Optical transmitter

US 5,550,667 A
Filed: 08/18/1993
Issued: 08/27/1996
Est. Priority Date: 08/22/1992
Status: Expired due to Fees

First Claim

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1. An optical transmitter (1) for a communications system comprising:

A) a laser (2) generating a carrier that is directly modulated by an energy dispersing signal (V) for providing a modulated carrier (2b, 3a);

B) an optical intensity modulator (3) having a characteristic curve with a non-linearity caused primarily by second- and third-order distortions, said optical intensity modulator being operated at an inflection point of said characteristic curve to compensate for said second-order distortions, said optical intensity modulator receiving the modulated carrier (2b, 3a) and an intelligence signal (N), said optical intensity modulator indirectly modulating said modulated carrier with the intelligence signal (N); and

C) means for generating the energy-dispersing signal (V) (6;

7,

8) so that the energy-dispersing signal (V) is a signal for compensating the non-linearity of at least the third-order distortions of the optical intensity modulator (3).

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Abstract

A laser (2) of an optical transmitter (1) for the transmission of an analog broadband signal for CATV in particular, can be amplitude-modulated in two different manners with an intelligence signal (N). Direct modulation can lead to an undesired additional frequency modulation. With indirect modulation by means of an optical intensity modulator (3), Brillouin scattering occurs at powers of approximately 10 mW in an optical fiber of the transmission path connected to the optical transmitter (1). Both modulations lead to distortions of the transmitted signal. In order to avoid the disadvantages of both modulations in a technically simple fashion, the carrier emitted from a laser (2) is indirectly modulated with an intelligence signal (N) and the laser (2) also faintly directly modulated with an energy-dispersing signal (V). The faint direct modulation leads to a constant, limited wave length alteration of the optical signal, such that Brillouin scattering is reduced, simultaneously with the avoidance of dispersion distortions.

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16 Claims

1. An optical transmitter (1) for a communications system comprising:
- A) a laser (2) generating a carrier that is directly modulated by an energy dispersing signal (V) for providing a modulated carrier (2b, 3a);
  
  B) an optical intensity modulator (3) having a characteristic curve with a non-linearity caused primarily by second- and third-order distortions, said optical intensity modulator being operated at an inflection point of said characteristic curve to compensate for said second-order distortions, said optical intensity modulator receiving the modulated carrier (2b, 3a) and an intelligence signal (N), said optical intensity modulator indirectly modulating said modulated carrier with the intelligence signal (N); and
  
  C) means for generating the energy-dispersing signal (V) (6;
  
  7,
  
  8) so that the energy-dispersing signal (V) is a signal for compensating the non-linearity of at least the third-order distortions of the optical intensity modulator (3).
- View Dependent Claims (2, 3, 4)
- - 2. An optical transmitter as claimed in claim 1, characterized in that the laser (2) is a semiconductor laser, and wherein the optical transmitter further comprises an optical amplifier (5) connected to the output of the optical intensity modulator (3).
  - 3. An optical transmitter as claimed in claim 1, characterized in that the optical intensity modulator (3) is a Mach-Zehnder interferometer.
  - 4. An optical transmitter as claimed in claim 1, characterized in that the intelligence signal (N) is an analog broadband signal.

5. An optical transmitter (1) for a communications system comprising:
- A) a laser (2) generating a carrier that is directly modulated by an energy dispersing signal (V);
  
  B) an optical intensity modulator (3) for receipt of the modulated carrier (2b, 3a) and for receipt of an intelligence signal (N), said optical intensity modulator indirectly modulating said modulated carrier with the intelligence signal (N);
  
  C) a splitter (10) having an input connected to the intelligence signal (N), and also having first and second splitter outputs, the first splitter output for connection to the optical intensity modulator (3); and
  
  D) a pre-distortion circuit (6) for receipt of the second splitter output, for converting the intelligence signal (N) into the energy-dispersing signal (V), which is a signal derived from the intelligence signal (N) and further so that the energy-dispersing signal (V) serves to compensate for the non-linearity of the optical intensity modulator (3).
- View Dependent Claims (6, 7, 8)
- - 6. An optical transmitter as claimed in claim 5, characterized in that the laser (2) is a semiconductor laser, and wherein the optical transmitter further comprises an optical amplifier (5) connected to the output of the optical intensity modulator (3).
  - 7. An optical transmitter as claimed in claim 5, characterized in that the optical intensity modulator (3) is a Mach-Zehnder interferometer.
  - 8. An optical transmitter as claimed in claim 5, characterized in that the intelligence signal (N) is an analog broadband signal.

