Bit-rate transparent WDM optical communication system with remodulators
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First Claim
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1. A wavelength division multiplexed optical communication system for transmitting a plurality of optical communication channels on an optical waveguide, each optical communication channel having a distinct channel wavelength, the optical communication system comprising:
- a first set of one or more optical transmitters, each optical transmitter configured to transmit an information-bearing optical signal at a particular wavelength;
one or more remodulators optically communicating with the optical transmitters in the first set of optical transmitters, the remodulators placing information from the information-bearing optical signals of the first set of optical transmitters onto optical channels in the wavelength division multiplexed optical communication system, each of the remodulators comprising;
an optical-to-electrical conversion element for receiving a transmitter information-bearing optical signal and outputting an electrical signal corresponding to information from the transmitter optical signal;
means for receiving the electrical signal output by optical-to-electrical conversion element and separating the received signal into N electrical signals, where N is a whole number greater than or equal to 2;
N means for creating optical signals including the information from each of the N electrical signals, each of the N optical signal-creating means communicating with the means for separating the received signal into N electrical signals, the N optical signal-creating means each outputting an information-bearing optical signal corresponding to an optical channel in the wavelength division optical communication system;
an optical waveguide;
an optical combining element optically communicating with the optical channels produced by the remodulators, the optical combining element combining the remodulator optical channels to form a multiplexed optical signal output to the optical waveguide;
a plurality of optical selectors optically communicating with the optical waveguide, each optical selector configured to select one or more optical channels in the wavelength division multiplexed optical communication system; and
a plurality of optical receivers optically communicating with the optical selectors.
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Abstract
The present invention provides improved compatibility between optical transmitters of various data rates and WDM optical communication systems. In the present invention, optical remodulators are configured to receive an optical signal, separate the information from that optical signal into N information streams (where N is a whole number greater than or equal to 2), and place the information onto N optical channels within the channel plan of a WDM optical system. Alternatively, the present invention provides optical remodulators configured to receive N optical signals, combine the information from the N optical signals, and place the information onto a single output optical channel having a wavelength within the channel plan of a WDM optical system.
120 Citations
13 Claims
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1. A wavelength division multiplexed optical communication system for transmitting a plurality of optical communication channels on an optical waveguide, each optical communication channel having a distinct channel wavelength, the optical communication system comprising:
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a first set of one or more optical transmitters, each optical transmitter configured to transmit an information-bearing optical signal at a particular wavelength; one or more remodulators optically communicating with the optical transmitters in the first set of optical transmitters, the remodulators placing information from the information-bearing optical signals of the first set of optical transmitters onto optical channels in the wavelength division multiplexed optical communication system, each of the remodulators comprising; an optical-to-electrical conversion element for receiving a transmitter information-bearing optical signal and outputting an electrical signal corresponding to information from the transmitter optical signal; means for receiving the electrical signal output by optical-to-electrical conversion element and separating the received signal into N electrical signals, where N is a whole number greater than or equal to 2; N means for creating optical signals including the information from each of the N electrical signals, each of the N optical signal-creating means communicating with the means for separating the received signal into N electrical signals, the N optical signal-creating means each outputting an information-bearing optical signal corresponding to an optical channel in the wavelength division optical communication system; an optical waveguide; an optical combining element optically communicating with the optical channels produced by the remodulators, the optical combining element combining the remodulator optical channels to form a multiplexed optical signal output to the optical waveguide; a plurality of optical selectors optically communicating with the optical waveguide, each optical selector configured to select one or more optical channels in the wavelength division multiplexed optical communication system; and a plurality of optical receivers optically communicating with the optical selectors. - View Dependent Claims (2, 3, 4, 5)
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6. A wavelength division multiplexed optical communication system comprising:
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an optical transmitter which produces a modulated optical signal; an optical remodulator optically communicating with the optical transmitter, for placing information from the modulated optical signal of the optical transmitter onto plural optical channels in the wavelength division multiplexed optical communication system, the remodulator comprising; an optical-to-electrical conversion element for receiving the transmitter modulated optical signal and outputting an electrical signal corresponding to information from the transmitter optical signal; an electrical demultiplexer for receiving the electrical signal output by optical-to-electrical conversion element and separating the received signal into N electrical signals, where N is a whole number greater than or equal to 2, N remodulator lasers for emitting continuous wave optical carrier signals, the wavelength of each of the optical carrier signal being the wavelength of an optical channel in the wavelength division multiplexed optical communication system; N modulators for modulating each of the optical carrier signals emitted by the remodulator lasers, each of the N modulators communicating with one of the N electrical signals output from the separating means for imparting the information from the electrical signal to the to the optical signal through the modulator to create an information-bearing optical signal corresponding to an optical channel in the wavelength division optical communication system; an optical waveguide; an optical combining element optically communicating with the optical channels produced by the remodulators, the optical combining element combining the remodulator optical channels to form a multiplexed optical signal output to the optical waveguide; a plurality of optical selectors optically communicating with the optical waveguide, each optical selector configured to select one or more optical channels in the wavelength division multiplexed optical communication system; a plurality of optical receivers optically communicating with the optical selectors; and an electrical multiplexer for creating a multiplexed electrical signal including the information from each of the optical channels output by the remodulator.
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7. An optical communication apparatus, comprising:
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a first photodetector configured to sense a first optical signal having a first data rate, and generate a first electrical signal in response thereto; an electrical demultiplexing circuit having an input coupled to said first photodetector and a plurality of outputs, said electrical demultiplexing circuit generating each of a plurality of second electrical signals at a respective one of said plurality of outputs in response to said first electrical signal; a plurality of first optical transmitters, each of which being respectively coupled to a respective one of said plurality of outputs of said electrical demultiplexing circuit, said plurality of first optical transmitters generating a plurality of second optical signals, each at a respective one of a plurality of wavelengths and in response to a respective one of said plurality of second electrical signals, at least one of said plurality of second optical signals having a second data rate less than said first data rate; a plurality of second photodetectors, each of which being configured to sense a respective one of said plurality of second optical signals, and generate a respective one of a plurality of third electrical signals in response thereto; an electrical multiplexing circuit having a plurality of inputs, each of which being coupled to a respective one of said second plurality of photodetectors, and an output supplying a fourth electrical signal in response to said plurality of third electrical signals; a second optical transmitter emitting a third optical signal at a third data rate. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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Litigation Data
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Current AssigneeCiena Corporation
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Original AssigneeCiena Corporation
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InventorsTaylor, Michael G.
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Primary Examiner(s)BACARES, RAFAEL D
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Application NumberUS08/820,670Time in Patent Office882 DaysField of Search359/124, 359/125, 359/133, 359/135, 359/161, 359/173, 359/174, 359/176, 359/179, 375/211, 375/214, 375/215US Class Current398/79CPC Class CodesH04J 14/02 Wavelength-division multipl...
