Patent application number | Description | Published |
20080211350 | PIEZOELECTRIC RESONATOR ELEMENT AND PIEZOELECTRIC DEVICE - A piezoelectric resonator element includes: a base in a predetermined length, the base being made of a piezoelectric material; a plurality of resonating arms extending from a first end of the base; a joining part connected to a second end apart from the first end of the base by a predetermined distance; a connecting part connected to the joining part and extending in a width direction of the piezoelectric resonator element; a supporting arm connected to the connecting part and extending in a same direction as the resonating arm at an outer side of the plurality of resonating arms. A ratio L | 09-04-2008 |
20080297008 | TUNING FORK RESONATOR ELEMENT AND TURNING FORK RESONATOR - A tuning fork resonator element that has a base portion, first and second resonating arms extending from the base portion in a first direction, and a support frame sandwiching the first and second resonating arms and being connected to the base portion includes: a first excitation electrode, formed in an area close to a connection portion with the base portion of the support frame, being connected to a mount electrode with a conductive adhesive; a second excitation electrode, formed in at least one of an area sandwiching the first and second resonating arms of the support frame and an area positioned farther than the first and second resonating arms in the first direction, being connected to a mount electrode with the conductive adhesive; and a cut portion of the support frame formed on an external surface of the support frame. | 12-04-2008 |
20090218917 | PIEZOELECTRIC VIBRATION ELEMENT AND PIEZOELECTRIC DEVICE - A piezoelectric vibration element having a favorable drive level characteristic for miniaturization, and a piezoelectric oscillator. The piezoelectric vibration element includes a base made of a piezoelectric material, a plurality of vibration arms extended from the base, a long groove formed along a longitudinal direction of a main surface of each of the plurality of vibration arms, and an exciting electrode provided inside the long groove. A center position in a width dimension of the long groove is decentered in a minus X-axis direction from a center position of an arm width dimension. | 09-03-2009 |
20100269320 | TUNING FORK RESONATOR ELEMENT AND TUNING FORK RESONATOR - A tuning fork resonator element that has a base portion, first and second resonating arms extending from the base portion in a first direction, and a support frame sandwiching the first and second resonating arms and being connected to the base portion includes: a first excitation electrode, formed in an area close to a connection portion with the base portion of the support frame, being connected to a mount electrode with a conductive adhesive; a second excitation electrode, formed in at least one of an area sandwiching the first and second resonating arms of the support frame and an area positioned farther than the first and second resonating arms in the first direction, being connected to a mount electrode with the conductive adhesive; and a cut portion of the support frame formed on an external surface of the support frame. | 10-28-2010 |
20110227658 | RESONATOR ELEMENT, PIEZOELECTRIC DEVICE, AND ELECTRONIC DEVICE - A resonator element which can achieve a reduction in size while maintaining vibration characteristics, and a piezoelectric device and an electronic device, are to be provided. A quartz crystal resonator element has a base portion, a pair of arm portions extending from the base portion as a root, and a cut-out portion formed by reducing the width of the base portion in the width direction from each side of the arm portions. The root has a first root portion positioned on a side where the arm portions are opposed to each other, and a second root portion positioned on a side where the arm portions are not opposed to each other, and a relationship between a length A from the first root portion to the second root portion and a length B from the first root portion to an inner end portion of the cut-out portion is A≧B. | 09-22-2011 |
20110227659 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, AND ELECTRONIC APPARATUS - A quartz crystal vibrator element having the weight section is provided with the intermediate weight section formed to have an arm width W | 09-22-2011 |
20120223784 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, AND ELECTRONIC APPARATUS - A quartz crystal vibrator element having the weight section is provided with the intermediate weight section formed to have an arm width W | 09-06-2012 |
20140001921 | RESONATOR ELEMENT, PIEZOELECTRIC DEVICE, AND ELECTRONIC DEVICE | 01-02-2014 |
