Patent application number | Description | Published |
20100010214 | LYOPHILIZED PREPARATION OF 1-METHYLCARBAPENEM - A lyophilized preparation comprising (1R,5S,6S)-6-[(1R)-1-hydroxyethyl]-1-methyl-2-[(2S,4S)-2-[(3S)-3-(2-guanidinoacetylamino)pyrrolidin-1-ylcarbonyl]-1-methylpyrrolidin-4-ylthio]-1-carbapen-2-em-3-carboxylic acid or a pharmacologically acceptable salt thereof as a carbapenem compound, which has a 1-alkylpyrrolidine structure and possesses a superior antimicrobial activity, and sodium chloride. | 01-14-2010 |
20100108673 | PLASTIC CAP WITH IC TAG AND METHOD OF ATTACHING IC TAG TO THE CAP - [Problem] To provide a plastic cap with an IC tag without interrupting transmission and reception of information to and from the IC tag, reliably inputting product information to the IC tag and reliably outputting product information that is input. | 05-06-2010 |
20100219252 | Rfid Tag Substrate For Metal Component - The present invention provides an RFID tag substrate in which communication characteristics of an RFID tag do not vary by an influence of contents in a container, the communication characteristics of the RFID tag are not deteriorated even if a metal container is used, the communication characteristics of the RFID tag can be excellently maintained irrespective of a material or contents of a container, and the tag can be reduced in thickness/size, and which can use a general-purpose RFID tag as it is and is suitable for a microwave type RFID tag that uses a UHF band or a frequency band of, e.g., 2.45 GHz in particular. | 09-02-2010 |
20110063786 | RESIN OVERCAP PROVIDED WITH IC TAG - [Problem] To provide a resin overcap provided with an IC tag that can be used as an overcap being fitted onto a metal cap and having an IC tag that is so provided that the transmission and reception of signals will not be disturbed by the metal cap. | 03-17-2011 |
20110102150 | METALLIC COVER HAVING IC TAG, AND METALLIC CONTAINER - An IC tag can be mounted without deteriorating appearance of a container, breakage or the like of the IC tag can be prevented and excellent wireless communication between a reader/writer becomes possible by eliminating influence of the metal container by ensuring a long communication distance to the reader/writer by allowing excellent communication properties to be exhibited even when an existing IC chip is used and mounting an insulated and sealed IC tag on a metallic cover having a low possibility of being brought into contact with other goods and equipment and being hidden by the adjacent metallic containers. The metallic cover is provided with an IC chip ( | 05-05-2011 |
20130153668 | RESIN OVERCAP PROVIDED WITH IC TAG - A resin overcap with an IC tag used as an overcap being on a metal cap and having an IC tag so that the transmission and reception of signals will not be disturbed by the metal cap, comprising a top panel and a cylindrical side wall hanging down from the circumferential edge of the top panel and in which the metal cap is fitted, wherein a step or a protrusion is formed on an upper portion on the inner surface of the cylindrical side wall to prevent the upward motion of the metal cap fitted in the cylindrical side wall, and an IC tag provided with an IC chip is mounted on the top panel to maintain a predetermined distance D to a top plate of the metal cap fitted into the cylindrical side wall. | 06-20-2013 |
20130199017 | PLASTIC CAP WITH IC TAG AND METHOD OF ATTACHING IC TAG TO THE CAP - A plastic cap with IC tag storing product information provided on the upper surface of a top plate. The top plate is formed by an annular flange and a recessed portion 37, the recessed portion, including a side wall continuous to the inner circumferential edge of the annular flange and a bottom continuous to the lower end of the side wall. The tag 10 is attached to the annular flange to cover the recessed portion. A gap between the tag and the bottom is maintained to such a degree that the transmission and reception of signals to and from the tag are not interrupted when the back surface of the bottom comes in contact with water. | 08-08-2013 |
Patent application number | Description | Published |
20080225407 | LENS APPARATUS AND IMAGE TAKING APPARATUS USING THE SAME - Data related to an object distance which is sent from a camera apparatus is captured. A focus lens position instructed value CL is calculated based on an object distance instructed value CD and a zoom position information value ZP. An object distance returned value PL to be transmitted to the camera apparatus is obtained based on a current lens position CF and the zoom position information value ZP. Whether the focus lens position instructed value CL is equal to the lens position CF or not is determined. When the focus lens position instructed value is not equal to the lens position, a focus lens is moved in accordance with the focus lens position instructed value CL is performed. When the focus lens position instructed value is equal to the lens position, lens driving processing is not performed. | 09-18-2008 |
