Phase-modulated fiber optic communication link with carrier signal filtering

US 5,724,169 A
Filed: 02/27/1996
Issued: 03/03/1998
Est. Priority Date: 02/27/1996
Status: Expired due to Term

First Claim

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1. A method of creating a phase-modulated fiber optic communication link with carrier signal filtering comprising:

(a) generating an optical carrier signal;

(b) phase modulating said optical carrier signal with a modulated RF signal to produce a phase-modulated optical signal containing said optical carrier signal and a pair of sidebands, the center frequency of one of said sidebands lying above and the center frequency of the other of said sidebands lying below the frequency of said optical carrier signal, one of said sidebands being out of phase by 180 degrees with the other of said sidebands, the power level of said sidebands being substantially less than the power level of said optical carrier signal; and

(c) demodulating said phase-modulated optical signal by;

(i) optically filtering said phase-modulated optical signal to produce at least one output signal containing a part of said optical carrier signal and at least one of said sidebands, the power of said part of said optical carrier signal relative to the power of said at least one sideband being substantially reduced by said optical filtering; and

(ii) recovering said modulated RF signal by applying said at least one output signal to a photodiode detector.

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Abstract

A phase-modulated fiber optic communication link (9) with carrier signal filtering is disclosed. The phase-modulated fiber optic communication link (9) includes a laser (11) that produces a optical carrier signal that is conveyed by an optical fiber (13) to a phase modulator (15). A modulated RF signal phase modulates the optical carrier signal and produces a phase-modulated signal comprising a carrier component (27), an upper sideband (29), and a lower sideband (31). The upper and lower sidebands are out of phase by 180 degrees. The phase-modulated signal is conveyed by an optical fiber to a delay line filter (21). In one embodiment of the invention, the delay line filter (21) attenuates the power of the optical carrier signal and passes the sidebands substantially unattenuated. One of the sidebands is phase shifted by 180 degrees by the delay line filter. The output of the delay line filter is applied to a photodiode detector (23), which recovers the RF modulated signal. In an alternative embodiment of the invention, the delay line filter (76) divides the phase-modulated signal into two signals, each containing a part of the optical carrier signals and one of the sidebands. One of the two signals is phase shifted with respect to the other signal, whereby the sidebands contained in the two signals are in phase. The signals are applied to two photodiodes (88, 89) whose outputs are combined in a differential detector (90) resulting in the recovery of the RF modulated signal.

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21 Claims

1. A method of creating a phase-modulated fiber optic communication link with carrier signal filtering comprising:
- (a) generating an optical carrier signal;
  
  (b) phase modulating said optical carrier signal with a modulated RF signal to produce a phase-modulated optical signal containing said optical carrier signal and a pair of sidebands, the center frequency of one of said sidebands lying above and the center frequency of the other of said sidebands lying below the frequency of said optical carrier signal, one of said sidebands being out of phase by 180 degrees with the other of said sidebands, the power level of said sidebands being substantially less than the power level of said optical carrier signal; and
  
  (c) demodulating said phase-modulated optical signal by;
  
  (i) optically filtering said phase-modulated optical signal to produce at least one output signal containing a part of said optical carrier signal and at least one of said sidebands, the power of said part of said optical carrier signal relative to the power of said at least one sideband being substantially reduced by said optical filtering; and
  
  (ii) recovering said modulated RF signal by applying said at least one output signal to a photodiode detector.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method claimed in claim 1 wherein demodulating said phase-modulated signal includes phase shifting one of said sidebands by 180 degrees so that both of said sidebands are in phase.
  - 3. The method claimed in claim 2 wherein two output signals are produced by the optical filtering and phase shifting of said phase-modulated optical signal, each of said output signals including a part of said optical carrier signal and one of said sidebands, the power of said part of said optical carrier signal relative to the power of the sideband being substantially reduced by said optical filtering.
  - 4. The method claimed in claim 2 wherein two output signals are produced by the optical filtering of said phase-modulated optical signal, each of said output signals including a part of said optical carrier signal and one of said sidebands, the power of said part of said optical carrier signal relative to the power of the sideband being substantially reduced by said optical filtering.
  - 5. The method of claim 1 wherein said optical filtering of said phase-modulated optical signal to produce at least one output signal containing a part of said optical carrier signal and at least one of said sidebands comprises passing said phase-modulated optical signal through an optical filter having a sinusoidal amplitude transfer function.
  - 6. The method of claim 5 wherein said optical filter is a delay line filter.

