Automatic bias control for electro-optic modulators

US 6,046,838 A
Filed: 12/22/1998
Issued: 04/04/2000
Est. Priority Date: 12/22/1998
Status: Expired due to Term

First Claim

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1. A bias control system for automatically controlling a bias point of an electro-optic modulator, wherein the electro-optic modulator has an electrical input, an optical input and an optical output, for modulating an optical carrier received at the optical input by an electrical signal received at the electrical input to produce a modulated optical signal at the optical output, the bias control system comprising:

a pilot signal generator for generating a pilot signal applicable to the electrical input of the electro-optic modulator and further for generating a coherency reference signal;

an optical sampler for sampling the optical output of the electro-optic modulator, wherein the sampled optical output includes a pilot component resulting from the pilot signal;

a coherent feedback circuit coupled to the optical sampler and to the pilot signal generator for coherently generating an error signal based on the coherency reference signal and on the pilot component in the sampled optical output; and

a bias generator coupled to the coherent feedback circuit for generating a bias signal responsive to the error signal, the bias signal applicable to the electrical input of the electro-optic modulator for controlling the bias point of the electro-optic modulator.

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Abstract

The bias point of an electro-optic modulator, such as an Mach-Zender modulator, is automatically controlled. A pilot signal, preferably two pilot tones at different frequencies, is applied to the modulator. The output of the modulator then contains various components resulting from the pilot signal. An error signal is generated, preferably coherently, based on one of these components, termed the pilot component, which preferably is located at the difference frequency of the two pilot tones. A bias signal which controls the bias point of the modulator is adjusted based on the error signal. The coherent generation of the error signal facilitates feedback loops based on phase and/or amplitude control and also supports locking the electro-optic modulator to a bias point with a preselected slope (either negatively or positively sloping).

124 Citations

31 Claims

1. A bias control system for automatically controlling a bias point of an electro-optic modulator, wherein the electro-optic modulator has an electrical input, an optical input and an optical output, for modulating an optical carrier received at the optical input by an electrical signal received at the electrical input to produce a modulated optical signal at the optical output, the bias control system comprising:
- a pilot signal generator for generating a pilot signal applicable to the electrical input of the electro-optic modulator and further for generating a coherency reference signal;
  
  an optical sampler for sampling the optical output of the electro-optic modulator, wherein the sampled optical output includes a pilot component resulting from the pilot signal;
  
  a coherent feedback circuit coupled to the optical sampler and to the pilot signal generator for coherently generating an error signal based on the coherency reference signal and on the pilot component in the sampled optical output; and
  
  a bias generator coupled to the coherent feedback circuit for generating a bias signal responsive to the error signal, the bias signal applicable to the electrical input of the electro-optic modulator for controlling the bias point of the electro-optic modulator.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The bias control system of claim 1 wherein:
    - the pilot signal generator comprises a coherent dual pilot tone generator for generating first and second pilot tones applicable to the electrical input of the electro-optic modulator, the first and second pilot tones coherent with each other and characterized by first and second frequencies, respectively;
      
      the coherency reference signal comprises a phase reference signal synchronized with the first and second pilot tones;
      
      the pilot component results from the first and second pilot tones; and
      
      the coherent feedback circuit is further for coherently generating the error signal based on the phase reference signal and on the pilot component.
  - 3. The bias control system of claim 2 wherein the dual pilot tone generator comprises:
    - a reference oscillator for generating a periodic signal;
      
      a first frequency divider coupled to the reference oscillator for frequency dividing the periodic signal by a first factor to generate the first pilot tone; and
      
      a second frequency divider coupled to the reference oscillator for frequency dividing the periodic signal by a second factor to generate the second pilot tone.
  - 4. The bias control system of claim 3 wherein:
    - the reference oscillator includes a digital reference oscillator for generating a reference clock;
      
      the first frequency divider frequency divides the reference clock by a first integer to generate a first digital signal characterized by the first frequency;
      
      the second frequency divider frequency divides the reference clock by a second integer to generate a second digital signal characterized by the second frequency; and
      
      the dual pilot tone generator further comprises a third frequency divider coupled to the first frequency divider for frequency dividing the first digital signal by a third integer to generate the coherency reference signal.
  - 5. The bias control system of claim 2 wherein the coherent feedback circuit comprises:
    - a synchronous sampler coupled to the optical sampler for synchronously sampling the pilot component, anda conditioning circuit coupled to the synchronous sampler for generating the error signal responsive to the sampled pilot component.
  - 6. The bias control system of claim 5 wherein:
    - the pilot component is periodic; and
      
      the synchronous sampler samples the pilot component at a predetermined time within the period of the pilot component.
  - 7. The bias control system of claim 6 wherein:
    - the synchronous sampler samples the pilot component at a first and a second predetermined time within the period of the pilot component; and
      