20090230911 | OPTICAL APPARATUS - An optical apparatus ensuring smooth driving control of an optical member is disclosed. The optical apparatus includes an optical member, a stepping motor configured to drive the optical member, a driving commander configured to generate driving pulses supplied to the stepping motor, a pulse count generator configured to count the driving pulses output from the driving commander, a position detector configured to detect a position of the optical member, and a pulse count presetter configured to replace, based on an output of the pulse count presetter and an output of the position detector, a pulse count output from the pulse count presetter with a pulse count corresponding to the output of the position detector. | 09-17-2009 |
20100110178 | IMAGE TAKING SYSTEM AND LENS APPARATUS - An image taking system comprises a distance calculator | 05-06-2010 |
20110044676 | IMAGE PICKUP SYSTEM HAVING RANGING FUNCTION - The image pickup system includes a ranging part measuring object distances in plural ranging areas in an image pickup region in a state where the image pickup system and a moving object are in movement with respect to a still object, a first setting part setting, among the plural ranging areas, a first ranging area including the moving object, a second setting part setting, among the plural ranging areas, a second ranging area including the still object. The system further includes a calculating part calculating a moving speed of the moving object based on the object distances measured in the first and second ranging areas by the ranging part at a first time point and the object distances measured in the first and second ranging areas by the ranging part at a second time point different from the first time point. | 02-24-2011 |
20110158627 | IMAGE PICKUP APPARATUS INCLUDING FOCUS OPERATING APPARATUS AND FOCUS CONTROL METHOD - Provided is an image pickup apparatus including a lens apparatus and a focus operating apparatus. The lens apparatus includes a focus lens unit, a focus driving unit for driving the focus lens unit, and a drive control unit controlling to drive the focus driving unit and having a autofocus function. The focus operating apparatus includes a manual focus (MF) operating unit for manual focus adjustment and an MF command unit for outputting a command value based on an operation amount of the MF operating unit. When the MF operating unit is in operation, the drive control unit controls the focus driving unit based on the command value from the MF command unit. When the MF operating unit is not in operation, the drive control unit controls the focus driving unit to perform autofocus adjustment. | 06-30-2011 |
20110242314 | IMAGE TAKING SYSTEM - An image taking system includes: an image taking unit for taking an image of an object; a ranging unit for measuring an object distance to the object in a shooting angle of field of the image taking unit; a turning unit for turning the image taking unit in a pan direction and a tilt direction; a support unit for supporting the turning unit at a predetermined location; a pan/tilt angle detecting unit for detecting a pan angle and a tilt angle of the turning unit; and a distance computing unit for computing a distance between the object and a reference plane, which is a plane including a direction of the optical axis at a predetermined pan angle of the turning unit and a vertical direction, based on the object distance obtained by the ranging unit and the pan angle and the tilt angle obtained by the pan/tilt angle detecting unit. | 10-06-2011 |
20110280557 | IMAGE TAKING SYSTEM AND OPERATING APPARATUS - An image taking system including: a lens apparatus; a first and a second operating apparatus, the first and the second operating apparatus configured to output a command information for an optical member movable in the lens apparatus, and the lens apparatus includes: a driving unit for the optical member; and a lens controller for driving the optical member based on a command from the first and the second operating apparatus, wherein the first operating apparatus includes: an operating unit; and a demand controller for outputting, to the lens controller, an information for driving the optical member, and wherein the demand controller outputs a position command information for the optical member to the lens controller when the operating unit being operated, and outputs other information for the optical member to the lens controller when the operating unit not being operated. | 11-17-2011 |
