Controlling oscillators

US 9,362,929 B2
Filed: 11/28/2014
Issued: 06/07/2016
Est. Priority Date: 07/11/2014
Status: Active Grant

First Claim

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1. A computer implemented method for controlling an oscillator, the method comprising:

determining a first statistical correlation between multiple error values, each error value being indicative of a measurement of a frequency difference between the oscillator and a frequency reference over a period of time, anddetermining a control value to control the oscillator by maximising a second statistical correlation between a frequency difference at a time of application of the control value to the oscillator and a correction caused by the application of the control value, the frequency difference being a statistical variable estimated based on the first statistical correlation and an application time value indicative of the time of application of the control value to the oscillator.

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Abstract

This disclosure relates to controlling an oscillator based on a measurement of a frequency reference. A controller determines a control value to control the oscillator based on multiple error values. Each error value is indicative of a measurement of a frequency difference between the oscillator and a frequency reference over a period of time. The determination of the error value is further based on an application time value indicative of a time of application of the control value to the oscillator. Since the control value is based on the application time the controller can compensate for inaccuracies arising from both evolution of the oscillator between measurements and applying the correction at a later time after the measurement. Further, since the multiple error values represent a frequency difference over different periods of time, the controller can compensate for wide range of statistical effects.

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18 Claims

1. A computer implemented method for controlling an oscillator, the method comprising:
- determining a first statistical correlation between multiple error values, each error value being indicative of a measurement of a frequency difference between the oscillator and a frequency reference over a period of time, anddetermining a control value to control the oscillator by maximising a second statistical correlation between a frequency difference at a time of application of the control value to the oscillator and a correction caused by the application of the control value, the frequency difference being a statistical variable estimated based on the first statistical correlation and an application time value indicative of the time of application of the control value to the oscillator.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The method of claim 1, whereineach of the multiple error values is associated with a measurement time value indicative of a time of the measurement of the frequency difference, anddetermining the control value comprises determining the control value based on the measurement time value associated with each of the multiple error values.
  - 3. The method of claim 1, wherein determining the control value comprises determining the control value based on noise data indicative of statistical noise characteristics of the oscillator.
  - 4. The method of claim 3, wherein the noise data is indicative of a noise power spectrum.
  - 5. The method of claim 1, wherein determining the control value comprises:
    - determining multiple weighting coefficients for the multiple error values based on the multiple error values; and
      
      determining the control value to control the oscillator based on the multiple error values modified according to the multiple weighting coefficients.
  - 6. The method of claim 5, wherein determining the control value comprises determining a linear combination of the multiple error values weighted by the multiple weighting coefficients.
  - 7. The method of claim 1, whereineach of the multiple error values is associated with a measurement duration value indicative of a duration of the measurement of the frequency difference, anddetermining the control value comprises determining the control value based on the measurement duration value associated with each of the multiple error values.
  - 8. The method of claim 6, whereinthe multiple error values comprise a first error value associated with a first measurement duration value indicative of a first duration of a first measurement of the frequency difference and a second error value associated with a second measurement duration value indicative of a second duration of a second measurement of the frequency difference,the first duration of the first measurement is relatively long to sample low frequency noise of the oscillator, andthe second duration of the second measurement is relatively short to sample high frequency noise of the oscillator.
  - 9. The method of claim 7, wherein the duration of the measurement is defined between two exposure periods of the frequency reference to the frequency of the oscillator such that each of the multiple error values is indicative of an accumulated phase difference between the oscillator and the frequency reference.
  - 10. The method of claim 7, further comprising performing an optimisation to determine the multiple duration values for obtaining the multiple error values.
  - 11. The method of claim 1, wherein determining the control value comprises determining the control value based on a transfer function indicative of an influence of fluctuations of the oscillator on the multiple error values.
  - 12. The method of claim 11, further comprising determining a covariance matrix based on the transfer function wherein determining the control value comprises determining the control value based on the covariance matrix.
  - 13. A non-transitory computer readable medium with an executable program stored thereon that when executed causes the computer to perform the method of claim 1.

14. A computer system for controlling an oscillator, the computer system comprising:
- an input port to receive multiple error values, each error value being indicative of a measurement of a frequency difference between the oscillator and a frequency reference over a period of time; and
  
  a processorto determine a first statistical correlation between the multiple error values; and
  
  to determine a control value to control the oscillator by maximising a second statistical correlation between a frequency difference at the time of application of the control value to the oscillator and a correction caused by the application of the control value, the frequency difference being a statistical variable estimated based on the first statistical correlation and an application time value indicative of the time of application of the control value to the oscillator.

15. A method for generating a clock signal, the method comprising:
- generating the clock signal based on oscillations of an oscillator;
  
  performing multiple measurements of a frequency difference between the oscillator and a frequency reference over a period of time;
  
  determining multiple error values such that each error value is indicative of one of the multiple measurements;
  
  determining a first statistical correlation between the multiple error values;
  
  determining a control value to control the oscillator by maximising a second statistical correlation between a frequency difference at a time of application of the control value to the oscillator and a correction caused by the application of the control value, the frequency difference being a statistical variable estimated based on the first statistical correlation and an application time value indicative of the time of application of the control value to the oscillator; and
  
  applying the control value to the oscillator at the time of application.
- View Dependent Claims (16)
- - 16. The method of claim 15, wherein measuring the frequency difference comprises measuring an accumulated phase difference.

17. A clock comprising:
- an oscillator and a detector to generate a clock signal based on oscillations of the oscillator;
  
  a frequency reference;
  
  a measurement systemto perform multiple measurements of a frequency difference between the oscillator and the frequency reference over a period of time; and
  
  a processorto determine multiple error values such that each error value is indicative of one of the multiple measurements;
  
  to determine a first statistical correlation between the multiple error values;
  
  to determine a control value to control the oscillator by maximising a second statistical correlation between a frequency difference at a time of application of the control value to the oscillator and a correction caused by the application of the control value, the frequency difference being a statistical variable estimated based on the first statistical correlation and an application time value indicative of the time of application of the control value to the oscillator; and
  
  to apply the control value to the oscillator at the time of application.
- View Dependent Claims (18)
- - 18. The clock of claim 17, wherein the frequency reference is an atomic frequency reference.

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Current Assignee
Q-CTRL Pty., Ltd.
Original Assignee
University of Sydney
Inventors
Sastrawan, Jarrah, Biercuk, Michael J.
Primary Examiner(s)
Gannon, Levi

Application Number

US14/555,927
Publication Number

US 20160013795A1
Time in Patent Office

557 Days
Field of Search

331/3, 331/17, 331/18, 331/44, 331/94.1, 331/176
US Class Current

1/1
CPC Class Codes

G04F 5/14   using atomic clocks

H03L 1/026   by using a memory for digit...

H03L 7/26   using energy levels of mole...

Controlling oscillators

First Claim

3 Assignments

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Abstract

11 Citations

18 Claims

Specification

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Controlling oscillators

First Claim

3 Assignments

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0 Petitions

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Abstract

11 Citations

18 Claims

Specification

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