | 12-22-2011 |
20120099528 | RADIO NETWORK CONTROL DEVICE, PACKET SWITCHING DEVICE, CIRCUIT SWITCHING DEVICE, AND INFORMATION REPORTING METHOD - A radio network control device in a mobile communication network includes a first communication unit communicating with a packet switching device in a packet switched domain; a second communication unit communicating with a circuit switching device in a circuit switched domain; and a management unit transmitting information to the packet switching device, the information indicating whether the radio network control device can correctly communicate with the circuit switching device. The management unit transmits the information when transmitting a signal to the packet switching device via the first communication unit, the signal indicating whether the radio network control device can correctly communicate with the packet switching device, or when transmitting an attach request signal to the packet switching device via the first communication unit, the attach request signal being transmitted from a mobile station. | 04-26-2012 |