AUTOMATIC POLARIZATION CONTROLLER FOR POLARIZATION MULTIPLEXED OPTICAL SIGNALS

US 20040016874A1
Filed: 01/25/2001
Published: 01/29/2004
Est. Priority Date: 01/25/2001
Status: Abandoned Application

First Claim

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1. An automatic polarization controller comprising:

a. an optical input that receives a polarization multiplexed optical pulse train that includes a first and a second polarized optical pulse train, wherein a dither modulation signal is superimposed on at least one of the first and the second polarized optical pulse train;

b. a polarization transformer that transforms an input polarization state of the polarization multiplexed optical pulse train to an output polarization state, the polarization transformer transforming the polarization state in response to a control signal that is applied to a control input of the polarization transformer;

c. a polarization selective element that receives the transformed polarization multiplexed optical pulse train, the polarization selective element passing a polarized optical pulse train including the dither modulation signal;

d. a detector that receives the polarized optical pulse train including the superimposed dither modulation signal, the detector generating a signal that is proportional to the amplitude of the dither modulation signal; and

e. a feedback control unit that receives the signal generated by the detector and generates a control signal that is coupled to the control input of the polarization transformer, wherein the control signal generated by the feedback control unit causes the polarization transformer to adjust the polarization state of the polarized optical pulse train.

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Abstract

An automatic polarization controller is described that includes an optical input that receives a polarization multiplexed optical pulse train that comprises a first and a second polarized optical pulse train. A dither modulation signal is superimposed on at least one of the first and the second polarized optical pulse trains. A polarization transformer transforms an input polarization state of the polarization multiplexed optical pulse train to an output polarization state in response to a control signal that is applied to a control input of the polarization transformer. A polarization selective element receives the transformed polarization multiplexed optical pulse train and passes a polarized optical pulse train including the dither modulation signal. A detector receives the polarized optical pulse train including the superimposed dither modulation signal and generates a signal that is proportional to the amplitude of the dither modulation signal. A feedback control unit receives the signal generated by the detector and generates a control signal that is coupled to the control input of the polarization transformer. The polarization transformer adjusts the polarization state of the polarized optical pulse train in response to the control signal.

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25 Claims

1. An automatic polarization controller comprising:
- a. an optical input that receives a polarization multiplexed optical pulse train that includes a first and a second polarized optical pulse train, wherein a dither modulation signal is superimposed on at least one of the first and the second polarized optical pulse train;
  
  b. a polarization transformer that transforms an input polarization state of the polarization multiplexed optical pulse train to an output polarization state, the polarization transformer transforming the polarization state in response to a control signal that is applied to a control input of the polarization transformer;
  
  c. a polarization selective element that receives the transformed polarization multiplexed optical pulse train, the polarization selective element passing a polarized optical pulse train including the dither modulation signal;
  
  d. a detector that receives the polarized optical pulse train including the superimposed dither modulation signal, the detector generating a signal that is proportional to the amplitude of the dither modulation signal; and
  
  e. a feedback control unit that receives the signal generated by the detector and generates a control signal that is coupled to the control input of the polarization transformer, wherein the control signal generated by the feedback control unit causes the polarization transformer to adjust the polarization state of the polarized optical pulse train.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The automatic polarization controller of claim 1 wherein the optical input receives a polarization multiplexed optical pulse train comprising a bit interleaved polarization multiplexed optical pulse train.
  - 3. The automatic polarization controller of claim 1 wherein the optical input receives a polarization multiplexed optical pulse train comprising two orthogonally polarized pulse trains.
  - 4. The automatic polarization controller of claim 1 wherein the polarization multiplexed optical signal is received from an optical fiber.
  - 5. The automatic polarization controller of claim 1 wherein the feedback control unit generates an electrical control signal.
  - 6. The automatic polarization controller of claim 1 wherein the polarization transformer comprises an electro-optic polarization transformer.
  - 7. The automatic polarization controller of claim 6 wherein the electro-optic polarization transformer is formed on a lithium niobate substrate.
  - 8. The automatic polarization controller of claim 1 where the polarization transformer comprises a liquid crystal polarization transformer.
  - 9. The automatic polarization controller of claim 1 where the polarization transformer comprises a solid-state polarization transformer.
  - 10. The automatic polarization controller of claim 1 where the polarization transformer comprises a bulk optical polarization transformer.
  - 11. The automatic polarization controller of claim 1 where the polarization transformer comprises at least two endlessly rotatable waveplates.
  - 12. The automatic polarization controller of claim 1 where the polarization transformer comprises an opto-ceramic polarization transformer.
  - 13. The automatic polarization controller of claim 1 wherein the detector comprises a narrow-band detector.

