Method and apparatus for free-space optical communication without electro-optical conversion
First Claim
Patent Images
1. A method of optical communication, comprising the steps of receiving an optical signal from a frees pace link with a receive element;
- directing the optical signal received from the free-space link by the receive element into a fiber amplifier that is optically coupled to the receive element;
optically coupling the optical signal from the fiber amplifier into a fiber optic link of a terrestrial optical communication network; and
controlling a power gain of the fiber amplifier in response to the optical signal.
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Abstract
Erbium doped fiber amplifiers (ERDAS) optically couple optical signals between free-space and fiber optic links of a terrestrial optical communication network. The optical gain of transmitting and receiving ERDAs is controlled to achieve good optical signal communication. Control occurs in response to signals received at the transmitting and receiving ends of the links. Control, status and management information may be communicated optically between link head stations. The physical position of transceivers at opposite ends of the link optical signal paths is also controlled.
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Citations
10 Claims
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1. A method of optical communication, comprising the steps of receiving an optical signal from a frees pace link with a receive element;
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directing the optical signal received from the free-space link by the receive element into a fiber amplifier that is optically coupled to the receive element;
optically coupling the optical signal from the fiber amplifier into a fiber optic link of a terrestrial optical communication network; and
controlling a power gain of the fiber amplifier in response to the optical signal.
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2. An apparatus for use in optical communications, comprising:
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a receive element configured to receive an optical signal from a free-space link;
a fiber amplifier that is optically coupled to the receive element and that is configured to amplify the optical signal;
an optical apparatus configured to optically couple the optical signal from the fiber amplifier into a fiber optic link of a terrestrial optical communication network; and
a controller configured to control a power gain of the fiber amplifier in response to the optical signal.
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3. A method of optical communication, comprising the steps of:
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optically coupling a first optical signal from a fiber optic link of a terrestrial optical communication network into a fiber amplifier;
amplifying the first optical signal with the fiber amplifier;
directing the first optical signal through a free-space link with a beam focusing element optically coupled to the fiber amplifier; and
controlling a power gain of the fiber amplifier in response to a second optical signal received over the free-space link.
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4. An apparatus for use in optical communications, comprising:
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a fiber amplifier, an optical apparatus configured to optically couple a first optical signal from a fiber optic link of a terrestrial optical communication network into the fiber amplifier;
a beam focusing element optically coupled to the fiber amplifier and configured to direct the first optical signal through a free-space link; and
a controller configured to control a power gain of the fiber amplifier in response to a second optical signal received over the free-space link.
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5. A method of optical communication, comprising the steps of:
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receiving a first optical signal from a fi-space link with a receive element;
directing the first optical signal received from the free-space link by the receive element into a first fiber amplifier that is optically coupled to the receive element;
optically coupling the first optical signal from the first fiber amplifier into a fiber optic link of a terrestrial optical communication network;
optically coupling a second optical signal from the fiber optic link of the terrestrial optical communication network into a second fiber amplifier;
directing the second optical signal through the free-space link with a beam focusing element optically coupled to the second fiber amplifier; and
controlling a power gain of at least one of the first and second fiber amplifiers in response to the first optical signal.
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6. A method of optical communication, comprising the steps of:
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receiving a first optical signal from a free-space link with a receive element;
directing the first optical signal received from the free-space link by the receive element into a first fiber amplifier that is optically coupled to the receive element;
optically coupling the first optical signal from the first fiber amplifier into a fiber optic link of a terrestrial optical communication network;
optically coupling a second optical signal from the fiber optic link of the terrestrial optical communication network into a second fiber amplifier;
directing the second optical signal through the free-space link with a beam focusing element optically coupled to the second fiber amplifier; and
controlling a physical position of at least one of the receive element and the beam focusing element relative to an optical signal path of the free-space link in response to the first optical signal.
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7. An apparatus for use in optical communications, comprising:
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a receive element configured to receive a first optical signal from a free-space link;
a first fiber amplifier that is optically coupled to the receive element and that is configured to amplify the first optical signal;
a second fiber amplifier;
an optical apparatus configured to optically couple the first optical signal from the first fiber amplifier into a fiber optic link of a terrestrial optical communication network and to optically couple a second optical signal from the fiber optic link of the terrestrial optical communication network into the second fiber amplifier;
a beam focusing element optically coupled to the second fiber amplifier and configured to direct the second optical signal through the free space link; and
a controller configured to control a power gain of at least one of the first and second fiber amplifiers in response to the first optical signal.
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8. An apparatus for use in optical communications, comprising:
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a receive element configured to receive a first optical signal from a free-space link;
a first fiber amplifier that is optically coupled to the receive element and that is configured to amplify the first optical signal;
a second fiber amplifier;
an optical apparatus configured to optically couple the first optical signal from the first fiber amplifier into a fiber optic link of a terrestrial optical communication network and to optically couple a second optical signal from the fiber optic link of the terrestrial optical communication network into the second fiber amplifier;
a beam focusing element optically coupled to the second fiber amplifier and configured to direct the second optical signal through the free-space link; and
a controller configured to control a physical position of at least one of the receive element and the beam focusing element relative to an optical signal path of the free-space link in response to the first optical signal.
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9. A method of optical communication, comprising the steps of;
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receiving a first optical signal from a free-space link with a receive element;
directing the first optical signal received from the free-space link by the receive element into a doped single mode core of an optical fiber of a first fiber amplifier that is optically coupled to the receive element;
optically coupling a second optical signal into a doped single mode core of an optical fiber of a second fiber amplifier;
directing the second optical signal through the free-space link with a beam focusing element optically coupled to the doped single mode core of the second fiber amplifier; and
controlling a physical position of at least one of the receive element and the beam focusing element relative to an optical signal path of the free-space link in response to the first optical signal.
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10. An apparatus for use in optical communications, comprising:
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a receive element configured to receive a first optical signal from a free-space link;
a first fiber amplifier that includes an optical fiber having a doped single mode core that is optically coupled to the receive element and that is configured to amplify the first optical signal;
a second fiber amplifier that includes an optical fiber having a doped single mode core;
a beam focusing element optically coupled to the doped single mode core of the second fiber amplifier and configured to direct a second optical signal amplified by the second fiber amplifier through the free-space link; and
a controller configured to control a physical position of at least one of the receive element and the beam focusing element relative to an optical signal path of the free-space link in response to the first optical signal.
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Specification
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Current AssigneeLightPointe Communications, Inc.
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Original AssigneeLightPointe Communications, Inc.
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InventorsWillebrand, Heinz
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Primary Examiner(s)NEGASH, KINFE MICHAEL
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Application NumberUS09/823,175Publication NumberTime in Patent Office558 DaysField of Search359/152, 359/118, 359/172-173, 359/145, 359/179, 359/159, 359/341, 356/56.2, 356/56.3US Class Current398/139CPC Class CodesH04B 10/1125 using a single common optic...H04B 10/2912 characterised by the medium...H04J 14/02 Wavelength-division multipl...H04Q 11/0062 Network aspectsH04Q 2011/0026 using free space propagatio...
