Optical amplifier having substantially uniform spectral gain
First Claim
1. An optical communication apparatus, comprising:
- a plurality of optical transmitters, each emitting a corresponding one of a plurality of optical signals, each of said plurality of optical signals being at a respective one of a plurality of wavelengths;
an optical combiner having a plurality of inputs, each of which being coupled to a respective one of said plurality of optical transmitters, and an output supplying said plurality of optical signals to a first end portion of an optical communication path;
a plurality of optical amplifiers arranged in series along said optical communication path;
an optical demultiplexer having an input configured to be coupled to a second end portion of said optical communication path, and a plurality of outputs, each of said plurality of outputs of said optical demultiplexer supplying a respective one of said plurality of optical signals;
a plurality of optical receivers, each of which being coupled to a respective one of said plurality of outputs of said optical demultiplexer;
a plurality of received power modules, each of which being coupled to a respective one of said plurality of receivers, each of said plurality of received power modules outputting a respective one of a plurality of power level signals indicative an optical power received at each of said plurality of receivers;
a monitoring circuit coupled to each of said plurality of received power modules, said monitoring circuit receiving said plurality of power level signals and outputting an adjustment signal in response to said plurality of power level signals; and
a plurality of tilt control circuits coupled to each of said plurality of optical amplifiers, each of said plurality of tilt control circuits receiving said adjustment signal from said monitor circuit, said tilt control circuits adjusting a gain tilt associated with each of said optical amplifiers in response to said adjustment signal.
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Accused Products
Abstract
An optical amplifier is disclosed having substantially uniform spectral gain. The amplifier comprises a variable optical attenuator coupled between first and second segments of active optical fiber. The attenuation of the optical attenuator is adjusted in accordance with the optical power input to the amplifier to thereby obtain substantially flattened gain. Alternatively, the attenuator can be controlled based on the respective gains associated with the first and second segments of optical fiber. For example, the attenuator can be adjusted so that so that the sum of the two gains remains substantially constant, a condition that also yields flat spectral gain. Further, optical powers associated with first and second wavelengths of amplified stimulated emission (ASE) light output from the amplifier can be used to adjust the attenuation of the optical attenuator. In an additional example, received optical powers associated with each of the channels in a WDM system are monitored and the attenuators within each amplifier in the system are controlled so that the received powers are substantially equal.
61 Citations
12 Claims
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1. An optical communication apparatus, comprising:
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a plurality of optical transmitters, each emitting a corresponding one of a plurality of optical signals, each of said plurality of optical signals being at a respective one of a plurality of wavelengths; an optical combiner having a plurality of inputs, each of which being coupled to a respective one of said plurality of optical transmitters, and an output supplying said plurality of optical signals to a first end portion of an optical communication path; a plurality of optical amplifiers arranged in series along said optical communication path; an optical demultiplexer having an input configured to be coupled to a second end portion of said optical communication path, and a plurality of outputs, each of said plurality of outputs of said optical demultiplexer supplying a respective one of said plurality of optical signals; a plurality of optical receivers, each of which being coupled to a respective one of said plurality of outputs of said optical demultiplexer; a plurality of received power modules, each of which being coupled to a respective one of said plurality of receivers, each of said plurality of received power modules outputting a respective one of a plurality of power level signals indicative an optical power received at each of said plurality of receivers; a monitoring circuit coupled to each of said plurality of received power modules, said monitoring circuit receiving said plurality of power level signals and outputting an adjustment signal in response to said plurality of power level signals; and a plurality of tilt control circuits coupled to each of said plurality of optical amplifiers, each of said plurality of tilt control circuits receiving said adjustment signal from said monitor circuit, said tilt control circuits adjusting a gain tilt associated with each of said optical amplifiers in response to said adjustment signal.
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2. A method for transmitting a plurality of optical signals through an optical communication path, each of said plurality of optical signals being at a respective one of a plurality of wavelengths, said method comprising the steps of:
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generating each of said plurality of optical signals at a respective one of a plurality of optical transmitters; combining said plurality of optical signals onto said optical communication path; amplifying said plurality of optical signals with a plurality of optical amplifiers coupled in series along said optical communication path; demultiplexing said plurality of optical signals; detecting a received power associated with each of said demultiplexed plurality of optical signals; and adjusting a gain associated with each of said plurality of optical amplifiers based on said received power associated with each of said demultiplexed plurality of optical signals such that said received power associated with each of said demultiplexed plurality of optical signals is substantially the same. - View Dependent Claims (3)
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4. An optical amplification device, comprising:
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an input port coupled to an optical communication path carrying a plurality of optical signals, each at a respective one of a plurality of wavelengths; a first segment of active optical fiber having a first end portion coupled to said input port, and a second end portion, said first segment of active optical fiber receiving said plurality of optical signals through said first end portion and outputting said plurality of optical signals through said second end portion; an optical attenuator having an input port coupled to said second end portion of said first segment of optical fiber, said optical attenuator having a control port that receives an attenuation control signal, and an output port, said input port of said optical attenuator receiving said plurality of optical signals; a second segment of active optical fiber having a first end portion coupled to said output port of said optical attenuator and a second end portion, said plurality of optical signals propagating through said optical attenuator and being supplied to said first end portion of said second segment of active optical fiber via said output port of said optical attenuator, said plurality of optical signals being output from said second segment of active optical fiber via said second end portion of said second segment of active optical fiber; and a control circuit configured to be coupled to said input port of said optical amplification device, said control circuit sensing an optical power of at least one of said plurality of optical signals, and outputting said attenuation control signal in response to said optical power, said optical attenuator attenuating said plurality of optical signals in response to said attenuation control signal such that a power associated with each of said plurality of optical signals output from said second end portion of said second segment of active optical fiber is substantially the same. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12)
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Specification