7. A phase-modulated fiber optic communication link with carrier signal filtering comprising:
- (a) a laser for producing an optical carrier signal;
  
  (b) an optical fiber for conveying said optical carrier signal to a phase modulator;
  
  (c) phase modulator for receiving said optical carrier signal and phase modulating said optical carrier signal with a modulated RF signal to produce a phase-modulated optical signal containing said optical carrier signal and a pair of sidebands, the center frequency of one of said sidebands lying below the frequency of said optical carrier signal and the center frequency of the other of said sidebands lying above the frequency of said optical carrier signal, said sidebands being out of phase by 180 degrees with each other, the power level of said sidebands being substantially less than the power level of said optical carrier signal;
  
  (d) an optical fiber for conveying said phase-modulated optical signal to a demodulator; and
  
  (e) a demodulator for receiving and demodulating said phase-modulated optical signal, said demodulation including;
  
  (i) an optical filter for optically filtering said phase-modulated optical signal and producing at least one output signal containing a part of said optical carrier signal and at least one of said sidebands, the power of said part of said optical carrier signal relative to the power of said at least one sideband being substantially reduced by said optical filter; and
  
  (ii) a photodiode detector for receiving the at least one output of said optical filter and recovering said modulated RF signal.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 8. The apparatus claimed in claim 7 wherein said optical filter also phase shifts one of said sidebands by 180 degrees so both of said sidebands are in phase.
  - 9. The apparatus claimed in claim 8 wherein said at least one output signal includes said part of said optical carrier signal and both of said sidebands.
  - 10. The apparatus claimed in claim 9 wherein said photodiode detector includes a single photodiode.
  - 11. The apparatus claimed in claim 9 wherein said optical filter has a sinusoidal amplitude transfer function.
  - 12. The apparatus claimed in claim 11 wherein said optical filter has a step phase transfer function.
  - 13. The apparatus claimed in claim 12 wherein said step phase transfer function is located in the null of said sinusoidal amplitude transfer function.
  - 14. The apparatus claimed in claim 13 wherein said photodiode detector includes a single photodiode.
  - 15. The apparatus claimed in claim 8 wherein said optical filter produces two output signals, each of said output signals including part of said optical carrier signal and one of said sidebands.
  - 16. The apparatus claimed in claim 15 wherein said photodiode detector includes two photodiodes, one for receiving each of the two output signals of said optical filter and a differential detector connected to said two photodiodes for combining the electrical signals produced by said two photodiodes.
  - 17. The apparatus claimed in claim 15 wherein said optical filter has a sinusoidal amplitude transfer function.
  - 18. The apparatus claimed in claim 17 wherein said optical filter has a step phase transfer function.
  - 19. The apparatus claimed in claim 18 wherein said step phase transfer function is located in the null of said sinusoidal amplitude transfer function.
  - 20. The apparatus claimed in claim 17 wherein said photodiode detector includes two photodiodes, one for receiving each of the two output signals of said optical filter and a differential detector connected to said two photodiodes for combining the electrical signals produced by said two photodiodes.
  - 21. The apparatus claimed in claim 7 wherein said optical filter is a delay line filter.

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Current Assignee
The Boeing Co.
Original Assignee
The Boeing Co.
Inventors
LaGasse, Michael J.
Primary Examiner(s)
NEGASH, KINFE MICHAEL

Application Number

US08/607,366
Time in Patent Office

735 Days
Field of Search

359/154, 359/161, 359/173, 359/181, 359/183, 359/188, 359/195, 359/279, 455/42
US Class Current

398/141
CPC Class Codes

H04B 10/25758 between a central unit and ...

Phase-modulated fiber optic communication link with carrier signal filtering

First Claim

1 Assignment

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Abstract

47 Citations

21 Claims

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Phase-modulated fiber optic communication link with carrier signal filtering

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

47 Citations

21 Claims

Specification

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Solutions

Use Cases

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