Patent application number | Description | Published |
20130205898 | VIBRATOR ELEMENT, SENSOR UNIT, AND ELECTRONIC DEVICE - A vibrator element includes a base section, a driving vibrating arm extending from one end of the base section, a detecting vibrating arm extending from another end of the base section opposite to the one end, an adjusting vibrating arm extending from the base section on an opposite side to the driving vibrating arm, and a support section extending from the base section and to be fixed to a substrate, and an output signal of the adjusting vibrating arm has a reverse phase with respect to an output signal of a leakage vibration of the detecting vibrating arm. | 08-15-2013 |
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 |
Patent application number | Description | Published |
20130283910 | VIBRATING REED, GYRO SENSOR, ELECTRONIC APPARATUS, AND MOBILE UNIT - A vibrating reed includes a base part. A drive vibrating arm, a detection vibrating arm, and an adjustment vibrating arm extend from the base part. A first adjustment electrode and a second adjustment electrode are connected to the adjustment vibrating arm. The first adjustment electrode generates an electrical signal in first phase. The second adjustment electrode generates an electrical signal in second phase opposite to the first phase. The electrical signals of the adjustment electrodes are superimposed on the detection signal of the detection vibrating arm, and thereby, vibration leakage components are cancelled out. The adjustment vibrating arm is partially sandwiched between a first electrode piece and a second electrode piece, and the adjustment vibrating arm is partially sandwiched between a third electrode piece and a fourth electrode piece. | 10-31-2013 |
20140290362 | VIBRATOR ELEMENT AND METHOD OF MANUFACTURING THE SAME - A vibrator element has a first vibration mode in which first and second detection portions perform flexural vibration in opposite directions in the opposite phase to first and second driving portions which vibrate in opposite directions according to a Coriolis force, and a second vibration mode in which the first and second detection portions perform flexural vibration in opposite directions in the same phase as the first and second driving portions which vibrate in opposite directions according to a Coriolis force. A ratio r=R | 10-02-2014 |
20150114114 | ANGULAR VELOCITY SENSOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - An angular velocity sensor includes fixing units, a base portion, beam portions that support the base portion with respect to the fixing units, driving vibrating arms connected to the base portion, and detection vibrating arms connected to the base portion. When a width of a detection frequency band is set to f1 [Hz], a resonance frequency in a rotational vibration mode in which the base portion rotates and vibrates around a detection axis with respect to the fixing units in association with the deformation of the beam portions is set to f2 [Hz], and a detuning frequency is set to f3 [Hz], the relation of f104-30-2015 | |
20150114117 | VIBRATING ELEMENT, VIBRATOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - A vibrating element includes: drive vibrating arm supported to the base portion and extending in a direction of the second axis; and detection vibrating arm supported to the base portion at a position different from the drive vibrating arm and extending in the direction of the second axis. When the vibrating element is subjected to rotation about the second axis while the drive vibrating arm being reciprocally driven in a direction of the first axis, an amount of displacement of the detection vibrating arm in a direction of the third axis at a position distant from the base portion by a distance y1 along the direction of the second axis is greater than an amount of displacement of the drive vibrating arm in the direction of the third axis at a position distant from the base portion by the distance y1 along the direction of the second axis. | 04-30-2015 |
20150116050 | VIBRATING ELEMENT, VIBRATOR, OSCILLATOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - A vibrating element has a drive mode, and first and second detection modes in which the vibrating element vibrates in a direction orthogonal to a vibration direction in the drive mode. In frequency-temperature characteristic curves representing a change in frequency due to a change in temperature in the respective modes with a horizontal axis representing an ambient temperature and a vertical axis representing a change in frequency, when a turnover temperature of the frequency-temperature characteristic curve in the drive mode is Ta [° C.], a turnover temperature of the frequency-temperature characteristic curve in the first detection mode is Tb [° C.], and a turnover temperature of the frequency-temperature characteristic curve in the second detection mode is Tc [° C.], Ta is lower than Tb and Tc, or Ta is higher than Tb and Tc. | 04-30-2015 |