Apparatus for simultaneous OTDM demultiplexing, electrical clock recovery and optical clock generation, and optical clock recovery

US 20050018271A1
Filed: 03/16/2004
Published: 01/27/2005
Est. Priority Date: 03/26/2003
Status: Abandoned Application

First Claim

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1. A traveling-wave electroabsorption modulator configured to function simultaneously as a photodetector, a demultiplexer, and an optical pulse generator for clock-recovery and demultiplexing.

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Abstract

An apparatus for simultaneous OTDM demultiplexing, electrical clock recovery and optical clock generation, and optical clock recovery using a traveling-wave electroabsorption modulator. The apparatus includes a TW-EAM and a PLL coupled thereto. The TW-EAM includes a first, a second, a third, and a fourth. The first port is used for an optical input and the third port is used for optical output. The second port is coupled to an input, and the fourth port is coupled to an output, of the PLL. When the first port receives optical input, the second port produces a photocurrent to be applied to the PLL, and the fourth port receives a recovered clock produced by the PLL, and the third port produces demultiplexed data and an optical clock. Using the same configuration, the apparatus produces a recovered optical clock signal.

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23 Claims

1. A traveling-wave electroabsorption modulator configured to function simultaneously as a photodetector, a demultiplexer, and an optical pulse generator for clock-recovery and demultiplexing.

2. An apparatus for simultaneous photodetection, demultiplexing and optical pulse generation, comprising:
- a traveling-wave electroabsorption modulator; and
  
  a phase-locked loop (PLL) coupled to said traveling-wave electroabsorption modulator, wherein said traveling-wave electroabsorption modulator and said PLL are configured for simultaneous photodetection, demultiplexing and optical pulse generation at a line rate of about 40 Gb/s.
- View Dependent Claims (3)
- - 3. An apparatus as recited in claim 2, wherein said traveling-wave electroabsorption modulator includes a first port coupled to the PLL and configured to output a photocurrent, and a second port coupled to the PLL, wherein the photocurrent from the first port of said traveling-wave electroabsorption modulator provides a tone to said PLL, and wherein said PLL provides a recovered electrical clock signal to the second port of said traveling-wave electroabsorption modulator.

4. An apparatus for simultaneous photodetection, demultiplexing and optical pulse generation, comprising:
- a traveling-wave electroabsorption modulator, and a phase-locked loop (PLL) coupled to said traveling-wave electroabsorption modulator, wherein said traveling-wave electroabsorption modulator and said PLL provide simultaneous photodetection, demultiplexing and optical pulse generation at a line rate of about 40 Gb/s.
- View Dependent Claims (5)
- - 5. An apparatus as recited in claim 4, wherein said traveling-wave electroabsorption modulator includes a first port coupled to the PLL and configured to output a photocurrent, and a second port coupled to the PLL, wherein the photocurrent from the first port of said traveling-wave electroabsorption modulator provides a tone to said PLL, and wherein said PLL provides a recovered electrical clock signal to the second port of said traveling-wave electroabsorption modulator.

6. An apparatus for simultaneous photodetection, demultiplexing and optical pulse generation, comprising:
- a first traveling-wave electroabsorption modulator;
  
  a second traveling-wave electroabsorption modulator in series with said first traveling-wave electroabsorption modulator; and
  
  a phase-locked loop (PLL) coupled to said second traveling-wave electroabsorption modulator, wherein said first and second traveling-wave electroabsorption modulators and said PLL provide simultaneous photodetection, demultiplexing and optical pulse generation at a line rate of about 160 Gb/s.
- View Dependent Claims (7)
- - 7. An apparatus as recited in claim 6, wherein said first traveling-wave electroabsorption modulator includes a first port coupled to said second traveling-wave electroabsorption modulator, wherein said second traveling-wave electroabsorption modulator includes a second port coupled to the PLL and configured to output a photocurrent, and a third port coupled to the PLL, wherein the photocurrent from the second port of said second traveling-wave electroabsorption modulator provides a tone to said PLL, and wherein said PLL provides a recovered electrical clock signal to the third port of said second traveling-wave electroabsorption modulator and to a fourth port of said first traveling-wave electroabsorption modulator.

8. A clock recovery apparatus for an all-optical 3R regenerator, comprising:
- a traveling-wave electroabsorption modulator configured for optical clock recovery and outputting of a recovered optical clock signal to an all-optical 3R regenerator.

9. An apparatus for optical clock recovery, comprising:
- a traveling-wave electroabsorption modulator; and
  
  a phase-locked loop (PLL) coupled to said traveling-wave electroabsorption modulator, wherein photocurrent of the traveling-wave electroabsorption modulator is used to detect data and recover an electrical clock through the PLL, wherein the recovered electrical clock is used to modulate the traveling-wave electroabsorption modulator and generate an optical clock at a different wavelength, and wherein said traveling-wave electroabsorption modulator operates simultaneously as a photodiode and a pulse generator.
- View Dependent Claims (10, 11)
- - 10. An apparatus as recited in claim 9, wherein said traveling-wave electroabsorption modulator includes a first port coupled to the PLL and configured to output a photocurrent, and a second port coupled to the PLL, wherein the photocurrent from the first port of said traveling-wave electroabsorption modulator provides a tone to said PLL, and wherein said PLL provides a recovered electrical clock signal to a second port of said traveling-wave electroabsorption modulator.
  - 11. An apparatus as recited in claim 9, wherein said optical clock is used for all optical 3R regeneration.

