Patent application number | Description | Published |
20090235742 | ANGULAR VELOCITY MEASURING DEVICE - An oscillator is oscillated at a predetermined oscillation frequency. A detecting unit exerts Coriolis force on the oscillator. A repetitive control system applies an external force to the oscillator so as to cancel out the Coriolis force to achieve an angular velocity measuring operation at a high sensitivity and a high S/N ratio. | 09-24-2009 |
20100132462 | Angular Velocity Detecting Apparatus - An angular velocity detecting apparatus including one synchronous detection unit alternately detecting synchronously a displacement signal from a vibrating body with a plurality of synchronous detection signals; one integral calculation unit alternately carrying out integral calculations of a plurality of outputs of the synchronous detection unit; a unit alternately multiplying a plurality of AC signals with two outputs obtained with the synchronous detection unit; a unit adding the two multiplied outputs; and a unit feeding back the output of the addition unit to vibrating body. | 06-03-2010 |
20110056291 | Angular Velocity Detecting Apparatus - An angular-velocity detecting apparatus including a synchronous-detection unit for performing the synchronous detection of a displacement signal from a vibrator, a unit for changing a voltage value so that the output of the synchronous-detection unit always becomes equal to its maximum value, the voltage value being applied to a resonant-frequency adjusting electrode, and a unit for feeding back the output of the voltage-value changing unit to the resonant-frequency adjusting electrode in a detection-axis direction. | 03-10-2011 |
20110100126 | Capacitance Sensor - A technique in which a false detection and a wrong diagnosis can be suppressed in a capacitance sensor represented by an acceleration sensor is provided. A first capacitative element and a second capacitative element, which configure a capacitance detection unit, and a third capacitative element and a fourth capacitative element, which configure a forced oscillation generation unit, are electrically separated from each other. That is, the diagnosis movable electrode that configures the third capacitative element and the fourth capacitative element is formed integrally with the movable part. On the other hand, the diagnosis fixed electrode and the diagnosis fixed electrode are electrically separated from the detection fixed electrode and the detection fixed electrode. | 05-05-2011 |
20110238363 | Apparatus for Detecting Angular Velocity and Acceleration - An apparatus for detecting angular velocity and acceleration having diagnosing units for diagnosing the function of detecting angular velocity; diagnosing units for diagnosing the function of detecting acceleration; a diagnosing unit for a DSP or a MPU; multiple ROMs storing the same data; a diagnosing unit for the ROMs; a diagnosing unit for a RAM; a unit for outputting the outputs of the angular velocity sensor, the acceleration sensor and the results of diagnoses all together in response to an output command from an external device; and a unit for sending error detection codes along with the sensor outputs and the result of diagnoses when the sensor outputs and the results of diagnoses are outputted together. | 09-29-2011 |
20110260740 | Angular Velocity Detection Device - The present invention aims to provide an angular velocity detection device which is capable of reducing the effect of coupling between a drive electrode and a first displacement detection electrode by a floating capacity, and is low in cost. In the angular velocity detection device, an oscillating body | 10-27-2011 |
20120105080 | Electrostatic Capacitance Type Physical Quantity Sensor and Angular Velocity Sensor - The present invention provides a high-accuracy electrostatic capacitance type physical quantity sensor and angular velocity sensor configured so as to be capable of suppressing noise derived from internal noise while maintaining resistance to externally-incoming noise. A detection element | 05-03-2012 |
20130133422 | Inertial Sensor - In order to provide an inertial sensor capable of suppressing a wrong diagnosis even in an adverse environment such that sudden noise occurs, an inertial sensor is provided with a movable part ( | 05-30-2013 |
20130226506 | Physical Quantity Detection Device, And Network System - An object is to provide a physical quantity detection device capable of reducing a communication load for transmitting a sensor detection result, and also, of reducing a processing load of a receiving device receiving the sensor detection result. | 08-29-2013 |
20140058617 | Acceleration Detection Apparatus - Provided is an acceleration detection apparatus installed in a vehicle and including a plurality of acceleration sensors having different characteristics, a function to input diagnosis signals in order to diagnose the outputs of the acceleration sensors and diagnose the fault detection functions while the vehicle stops, and a function to compare the outputs of the sensors in order to detect a fault while the vehicle runs. | 02-27-2014 |
Patent application number | Description | Published |
20100269517 | MODULE FOR COOLING SEMICONDUCTOR DEVICE - A module for cooling a heat generating element comprising a heat receiving plate thermally connected to at least one heat generating element; a heat transfer device one end portion of which is thermally connected to the heat receiving plate and other end portion of which is thermally connected to a heat dissipating plate; a thermoelectric cooler one face of which is thermally connected to one face of the heat dissipating plate; a first heat sink thermally connected to other face of the heat dissipating plate; and a second heat sink thermally connected to other face of said thermoelectric cooler. | 10-28-2010 |