      the conditioning circuit compensates for differences in the samples due to differences between the first and second predetermined times.
  - 8. The bias control system of claim 5 wherein:
    - the synchronous sampler samples the pilot component at a peak value of the pilot component.
  - 9. The bias control system of claim 2 wherein:
    - the pilot component comprises a second order component.
  - 10. The bias control system of claim 9 wherein:
    - the second order component comprises a difference component.
  - 11. The bias control system of claim 1 wherein:
    - the coherent feedback circuit coherently generates the error signal further responsive to a preselected slope of the bias point; and
      
      the bias signal is further for maintaining the bias point of the electro-optic modulator at a bias point with the preselected slope.
  - 12. The bias control system of claim 1 wherein:
    - the pilot signal generator comprises;
      
      a dual pilot tone generator for generating first and second pilot tones applicable to the electrical input of the electro-optic modulator, the first and second pilot tones characterized by first and second frequencies, respectively, anda first multiplier for multiplying together the first and second pilot tones to generate the coherency reference signal;
      
      the pilot component results from the first and second pilot tones and is characterized by a pilot component frequency, wherein the coherency reference signal is further characterized by the pilot component frequency; and
      
      the coherent feedback circuit comprises a second multiplier coupled to the first multiplier and the optical sampler for multiplying the coherency reference signal by the pilot component to produce the error signal.
  - 13. The bias control system of claim 1 wherein:
    - the coherent feedback circuit coherently generates the error signal responsive to a polarity of the pilot component.

14. An electro-optic modulator system with automatic bias control comprising:
- a pilot signal generator for generating a pilot signal and for generating a coherency reference signal;
  
  an electro-optic modulator having an electrical input, an optical input and an optical output, the electrical input coupled to the pilot signal generator, the electro-optic modulator for modulating an optical carrier received at the optical input by the pilot signal to produce a modulated optical signal at the optical output, wherein the modulated signal includes a pilot component;
  
  an optical sampler coupled to the optical output of the electro-optic modulator, for sampling the optical output;
  
  a coherent feedback circuit coupled to the optical sampler and to the pilot signal generator for coherently generating an error signal based on the coherency reference signal and on the pilot component;
  
  a bias generator coupled to the coherent feedback circuit and to the electrical input of the electro-optic modulator, for generating a bias signal responsive to the error signal and applying the bias signal to the electrical input of the electro-optic modulator for controlling a bias point of the electro-optic modulator.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. The electro-optic modulator system of claim 14 wherein:
    - the pilot signal generator comprises a coherent dual pilot tone generator for generating first and second pilot tones coherent with each other and characterized by first and second frequencies, respectively;
      
      the coherency reference signal comprises a phase reference signal synchronized with the first and second pilot tones;
      
      the pilot component results from the first and second pilot tones; and
      
      the coherent feedback circuit is further for coherently generating the error signal based on the phase reference signal and on the pilot component.
  - 16. The electro-optic modulator system of claim 15 wherein:
    - the pilot component comprises a second order component.
  - 17. The electro-optic modulator system of claim 15 wherein the coherent feedback circuit comprises:
    - a synchronous sampler coupled to the optical sampler for synchronously sampling the pilot component, anda conditioning circuit coupled to the synchronous sampler for generating the error signal responsive to the sampled pilot component.
  - 18. The electro-optic modulator system of claim 14 wherein:
    - the coherent feedback circuit coherently generates the error signal further responsive to a preselected slope of the bias point; and
      
      the bias signal is further for maintaining the bias point of the electro-optic modulator at a bias point with the preselected slope.
  - 19. The electro-optic modulator system of claim 14 wherein:
    - the coherent feedback circuit coherently generates the error signal responsive to a polarity of the pilot component.

20. In a system comprising an electro-optic modulator having an electrical input, an optical input and an optical output, for modulating an optical carrier received at the optical input by an electrical signal received at the electrical input to produce a modulated optical signal at the optical output, a method for automatically controlling a bias point of the electro-optic modulator comprising the steps of:
- applying a pilot signal to the electrical input of the electro-optic modulator;
  
  generating a coherency reference signal based on the pilot signal;
  
  sampling the optical output of the electro-optic modulator, wherein the sampled optical output includes a pilot component resulting from the pilot signal;
  
  coherently generating an error signal based on the coherency reference signal and on the pilot component;
  
  generating a bias signal responsive to the error signal; and
  
  applying the bias signal to the electrical input of the electro-optic modulator.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
- - 21. The method of claim 20 whereinthe step of generating the pilot signal comprises generating first and second pilot tones coherent with each other and characterized by first and second frequencies, respectively;
    - the coherency reference signal comprises a phase reference signal synchronized with the first and second pilot tones;
      