12. An apparatus for optical clock recovery, comprising:
- a traveling-wave electroabsorption modulator; and
  
  a phase-locked loop coupled to said traveling-wave electroabsorption modulator, wherein photocurrent of the traveling-wave electroabsorption modulator is used to detect data and recover an electrical clock through the phase locked loop, wherein the recovered electrical clock is used to modulate the traveling-wave electroabsorption modulator and generate an optical clock at a different wavelength, wherein the photocurrent from a first port of said traveling wave electroabsorption modulator provides a tone to said phase-locked loop, wherein said phase locked loop provides a recovered electrical clock signal to a second port of said traveling-wave electroabsorption modulator, and wherein said traveling-wave electroabsorption modulator operates simultaneously as a photodiode and a pulse generator.
- View Dependent Claims (13)
- - 13. An apparatus as recited in claim 12, wherein said optical clock is used for all optical 3R regeneration.

14. An apparatus for simultaneous demultiplexing and optical pulse generation, comprising:
- a traveling-wave electroabsorption modulator (TW-EAM) including a first port for an optical input, a second port, a third port for an optical output, and a fourth port; and
  
  a phase-locked loop (PLL) coupled to the TW-EAM, wherein the second port of the TW-EAM is coupled to an input of the PLL and the fourth port of the TW-EAM is coupled to an output of the PLL, wherein when the TW-EAM receives at the first port OTDM data of a first bit rate with a first wavelength and a continuous wave with a second wavelength, the TW-EAM produces at the second port a photocurrent having a tone of a fundamental frequency determined by the first bit rate, wherein in response to the photocurrent, the PLL generates an electrical clock with a first frequency that is supplied to the fourth terminal of the TW-EAM, and whereby wherein the third terminal of the TW-EAM generates demultiplexed data of a second bit rate with the first wavelength and an optical clock with the first frequency and the second wavelength.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 22, 23)
- - 15. An apparatus as recited in claim 14, wherein the TW-EAM functions as a photodetector and a modulator.
  - 16. An apparatus as recited in claim 14, wherein the first bit rate of the OTDM data is of about 40 Gb/s.
  - 17. An apparatus as recited in claim 14, wherein the first frequency is determined by dividing the fundamental frequency by N (where N is a natural number larger than 1).
  - 18. An apparatus as recited in claim 17, wherein the second bit rate is determined by dividing the first bit rate by N.
  - 19. An apparatus as recited in claim 14, wherein the PLL includes a band-pass filter configured to eliminate the tone.
  - 20. An apparatus defined in claim 14, wherein the PLL includes a voltage controlled oscillator with a same frequency as the first frequency.
  - 22. An apparatus defined in claim 19, wherein the TW-EAM functions as a photodetector and a modulator.
  - 23. An apparatus defined in claim 19, wherein the first bit rate of the OTDM data is of about 40 Gb/s.

21. An apparatus for optical clock recovery, comprising;
- a traveling-wave electroabsorption modulator (TW-EAM) including a first port for an optical input, a second port, a third port for an optical output, and a fourth port; and
  
  a phase-locked loop (PLL) coupled to the TW-EAM, wherein the second port of the TW-EAM is coupled to an input of the PLL and the fourth port of the TW-EAM is coupled to an output of the PLL, wherein when the TW-EAM receives at the first port OTDM data of a first bit rate with a first wavelength and a continuous wave with a second wavelength, the TW-EAM produces at the second port a photocurrent having a tone of a fundamental frequency determined by the first bit rate, wherein in response to the photocurrent, the PLL generates an electrical clock with a same frequency as the fundamental frequency and the electric clock signal is supplied to the fourth terminal of the TW-EAM, wherein the third terminal of the TW-EAM generates an optical clock with a same frequency as the fundamental frequency.

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Current Assignee
KDDI R&D Laboratories Inc. (KDDI Corporation), Regents of the University of California (University of California)
Original Assignee
KDDI R&D Laboratories Inc. (KDDI Corporation), Regents of the University of California (University of California)
Inventors
Bowers, John E., Blumenthal, Daniel J., Chou, Hsu-Feng, Inohara, Ryo, Hu, Zhaoyang, Nishimura, Kohsuke, Usami, Masashi

Application Number

US10/800,625
Publication Number

US 20050018271A1
Time in Patent Office

Days
Field of Search
US Class Current

359/247
CPC Class Codes

H04B 10/61 Coherent receivers

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

Apparatus for simultaneous OTDM demultiplexing, electrical clock recovery and optical clock generation, and optical clock recovery

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

20 Citations

23 Claims

Specification

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Apparatus for simultaneous OTDM demultiplexing, electrical clock recovery and optical clock generation, and optical clock recovery

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

20 Citations

23 Claims

Specification

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Solutions

Use Cases

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