14. An automatic polarization controller comprising:
- a. an optical input that receives a polarization multiplexed optical pulse train that includes a first and a second orthogonally polarized optical pulse train, wherein a first and a second dither modulation signal are superimposed on the first and the second polarized optical pulse train, respectively;
  
  b. a polarization transformer that transforms an input polarization state of the first and the second orthogonally polarized optical pulse train to an output polarization state, the polarization transformer transforming the polarization state in response to a control signal that is applied to a control input of the polarization transformer;
  
  c. a polarization beam splitter that receives the transformed polarization multiplexed optical signal, the polarization beam splitter passing a first and a second orthogonally polarized optical pulse train including the first and the second dither modulation signal, respectively;
  
  d. a detector that receives one of the first and the second polarized optical pulse train including the first and the second dither modulation signal, respectively, the detector generating a signal that is proportional to the amplitude of at least one of the first and the dither modulation signal; and
  
  e. feedback control unit that receives the signal generated by the detector and generates a control signal that is coupled to the control input of the polarization transformer, wherein the control signal generated by the feedback control unit causes the polarization transformer to adjust the polarization state of at least one of the first and the second polarized optical pulse train.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. The automatic polarization controller of claim 14 wherein the optical input receives a polarization multiplexed optical pulse train comprising a bit interleaved polarization multiplexed optical pulse train.
  - 16. The automatic polarization controller of claim 14 wherein the detector generates a first and a second signal that is proportional to the amplitude the first and the dither modulation signal, respectively.
  - 17. The automatic polarization controller of claim 14 wherein the detector comprises a narrow-band detector.
  - 18. The automatic polarization controller of claim 14 wherein the polarization transformer comprises an electro-optic polarization transformer.
  - 19. The automatic polarization controller of claim 14 where the polarization transformer comprises a liquid crystal polarization transformer.
  - 20. The automatic polarization controller of claim 14 where the polarization transformer comprises a solid-state polarization transformer.

21. A method of transforming a polarization state of a polarization multiplexed optical signal, the method comprising:
- a. receiving a polarization multiplexed optical pulse train comprising a first and a second polarized optical pulse train, wherein a first and a second dither modulation signal are superimposed on the first and the second polarized optical pulse train, respectively;
  
  b. transforming the polarization multiplexed optical pulse train from an input polarization state to an output polarization state, the transformation being responsive to a control signal;
  
  c. separating the transformed polarization multiplexed optical signal into a first and a second polarized optical pulse train, respectively;
  
  d. detecting an amplitude of at least one of the first and the second dither modulation signal;
  
  e. generating a control signal having an amplitude that is proportional to the detected amplitude of the at least one of the first and the second dither modulation signal; and
  
  f. adjusting the transformation in response to the generated control signal.
- View Dependent Claims (22, 23, 24, 25)
- - 22. The method of claim 21 wherein the first and the second polarized optical pulse train are orthogonally polarized optical pulse streams.
  - 23. The method of claim 21 wherein the polarization multiplexed optical pulse train comprises a bit interleaved polarization multiplexed optical pulse train.
  - 24. The method of claim 21 wherein the transformation is adjusting to reduce the amplitude of the control signal.
  - 25. The method of claim 21 wherein the generating the control signal comprises generating a first and a second control signal, the amplitude of the first and second control signal being proportional to the detected amplitude of the first and the second dither modulation signal, respectively.

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Current Assignee
Hemonth G. Rao, John M. Jacob, Michael J. Lagasse
Original Assignee
Hemonth G. Rao, John M. Jacob, Michael J. Lagasse
Inventors
Rao, Hemonth G., Jacob, John M., LaGasse, Michael J.

Application Number

US09/769,671
Publication Number

US 20040016874A1
Time in Patent Office

Days
Field of Search
US Class Current

250/225
CPC Class Codes

G02F 1/0136   for the control of polarisa...

H04B 10/532   Polarisation modulation

H04J 14/06   Polarisation multiplex systems

H04J 14/08   Time-division multiplex sys...

AUTOMATIC POLARIZATION CONTROLLER FOR POLARIZATION MULTIPLEXED OPTICAL SIGNALS

First Claim

2 Assignments

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Abstract

85 Citations

25 Claims

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AUTOMATIC POLARIZATION CONTROLLER FOR POLARIZATION MULTIPLEXED OPTICAL SIGNALS

First Claim

2 Assignments

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0 Petitions

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Abstract

85 Citations

25 Claims

Specification

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Solutions

Use Cases

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