20110293255 | IMAGE PICKUP APPARATUS - An image pickup apparatus comprising: a lens apparatus having: an image pickup optical system including a focus lens unit and a zoom lens unit; a zoom state detector; and a controller; a camera apparatus having: a light receiving unit; and an image display unit; an AF frame operation unit; and a distance measuring unit installed with a parallax with respect to an optical axis of the image pickup optical system, in which the controller is configured to: select, from among measured distances obtained by the distance measuring unit, a measured distance obtained in an angle of field of the AF frame, based on a position of the zoom lens unit detected by the zoom state detector and a position of the AF frame set in the display; and perform the focusing by driving the focus lens unit based on the selected measured distance. | 12-01-2011 |
20130188092 | IMAGE PICKUP APPARATUS - An image pickup apparatus comprising: a lens apparatus having: an image pickup optical system including a focus lens unit and a zoom lens unit; a zoom state detector; and a controller; a camera apparatus having: a light receiving unit; and an image display unit; an AF frame operation unit; and a distance measuring unit installed with a parallax with respect to an optical axis of the image pickup optical system, in which the controller is configured to: select, from among measured distances obtained by the distance measuring unit, a measured distance obtained in an angle of field of the AF frame, based on a position of the zoom lens unit detected by the zoom state detector and a position of the AF frame set in the display; and perform the focusing by driving the focus lens unit based on the selected measured distance. | 07-25-2013 |
20130188942 | IMAGE TAKING SYSTEM AND OPERATING APPARATUS - An image taking system including: a lens apparatus; a first and a second operating apparatus, the first and the second operating apparatus configured to output a command information for an optical member movable in the lens apparatus, and the lens apparatus includes: a driving unit for the optical member; and a lens controller for driving the optical member based on a command from the first and the second operating apparatus, wherein the first operating apparatus includes: an operating unit; and a demand controller for outputting, to the lens controller, an information for driving the optical member, and wherein the demand controller outputs a position command information for the optical member to the lens controller when the operating unit being operated, and outputs other information for the optical member to the lens controller when the operating unit not being operated. | 07-25-2013 |
Patent application number | Description | Published |
20110173787 | MANUFACTURING METHOD OF PIEZOELECTRIC DEVICE - A manufacturing method of a piezoelectric device includes: forming a lid for sealing a cavity of a package base by forming a recess part and forming a through hole in an inner surface of the recess part in a metal plate; fixing the lid to the package base containing a piezoelectric vibrating reed so that the recess part may project toward the package base side; providing a metal piece in the recess part; decompressing the cavity via the through hole; and closing the through hole by applying a laser to the metal piece to melt the metal piece, wherein, at forming of the lid, the through hole is formed in a direction orthogonal to a thickness direction of the metal plate. | 07-21-2011 |
20130055810 | DETECTION CIRCUIT, PHYSICAL QUANTITY DETECTION APPARATUS, ANGULAR VELOCITY DETECTION APPARATUS, INTEGRATED CIRCUIT DEVICE, AND ELECTRONIC INSTRUMENT - A detection circuit includes a synchronous detection circuit (synchronous detection section) that synchronously detects a signal that includes a detection signal of a vibrator (an output signal of an amplifier), a switched capacitor filter (SCF) circuit that filters a signal that has been synchronously detected by the synchronous detection circuit (an output signal of a programmable gain amplifier), and an output buffer that buffers and outputs a signal that has been filtered by the SCF circuit, the gain of the SCF circuit being larger than 1. | 03-07-2013 |
