Ring laser gyro bias drift improvement method and apparatus

US 5,438,410 A
Filed: 06/18/1992
Issued: 08/01/1995
Est. Priority Date: 06/18/1992
Status: Expired due to Fees

First Claim

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1. A bias drift rate improvement apparatus for a laser gyro having a laser with a path length, a first path length control mirror with a first mirror position, a second path length control mirror with a second mirror position, and a bias drift rate that varies periodically with the first mirror position and the second mirror position, wherein the bias drift rate improvement apparatus comprises:

(a) a first mirror positioning means coupled to the first path length control mirror for positioning the first path length control mirror;

(b) a second mirror positioning means coupled to the second path length control mirror for positioning the second path length control mirror; and

(c) a control means for controlling the first mirror positioning means and the second mirror positioning means the control means being coupled to the first and second mirror positioning means such that the second and first mirror positions change over one period of the bias drift rate.

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Abstract

A ring laser gyro bias drift improvement method and apparatus for compensating for periodic bias drift including a microprocessor which controls a path length control circuit that continuously adjusts the position of path length control mirrors. The mirrors are stepped through a range of positions that represent two laser modes. The microprocessor adjusts the position of the two path length control mirrors such that total path length remains constant. The invention improves bias drift by forcing the laser gyro system to operate at varying path length control positions. Each position has a varying bias that was shown to be periodic over two laser modes. By operating the laser system over a range of two laser modes the periodic bias error of the laser gyro is cancelled out over time.

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23 Claims

1. A bias drift rate improvement apparatus for a laser gyro having a laser with a path length, a first path length control mirror with a first mirror position, a second path length control mirror with a second mirror position, and a bias drift rate that varies periodically with the first mirror position and the second mirror position, wherein the bias drift rate improvement apparatus comprises:
- (a) a first mirror positioning means coupled to the first path length control mirror for positioning the first path length control mirror;
  
  (b) a second mirror positioning means coupled to the second path length control mirror for positioning the second path length control mirror; and
  
  (c) a control means for controlling the first mirror positioning means and the second mirror positioning means the control means being coupled to the first and second mirror positioning means such that the second and first mirror positions change over one period of the bias drift rate.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The bias drift rate improvement apparatus of claim 1 wherein the control means further includes means for moving the first and second path length control mirrors such that the path length is held substantially constant.
  - 3. The bias drift rate improvement apparatus of claim 1 wherein the control means further includes means for moving the first and second path length control mirrors such that the first path length control mirror and the second path length control mirror move continuously and periodically.
  - 4. The bias drift rate improvement apparatus of claim 2 wherein the means for controlling further includes a continuous movement means coupled to the first path length control mirror and the second path length control mirror, wherein the continuous movement means operates so as to move the first and second path length control mirrors continuously and periodically.
  - 5. The bias drift rate improvement apparatus of claim 1 wherein the control means includes a means for moving the first path length control mirror and the second path length control mirror such that they move uniformly, continuously and periodically.
  - 6. The bias drift rate improvement apparatus of claim 2 wherein the control means includes a means for moving the first path length control mirror and the second path length control mirror such that they move uniformly, continuously and periodically.
  - 7. The bias drift rate improvement apparatus of claim 1 wherein the control means includes a means for moving the first path length control mirror and the second path length control mirror wherein the means for moving operates to uniformly, continuously and periodically move the first and second path length control mirrors such that the first path length control mirror is in each first mirror position an equal amount of time and the second mirror is in each second mirror position an equal amount of time.
  - 8. The bias drift rate improvement apparatus of claim 2 wherein the control means further includes a continuous moving means coupled to the first path length control mirror and the second path length control mirror so as to move the first and second path length control mirrors uniformly, continuously and periodically such that the first path length control mirror is in each first mirror position an equal amount of time and the second path length control mirror is in each second mirror position an equal amount of time.
  - 9. The bias drift rate improvement apparatus of claim 1 wherein the laser gyro further includes a means for detecting a SBS random drift rate while noting the position of the first and second path length control mirrors as they move.
  - 10. The apparatus of claim 9 wherein the means for detecting a random drift rate comprises a single beam signal detector.
  - 11. The apparatus of claim 10 wherein the single beam signal detector comprises a peak to peak detector.
  - 12. The apparatus of claim 9 wherein the laser gyro has a minimum random drift rate and the laser gyro includes a path length control means coupled to the first and second path length control mirrors, wherein the path length control means operates so as to maintain the first and second path length control mirrors in a position corresponding to the minimum random drift rate.
  - 13. The bias drift rate improvement apparatus of claim 2 wherein the laser gyro further includes a means for detecting a random drift rate while noting the position of the first and second path length control mirrors as they move.
  - 14. The bias drift rate improvement apparatus of claim 13 wherein the means for detecting a random drift rate comprises a single beam signal detector.
  - 15. The bias drift rate improvement apparatus of claim 14 wherein the single beam signal detector comprises a peak to peak detector.
  - 16. The bias drift rate improvement apparatus of claim 13 wherein the laser gyro has a minimum random drift rate and the laser gyro includes a path length control means coupled to the first and second path length control mirrors, wherein the path length control means operates so as to maintain the first and second path length control mirrors in a position corresponding to the minimum random drift rate.

