Signal regenerator
First Claim
Patent Images
1. A signal regenerator comprising:
- a first beam splitter that splits an input optical signal;
first and second semiconductor optical amplifiers respectively connected to an output stage of the first beam splitter and having different lengths from each other;
first phase control means connected to an output stage of the first semiconductor optical amplifier;
a first optical coupler that couples optical signals output from the first phase control means and the second semiconductor optical amplifier;
a second beam splitter connected to an output stage of the first optical coupler;
first and second waveguides respectively connected to an output stage of the second beam splitter and having different lengths from each other;
second phase control means connected to the first waveguide;
third and fourth waveguides respectively connected to output stages of the second phase control means and the second waveguide and having different lengths from each other; and
a second optical coupler that couples optical signals output from the third and fourth waveguides.
1 Assignment
0 Petitions
Accused Products
Abstract
Provided is a signal regenerator for correcting distortion of an optical signal transmitted via an optical fiber in an optical communication system, which includes semiconductor optical amplifiers having different lengths from each other, an asymmetric Mach-Zehnder interferometer that performs 2R (re-amplifying, re-shaping) regeneration, and a delay interferometer with optical waveguides having different lengths from each other, whereby the fabrication is easy and a high-speed signal regeneration is enable.
9 Citations
7 Claims
-
1. A signal regenerator comprising:
-
a first beam splitter that splits an input optical signal;
first and second semiconductor optical amplifiers respectively connected to an output stage of the first beam splitter and having different lengths from each other;
first phase control means connected to an output stage of the first semiconductor optical amplifier;
a first optical coupler that couples optical signals output from the first phase control means and the second semiconductor optical amplifier;
a second beam splitter connected to an output stage of the first optical coupler;
first and second waveguides respectively connected to an output stage of the second beam splitter and having different lengths from each other;
second phase control means connected to the first waveguide;
third and fourth waveguides respectively connected to output stages of the second phase control means and the second waveguide and having different lengths from each other; and
a second optical coupler that couples optical signals output from the third and fourth waveguides. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
Specification