Patent application number | Description | Published |
20100319193 | WORK TRANSFER APPARATUS, AND WORK MOUNTING METHOD - According to a work mounting method by the work transfer apparatus of the prior art, a glass plate or a work may fail to abut against a window frame homogeneously at its peripheral edge portion, and the adhesion strength or the sealing property between the glass plate and the window frame may not be retained all over the periphery of the adhered portion. Provided is a work transfer apparatus, which grips a rear glass by its gripping member and mounts the rear glass while pushing the gripped rear glass onto the window frame of a car body by the action of a supporting arm. The work transfer apparatus comprises a control device, and each of absorption pads of the gripping member includes a force detecting sensor for detecting the force to be applied to the absorption pads. The control device controls, when it uses the work transfer apparatus to mount the rear glass on the window frame, the actions of the supporting arm on the basis of the magnitude of the detected value of the force detecting sensor of each absorption pad. | 12-23-2010 |
20110037646 | INTER-MOBILE BODY CARRIER PHASE POSITIONING DEVICE AND METHOD - The inter-mobile body carrier phase positioning device according to the invention includes: a first observation data acquisition means that acquires observation data concerning a phase accumulation value observed in a first mobile body; a second observation data acquisition means that acquires observation data concerning a phase accumulation value observed in a second mobile body; a satellite pair determination means that determines pairs of satellites used for carrier phase positioning; and a carrier phase positioning means that takes, between each of the pairs of the satellites determined by the satellite pair determination means, a single or double difference between the observation data acquired by the first observation data acquisition means and the observation data ac quired by the second observation data acquisition means, and determines relative positional relation between the first mobile body and the second mobile body by carrier phase positioning using the single or double difference of the observation data. | 02-17-2011 |
20110037647 | RELATIVE POSITION DETECTING APPARATUS, AND RELATIVE POSITION DETECTING SYSTEM - In a case in which three or more movable objects, each of those detecting the relative position with respect to another movable object, are able to communicate with each other: a reference movable object obtains observation data and transmits the observation data to non-reference movable objects; one non-reference movable object calculates the relative position with respect to the reference movable object by performing interferometric positioning using the observation data obtained by the observation data obtaining means and data including observation data received from the reference movable object, and also transmits data including an integer bias calculated as interferometric positioning results to another non-reference movable object and receives reliability determination results regarding the interferometric positioning; and the another non-reference movable object receives data including the integer bias from the one non-reference movable object and determines the reliability of the interferometric positioning. | 02-17-2011 |
20110054790 | INTER-MOVING BODY INTERFEROMETRIC POSITIONING SYSTEM, DEVICE AND METHOD THEREOF - An inter-moving body interferometric positioning system for carrying out positioning in coordination with three or more moving bodies that can mutually communicate, including: a reference vehicle decision unit for deciding on a single moving body to function as a reference vehicle from among three or more moving bodies, and a positioning unit for interferometrically determining respective relative positions of other moving bodies relative to the reference moving body that is to function as a reference vehicle decided on by the reference moving body decision unit using satellite wave monitoring data monitored in each of the three or more moving bodies. This inter-moving body interferometric positioning system specifies relative positions among the other moving bodies using positioning results of the positioning unit. | 03-03-2011 |
20130211686 | VEHICULAR DRIVE CONTROL APPARATUS - A vehicular drive control apparatus provided with pulse-driving and gliding means | 08-15-2013 |
20130332020 | CONTROL DEVICE OF HYBRID VEHICLE - It is provided a control device of a hybrid vehicle including a plurality of drive power sources for running including an electric motor driven by electric energy of an electric storage device, the hybrid vehicle configured to perform motor running or assist running using the electric motor for running, the control device being configured to divide a running road acquired from map data into a plurality of sections and stores a change amount of a charged capacity of the electric storage device for each of the divided sections, to acquire all possibly-traveled running routes within a predetermined distance from a current position of the vehicle based on the map data, to calculate a variation characteristic of the charged capacity in correlation with a distance from the current position for each of the running routes based on the change amount of the charged capacity, if it is determined from the variation characteristic of the charged capacity that the possibly-traveled running routes include at least one running route in which electric energy can be recovered to the extent exceeding a predetermined charged capacity upper limit value for permitting charging of the electric storage device, permission being given for the motor running or the assist running using a consumable amount of the electric energy based on electric energy exceeding the predetermined charged capacity upper limit value on the condition that the charged capacity does not fall below a predetermined charged capacity lower limit value for permitting discharging of the electric storage device in all the possibly-traveled running routes even when the electric energy exceeding the predetermined charged capacity upper limit value is consumed before recovery. | 12-12-2013 |
