Multiplexing two separate optical links with the same wavelength using asymmetric combining and splitting
First Claim
Patent Images
1. An optical communications system comprising:
- a first optical transmitter and a first optical receiver optically coupled to a first asymmetric optical combiner/splitter, the first asymmetric combiner/splitter coupled to optical media; and
a second optical transmitter and a second optical receiver optically coupled to a second asymmetric optical combiner/splitter, the second asymmetric combiner/splitter remotely coupled to the optical media, wherein;
each asymmetric combiner/splitter comprises a high transmittance ratio and a low transmittance ratio;
the first asymmetric optical combiner/splitter is configured to attenuate a first signal transmitted from the first optical transmitter based on the low transmittance ratio prior to providing the first signal to the optical media;
the second asymmetric optical combiner/splitter is configured to attenuate the first signal received from the optical media based on the high transmittance ratio prior to providing the first signal to the first optical receiver;
the second asymmetric optical combiner/splitter is configured to attenuate a second signal transmitted from the second optical transmitter based on the low transmittance ratio prior to providing the second signal to the optical media;
the first asymmetric optical combiner/splitter is configured to attenuate the second signal received from the optical media based on the high transmittance ratio prior to providing the second signal to the second optical receiver; and
the first optical transmitter and the second optical transmitter are configured to transmit optical signals at substantially a same wavelength.
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Abstract
An optical communications system includes an optical transmitter and an optical receiver optically coupled to an optical combiner/splitter, the combiner/splitter coupled to optical media; and, another optical transmitter and another optical receiver optically coupled to another optical combiner/splitter, the another combiner/splitter remotely coupled to the optical media; wherein the optical transmitter and the another optical transmitter are configured to transmit optical signals at substantially the same wavelength.
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Citations
12 Claims
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1. An optical communications system comprising:
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a first optical transmitter and a first optical receiver optically coupled to a first asymmetric optical combiner/splitter, the first asymmetric combiner/splitter coupled to optical media; and a second optical transmitter and a second optical receiver optically coupled to a second asymmetric optical combiner/splitter, the second asymmetric combiner/splitter remotely coupled to the optical media, wherein; each asymmetric combiner/splitter comprises a high transmittance ratio and a low transmittance ratio; the first asymmetric optical combiner/splitter is configured to attenuate a first signal transmitted from the first optical transmitter based on the low transmittance ratio prior to providing the first signal to the optical media; the second asymmetric optical combiner/splitter is configured to attenuate the first signal received from the optical media based on the high transmittance ratio prior to providing the first signal to the first optical receiver; the second asymmetric optical combiner/splitter is configured to attenuate a second signal transmitted from the second optical transmitter based on the low transmittance ratio prior to providing the second signal to the optical media; the first asymmetric optical combiner/splitter is configured to attenuate the second signal received from the optical media based on the high transmittance ratio prior to providing the second signal to the second optical receiver; and the first optical transmitter and the second optical transmitter are configured to transmit optical signals at substantially a same wavelength. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An optical communications system comprising:
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a first optical transmitter and a first optical receiver optically coupled to a first asymmetric optical combiner/splitter, the first asymmetric combiner/splitter coupled to optical media comprising a single mode optical fiber; and a second optical transmitter and a second optical receiver optically coupled to a second asymmetric optical combiner/splitter, the second asymmetric combiner/splitter remotely coupled to the optical media, wherein; the first optical transmitter and the second optical transmitter are configured to transmit optical signals at substantially a same wavelength; each asymmetric combiner/splitter comprises a high transmittance ratio associated with each of the optical receivers and a low transmittance ratio associated with each of the optical transmitters, the high transmittance ratio and the low transmittance ratio comprising a combination of ratios that is one of 95/5, 90/10, 85/15, 80/20, 75/25, 70/30, and a ratio therebetween; the first asymmetric optical combiner/splitter is configured to attenuate a first signal transmitted from the first optical transmitter based on the low transmittance ratio prior to providing the first signal to the optical media; the second asymmetric optical combiner/splitter is configured to attenuate the first signal received from the optical media based on the high transmittance ratio prior to providing the first signal to the first optical receiver; the second asymmetric optical combiner/splitter is configured to attenuate a second signal transmitted from the second optical transmitter based on the low transmittance ratio prior to providing the second signal to the optical media; and the first asymmetric optical combiner/splitter is configured to attenuate the second signal received from the optical media based on the high transmittance ratio prior to providing the second signal to the second optical receiver.
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8. An optical network comprising:
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an optical fiber; a first plurality of optical transmitters and receivers at a first end of the optical fiber, each first optical transmitter and receiver configured to transmit and receive an optical link; a first asymmetric optical combiner/splitter at the first end of the optical fiber, the first asymmetric optical combiner/splitter configured to combine or split two optical links of a same wavelength on a same media; a second plurality of optical transmitters and receivers at a second end of the optical fiber, each second optical transmitter and receiver configured to transmit and receive the optical link; a second asymmetric optical combiner/splitter at the second end of the optical fiber, the second asymmetric optical combiner/splitter configured to combine or split the two optical links of the same wavelength on the same media; a first course wide division multiplex (CWDM) terminal, the first CWDM terminal connected at a first end to the first plurality of optical transmitters and receivers and the first asymmetric optical combiner/splitter and at a second end to the optical fiber, the first CWDM terminal configured to route optical links bi-directionally between the first plurality of optical transmitters and receivers and the first asymmetric optical combiner/splitter and the second plurality of optical transmitters and receivers; and a second course wide division multiplex (CWDM) terminal, the second CWDM terminal connected at a first end to the second plurality of optical transmitters and receivers and the second asymmetric optical combiner/splitter and at a second end to the optical fiber, the second CWDM terminal configured to route optical links bi-directionally between the second plurality of optical transmitters and receivers and the second asymmetric optical combiner/splitter and the first plurality of optical transmitters and receivers; wherein; a first optical transmitter and a first optical receiver among the first plurality of optical transmitters and receivers is optically coupled to the first asymmetric optical combiner/splitter, the first asymmetric combiner/splitter coupled to the first CWDM terminal; and a second optical transmitter and a second optical receiver among the second plurality of transmitters and receivers is optically coupled to the second asymmetric optical combiner/splitter, the second asymmetric combiner/splitter remotely coupled to the second CWDM terminal, wherein; the first asymmetric combiner/splitter and the second asymmetric combiner/splitter each comprise a high transmittance ratio and a low transmittance ratio; the first asymmetric optical combiner/splitter is configured to attenuate a first signal transmitted from the first optical transmitter based on the low transmittance ratio prior to providing the first signal to the first CWDM terminal; the first CWDM terminal is configured to provide the first signal to the second CWDM terminal over the optical fiber; the second asymmetric optical combiner/splitter is configured to attenuate the first signal received from the second CWDM terminal based on the high transmittance ratio prior to providing the first signal to the second optical receiver; the second asymmetric optical combiner/splitter is configured to attenuate a second signal transmitted from the second optical transmitter based on the low transmittance ratio prior to providing the second signal to the second CWDM terminal; the second CWDM terminal is configured to provide the second signal to the first CWDM terminal over the optical fiber; and the first asymmetric optical combiner/splitter is configured to attenuate the second signal received from the first CWDM terminal based on the high transmittance ratio prior to providing the second signal to the first optical receiver. - View Dependent Claims (9, 10, 11, 12)
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Specification