Optical fiber communications method and system without a remote electrical power supply
First Claim
1. An optical communications system employing radio frequency signals, the system comprising:
- a central unit;
at least one remote unit, said remote unit having at least one optoelectronic transducer for converting optical data signals to radio frequency signals and converting radio signals to optical signals and at least one antenna to receive and send radio frequency signals;
at least one optical fiber data link between the central unit and the remote unit for transmitting optical data signals therebetween; and
at least one optical fiber power link between the central unit and the remote unit for providing electrical power at the remote unit.
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Accused Products
Abstract
The present invention allows remote antenna units for radio frequency signal transmission and receipt to operate without the requirement for remote electrical power supplies or for connecting cables that incorporate electrical conductors. According to an aspect of the present invention, an optical communications system employing radio frequency signals comprises a central unit; at least one remote unit having at least one optoelectronic transducer for converting optical data signals to radio frequency signals and converting radio signals to optical signals and at least one antenna to receive and send radio frequency signals; at least one optical fiber data link between the central unit and the remote unit for transmitting optical data signals therebetween; and at least one optical fiber power link between the central unit and the remote unit for providing electrical power at the remote unit.
210 Citations
21 Claims
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1. An optical communications system employing radio frequency signals, the system comprising:
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a central unit;
at least one remote unit, said remote unit having at least one optoelectronic transducer for converting optical data signals to radio frequency signals and converting radio signals to optical signals and at least one antenna to receive and send radio frequency signals;
at least one optical fiber data link between the central unit and the remote unit for transmitting optical data signals therebetween; and
at least one optical fiber power link between the central unit and the remote unit for providing electrical power at the remote unit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 13, 14)
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11. The optical fiber communications system according to claim I wherein an optical fiber transports both the optical fiber data link and the optical fiber power link using wavelength division multiplexing.
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15. An optical communications system employing radio frequency signals, the system comprising:
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a central unit;
at least one remote unit, said remote unit having means for converting optical data signals to radio frequency signals and converting radio signals to optical signals and at least one antenna to receive and send radio frequency signals;
at least one optical fiber data link between the central unit and the remote unit for transmitting optical data signals therebetween; and
at least one optical fiber power link between the central unit and the remote unit for providing electrical power at the remote unit.
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16. A method for communicating between a central unit and at least one remote unit, said method comprising:
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transmitting an optical data signal from the central unit to the remote unit through an optical fiber data link and transmitting radiation from the central unit to the remote unit through an optical fiber power link to electrically power the remote unit;
converting the optical data signal to a radio frequency signal at the remote unit through an optoelectronic transducer; and
sending the radio frequency signal into free space through at least one antenna connected to the remote unit.
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17. A method for communicating between a central unit and at least one remote unit, said method comprising:
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transmitting radiation from the central unit to the remote unit through an optical fiber power link to electrically power the remote unit;
receiving a radio frequency signal from at least one antenna connected to the remote unit;
converting the radio frequency signal to an optical data signal at the remote unit through an optoelectronic transducer; and
transmitting the optical data signal to the central unit through an optical fiber data link.
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18. An optical communications system employing radio frequency signals, the system comprising:
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a central unit;
at least one remote unit, said remote unit having means for converting optical data signals to radio frequency signals and converting radio signals to optical signals, means for converting optical data signals into baseband digital signals and converting baseband digitals signals to optical data signals and at least one antenna to receive and send radio frequency signals;
at least one optical fiber data link between the central unit and the remote unit for transmitting optical data signals therebetween; and
at least one optical fiber power link between the central unit and the remote unit for providing electrical power at the remote unit. - View Dependent Claims (19, 20)
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21. A remote terminal in an optical communications system employing radio frequency signals, said remote terminal connected with a central unit via at least one optical fiber and comprising:
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at least one antenna to receive and send radio frequency signals;
at least one optoelectronic transducer for converting optical data signals to radio frequency signals from the antenna and for converting radio signals to optical signals for transmission to the central unit; and
means for converting radiation transmitted from the central unit to electrically power the remote unit.
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Specification