20150263633 | POWER CONVERSION APPARATUS AND METHOD FOR STARTING UP THE SAME - A power conversion apparatus includes a transformer; a primary side full bridge circuit provided on a primary side of the transformer; a first port connected to the primary side full bridge circuit; a second port connected to a center tap of the primary side of the transformer; a secondary side full bridge circuit provided on a secondary side of the transformer; a third port connected to the secondary side full bridge circuit; and a control unit configured to cause an upper arm of the secondary side full bridge circuit to operate in an active region in a case where a capacitor connected to the third port is charged with a transmitted power transmitted to the secondary side full bridge circuit via the transformer from the primary side full bridge circuit when power of the second port is stepped up and the stepped up power is output to the first port. | 09-17-2015 |
20150295445 | ELECTRIC POWER CONVERSION APPARATUS AND METHOD OF CONTROLLING THE SAME - Assuming that a transformer has a primary to secondary winding turn ratio 1:N, VR denotes a voltage of regenerated power, VCd denotes a discharge final voltage of a first battery connected with a transformer-primary-side center tap, VCc denotes a charge final voltage of the first battery, VBd denotes a discharge final voltage of a second battery connected with a transformer-secondary-side full bridge circuit, VBc denotes a charge final voltage of the second battery and Drain denotes a lower limit of a duty ratio D of a transformer-primary-side full bridge circuit, an apparatus determines upon (VBd/N)≦VR≦(VBc/N) that the first and second batteries may be able to be charged with regenerated power and determines upon VCd≦VR≦(VCc/Dmin) that the first battery may be able to be charged with the regenerated power. | 10-15-2015 |
20150295504 | ELECTRIC POWER CONVERSION APPARATUS AND METHOD OF CONTROLLING THE SAME - An electric power conversion apparatus includes a transformer having a primary coil and a secondary coil; a primary-side full bridge circuit having first and second arm circuits in parallel, respective midpoints of the first and second arm circuits being connected via the primary coil; a secondary-side full bridge circuit having third and fourth arm circuits in parallel, respective midpoints of the third and fourth arm circuits being connected via the secondary coil. The number of turns of the secondary coil between the latter respective midpoints is switched and transmission power transmitted between the primary-side and the secondary-side full bridge circuits is controlled through adjustment of a phase difference in switching between the first arm circuit and the third arm circuit and a phase difference in switching between the second arm circuit and the fourth arm circuit. | 10-15-2015 |
Patent application number | Description | Published |
20130258082 | STRIPE NOISE CORRECTION METHOD OF CAPTURED IMAGE, PHOTOGRAPHING APPARATUS AND ELECTRONIC ENDOSCOPIC APPARATUS - A stripe noise correction method of a captured image includes: storing a value calculated by rounding off a portion below the decimal point of a stripe noise value into a memory as correction data of an integer part that corrects a stripe noise for each color; and storing the magnitude of a quantization error calculated by rounding off for each color and for each pixel column or each pixel row into the memory as correction data of a fractional part; and correcting captured image signals of the image captured by a image sensor with the correction data of the integer part and the fractional part read from the memory. | 10-03-2013 |
20130314516 | VIDEOSCOPE AND IMAGE CORRECTING METHOD THEREOF - A videoscope includes: an imaging device having at least one monitoring subject pixel each of which produces, frame by frame, a normal detection value or an abnormal detection value, normal pixels and at least one defective pixel; a memory which is stored with a position address of each of the at least one monitoring subject pixel; and an image processing unit which performs image processing on image signals produced by the imaging device so as to judge, in each frame, based on information stored in the memory, whether each of the at least one monitoring subject pixel has produced a normal detection value or an abnormal detection value and to correct the detection value of each of the at least one monitoring subject pixel using detection values of nearby normal pixels only in frames in which an abnormal detection value is produced. | 11-28-2013 |
20140171737 | ENDOSCOPE APPARATUS AND IMAGE PICKUP CONTROL METHOD THEREOF - An endoscope apparatus including: an image pickup device; a detection device that detects whether or not an image region at which a part of an object region is edged along a direction parallel to the scan lines in a state that is different to a case where a plurality of the scan lines are simultaneously exposed exists in a frame image due to differences of exposure timings for each of the scan lines of the image pickup device based on an image feature amount in the frame image that is obtained from the image data for each of the scan lines that is outputted from the image pickup device; and an exposure control device that changes an exposure time of each of the scan lines by the image pickup device simultaneously for all of the scan lines if the detection device detects the image region. | 06-19-2014 |