      the pilot component results from the first and second pilot tones; and
      
      the step of coherently generating the error signal comprises coherently generating the error signal based on the phase reference signal and on the pilot component.
  - 22. The method of claim 21 wherein the step of coherently generating an error signal comprises:
    - synchronously sampling the pilot component, andgenerating the error signal responsive to the sampled pilot component.
  - 23. The method of claim 22 wherein:
    - the pilot component is periodic; and
      
      the step of synchronously sampling the pilot component comprises sampling the pilot component at a predetermined time within the period of the pilot component.
  - 24. The method of claim 21 wherein:
    - the pilot component comprises a second order component.
  - 25. The method of claim 20 wherein the step of coherently generating an error signal comprises:
    - coherently generating the error signal further responsive to a preselected slope of the bias point.
  - 26. The method of claim 20 wherein:
    - the step of generating the pilot signal comprises generating first and second pilot tones characterized by first and second frequencies, respectively;
      
      the step of generating a coherency reference signal comprises multiplying together the first and second pilot tones;
      
      the pilot component results from the first and second pilot tones and is characterized by a pilot component frequency, wherein the coherency reference signal is further characterized by the pilot component frequency; and
      
      the step of coherently generating the error signal comprises multiplying together the pilot component and the coherency reference signal.
  - 27. The method of claim 20 wherein the step of coherently generating the error signal comprises:
    - coherently generating the error signal responsive to a polarity of the pilot component.

28. A bias control system for automatically controlling a bias point of an electro-optic modulator, wherein the electro-optic modulator has an electrical input, an optical input and an optical output, for modulating an optical carrier received at the optical input by an electrical signal received at the electrical input to produce a modulated optical signal at the optical output, the bias control system comprising:
- a dual pilot tone generator for generating first and second pilot tones applicable to the electrical input of the electro-optic modulator, the first and second pilot tones characterized by first and second frequencies, respectively;
  
  an optical sampler for sampling the optical output of the electro-optic modulator;
  
  a difference frequency feedback circuit coupled to the optical sampler for generating an error signal based on a difference component in the sampled optical output, the difference component resulting from the first and second pilot tones and characterized by a difference frequency equal to the difference between the first and second frequencies; and
  
  a bias generator coupled to the feedback circuit for generating a bias signal responsive to the error signal, the bias signal applicable to the electrical input of the electro-optic modulator for controlling the bias point of the electro-optic modulator.
- View Dependent Claims (29)
- - 29. The bias control system of claim 28 wherein:
    - the difference frequency feedback circuit generates the error signal further responsive to a preselected slope of the bias point; and
      
      the bias signal is further for maintaining the bias point of the electro-optic modulator at a bias point with the preselected slope.

30. In a system comprising an electro-optic modulator having an electrical input, an optical input and an optical output, for modulating an optical carrier received at the optical input by an electrical signal received at the electrical input to produce a modulated optical signal at the optical output, a method for automatically controlling a bias point of the electro-optic modulator comprising the steps of:
- applying first and second pilot tones to the electrical input of the electro-optic modulator, the first and second pilot tones characterized by first and second frequencies, respectively;
  
  sampling the optical output of the electro-optic modulator, wherein the sampled optical output includes a difference component resulting from the first and second pilot tones and characterized by a difference frequency equal to the difference between the first and second frequencies;
  
  generating an error signal based on the difference pilot component;
  
  generating a bias signal responsive to the error signal; and
  
  applying the bias signal to the electrical input of the electro-optic modulator.
- View Dependent Claims (31)
- - 31. The method of claim 30 wherein:
    - the step of generating an error signal is further responsive to a preselected slope of the bias point; and
      
      the step of applying the bias signal is further for maintaining the bias point of the electro-optic modulator at a bias point with the preselected slope.

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Current Assignee
Hanger Solutions, LLC (IP Investments Group LLC)
Original Assignee
Kestrel Solutions, Inc.
Inventors
Kou, Abraham H., Swenson, Norman L., Yee, Ting K.
Primary Examiner(s)
Ben, Loha

Application Number

US09/218,731
Time in Patent Office

469 Days
Field of Search

359/245, 359/250, 359/249, 359/237, 359/238, 359/239, 359/181, 359/187, 359/180, 359/276, 359/279, 385/2, 385/3, 385/22, 385/41, 372/12, 372/26
US Class Current

359/245
CPC Class Codes

G02F 1/0516   Operation of the cell; Circ...

G02F 1/212   Mach-Zehnder type

G02F 2202/20   LiNbO3, LiTaO3

G02F 2203/21   Thermal instability, i.e. D...

H04B 10/505   using external modulation

H04B 10/50575   to control the modulator DC...

H04B 10/564   Power control

Automatic bias control for electro-optic modulators

First Claim

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Abstract

124 Citations

31 Claims

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Automatic bias control for electro-optic modulators

First Claim

4 Assignments

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Accused Products

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Abstract

124 Citations

31 Claims

Specification

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