9. An optical transmitter (1) for a communications system comprising:
- A) a laser (2) generating a carrier that is directly modulated by an energy dispersing signal (V);
  
  B) an optical intensity modulator (3) for receipt of the modulated carrier (2b, 3a) and for receipt of an intelligence signal (N), said optical intensity modulator indirectly modulating said modulated carrier with the intelligence signal;
  
  C) a first pre-distortion circuit (7) to compensate for amplitude modulation of the laser output caused by direct modulation of the laser by the energy-dispersing signal (V), wherein the output of the first predistortion circuit (7) is combined with the intelligence signal (N); and
  
  D) a second pre-distortion circuit (8) connected to the output of the first pre-distortion circuit (7) and to the intelligence signal (N) for compensating for additional non-linearities of the optical transmitter.
- View Dependent Claims (10, 11, 12)
- - 10. An optical transmitter as claimed in claim 9, characterized in that the laser (2) is a semiconductor laser, and wherein the optical transmitter further comprises an optical amplifier (5) connected to the output of the optical intensity modulator (3).
  - 11. An optical transmitter as claimed in claim 9, characterized in that the optical intensity modulator (3) is a Mach-Zehnder interferometer.
  - 12. An optical transmitter as claimed in claim 9, characterized in that the intelligence signal (N) is an analog broadband signal.

13. A transmitter module (11) for an optical transmitter (1) of a communications systems, comprising;
- A) a laser (2) having an input and an output (2b), the input receiving an energy-dispersing signal (V) so that the generated output of the laser is directly modulated by the energy-dispersing signal; and
  
  B) an optical amplifier (9) having an input (9a) for receipt of the laser output, and an output (9b), the output of the amplifier being the output (S) of the transmitter module (11), the amplifier having means such that the amplitude variation of output (S) is suppressed, so that when output (S) is modulated by an intelligence signal (N) at an intensity modulator (3), the pre-distortion of output (S) reduces distortion of the amplified output (A) of intensity modulator (3).
- View Dependent Claims (14, 15, 16)
- - 14. A transmitter module as claimed in claim 13, wherein the optical amplifier (9) has a light amplifying substance having an average life span of energy states generated by stimulation by a pumping light generated from an integrated pumping light source, and wherein the frequency of the energy-dispersing signal (V) is lower than the reciprocal value of the average life span of the energy states of the light amplifying substance of the optical amplifier (9) stimulated by a pumping light generated from an integrated pumping light source in the optical amplifier (9).
  - 15. A transmitter module as claimed in claim 14, characterized in that the optical amplifier (9) is operated at an operating point (AP) located in the saturation region of its static output-input power curve (FIG. 5).
  - 16. A transmitter module as claimed in claim 13, characterized in that the optical amplifier (9) is a fiber optic amplifier.

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Current Assignee
Alcatel NV (Nokia Corporation)
Original Assignee
Alcatel NV (Nokia Corporation)
Inventors
Bulow, Henning, Otterbach, Jurgen, Krimmel, Heinz, Heidemann, Rolf
Primary Examiner(s)
Boudreau, Leo
Assistant Examiner(s)
NEGASH, KINFE MICHAEL

Application Number

US08/108,325
Time in Patent Office

1,105 Days
Field of Search

359/160-161, 359/180-183, 372/6,26,38, 375/60, 328/162
US Class Current

398/194
CPC Class Codes

H04B 10/2537 due to scattering processes...

Optical transmitter

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Optical transmitter

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