Oscillator circuit, method for manufacturing oscillator circuit, inertial sensor using the oscillator circuit, and electronic device

US 8,875,577 B2
Filed: 02/12/2010
Issued: 11/04/2014
Est. Priority Date: 02/13/2009
Status: Expired due to Fees

First Claim

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1. An oscillator circuit comprising:

an oscillator that vibrates while being driven by a driving signal, and outputs a monitoring signal according to the vibration;

a filter that filters the monitoring signal and outputs the filtered signal;

a driver that amplifies the filtered signal to generate the driving signal; and

a controller for controlling a passing characteristic of the filter based on the monitoring signal,the controller adjusts a center frequency of a passing frequency band of the filter based on a frequency of the monitoring signal,the oscillator further vibrates with a sensing vibration according to an amount of inertia applied from outside of the oscillator, andthe controller adjusts the center frequency of the passing frequency band of the filter so as to cause the center frequency to become;

a) lower than the frequency of the monitoring signal when a frequency of the sensing vibration is higher than the frequency of the monitoring signal, and b) higher than the frequency of the monitoring signal when the frequency of the sensing vibration is lower than the frequency of the monitoring signal.

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Abstract

An oscillator circuit includes an oscillator, a filter that filters a monitoring signal output from the oscillator and outputs the filtered signal, a driver that amplifies the filtered signal to generate a driving signal, and a controller operable to control a passing characteristic of the filter based on the monitoring signal. The oscillator performs a vibration while being driven by the driving signal, and outputs the monitoring signal according to the vibration. This oscillator circuit allows the oscillator to vibrate stably.

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15 Claims

1. An oscillator circuit comprising:
- an oscillator that vibrates while being driven by a driving signal, and outputs a monitoring signal according to the vibration;
  
  a filter that filters the monitoring signal and outputs the filtered signal;
  
  a driver that amplifies the filtered signal to generate the driving signal; and
  
  a controller for controlling a passing characteristic of the filter based on the monitoring signal,the controller adjusts a center frequency of a passing frequency band of the filter based on a frequency of the monitoring signal,the oscillator further vibrates with a sensing vibration according to an amount of inertia applied from outside of the oscillator, andthe controller adjusts the center frequency of the passing frequency band of the filter so as to cause the center frequency to become;
  
  a) lower than the frequency of the monitoring signal when a frequency of the sensing vibration is higher than the frequency of the monitoring signal, and b) higher than the frequency of the monitoring signal when the frequency of the sensing vibration is lower than the frequency of the monitoring signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The oscillator circuit according to claim 1, wherein the controller is operable to adjust a phase characteristic of the filter such that a phase difference between the monitoring signal and the filtered signal is equal to a predetermined phase difference.
  - 3. The oscillator circuit according to claim 2,wherein the controller includes a frequency measuring section including a reference oscillator for generating a reference signal, andwherein the reference oscillator is incorporated with the filter and the driver in a chip.
  - 4. The oscillator circuit according to claim 1,wherein the controller includes a frequency measuring section including a reference oscillator for generating a reference signal,wherein the reference oscillator has a Q factor larger than a Q factor of the oscillator circuit, andwherein the frequency measuring section measures the frequency of the monitoring signal based on the reference signal.
  - 5. The oscillator circuit according to claim 4, wherein the reference oscillator is incorporated with the filter and the driver in a chip.
  - 6. The oscillator circuit according to claim 1,wherein the controller includes a frequency measuring section including a reference oscillator for generating a reference signal,wherein the reference oscillator has variations of processing accuracy smaller than variations of processing accuracy of the oscillator circuit, andwherein the frequency measuring section measures the frequency of the monitoring signal based on the reference signal.
  - 7. The oscillator circuit according to claim 6, wherein the reference oscillator is incorporated with the filter and the driver in a chip.
  - 8. The oscillator circuit according to claim 1,wherein the controller includes a frequency measuring section including a reference oscillator for generating a reference signal,wherein the reference oscillator has a frequency-temperature coefficient smaller than a frequency-temperature coefficient of the oscillator circuit, andwherein the frequency measuring section measures the frequency of the monitoring signal based on the reference signal.
  - 9. The oscillator circuit according to claim 8, wherein the reference oscillator is incorporated with the filter and the driver in a chip.
  - 10. The oscillator circuit according to claim 1,wherein the controller includes a frequency measuring section including a reference oscillator for generating a reference signal, andwherein the reference oscillator is incorporated with the filter and the driver in a chip.
  - 11. An inertial sensor comprising:
    - an oscillator circuit according to claim 1; and
      
      a detector circuit that detects a signal output from the oscillator,wherein the oscillator performs a sensing vibration according to an amount of inertia applied from outside of the oscillator and outputs a sensing signal according to the sensing vibration, andwherein the detector circuit detects the sensing signal output from the oscillator.