20130055815 | SIGNAL PROCESSING CIRCUIT, PHYSICAL QUANTITY DETECTION APPARATUS, ANGULAR VELOCITY DETECTION APPARATUS, INTEGRATED CIRCUIT DEVICE, AND ELECTRONIC INSTRUMENT - A signal processing circuit includes an I/V conversion circuit (current/voltage conversion section) that converts an oscillation current of a vibrator into a voltage, an RC filter (phase shift section) that shifts a phase of the output signal of the I/V conversion circuit, a full-wave rectifier (part of a drive amplitude control section) that binarizes a signal that has been shifted in phase to generate a switch control signal, a comparator (reference signal generation section) that generates a reference signal for synchronous detection based on the output signal of the I/V conversion circuit, and an EXOR circuit (clock signal generation section) that generates a clock signal for a switched capacitor filter (SCF) that has a frequency twice a frequency of a drive signal based on a phase difference between the reference signal and the switch control signal. | 03-07-2013 |
20130057354 | DRIVER CIRCUIT, PHYSICAL QUANTITY DETECTION APPARATUS, ANGULAR VELOCITY DETECTION APPARATUS, INTEGRATED CIRCUIT DEVICE, AND ELECTRONIC INSTRUMENT - A driver circuit includes a comparator (drive signal generation section) that generates a drive signal based on a signal obtained by converting an oscillation current of a vibrator that has been input via a first signal line into a voltage using an I/V conversion circuit (current/voltage conversion section), and supplies the drive signal to the vibrator via a second signal line, an oscillation detection circuit (oscillation detection section) that detects whether or not the oscillation current has reached a predetermined value after the vibrator has started to oscillate, a startup oscillation circuit (startup oscillation section) that assists an oscillation operation of the vibrator until the oscillation current reaches the predetermined value, and a switch that separates a capacitor from the second signal line until the oscillation current reaches the predetermined value, and connects the capacitor to the second signal line when the oscillation current has reached the predetermined value. | 03-07-2013 |
Patent application number | Description | Published |
20120103093 | SIGNAL LEVEL CONVERSION CIRCUIT, PHYSICAL QUANTITY DETECTION DEVICE AND ELECTRONIC APPARATUS - A signal level conversion circuit | 05-03-2012 |
20120126664 | VIBRATOR ELEMENT, SENSOR UNIT, ELECTRONIC APPARATUS, MANUFACTURING METHOD OF VIBRATOR ELEMENT, AND MANUFACTURING METHOD OF SENSOR UNIT - A vibration gyro device has a base part and a pair of drive vibrating arms and a pair of detection vibrating arms respectively extended from both ends in a Y-axis direction of the base part. Further, adjustment vibrating arms extended from respective ends of connecting parts respectively extended from both ends in an X-axis direction of the base part in parallel to the drive vibrating arms are provided. At the end sides of the respective adjustment vibrating arms, spindle parts as wider parts are provided. On principal surfaces of the respective adjustment vibrating arms, adjustment electrodes as membranes for adjustment of leakage output of the vibration gyro device are provided. | 05-24-2012 |
20120325000 | BENDING VIBRATION PIECE AND ELECTRONIC DEVICE - A bending vibration piece has a pair of drive vibration arms and a pair of detection vibration arms in an opposite direction thereto which are connected to a supporting part. The supporting part has recessed portions formed on both lateral parts in a direction of width, and a through-hole formed substantially at the center in a plane part of the supporting part and more toward the drive vibration arms than the recessed portions are. On a surface of the supporting part, drive electrode pads are arranged toward the drive vibration arms and detection electrode pads are arranged toward the detection vibration arms, with these electrode pads being separated from each other in a longitudinal direction by the recessed portions on both lateral part of the supporting part and the through-hole in the plane part. | 12-27-2012 |
20120326570 | FLEXURAL VIBRATOR ELEMENT, ELECTRONIC DEVICE, AND METHOD OF MANUFACTURING FLEXURAL VIBRATOR ELEMENT - A flexural vibrator element has a vibrator arm extending from a base section and having a rectangular cross-sectional shape, the vibrator arm having first and second step sections composed of step surfaces intersecting respectively with a left side surface and a right side surface, and step side surfaces intersecting respectively with an upper surface and a lower surface, between the lower surface, the upper surface and the left side surface, the right side surface, and first and fourth detection electrodes on the left and right side surfaces and second and third detection electrodes on the step side surfaces are respectively separated in a thickness direction of the vibrator arm. The first through fourth detection electrodes are patterned with accuracy by exposure from the upper surface and the lower surface using a common exposure device by existing photo etching. | 12-27-2012 |
