US2007201873A1PendingUtilityA1
Wavelength Division Multiplexed (WDM) Ring Passive Optical Network (PON) with Route Protection for Replacement of Splitter Based Passive Optical Networks
Est. expiryJun 6, 2021(expired)· nominal 20-yr term from priority
H04B 10/27H04B 10/272H04J 14/025H04J 14/0247H04J 14/0227H04J 14/0291H04J 14/0246H04J 14/0252H04J 14/0282
47
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Abstract
A method and apparatus for low cost upgrading on demand of an optical fiber communication system without installing additional optical fiber and minimal installation of optical circuitry at destination and distribution terminals. The upgraded systems comprise an optical data loop of a plurality of destination terminals and a single intermediate terminal.
Claims
exact text as granted — not AI-modified1 . A system for communicating optical data to and from an optical communication device, comprising:
a plurality of remote optical interface units defining at least a first remote optical interface unit and a last remote optical interface unit, each remote optical interface unit having an optical fiber data input and an optical fiber data output, wherein: the optical fiber data input of the first remote optical interface unit and the optical fiber data output of the last remote optical interface unit are respectively configured to be connected to an optical fiber data output and an optical fiber data input of the optical communication device; and the remaining optical fiber data inputs of the plurality of remote optical interface units are connected to the remaining optical fiber data outputs of the plurality of remote optical interface units.
2 . The system of claim 1 , wherein the first remote optical interface unit is operable to extract optical data associated therewith and forward optical data not associated therewith to a next remote optical interface unit.
3 . The system of claim 1 , wherein the optical communication device includes a splitter configured to communicate optical data over a plurality of light wavelengths, the splitter having an optical fiber data output and an optical fiber data input associated with each light wavelength, and wherein the plurality of remote optical interface units are associated with one of the light wavelengths.
4 . The system of claim 1 , wherein the optical communication device and the plurality of remote optical interface units include wavelength division multiplexers configured to communicate optical data over a plurality of light wavelengths.
5 . The system of claim 1 , wherein each of the optical interface units include broadband optical interface units.
6 . The system of claim 1 , wherein the optical communication device is connected to a central optical device by a primary optical channel and a secondary optical channel, and wherein the central optical device includes a central route protection switch configured to route data communication between the optical communication device and the central optical device over either the primary optical channel or the secondary optical channel depending on a failure state of the primary optical channel.
7 . The system of claim 1 , wherein each of the optical fiber data inputs and optical fiber data outputs of the plurality of remote optical interface units are connected to first ends of corresponding fiber optic cables, second ends of the corresponding fiber optic cables are connected within the optical distribution terminal.
8 . A system for communicating optical data, comprising:
an optical distribution terminal having an optical communication device defining a plurality of optical communication loops and an optical fiber data output and an optical fiber data input associated with each optical communication loop; a plurality of remote optical interface units associated with each optical communication loop and defining at least a first remote optical interface unit and a last remote optical interface unit, each remote optical interface unit having an optical fiber data input and an optical fiber data output, the optical fiber data input of the first remote optical interface unit and the optical fiber data output of the last remote optical interface unit respectively connected to the optical fiber data output and the optical fiber data input of the optical communication device associated with the optical communication loop, the remaining optical fiber data inputs of the plurality of remote optical interface units connected to the remaining optical fiber data outputs of the plurality of remote optical interface units.
9 . The system of claim 8 , wherein the first remote optical interface unit is operable to extract optical data associated therewith and forward optical data not associated therewith to a next remote optical interface unit.
10 . The system of claim 8 , wherein the optical communication device in the optical distribution terminal includes a splitter configured to communicate optical data over a plurality of light wavelengths, wherein a communication channel is defined by a unique light wavelength.
11 . The system of claim 8 , wherein the optical communication device in the optical distribution terminal includes a wavelength division multiplexer configured to communicate optical data over a plurality of light wavelengths.
12 . The system of claim 8 , wherein each of the optical interface units comprise broadband optical interface units.
13 . The system of claim 8 , further comprising:
a central optical device connected to the optical communication device by a primary optical channel and a secondary optical channel, the central optical device includes a central route protection switch configured to route data communication between the optical communication device and the central optical device over either the primary optical channel or the secondary optical channel depending on a failure state of the primary optical channel.
14 . A method of communicating optical data between a plurality of remote optical communication units and an optical distribution terminal having an optical communication device, comprising:
interconnecting optical fiber data inputs of a plurality of remote optical interface units to optical fiber data outputs of the plurality of remote optical interface units; connecting an optical fiber data input of one of the remote optical interface units to an optical fiber data output of the optical communication device; and connecting an optical fiber data output of another one of the remote optical interface units to an optical fiber data input of the optical communication device.
15 . The method of claim 14 , further comprising:
extracting optical data associated therewith at the first remote optical interface unit; forwarding optical data not associated therewith to a next remote optical interface unit.
16 . The method of claim 14 , further comprising:
transmitting wavelength division multiplexed data through the plurality of remote optical interface units.
17 . The method of claim 14 , wherein interconnecting optical fiber data inputs of a plurality of remote optical interface units to optical fiber data outputs in the plurality of remote optical interface units comprises:
connecting the optical fiber data inputs and optical fiber data outputs of the plurality of remote optical interface units to first ends of corresponding fiber optic cables; and connecting the second ends of the corresponding fiber optic cables within the optical distribution terminal.
18 . A system for communicating optical data, comprising:
means for defining a remote optical serial communication loop interconnecting a plurality of remote locations; means for distributively sending data to and receiving data from the plurality of remote locations over the remote optical serial communication loop; and means for extracting optical data associated therewith at each remote location; means for forwarding optical data not associated therewith from each remote location to a next remote location in the remote optical serial communication loop.
19 . The system of claim 18 , further comprising:
means for monitoring each remote location for a failure condition; means for bypassing a particular remote location in the remote optical serial communication loop in response to a failure condition.
20 . The system of claim 19 , wherein the means for distributively sending data to and receiving data from the plurality of remote locations over the remote optical serial communication loop includes means for splitting the data according to wavelengths of light.Cited by (0)
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