12. An oscillator circuit comprising:
- an oscillator vibrates while being driven by a driving signal and outputs a monitoring signal according to the vibration;
  
  a filter that filters the monitoring signal and outputs the filtered signal; and
  
  a driver that amplifies the filtered signal to generate the driving signal,wherein, a passing characteristic of the filter is adjusted based on the monitoring signal,the oscillator further vibrates with a sensing vibration according to an amount of inertia applied from outside of the oscillator, anda center frequency of a passing frequency band of the filter becomes;
  
  a) lower than a frequency of the monitoring signal when a frequency of the sensing vibration is higher than the frequency of the monitoring signal, and b) higher than the frequency of the monitoring signal when the frequency of the sensing vibration is lower than the frequency of the monitoring signal.
- View Dependent Claims (13)
- - 13. The oscillator circuit according to claim 12,wherein the passing characteristic of the filter includes a phase characteristic,wherein the phase characteristic is adjusted such that a phase difference between the monitoring signal and the filtered signal is equal to a predetermined phase difference.

14. A method of operating an oscillator circuit, which includesan oscillator that performs a vibration while being driven by a driving signal and outputs a monitoring signal according to the vibration,a filter that filters the monitoring signal and outputs the filtered signal, anda driver that amplifies the filtered signal to generate the driving signal;
- said method comprising the steps of;
  
  adjusting a passing characteristic of the filter based on the monitoring signal; and
  
  causing the oscillator to perform a sensing vibration according to an amount of inertia applied from outside of the oscillator,wherein said adjusting of the passing characteristic of the filter based on the monitoring signal includes the step ofadjusting a center frequency of a passing frequency band of the filter so as to cause the center frequency to become;
  
  a) lower than the frequency of the monitoring signal when a frequency of the sensing vibration is higher than a frequency of the monitoring signal; and
  
  b) higher than the frequency of the monitoring signal when the frequency of the sensing vibration is lower than the frequency of the monitoring signal.

15. An oscillator circuit, comprising:
- an oscillator that outputs a sensing signal according to an amount of inertia applied from outside of the oscillator while performing a vibration while being driven by a driving signal, and outputs a monitoring signal according to the vibration;
  
  a driver that amplifies the monitoring signal to generate the driving signal;
  
  a detector circuit that properly detects the amount of inertia based on the sensing signal while the oscillator vibrates at a predetermined driving vibration frequency;
  
  an abnormal-state detector that outputs an abnormal-state detection signal in a case that the monitoring signal has a frequency different from the predetermined driving vibration frequency;
  
  a filter that filters the monitoring signal and outputs the filtered signal; and
  
  a controller for controlling a passing characteristic of the filter based on the monitoring signal,the driver that amplifies the filtered monitoring signal to generate the driving signal,the controller adjusts a center frequency of a passing frequency band of the filter based on a frequency of the monitoring signal,the oscillator further vibrates with a sensing vibration according to an amount of inertia applied from outside of the oscillator, andthe controller adjusts the center frequency of the passing frequency band of the filter so as to cause the center frequency to become;
  
  a) lower than the frequency of the monitoring signal when a frequency of the sensing vibration is higher than the frequency of the monitoring signal, and b) higher than the frequency of the monitoring signal when the frequency of the sensing vibration is lower than the frequency of the monitoring signal.

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Current Assignee
Panasonic Intellectual Property Management Co., Ltd. (Panasonic Holdings Corporation)
Original Assignee
Panasonic Corporation (Panasonic Holdings Corporation)
Inventors
Uemura, Takeshi, Kuroda, Keisuke
Primary Examiner(s)
Williams, Hezron E
Assistant Examiner(s)
Redmann, Gregory J

Application Number

US13/143,570
Publication Number

US 20110285444A1
Time in Patent Office

1,726 Days
Field of Search

735/140.1
US Class Current

73/514.01
CPC Class Codes

G01C 19/5614   Signal processing

G01C 19/5726   Signal processing

G01C 19/5776   Signal processing not speci...

H03B 5/32   being a piezoelectric reson...

Y10T 29/4913   Assembling to base an elect...

Oscillator circuit, method for manufacturing oscillator circuit, inertial sensor using the oscillator circuit, and electronic device

First Claim

3 Assignments

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Abstract

10 Citations

15 Claims

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Oscillator circuit, method for manufacturing oscillator circuit, inertial sensor using the oscillator circuit, and electronic device

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

10 Citations

15 Claims

Specification

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Solutions

Use Cases

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