Erbium-doped fiber amplifier with automatic gain control
First Claim
1. A coherent optical communication transmission system, comprising:
- light sources connected to provide narrowband light signals centered around signal wavelengths λ
Sn,optical multiplexers connected to multiplex said light signals onto optical fibers,demultiplexers connected to demultiplex said light signals,optical receivers connected to receive said demultiplexed light signals from said demultiplexers, anda laser cavity gain controlled EDFA connected to provide gain for said light signals, wherein said laser cavity gain controlled EDFA includesan EDFA connected to receive a plurality of narrowband light signals having wavelengths centered on signal wavelengths λ
Sn, anda laser cavity connected so as to provide the EDFA with negative feedback and thereby clamp the gain of said EDFA, the lasing wavelength of said laser cavity being selected such that the saturation power at the laser wavelength is less than that at the signal wavelengths.
8 Assignments
0 Petitions
Accused Products
Abstract
An Erbium doped fiber amplifier (EDFA) is placed in a laser cavity to clamp the gain of the amplifier. The laser cavity is preferably formed to minimize the effects of relaxation oscillations and of spectral hole burning. In a preferred embodiment, the laser cavity supports a lasing wavelength which makes the saturation energy at the laser wavelength less than that at the signal wavelengths. In an erbium doped fiber implementation, the laser wavelength is shorter than that of the signal wavelengths and is separated from them by no more than approximately 75% of the width of the spectral hole. The compounding of relaxation oscillations may be substantially eliminated by varying the length of the fiber within each laser cavity within a system to change the photon round-trip time within each cavity.
-
Citations
12 Claims
-
1. A coherent optical communication transmission system, comprising:
-
light sources connected to provide narrowband light signals centered around signal wavelengths λ
Sn,optical multiplexers connected to multiplex said light signals onto optical fibers, demultiplexers connected to demultiplex said light signals, optical receivers connected to receive said demultiplexed light signals from said demultiplexers, and a laser cavity gain controlled EDFA connected to provide gain for said light signals, wherein said laser cavity gain controlled EDFA includes an EDFA connected to receive a plurality of narrowband light signals having wavelengths centered on signal wavelengths λ
Sn, anda laser cavity connected so as to provide the EDFA with negative feedback and thereby clamp the gain of said EDFA, the lasing wavelength of said laser cavity being selected such that the saturation power at the laser wavelength is less than that at the signal wavelengths. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A coherent optical communication transmission system, comprising:
-
a plurality of light sources and local oscillators connected to mixers to provide a plurality of mixed light signals, an optical combiner connected to combine the plurality of mixed light signals into a combined light signal, a laser connected to said combiner, said laser being operative to provide a carrier for the combined light signal, a laser cavity gain controlled EDFA connected to amplify the combined light signal, wherein said laser cavity gain controlled EDFA includes an EDFA connected to receive mixed light signals and a laser cavity connected so as to provide the EDFA with negative feedback and thereby clamp the gain of said EDFA, the lasing wavelength of said laser cavity being selected such that the saturation power at the laser wavelength is less than that at the signal wavelengths, a detector connected to detect the amplified combined light signal, a divider connected to said detector to receive and divide the amplified combined light signal into a plurality of mixed light signals, and a plurality of mixers and local oscillators connected to unmix said mixed light signals to recover the plurality of light sources. - View Dependent Claims (9, 10, 11, 12)
-
Specification