20120326571 | BENDING VIBRATION PIECE, METHOD FOR MANUFACTURING THE SAME AND ELECTRONIC DEVICE - A double-side tuning fork-type bending vibration piece having a basal part, a pair of drive vibration arms, a pair of detection vibration arms, drive electrodes and detection electrodes includes adjustment films of a metallic material or the like formed in connecting areas between the vibration arms and the basal part. The adjustment films are formed in such a way as to cover an area of tapered portions formed in connecting parts between the drive vibration arms and the basal part, an area of the basal part near the tapered portions and an area of the drive vibration arms. While monitoring a detection current outputted from the detection electrodes when the drive vibration arms are excited in driving mode, the adjustment films are partly deleted by laser irradiation so that the detection current becomes 0. | 12-27-2012 |
20130019681 | VIBRATION GYRO ELEMENT, GYRO SENSOR, AND ELECTRONIC APPARATUS - A vibration gyro element includes drive vibrating arms and detection vibrating arms at the opposite side, and has a first detection mode in which the drive vibrating arms flexurally vibrate oppositely to each other in an out-of-plane direction in an opposite phase to an action direction of Coriolis force and the detection vibrating arms flexurally vibrate oppositely to each other in the out-of-plane direction in an opposite phase to that of the drive vibrating arms, and a second detection mode in which the drive vibrating arms flexurally vibrate oppositely to each other in the out-of-plane direction in the same phase as the action direction of the Coriolis force and the detection vibrating arms flexurally vibrate oppositely to each other in the out-of-plane direction in the same phase as that of the drive vibrating arms. | 01-24-2013 |
20130036819 | PHYSICAL QUANTITY DETECTION ELEMENT, PHYSICAL QUANTITY DETECTION DEVICE, AND ELECTRONIC APPARATUS - A physical quantity detection element includes a base part, a first connection part and a second connection part respectively extending from the base part in opposite directions to each other along the X-axis, a pair of first drive vibrating arm and second drive vibrating arm and a pair of third drive vibrating arm and fourth drive vibrating arm respectively extending from the first connection part or the second connection part in opposite directions to each other along the Y-axis, a first drive detection vibrating arm and a second drive detection vibrating arm obliquely extending from the first connection part, a third drive detection vibrating arm and a fourth drive detection vibrating arm obliquely extending from the second connection part, and a first detection vibrating arm and a second detection vibrating arm respectively extending from the base part in opposite directions to each other along the Y-axis. | 02-14-2013 |
20130127301 | VIBRATOR, VIBRATING DEVICE, AND ELECTRONIC APPARATUS - A vibrator includes: a vibrating reed having a vibrating body, first and second support portions supporting the vibrating body, and four beams coupling the first and second support portions with the vibrating body; electrodes disposed at the vibrating body; and terminals disposed at the first and second support portions and electrically connected with the electrodes via wires disposed at the beams. Between the terminals next to each other, a plurality of grooves spaced apart in a predetermined direction and extending in a direction intersecting the predetermined direction are disposed. | 05-23-2013 |
20130192367 | VIBRATOR ELEMENT, VIBRATING DEVICE, PHYSICAL QUANTITY DETECTING DEVICE, AND ELECTRONIC APPARATUS - A first support portion, which is connected to a first beam extending from a vibrating body and supports the vibrating body, and a detection signal terminal and a detection ground terminal, which are provided in the first support portion and are arranged in parallel so as to be separated from each other along a direction crossing an extending direction of the first beam, are provided. The first beam and the first support portion are connected between the detection signal terminal and the detection ground terminal. A thin portion formed to have a small thickness in a top to bottom direction of the first support portion or a penetrating portion formed by removing the first support portion so as to be penetrated in the top to bottom direction is provided between the detection signal terminal and the detection ground terminal. | 08-01-2013 |
