Angular speed sensor
First Claim
1. An angular velocity sensor comprising:
- a vibration body;
a first sensor electrode provided on the vibration body for generating an electric signal responsive to an angular velocity applied to the vibration body, the first sensor electrode further generating a first undesired signal;
a second sensor electrode provided on the vibration body for generating an electric signal responsive to the angular velocity, the second sensor electrode further generating a second undesired signal;
a driver circuit for vibrating the vibration body at a predetermined driving frequency;
a processor having an integrator circuit for detecting a signal output from the first sensor electrode; and
a cancellation signal output circuit operable to inject a cancellation signal into a point between the first sensor electrode and the processor, the cancellation signal having an amount of an electric signal identical to an amount of a difference between the first undesired signal and the second undesired signal and having a polarity opposite to a polarity of the difference between the first undesired signal and the second undesired signal,wherein the first undesired signal has a phase delayed by 90 degrees from an output signal generated in the first sensor electrode, andthe second undesired signal has a phase delayed by 90 degrees from an output signal generated in the second sensor electrode, andwherein the integrator circuit has a time constant which causes the phase delay of 90 degrees of the corresponding first undesired signal to have a further phase shift based on the time constant.
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Accused Products
Abstract
An angular velocity sensor includes a vibration body, first and second sensor electrodes generating an electric charge responsive to an angular velocity applied to the vibration body, first and D/A converters each outputting at least two levels of an electric charge, first and second integrator circuits integrating the electric charge generated by the first and second sensor electrodes and the electric charges output from the first and second D/A converters, respectively, a comparator unit comparing output signals from the first and second integrator circuits, first and second D/A switching units switching levels of the output signals from the first and second D/A converters according to a comparison result of the comparator unit, a first disconnection detecting switch connected between the first sensor electrode and the first integrator circuit, a first voltage source for injecting an electric charge into a point between the first sensor electrode and the first integrator circuit via the first disconnection detecting switch, a second disconnection detecting switch connected between the second sensor electrode and the second integrator circuit, and a second voltage source for injecting an electric charge into a point between the second sensor electrode and the second integrator circuit via the second disconnection detecting switch. This angular velocity sensor has a high reliability and performs stable operation even if ambient environment changes.
16 Citations
5 Claims
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1. An angular velocity sensor comprising:
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a vibration body; a first sensor electrode provided on the vibration body for generating an electric signal responsive to an angular velocity applied to the vibration body, the first sensor electrode further generating a first undesired signal; a second sensor electrode provided on the vibration body for generating an electric signal responsive to the angular velocity, the second sensor electrode further generating a second undesired signal; a driver circuit for vibrating the vibration body at a predetermined driving frequency; a processor having an integrator circuit for detecting a signal output from the first sensor electrode; and a cancellation signal output circuit operable to inject a cancellation signal into a point between the first sensor electrode and the processor, the cancellation signal having an amount of an electric signal identical to an amount of a difference between the first undesired signal and the second undesired signal and having a polarity opposite to a polarity of the difference between the first undesired signal and the second undesired signal, wherein the first undesired signal has a phase delayed by 90 degrees from an output signal generated in the first sensor electrode, and the second undesired signal has a phase delayed by 90 degrees from an output signal generated in the second sensor electrode, and wherein the integrator circuit has a time constant which causes the phase delay of 90 degrees of the corresponding first undesired signal to have a further phase shift based on the time constant. - View Dependent Claims (2, 3, 4, 5)
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Specification