20140130596 | ANGULAR VELOCITY DETECTION DEVICE - The purpose of the present invention is to achieve accurate angular velocity detection even when an angular velocity detection sensor is set in an environment in which oscillation and electromagnetic noise have significant influence. Provided is an angular velocity detection device which has an oscillating body displaceable in first and second directions that are perpendicular to each other, and which detects, as an angular velocity, a displacement of the oscillating body in the second direction while the oscillating body is being oscillated in the first direction, wherein in accordance with a frequency change in a drive signal for oscillating the oscillating body in the first direction, the frequency of a servo signal for detecting the angular velocity from the quantity of displacement in the second direction is changed (see | 05-15-2014 |
20140336976 | Physical Quantity Detection Apparatus - Provided is a sensor signal output apparatus that outputs a sensor signal at times of the sensor being in steady operation and outputs the operational status of the sensor instead of the sensor signal when the sensor is at fault or in non-steady operation in order to thereby to have a receiver machine obtain a correct sensor signal. The sensor signal output apparatus includes a sensor detecting a physical quantity, a diagnosis part diagnosing the operating state of the sensor, and a communication part transmitting the result of detection by the sensor and the result of diagnosis by the diagnosis part. When the sensor is determined to be normally operating, the communication part selectively outputs the result of detection by the sensor. When the sensor is not determined to be normally operating, the communication part selectively outputs a signal indicative of the operating state of the sensor. | 11-13-2014 |
20140367074 | Heat Transport Apparatus - A heat transport apparatus that is thermally connectable to an object to be temperature adjusted includes a plurality of heat pipes thermally connected along a heat transport direction to form a heat transport path. The heat transport apparatus is used under an environment at or below a melting point of a working fluid of at least one heat pipe among the plurality of heat pipes. | 12-18-2014 |
20150153110 | HEAT STORAGE MATERIAL COMPOSITION, AND AUXILIARY HEAT SOURCE AND HEAT SUPPLY METHOD USING THE SAME - A heat storage material composition, at least containing at least one organic compound selected from ethanol, ethylene glycol, propylene glycol, and acetic acid, sodium acetate, and water, wherein a content of the water is 72.4 to 100 parts by mass, relative to 100 parts by mass of the sodium acetate; an auxiliary heat source and a heat supply method, using the heat storage material composition. | 06-04-2015 |
20150369603 | INERTIAL FORCE DETECTION DEVICE - In order to provide an inertial force detection device with improved reliability, an inertial force detection device that has a vibrating body displaceable in a first direction and a second direction perpendicular to each other and detects, as angular velocity, the amount of displacement when the vibrating body is displaced in the second direction due to the occurrence of angular velocity in a state where the vibrating body is made to vibrate in the first direction includes, for example, digital signal processing means, means for detecting a failure in a register unit and a calculation unit of the digital signal processing means, and means for outputting a failure detection result to the outside. | 12-24-2015 |
Patent application number | Description | Published |
20130271003 | DISCHARGE LAMP LIGHTING DEVICE, AND HEADLIGHT AND VEHICLE INCLUDING SAME - A discharge lamp lighting device includes a power converter configured to receive a power from a power source, convert it into a voltage required by a discharge lamp and supply the voltage to the discharge lamp; and a controller which controls the power converter to drive the discharge lamp. The controller controls the power supplied to the discharge lamp according to a predetermined power curve. The controller controls the power curve to change based on at least one of a source voltage of the power source, an ambient temperature, a device temperature, a discharge lamp temperature and a discharge lamp voltage, and sets a sustained period of a max power value to a predetermined time period when the lighting of the discharge lamp is performed in a state where the discharge lamp temperature is equal to or less than a reference temperature. | 10-17-2013 |
20130320850 | LIGHTING DEVICE AND VEHICLE HEADLAMP - A switching circuit includes an active element connected in parallel to a second light source block and having an impedance that varies in accordance with a control signal input into a control terminal, and switches the second light source block between a lit condition and an extinguished condition by switching the active element ON and OFF. The switching circuit adjusts the impedance of the active element so that a current flowing to the active element matches a target value set by a switching control circuit. When the active element is to be switched ON, the switching control circuit varies the target value gradually over time, and therefore an excessive load current can be prevented from flowing while the active element shifts from an OFF condition to an ON condition. | 12-05-2013 |
20150291088 | POWER SUPPLY DEVICE AND ILLUMINATION DEVICE FOR VEHICLE USING SAME - A power supply device includes a DC power supply circuit configured to output DC power, and a ground-fault determining circuit configured to determine presence or absence of a ground fault at a post-stage of the DC power supply circuit. The ground-fault determining circuit includes a capacitor having an end that is connected with ground, and a diode including an anode and a cathode. The anode is connected with another end of the capacitor, and the cathode is connected with an output end on a high voltage side of the DC power supply circuit. The ground-fault determining circuit further includes a constant voltage source configured to charge the capacitor with a prescribed charging voltage, and a comparator as a determining portion configured to determine presence of the ground fault when a voltage across the capacitor falls below a prescribed determination reference voltage lower than the prescribed charging voltage. | 10-15-2015 |