20130291638 | VIBRATING ELEMENT, GYRO SENSOR, ELECTRONIC APPARATUS AND MOVING OBJECT - First vibrating arms extend along a first direction from a base portion. Second vibrating arms extend along a second direction from the base portion. First suspension arms extend from a fixed portion and are connected to first connecting parts of the base portion. Second suspension arms extend from the fixed portion and are connected to second connecting parts of the base portion. | 11-07-2013 |
20130305824 | VIBRATING ELEMENT AND MANUFACTURING METHOD FOR THE SAME, GYRO SENSOR, ELECTRONIC APPARATUS AND MOVING OBJECT - A vibrating element includes a vibrating arm for detection. An electrode is provided on the vibrating arm for detection. A wiring line is connected to the electrode. The wiring line is arranged on a piezoelectric body of a base portion. At least a part of the wiring line is an electrode for adjustment. The electrode for adjustment generates an electrical signal with an opposite phase to an output signal of leak vibration of the vibrating arm for detection. | 11-21-2013 |
20130314155 | SIGNAL LEVEL CONVERSION CIRCUIT, PHYSICAL QUANTITY DETECTION DEVICE AND ELECTRONIC APPARATUS - A signal level conversion circuit | 11-28-2013 |
20130320812 | VIBRATING REED, ELECTRONIC DEVICE, AND ELECTRONIC APPARATUS - A vibrating reed includes a vibrating body (a base portion, a vibrating arm, and a detection arm) and a support portion that supports the vibrating body via a plate-like coupling portion. In both principal surfaces of the coupling portion, grooves (a first groove and a second groove) are disposed. The first groove arranged in one of the principal surfaces of the coupling portion and the second groove arranged in the other principal surface are arranged at positions different from each other in plan view. | 12-05-2013 |
20130328444 | ELECTRONIC DEVICE, ELECTRONIC APPARATUS, MOBILE UNIT, AND METHOD OF MANUFACTURING ELECTRONIC DEVICE - A vibrating element as an element on which a base part, a supporting part extending from the base part, and adjustment electrodes as mass adjustment parts are provided and a semiconductor substrate as a circuit element are provided, and the adjustment electrodes are placed in locations not overlapping with the semiconductor substrate in a plan view, the supporting part and the semiconductor substrate are connected, and thereby, the vibrating element is mounted on the semiconductor substrate. | 12-12-2013 |
20140020503 | VIBRATOR ELEMENT, METHOD OF MANUFACTURING VIBRATOR ELEMENT, VIBRATOR, ELECTRONIC DEVICE, ELECTRONIC APPARATUS AND MOVING BODY - A vibrator element includes a pair of first and second drive vibrating arms that extend in opposite directions from a base portion; a first weight that is spaced from a tip of at least one of the first and second drive vibrating arms toward the base portion and is provided in a first region of the at least one of the drive vibrating arms; and a second weight that is provided in a second region that is a region between a tip of the first weight and the tip of the at least one of the drive vibrating arms. When an area of the first region is represented as A1, a mass of the first weight is represented as B1, an area of the second region is represented as A2, and a mass of the second weight is represented as B2, B1/A1>B2/A2 is established. | 01-23-2014 |
20140077664 | VIBRATOR ELEMENT, VIBRATOR, ELECTRONIC DEVICE, ELECTRONIC APPARATUS, AND MOVING OBJECT - A gyro element as a vibrator element fulfills the relationship: |fd−fy1|>|fd−fy2|, where fd is a drive vibrational frequency of first through fourth drive vibration arms, fy1 is a y1-mode vibrational frequency of a y1 mode, in which a base section and the first through fourth drive vibration arms vibrate in the same direction along a first direction (a y-axis direction) in which the first drive vibration arm extends, and fy2 is a y2-mode vibrational frequency of a y2 mode in which the base section vibrates along the first direction and the first through fourth drive vibration arms vibrate along the first direction in an opposite direction to a direction in which the base section vibrates. | 03-20-2014 |
20150221860 | VIBRATOR ELEMENT, SENSOR UNIT, ELECTRONIC APPARATUS, MANUFACTURING METHOD OF VIBRATOR ELEMENT, AND MANUFACTURING METHOD OF SENSOR UNIT - A vibration gyro device has a base part and a pair of drive vibrating arms and a pair of detection vibrating arms respectively extended from both ends in a Y-axis direction of the base part. Further, adjustment vibrating arms extended from respective ends of connecting parts respectively extended from both ends in an X-axis direction of the base part in parallel to the drive vibrating arms are provided. At the end sides of the respective adjustment vibrating arms, spindle parts as wider parts are provided. On principal surfaces of the respective adjustment vibrating arms, adjustment electrodes as membranes for adjustment of leakage output of the vibration gyro device are provided. | 08-06-2015 |
