Patent application number | Description | Published |
20100123524 | OSCILLATOR - An oscillator that includes a movable element formed of silicon, the movable element vibrating by electrostatic force, a stationary element supporting the movable element, a temperature detector located in contact with the stationary element, the temperature detector detecting the temperature of the stationary element, a supporting element joined to a joint surface between the movable element and the stationary element, the supporting element supporting the movable element, the stationary element, and the temperature detector on a surface opposite to the joint surface, a surrounding element contacted with the supporting element, the surrounding element and the supporting element surround the movable element, and electrodes provided on a surface of the surrounding element opposite to a surface of surrounding element contacted with the supporting element. | 05-20-2010 |
20110073240 | CRYSTAL-OSCILLATOR FABRICATING APPARATUS AND METHOD - A method of fabricating a crystal oscillator includes applying an adhesive to an electrode pad; determining whether the applied adhesive is in an area outside of the electrode pad; removing at least part of the adhesive in the area outside of the electrode pad using a laser beam when a portion of the applied adhesive is determined to be in the area outside of the electrode pad; and disposing an electrode of a crystal resonator on the adhesive applied to the electrode pad. | 03-31-2011 |
20110095656 | PIEZOELECTRIC OSCILLATOR AND MANUFACTURING METHOD THEREOF - A piezoelectric oscillator includes: a package including a floor surface and a step portion thereinside; a conductive adhesive applied on the step portion; and a piezoelectric vibrator including one end placed on the step portion via the conductive adhesive. The floor surface is provided with a recess filled with a resin material having a thermal deformation property. The package includes a sidewall having transparency. | 04-28-2011 |
20110169377 | PIEZOELECTRIC OSCILLATOR - A piezoelectric crystal unit includes a package including a concave portion; a piezoelectric element having a protruding electrode and disposed within the package; and an electrically conductive adhesive contained in the concave portion. The piezoelectric element is fixed to the package with the protruding electrode embedded in the concave portion of the package. | 07-14-2011 |
20110241792 | PACKAGE, PIEZOELECTRIC VIBRATOR AND PIEZOELECTRIC OSCILLATOR - A package is configured to accommodate a piezoelectric element. The package includes a guide part having a plurality of spaces into which electrodes of the piezoelectric element is inserted, respectively. The plurality of spaces of the guide part are separated from each other. | 10-06-2011 |
20110302774 | METHOD FOR MANUFACTURING OSCILLATOR DEVICE AND OSCILLATOR DEVICE - An oscillator device manufacturing method includes: placing an oscillator provided with electrodes on a convex pedestal provided on an assembly table; arranging, on the assembly table, a frame member including an opening surrounded by a frame thereof and provided with electrode pads on the frame such that the opening is positioned at the pedestal; connecting the electrode pads to the electrodes of the oscillator placed on the pedestal via wires, while the frame member is arranged on the assembly table; removing the frame member from the assembly table together with the oscillator after the connecting, and bonding the frame member connected to the oscillator to a substrate. By using the method, the oscillator device including the oscillator suspended in air above the substrate can be efficiently manufactured. In stead of using the frame member, a frame body in which frame members are arrayed can be employed. | 12-15-2011 |
20120062072 | Method of fabricating crystal unit, crystal unit fabrication mask, and crystal unit package - A method of fabricating a crystal unit fills an adhesive from a first opening in a front surface of a mask of each of penetration holes in the mask in a state in which the mask is set on a base, into each penetration hole, and heats, by a heating element, a sidewall region defining a second opening in a back surface of the mask, in order to cure a sidewall part of the adhesive in the sidewall region defining each penetration hole in contact with the adhesive filling each penetration hole. A crystal blank is bonded on the base using the adhesive in order to form the crystal unit, after removing the mask from the base. | 03-15-2012 |