20140319975 | VIBRATOR ELEMENT, VIBRATOR, OSCILLATOR, AND ELECTRONIC APPARATUS - A quartz crystal vibrator element having the weight section is provided with the intermediate weight section formed to have an arm width W1 larger (thicker) than the arm width W of the vibrating arm section and smaller (thinner) than the arm width W2 of the tip weight section, thereby making the intermediate weight section follow the vibration (the amplitude) of the vibrating arm section. Further, the tip weight section formed to have an arm width W2 larger (thicker) than the arm width W1 of the intermediate weight section is provided, thereby making the tip weight section follow the vibration (the amplitude) of the vibrating arm section and the intermediate weight section. Therefore, the vibration characteristics of the vibrating arm section can be stabilized. | 10-30-2014 |
Patent application number | Description | Published |
20080231145 | QUARTZ CRYSTAL DEVICE AND METHOD FOR SEALING THE SAME - A quartz crystal device includes a crystal resonator element and a package including a plurality of components. The plurality of components are bonded using a metal paste sealing material containing a metallic particle having an average particle size from 0.1 to 1.0 μm, an organic solvent, and a resin material in proportions of from 88 to 93 percent by weight from 5 to 15 percent by weight, and from 0.01 to 4.0 percent by weight, respectively, to hermetically seal the crystal resonator element in the package. | 09-25-2008 |
20090015106 | Piezoelectric device - [Object] To provide a piezoelectric device having excellent drive level characteristics in terms of downsizing, having no remaining stress at the bonding portion of the container and leaving no characteristics deteriorating factors. | 01-15-2009 |
20090174291 | PACKAGE FOR ELECTRONIC COMPONENT AND PIEZOELECTRIC RESONATOR - A package for electronic component includes: a rectangular package body, a lid hermetically sealing the package body, an electrode pad provided in the package body, a mounting terminal provided at least near four corners of a bottom surface of the package body and having a bump on a mounting surface, and a plurality of coupling electrodes electrically coupling the pad to the mounting terminal. | 07-09-2009 |
20110156831 | BENDING VIBRATION PIECE, VIBRATION DEVICE, AND ELECTRONIC APPARATUS - A flexural mode resonator element includes: a vibration arm extending from a base end toward a tip; a base joined to the vibration arm at the base end; and supporting arms arranged on both sides of the base in a width direction perpendicular to an extending direction of the vibration arm and joined to the base, wherein the base has a reduced cross-section portion disposed along the extending direction of the vibration arm between a joint portion with the vibration arm and a joint portion with the supporting arms, and the reduced cross-section portion is disposed so as to satisfy a relationship 2×W | 06-30-2011 |
20110227458 | PIEZOELECTRIC RESONATOR ELEMENT, PIEZOELECTRIC DEVICE, AND ELECTRONIC APPARATUS - A piezoelectric resonator element and a piezoelectric device, which prevent the vibration of the resonating arm section from leaking to the side of the base portion and stabilize the vibration of the resonating arm section, and an electronic apparatus using these devices are obtained. The quartz crystal resonator element as the piezoelectric resonator element is provided with a base portion formed of a piezoelectric material, a plurality of resonating arm sections each extending from the base portion via an arm base section, and an elongated groove section formed along a longitudinal direction of the resonating arm section, and the arm base section has an arm width, which is larger than an arm width of the resonating arm section and smaller than a distance between imaginary centerlines of the respective resonating arm sections in a width direction of the resonating arm section. | 09-22-2011 |
20120025673 | QUARTZ CRYSTAL DEVICE AND METHOD FOR SEALING THE SAME - A quartz crystal device includes a crystal resonator element and a package including a plurality of components. The plurality of components are bonded using a metal paste sealing material containing a metallic particle having an average particle size from 0.1 to 1.0 μm, an organic solvent, and a resin material in proportions of from 88 to 93 percent by weight, from 5 to 15 percent by weight, and from 0.01 to 4.0 percent by weight, respectively, to hermetically seal the crystal resonator element in the package. | 02-02-2012 |