20150222244 | VIBRATOR ELEMENT, SENSOR UNIT, ELECTRONIC APPARATUS, MANUFACTURING METHOD OF VIBRATOR ELEMENT, AND MANUFACTURING METHOD OF SENSOR UNIT - A vibration gyro device has a base part and a pair of drive vibrating arms and a pair of detection vibrating arms respectively extended from both ends in a Y-axis direction of the base part. Further, adjustment vibrating arms extended from respective ends of connecting parts respectively extended from both ends in an X-axis direction of the base part in parallel to the drive vibrating arms are provided. At the end sides of the respective adjustment vibrating arms, spindle parts as wider parts are provided. On principal surfaces of the respective adjustment vibrating arms, adjustment electrodes as membranes for adjustment of leakage output of the vibration gyro device are provided. | 08-06-2015 |
Patent application number | Description | Published |
20130038851 | DISCHARGE LAMP, CONNECTING CABLE, LIGHT SOURCE APPARATUS, AND EXPOSURE APPARATUS - A light source device having a large cooling action on the base member of a discharge lamp. A connector on the sides of the power supply and the air blower and the base-side connector of a discharge lamp are connected to each other through a connection cable having a power cable in which an air blow pipe is contained. An electric power is supplied from the power supply to a base part through the power cable of the connection cable, the base-side connector and a flow passage bending member. The cool air from the air blower is supplied to the groove part of the base part through the air blow pipe of the connection cable, the base-side connector and an air blow passage in the flow passage-bending member. | 02-14-2013 |
20140313320 | IMAGE PICKUP APPARATUS - An image pickup apparatus includes: an interest area setter configured to input a signal for setting multiple interest areas inside an image pickup area of an image sensor; a readout area setter configured to set a readout area from which an image signal is read out from the image sensor; a sensor readout controller configured to control readout of a pixel signal of the readout area from the image sensor; an output signal generator configured to generate an image signal to be output based on the pixel signal read out by the sensor readout controller; and a boundary identifier configured to make identifiable a boundary of each of the multiple interest areas in an image formed by the image signal to be output. | 10-23-2014 |
20150108221 | RF TAG - An RF tag includes an inlay comprising an IC chip and an antenna, a planar auxiliary antenna laminated on the inlay in an insulating state to the inlay, and a substrate on which the inlay and the auxiliary antenna are laminated. The auxiliary antenna is formed into a rectangular planar shape including long sides each having a length of substantially ¼ of a wavelength of a radio wave frequency of the inlay, and has a cutout part which divides one of the long sides into two parts each having a length of substantially ⅛ of the wavelength of the radio wave frequency of the inlay. The cutout part is formed into a concave shape which is opened in an edge portion of the one of the long sides and has a predetermined width and depth to allow the IC chip of the inlay to be disposed therein. | 04-23-2015 |
20150108222 | RF TAG - An RF tag has an inlay with an IC chip and an antenna, a planar auxiliary antenna laminated on the inlay in an insulating state, a dielectric constant regulation plate which becomes a base on which the inlay including the auxiliary antenna laminated thereon is mounted, and functions as a dielectric constant regulation layer for the mounted inlay, and a case which receives the dielectric constant regulation plate in a state where the inlay including the auxiliary antenna laminated thereon is mounted. The dielectric constant regulation plate is formed into a shape which allows the dielectric constant regulation plate to be attachably/detachably and non-movably engaged in the case and which allows the dielectric constant regulation plate to have a predetermined dielectric constant which regulates communication characteristics of the inlay including the auxiliary antenna laminated thereon. | 04-23-2015 |
20150186770 | COMPOSITE CONTAINER LID WITH IC TAG - A composite container lid for a packing container, which comprises an inner cap | 07-02-2015 |