20140015114 | ELECTRONIC DEVICE MANUFACTURING METHOD, ELECTRONIC DEVICE, AND CHIP ASSEMBLY - An electronic device manufacturing method includes a cutting step at which a wafer is cut to obtain chips before pattern formation and a polishing step at which cut surfaces of the obtained chips are subjected in one batch to barrel polishing. The method further includes an aligning step at which the polished chips are aligned so that front surfaces thereof face in an upward direction. The method further includes a bonding step at which the cut surfaces of the aligned chips are bonded together with an adhesive to thereby form a chip assembly. The method further includes a pattern forming step at which a circuit pattern is formed on each of the chips of the chip assembly and a melting step at which the adhesive on the chip assembly is melted to thereby separate the chip assembly into chips after pattern formation. | 01-16-2014 |
20140021829 | TUNING FORK VIBRATOR - A tuning fork vibrator includes a package having an internal space having a rectangle column shape; a tuning fork vibration piece including a base, two vibration arms extending in parallel form the base and a first arm and a second arm extending obliquely from the base so as to interpose the two vibration arms, the tuning fork vibration piece having a length from the base to a tip in an extended direction of the two vibration arms which is longer than each side of the bottom surface of the internal space, wherein the tuning fork vibration piece is placed in the internal space with the extended direction set along a diagonal direction of the internal space, and a tip part of the first arm and a tip part of the second arm of the tuning fork vibration piece are fixed to the bottom surface of the internal space. | 01-23-2014 |
20140158292 | METHOD OF FABRICATING CRYSTAL UNIT, CRYSTAL UNIT FABRICATION MASK, AND CRYSTAL UNIT PACKAGE - A method of fabricating a crystal unit fills an adhesive from a first opening in a front surface of a mask of each of penetration holes in the mask in a state in which the mask is set on a base, into each penetration hole, and heats, by a heating element, a sidewall region defining a second opening in a back surface of the mask, in order to cure a sidewall part of the adhesive in the sidewall region defining each penetration hole in contact with the adhesive filling each penetration hole. A crystal blank is bonded on the base using the adhesive in order to form the crystal unit, after removing the mask from the base. | 06-12-2014 |
20140183672 | ELECTRONIC DEVICE AND METHOD OF MANUFACTURING THE SAME - An electronic device includes: a first-member that includes a through-hole; a second-member that includes a connection-hole and that is in contact with the first-member in a state where the through-hole and the connection-hole are in communication with each other; a first-locking-surface that is formed on the first-member while extending radially outside of the through-hole and that faces a side opposite to the connection-hole-side; a second-locking-surface that is formed in the second-member while extending radially outside of the connection-hole and that faces a side opposite to the through-hole-side; and an adhesive-portion including a shaft-portion with which the through-hole and the connection-hole are filled, a first-large-diameter portion that is formed at an end of the shaft-portion and secured to the first-locking-surface, and a second-large-diameter portion that is formed at the other end of the shaft-portion and secured to the second-locking-surface. | 07-03-2014 |
20140340163 | OSCILLATOR DEVICE AND METHOD OF MOUNTING OSCILLATOR DEVICE - A oscillator device includes: a first substrate that has a first surface, a second surface, and a through hole extending between the first surface and the second surface; a crystal oscillator that is disposed on the first surface of the first substrate, the crystal oscillator including an electrode; a second substrate that is disposed on the crystal oscillator; a through electrode that is disposed in the through hole, that has a diameter smaller than a diameter of the through hole, that is electrically coupled to the electrode, and that extends between the first surface and the second surface; and a filling member with which an area between an inner wall of the through hole and the through electrode is filled. | 11-20-2014 |
20140361666 | CRYSTAL RESONATOR, AND PRODUCTION METHOD THEREFOR - A crystal resonator includes: lower glass plates on which first electrodes are formed so as to extend from side surfaces to a bottom surface of the lower glass plates; a crystal plate which is provided over the lower glass plates and on which second electrodes to be coupled to the first electrodes are formed on a surface in contact with the lower glass plates; and an upper glass plate which is provided over the crystal plate; wherein the side surfaces of the lower glass plates on which the first electrodes are formed are provided with a protrusion that extends in parallel with a top surface and the bottom surface of the lower glass plates and that extends from one end to the other end of each of the side surfaces, and wherein the first electrodes are formed on the side surfaces that include surfaces of the protrusion. | 12-11-2014 |