| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 310315000 | Temperature compensation circuits | 12 |
| 20080265714 | ELECTROMECHANICAL CONVERSION ELEMENT, VIBRATION ACTUATOR, VIBRATION ACTUATOR DRIVING DEVICE, LENS BARREL AND CAMERA - To provide an electromechanical conversion element, a vibration actuator, a vibration actuator driving device, a lens barrel and a camera, which facilitate the achievement of the desired drive characteristics. An electromechanical conversion element comprising: a piezoelectric body having a polarization part polarized in a certain direction; and a plurality of separately formed electrodes on a continuous region of the polarization part. | 10-30-2008 |
| 20090026883 | Controller for a High Frequency Agitation Source - A controller for a high-frequency agitation source includes a signal generator to generate a drive signal having a variable duty cycle. The drive signal is used to drive the high-frequency agitation source. The controller also includes a temperature detector to detect the temperature of the high-frequency agitation source. The controller is configured to vary the duty cycle of the drive signal in response to the temperature of the high-frequency agitation source. By varying the duty cycle of the drive signal, the average power supplied to the piezoelectric crystal can be varied while still maintaining a fixed amplitude of oscillation. This allows the temperature of a high-frequency agitator, for example, a piezoelectric crystal, to be controlled. | 01-29-2009 |
| 20110234047 | PIEZOELECTRIC DEVICE - A piezoelectric device has a plate-shaped substrate, a first frame defining a first concave portion at one surface of the substrate, a second frame defining a second concave portion at the other surface of the substrate, a first electrode member provided at one surface of the substrate, a second electrode member provided at the other surface of the substrate, a piezoelectric unit in which a first electrode section of the piezoelectric vibration plate is fixed to the first electrode member by a conductive binder, a cover sealing the first concave portion, and a temperature detection unit in which a second electrode section of the thermistor element is fixed to the second electrode member by a conductive joining material. | 09-29-2011 |
| 20120032555 | CIRCUIT FOR COMPENSATING INFLUENCE OF TEMPERATURE ON A RESONATOR - The invention relates to a device for compensating influence of temperature on a resonator circuit. The device comprises a resonator circuit and a supply unit for supplying an electric bias signal to the resonator circuit, wherein the supply unit is adapted for adjusting the electric bias signal for compensating influence of temperature on the resonator circuit. | 02-09-2012 |
| 20120313484 | ULTRASONIC SENSOR - Disclosed herein is an ultrasonic sensor, including: a conductive case having at least one groove disposed on a bottom surface thereof; a piezoelectric element fixed to the bottom surface of the case through a non-conductive adhesive; a conductive adhesive injected into the groove to electrically connect the case to the piezoelectric element; a temperature compensation capacitor disposed on an upper portion of the piezoelectric element; a first lead wire led-in from the outside of the case and being electrically connected to one surface of the temperature compensation capacitor and the piezoelectric element; and a second lead wire led-in from the outside of the case and being electrically connected to the other surface of the temperature compensation capacitor and the case. | 12-13-2012 |
| 20120326563 | ULTRASONIC SENSOR AND METHOD OF MANUFACTURING THE SAME - Disclosed herein are an ultrasonic sensor and a method of manufacturing the same. The ultrasonic sensor includes: a conductive case; a piezoelectric element fixed to a bottom. surface of the case through a conductive adhesive; a temperature compensation capacitor positioned over the piezoelectric element; a first lead wire lead from the outside of the case and electrically connected to one surface of the temperature compensation capacitor and the piezoelectric element; a second lead wire lead from the outside of the case and electrically connected to the other surface of the temperature compensation capacitor and the case; and a first molding part closely adhered to outer portions of the temperature compensation capacitor and the first and second lead wires. | 12-27-2012 |
| 20130026884 | ULTRASONIC SENSOR - Disclosed herein is an ultrasonic sensor including: a case including an inner space formed therein; a substrate seated on a bottom surface of the case in the inner space thereof and including a plurality of piezoelectric elements and temperature compensation capacitors mounted in a row therein; and a sound absorbing material mounted on an upper portion of the substrate. | 01-31-2013 |
| 20130043764 | ULTRASONIC SENSOR - Disclosed herein is an ultrasonic sensor including: a conductive case; a piezoelectric element fixed to a bottom surface of the case through a conductive adhesive; a temperature compensation capacitor positioned on the piezoelectric element; a first lead wire and electrically connected to one surface of the temperature compensation capacitor; a first wire electrically connecting one surface of the temperature compensation capacitor and the case to each other; a second lead wire and electrically connected to the other surface of the temperature compensation capacitor; a second wire electrically connecting the other surface of the temperature compensation capacitor and an upper surface of the piezoelectric element to each other; and a fixing part fixing the first lead wire and the first wire to one surface of the temperature compensation capacitor and fixing the second lead wire and the second wire to the other surface thereof. | 02-21-2013 |
| 20140145559 | RESONATOR DEVICE, ELECTRONIC DEVICE, AND MOVING OBJECT - A quartz crystal vibrator includes a quartz crystal resonator element, a thermistor adapted to detect the temperature, and a package adapted to incorporate the quartz crystal resonator element and the thermistor, a plurality of electrode pads adapted to support the quartz crystal resonator element is disposed on an inner bottom surface of the package, to which the quartz crystal resonator element and the thermistor are installed, and a wiring pattern, which is extracted from at least one electrode pad, and has a thermal conductivity higher than a thermal conductivity of a package base of the package including the inner bottom surface, overlaps the thermistor in a plan view. | 05-29-2014 |
| 20150123515 | CRYSTAL UNIT - A crystal unit is provided with a rectangular substrate, a frame which is provided on an upper surface of the substrate, a mounting frame which has joining pads which are provided along the outer circumferential edge of the upper surface and which is provided on the lower surface of the substrate by joining terminals provided along the outer circumferential edge of the lower surface of the substrate and its joining pads, a crystal element which is mounted on electrode pads which are provided on the upper surface of the substrate in a region surrounded by the frame, a thermosensitivel element which is mounted on connection pads which are provided on the lower surface of the substrate in a region surrounded by the mounting frame, and a lid which is joined to the upper surface of the frame. | 05-07-2015 |
| 20150295557 | PIEZOELECTRIC RESONATOR DEVICE - A deviation in mounting a temperature sensor unit is eliminated. In a second cavity | 10-15-2015 |
| 20160079511 | METHOD FOR CONTROLLING A PIEZOELECTRIC DEVICE HAVING A PIEZOELECTRIC ELEMENT MOUNTED ON A SUBSTRATE - A method for controlling a piezoelectric device comprising a piezoelectric element ( | 03-17-2016 |