20140171738 | ENDOSCOPE APPARATUS AND IMAGE PICKUP CONTROL METHOD THEREOF - An endoscope apparatus, comprising: an image pickup device; a detection device that detects whether or not an image region at which a part of an object region is edged along a direction parallel to the scan lines in a state that is different to a case where a plurality of the scan lines are simultaneously exposed exists in a frame image due to differences of exposure timings for each of the scan lines based on an image feature amount in the frame image that is obtained from the image data for each of the scan lines that is outputted from the image pickup device; and an exposure control device that lengthens an exposure time of each of the scan lines by the image pickup device in comparison to a case where the detection device does not detect the image region, if the detection device detects the image region. | 06-19-2014 |
Patent application number | Description | Published |
20080211929 | CAMERA CONTROL APPARATUS AND METHOD, AND CAMERA CONTROL SYSTEM - A camera control system having a terminal device connected to a plurality of cameras via a network is provided. In response to an operation that exceeds a maximum control value (maximum control angle) of the PTZ of a camera that is the target of control, the terminal device displays peripheral camera information, which corresponds to a shooting direction in which the operation has been requested, together with video shot by the camera being controlled. The peripheral camera information includes installation camera position information, viewable angle information, control status information and peripheral map information as well as at least one item of captured video from a camera other than the camera being controlled. | 09-04-2008 |
20110199484 | CAMERA CONTROL APPARATUS AND METHOD, AND CAMERA CONTROL SYSTEM - A camera control system having a terminal device connected to a plurality of cameras via a network is provided. In response to an operation that exceeds a maximum control value (maximum control angle) of the PTZ of a camera that is the target of control, the terminal device displays peripheral camera information, which corresponds to a shooting direction in which the operation has been requested, together with video shot by the camera being controlled. The peripheral camera information includes installation camera position information, viewable angle information, control status information and peripheral map information as well as at least one item of captured video from a camera other than the camera being controlled. | 08-18-2011 |
20130248505 | WELDING QUALITY CLASSIFICATION APPARATUS - The welding quality classification apparatus relating to the present invention is an apparatus, wherein a data point indicating feature information of a welded joint to be classified whose welding quality is unknown is mapped to a point in a mapping space which has a dimensional number higher than the number of the features constituting the feature information, and the welding quality of a welded joint to be classified is classified based on which of regions of two welding qualities, which are formed by separating the mapping space with a decision boundary, contains the mapped point, and wherein a discriminant function is determined by adopting a weight which minimizes the sum of the classification error corresponding to classification accuracy of a training dataset and a regularization term having a positive correlation with the dimensional number of the discriminant function as weight for each feature constituting the discriminant function indicating the decision boundary. | 09-26-2013 |
20150054983 | IMAGE PROCESSING APPARATUS THAT IS CAPABLE OF CORRECTING COLOR SHIFT, METHOD OF CONTROLLING THE SAME, AND STORAGE MEDIUM - An image processing apparatus capable of highly accurately detecting and correcting color shift of image data, caused by a chromatic difference of magnification. The image processing apparatus stores first color shift amount data including color shift amount information of the image data and accuracy information indicative of detection accuracy of the color shift. The image processing apparatus analyzes the image data to thereby determine second color shift amount data including color shift amount information of the image data and accuracy information indicative of detection accuracy of the color shift. The image processing apparatus corrects the color shift of the image data using the color shift amount information selected from the first and color shift amount data, based on the accuracy information included in the first color shift amount data and the accuracy information included in the second color shift amount data. | 02-26-2015 |
20150055863 | IMAGE PROCESSING APPARATUS AND METHOD OF CONTROLLING THE SAME - An image processing apparatus that can suppress a tint phenomenon in image recovery processing and a method of controlling the same are disclosed. A saturation determination unit determines whether or not a saturated pixel is included in a reference region referred to by filter processing units. An R component output adjustment unit and a B component output adjustment unit adjust corresponding color components resulting from image recovery processing according to the determination result obtained by the saturation determination unit. | 02-26-2015 |