17. A laser gyro having a laser with a path length and a wavelength and an intensity, a first path length control mirror and a second path length control mirror, the laser gyro comprising:
- (a) digital logic means for providing a plurality of modulation signals including a SWEEP signal, a SWITCH signal, a NOTSWITCH signal, a DITHER signal, and a NOTDITHER signal;
  
  (b) a first inverter means coupled to the digital logic means at a first input and including an output;
  
  (c) a means for switching coupled at a signal input to the output of the first inverter means, coupled at a first control input to the SWITCH signal and coupled at a second control input to the NOTSWITCH signal, wherein the switching means has a first output corresponding to a first switch position and a second output corresponding to a second switch position;
  
  (d) a means for integrating coupled at a first input to the first of the switching means output, coupled at a second input to the second of the switching means output, and including an output providing a path length control signal;
  
  (e) means for monitoring laser beam intensity and providing a laser beam intensity monitor ("LIM") signal;
  
  (f) means for controlling the digital logic means, including means for providing a pulse width modulated signal, a first analog-to-digital input, and a second analog-to-digital input, wherein the controlling means is coupled at a logic control output to a control input of the digital logic means, wherein the controlling means is coupled at the first analog-to-digital input to the path length control signal, wherein the controlling means is coupled at the second analog-to-digital input to the LIM signal, wherein the controlling means provides control signals to the digital logic means to operate the plurality of modulating signals in response to the path length control signal, wherein the controlling means further determines a pulse width modulation duty cycle range for a pulse width modulation signal in response to the path length control signal and the LIM signal; and
  
  (g) means, coupled to the to the means for providing a pulse width modulated signal and coupled to the path length control signal, for differentially driving the first path length control mirror and the second path length control mirror in response to the pulse width modulation signal.
- View Dependent Claims (18, 19, 20, 21)
- - 18. The laser gyro of claim 17 wherein the digital logic means operates in a first mode to sweep a lasing mode by turning on the SWEEP signal and suppressing the DITHER signal and NOTDITHER signal.
  - 19. The laser gyro of claim 17 wherein the laser gyro further comprises:
    - (a) a first mirror positioning means for positioning the first path length control mirror;
      
      (b) a second mirror positioning means for positioning the second path length control mirror; and
      
      (c) wherein the means for controlling controls the first mirror positioning means and the second mirror positioning means such that the first control means causes the first mirror to move through a distance, equal to the distance the first mirror would have to travel to change the path length at least one wavelength, by a first plurality of steps over a first predetermined time period and the second control means causes the second mirror to move through a distance, equal to the distance the second mirror would have to travel to change the path length at least one wavelength, by a second plurality of steps over a second predetermined time period.
  - 20. The apparatus of claim 19 wherein the control means moves the first mirror and the second mirror to substantially keep the path length constant.
  - 21. The apparatus of claim 19 wherein each of the first plurality of steps is equal in time and distance and wherein each of the second plurality of steps is equal in time and distance.

22. A method of improving total laser gyro drift rate using a laser gyro bias drift rate improvement method and laser gyro random drift rate improvement method, wherein the laser gyro includes a plurality of path length control mirrors, wherein the method of improving total laser gyro drift rate comprises the steps of:
- (a) performing for a first predetermined time a bias drift improvement method and noting an operating position of the path length control mirrors at the minimum random drift rate;
  
  (b) operating the laser gyro with the path length control mirrors at the operating position for a second predetermined amount of time; and
  
  (c) returning to step (a) to dynamically compensate the laser gyro.
- View Dependent Claims (23)
- - 23. The method of claim 22 wherein the laser gyro further comprises a single beam signal with a minimum intensity and the minimum random drift rate corresponds to the mirror position having the minimum single beam signal intensity.

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Current Assignee
Honeywell Incorporated (Honeywell International Inc.)
Original Assignee
Honeywell Incorporated (Honeywell International Inc.)
Inventors
Berndt, Dale F., Killpatrick, Joseph E.
Primary Examiner(s)
Hellner, Mark

Application Number

US07/900,403
Time in Patent Office

1,139 Days
Field of Search

356/350
US Class Current

356/473
CPC Class Codes

G01C 19/665 control of the cavity

Ring laser gyro bias drift improvement method and apparatus

First Claim

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Abstract

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Ring laser gyro bias drift improvement method and apparatus

First Claim

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