20130026886 | FLEXURAL MODE RESONATOR ELEMENT, RESONATING DEVICE, AND ELECTRONIC APPARATUS - A flexural mode resonator element includes: a vibration arm extending from a base end toward a tip; a base joined to the vibration arm at the base end; and supporting arms arranged on both sides of the base in a width direction perpendicular to an extending direction of the vibration arm and joined to the base, wherein the base has a reduced cross-section portion disposed along the extending direction of the vibration arm between a joint portion with the vibration arm and a joint portion with the supporting arms, and the reduced cross-section portion is disposed so as to satisfy a relationship 2×W | 01-31-2013 |
Patent application number | Description | Published |
20080257018 | KNOCK DETECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A knock detection apparatus for an internal combustion engine can accurately detect the occurrence of a knock without an influence of a noise component even if the noise component having the same frequency as a knock vibration superposes on an ionic current signal. The apparatus includes an ionic current detection section, a knock signal detection section for detecting a knock signal based on an ionic current, a crank angle sensor for detecting a crank angle corresponding to a rotational position of the engine, a window setting section for setting a noise detection window, a noise component detection section for detecting a noise component in the window, and a knock determination section for determining the occurrence of a knock based on a relation between the noise component and the knock signal. The window setting section sets the window after a predetermined crank angle corresponding to an end of a combustion stroke of the engine. | 10-23-2008 |
20080281504 | KNOCK CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A knock control apparatus for an internal combustion engine can avoid an incorrect knock determination thereby to prevent output power reduction and suppress knocks occurring in succession. A knock detection section outputs a knock detection signal based on an ionic current, and a threshold setting section sets a knock determination threshold. A knock determination section determines the occurrence of a knock based on the threshold and the knock detection signal. A required correction amount setting section sets a required correction amount for ignition timing based on a knock determination result, and a control parameter correction section corrects ignition timing based on the required correction amount. A noise determination section determines the occurrence of noise based on whether said knock detection signal or said control parameter correction amount is within a set level range, and a noise removal period setting section sets a noise removal period based on the noise determination result. | 11-13-2008 |
20100089361 | INTERNAL-COMBUSTION-ENGINE COMBUSTION CONDITION DETECTION APPARATUS AND COMBUSTION CONDITION DETECTION METHOD - An internal-combustion-engine combustion condition detection apparatus is provided with an ignition means that makes an ignition plug ignite a fuel; an ignition control means that controls the operation of the ignition means; an ion-current detection means that detects an ion current generated; an ion current detection range setting means that sets an ion-current detection range; a preignition detection means that detects preignition within a detection range to be set; a leakage current detection range setting means that sets a leakage-current detection range; and a leakage current determination means that determines whether or not a smolder exists, based on a current detected, within a detection range to be set, by the ion-current detection means. The ignition control means includes a non-combustion-stroke ignition control means; the leakage-current detection range set by the leakage current detection range setting means is set within the non-combustion stroke. | 04-15-2010 |
20130192571 | IGNITION APPARATUS - There are provided a first coil device ( | 08-01-2013 |
20130208394 | IGNITION APPARATUS - An ignition apparatus is provided with an ignition plug ( | 08-15-2013 |
20140116405 | IGNITION COIL APPARATUS FOR HIGH-FREQUENCY DISCHARGE - An ignition coil apparatus for high-frequency discharge includes: a primary coil that generates and accumulates a flux; a secondary coil that is magnetically coupled to the primary coil so as to generate a predetermined high voltage when energy of the accumulated flux is released and connected at one end to a high-voltage terminal used to supply energy to an external apparatus; a capacitor that is connected to the high-voltage terminal and prevents passing of the high voltage; and an inductor that, together with the capacitor, allows passing of a predetermined frequency component alone. The primary coil, the secondary coil, the capacitor, and the inductor are installed within a same package. | 05-01-2014 |