20150281551 | IMAGE CAPTURING SYSTEM, IMAGE CAPTURING APPARATUS, CONTROL METHOD, AND RECORDING MEDIUM - In an image capturing system, an image capturing apparatus transmits information indicating set capturing conditions to an information processing apparatus. The information processing apparatus obtains a recovery filter corresponding to predetermined capturing conditions based on the information, and transmits the recovery filter to the image capturing apparatus. Upon receiving the recovery filter corresponding to the predetermined capturing conditions from the information processing apparatus, the image capturing apparatus stores the filter in a storage device. Upon obtaining an image signal by capturing, the image capturing apparatus performs recovery processing by applying the received recovery filter to the image signal. | 10-01-2015 |
Patent application number | Description | Published |
20100046633 | COMMUNICATION TERMINAL, CONTENT REPRODUCTION METHOD, CONTENT REPRODUCTION PROGRAM, CONTENT REPRODUCTION SYSTEM, AND SERVER THEREFOR - A communication terminal, includes: a communicator, configured to transmit and receive data to and from a server storing video contents; an accumulator, configured to accumulate a plurality of partial streams extracted from different time positions within the video contents received through the communicator as asynchronous streams; a decoder, configured to decode at least one of the asynchronous streams and synchronous streams that are not extracted as the asynchronous streams from the video contents, the synchronous streams being streaming-distributed from the server; and a controller, configured to acquire streams having time position information before and after a reproduction time position of the at least one of the asynchronous streams and the synchronous streams decoded by the decoder while the at least one of the asynchronous streams and the synchronous streams are reproduced on the display, and control the display to display the acquired streams after the reproduction. | 02-25-2010 |
20130223537 | Video Bit Stream Transmission System - In distribution of high definition video signals in which it is possible to freely move viewing regions, systems and methods allow for determining viewing movement without dependence on user operation. In at least one embodiment, a video region of an input video signal is divided into a specified number of regions, and generates a plurality of video signals corresponding to each of the divided regions. The plurality of video signals are encoded to generate a plurality of video bit streams that are stored in a video bit stream group storage section. A video bit stream is extracted from the storage section based on the viewpoint movement information, and a transmission video bit stream is transmitted to a receiving unit. Viewpoint movement information is determined in order to specify a region for viewing from among the video regions. The viewpoint information is determined regardless of user instruction, based on specified data. | 08-29-2013 |
20140269929 | Byte Alignment Device and Byte Alignment Method - Byte alignment on a bit stream includes replacing adjustment coefficient sequences, that are high-frequency components within quantized block coefficient sequences with predetermined base coefficient sequences. A bit quantity that is to be increased for byte alignment is calculated based on code amount of a bit stream that has been acquired by subjecting the block coefficient sequences, that are the adjustment coefficient sequences that have been replaced with base coefficient sequences, to variable length encoding. Appropriate adjustment coefficient sequences that will replace the base coefficient sequences are searched based on bit quantity that is to be increased. The retrieved adjustment coefficient sequences are then inserted into high frequency components corresponding to base coefficient sequences. | 09-18-2014 |
20150127846 | Encoding System and Encoding Method for Video Signals - Joined streams can be generated by devising an encoding method for a video tile stream, while limiting load on the server. After a video signal that is the subject of encoding has been received, a tile stream is generated by encoding the video signal using appropriate prediction reference information. The video tile stream that has been obtained by encoding is output. Here, encoding of the video information utilizes a restricted prediction reference information method or a fixed prediction reference information method, so that errors caused by inconsistencies in prediction relationship of a signal do not arise even if streams, formed by each MB line of a frame of the video tile stream, are arbitrarily connected. At the time of connecting tile streams, it is possible to avoid inconsistencies in prediction information written into a stream determined at the time of encoding. | 05-07-2015 |
Patent application number | Description | Published |
20090032875 | SEMICONDUCTOR DEVICE - There is provided a semiconductor device comprising: a first semiconductor layer of a first conductivity type; a second semiconductor layer of a second conductivity type provided on the first semiconductor layer of the first conductivity type; a semiconductor region of the first conductivity type selectively provided on a front surface portion of the second semiconductor layer of the second conductivity type; a first main electrode provided in contact with a surface of the semiconductor region; a second main electrode provided on a side of the first semiconductor layer of the first conductivity type, the side being opposite to the surface on which the second semiconductor layer of the second conductivity type is provided; a gate wiring provided on the second semiconductor layer of the second conductivity type around an element region in which the semiconductor region is provided; a trench penetrating the second semiconductor layer of the second conductivity type to reach the first semiconductor layer of the first conductivity type, and also extending under the element region and the gate wiring; a gate electrode provided inside the trench in the element region with a gate insulating film interposed in between; and a gate electrode lead portion provided inside the trench under the gate wiring with the gate insulating film interposed in between, and contacting the gate wiring and the gate electrode. | 02-05-2009 |
20120061747 | SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device includes a drift region of a first conductivity type, a base region of a second conductivity type, a source region of the first conductivity type, a gate electrode in a trench shape, a contact region of the second conductivity type, a drain electrode, and a source electrode. The drift region is selectively provided in a drain layer of the first conductivity type from a surface of the drain layer to an inside of the drain layer. The base region is selectively provided in the drift region from a surface of the drift region to an inside of the drift region. The source region is selectively provided in the base region from a surface of the base region to an inside of the base region. The gate electrode penetrates from a part of the source region through the base region adjacent to the part of the source region to reach a part of the drift region in a direction substantially parallel to a major surface of the drain layer. The contact region is selectively provided on the surface of the drift region. The contact region contains an impurity having a concentration higher than an impurity concentration of the base region. The drain electrode is connected to the drain layer. The source electrode is connected to the source region and the contact region. The contact region extends from a side of the drain layer toward the drift region and does not contact the drain layer. | 03-15-2012 |
20120241848 | SEMICONDUCTOR ELEMENT AND METHOD OF MANUFACTURING SEMICONDUCTOR ELEMENT - A semiconductor element includes a drain layer, a drift region selectively provided in the drain layer, a base region selectively provided in the drift region, a source region selectively provided in the base region, first and/or second metal layers selectively provided in at least one of the source region and the drain layer from the front surface to the inside of at least one of the source region and the drain layer, a gate electrode in a trench shape extending in a direction substantially parallel to the front surface of the drain layer from a part of the source region through the base region adjacent to at least the part of the source region to a part of the drift region, a source electrode connected to the first metal layer, and a drain electrode connected to the drain layer or the second metal layer. | 09-27-2012 |
20130248998 | SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device includes, a drain, source, base and drift regions, a gate electrode, a gate insulating film, a first semiconductor region, a drain electrode, and a source electrode. The drain region has a first portion, and a second portion having a surface extending in a first direction which is vertical to a main surface of the first portion. The source region extends in a second direction which is parallel to the second portion, and is provided to be spaced from the drain region. The gate electrode extends in the first direction and a third direction which is vertical to the first direction and the second direction, and passes through the base region in the third direction. The first semiconductor region is provided between the gate insulating film and the drain region, and has a lower impurity concentration than the drift region. | 09-26-2013 |
Patent application number | Description | Published |
20140284610 | SEMICONDUCTOR DEVICE - According to an embodiment, a semiconductor device includes a conductive substrate, a Schottky barrier diode, and a field-effect transistor. The Schottky barrier diode is mounted on the conductive substrate and includes an anode electrode and a cathode electrode. The anode electrode is electrically connected to the conductive substrate. The field-effect transistor is mounted on the conductive substrate and includes a source electrode, a drain electrode, and a gate electrode. The source electrode of the field-effect transistor is electrically connected to the cathode electrode of the Schottky barrier diode. The gate electrode of the field-effect transistor is electrically connected to the anode electrode of the Schottky barrier diode. | 09-25-2014 |
20150076506 | SEMICONDUCTOR DEVICE - This disclosure provides a semiconductor device which includes a GaN-based semiconductor layer having a surface with an angle of not less than 0 degree and not more than 5 degrees with respect to an m-plane or an a-plane, a first electrode provided above the surface and having a first end, and a second electrode provided above the surface to space apart from the first electrode, having a second end facing the first end, and a direction of a segment connecting an arbitrary point of the first end and an arbitrary point of the second end is different from a c-axis direction of the GaN-based semiconductor layer. | 03-19-2015 |
20150263103 | SEMICONDUCTOR DEVICE - A semiconductor device according to an embodiment includes a first semiconductor layer including a first nitride semiconductor, a second semiconductor layer on the first semiconductor layer including a second nitride semiconductor, a source electrode, a drain electrode, a first gate electrode provided on the second semiconductor layer between the source electrode and the drain electrode having a schottky junction, a second gate electrode provided above the second semiconductor layer intervening an insulating film, provided between the source electrode and the first gate electrode, electrically connected with the first gate electrode, and a third gate electrode provided above the second semiconductor layer intervening an insulating film, provided between the drain electrode and the first gate electrode, electrically connected with the first gate electrode. A first transistor structure has a first threshold value, a second transistor structure has a second threshold value, and a third transistor structure has a third threshold value. | 09-17-2015 |
Patent application number | Description | Published |
20150263001 | SEMICONDUCTOR DEVICE - A semiconductor device includes a first semiconductor layer and a second semiconductor layer formed on the first semiconductor layer. A first control electrode is on the first semiconductor layer with a first insulating layer between the first control electrode and the first semiconductor layer. A second control electrode is on the first semiconductor layer with a second insulating layer between the second control electrode and the first semiconductor layer, a distance between the first control electrode and the first semiconductor layer is less than a distance between the second control electrode. A wiring electrically connects the first control electrode and the second control electrode. | 09-17-2015 |
20150263101 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SAME - In one embodiment, a semiconductor device includes a semiconductor chip including a nitride semiconductor layer, and including a control electrode, a first electrode and a second electrode provided on the nitride semiconductor layer. The device further includes a support including a substrate, and including a control terminal, a first terminal and a second terminal provided on the substrate. The semiconductor chip is provided on the support such that the control electrode, the first electrode and the second electrode face the support. The control electrode, the first electrode and the second electrode of the semiconductor chip are electrically connected to the control terminal, the first terminal and the second terminal of the support, respectively. | 09-17-2015 |
20150263152 | SEMICONDUCTOR DEVICE - A semiconductor device includes a GaN-based semiconductor layer, a source electrode on the GaN-based semiconductor layer, a drain electrode on the GaN-based semiconductor layer, and a gate electrode formed on the GaN-based semiconductor layer between the source electrode and the drain electrode. A first layer is in contact with the GaN-based semiconductor layer between the gate electrode and the drain electrode. | 09-17-2015 |
20150263630 | POWER SUPPLY CIRCUIT - In one embodiment, a power supply circuit includes a first circuit including one or more first switching devices, and a first controller configured to control the first switching devices, the first circuit being configured to output a first voltage. The power supply circuit further includes a second circuit including one or more second switching devices which include a normally-on device, and a second controller configured to control the second switching devices, the second circuit being configured to output a second voltage generated from the first voltage. The second controller transmits a first signal for allowing the first circuit to output the first voltage, based on a value of a voltage or a current at a first node in the second circuit. The first controller allows the first circuit to output the first voltage by controlling the first switching devices in accordance with the first signal. | 09-17-2015 |
20150263700 | SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device includes a GaN-based semiconductor layer, a resonator that uses a first portion of the GaN-based semiconductor layer as a piezoelectric layer to resonate, and a transistor that uses a second portion of the GaN-based semiconductor layer as a channel layer. | 09-17-2015 |
20160079373 | SEMICONDUCTOR DEVICE - A semiconductor device includes a compound semiconductor layer, an insulating element, and a conductive element. The conductive element includes a plurality of conductive regions which are spaced from the compound semiconductor layer in a first direction. The insulating element is provided between the compound semiconductor layer and the conductive element. A length of each of the plurality of conductive regions in a second direction which intersects the first direction becomes longer the farther the individual one of the plurality of conductive regions is spaced from the compound semiconductor layer. | 03-17-2016 |
20160079410 | SEMICONDUCTOR DEVICE - A semiconductor device includes a first electrode, a second electrode, a third electrode, and a nitride semiconductor layer. The first electrode has a first surface. The second electrode has a second surface. The second surface is provided with a plurality of convex portions and concave portions. The second electrode is spaced from the first electrode in a first direction. The third electrode is spaced from the first electrode in a second direction intersecting the first direction. The nitride semiconductor layer is provided between the first surface and the second surface, and between the third electrode and the second surface. | 03-17-2016 |