Branch device for optical multiplex system
First Claim
Patent Images
1. A branch device for use in an optical multiplex system, connected to first, second, and third transmission paths extending to respective stations in an optical communication network, for branching signal lights transmitted between the stations, comprising:
- first wavelength dividing and multiplexing means for outputting a signal light in a first band inputted to a first input port thereof to a first output port thereof, outputting a signal light in a second band inputted to the first input port thereof to a second output port thereof, and outputting a signal light in the second band inputted to a second input port thereof to the first output port thereof, said first input port being connected to an input optical fiber connected to the first transmission path, said first output port being connected to an output optical fiber connected to the second transmission path;
second wavelength dividing and multiplexing means for outputting a signal light in the first band inputted to a first input port thereof to a first output port thereof, outputting a signal light in the second band inputted to the first input port thereof to a second output port thereof, and outputting a signal light in the second band inputted to a second input port thereof to the first output port thereof, said first input port of said second wavelength dividing and multiplexing means being connected to an input optical fiber connected to the second transmission path, said second input port of said second wavelength dividing and multiplexing means being connected to the second output port of said first wavelength dividing and multiplexing means, said first output port of said second wavelength dividing and multiplexing means being connected to an output optical fiber connected to the third transmission path; and
third wavelength dividing and multiplexing means for outputting a signal light in the first band inputted to a first input port thereof to a first output port thereof, outputting a signal light in the second band inputted to the first input port thereof to a second output port thereof, and outputting a signal light in the second band inputted to a second input port thereof to the first output port thereof, said first input port of said third wavelength dividing and multiplexing means being connected to an input optical fiber connected to the third transmission path, said second input port of said third wavelength dividing and multiplexing means being connected to the second output port of said second wavelength dividing and multiplexing means, said first output port of said third wavelength dividing and multiplexing means being connected to an output optical fiber connected to the first transmission path, said second output port of said third wavelength dividing and multiplexing means being connected to the second input port of said first wavelength dividing and multiplexing means.
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Abstract
A branch device for use in an optical multiplex system allows three stations to be interconnected by a relatively small number of optical fibers. The branch device has WDM couplers each having a port A connected to a port C through a through path and to a port D through a cross path, and a port B connected to the port C through a cross path and to the port D through a through path. A signal light having a wavelength λAB in a through-path wavelength band, inputted from a cable end A, is transmitted through a through path in one of the WDM couplers to a cable end B. A signal light having a wavelength λAC in a cross-path wavelength band, inputted from the cable end A, is transmitted through a cross path in the WDM coupler to the B port thereof, and then transmitted through a cross path in another WDM coupler to a cable end C. Similarly, signal lights inputted from the other cable ends B, C are divided and transmitted through paths depending on their wavelengths. Stations can be connected to the branch device by transmission cables each comprising a single pair of optical fibers for bidirectional transmission of signal lights between the stations through the branch device. A repeater on each of the transmission cables may be of a single-system configuration for upstream and downstream transmission.
65 Citations
5 Claims
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1. A branch device for use in an optical multiplex system, connected to first, second, and third transmission paths extending to respective stations in an optical communication network, for branching signal lights transmitted between the stations, comprising:
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first wavelength dividing and multiplexing means for outputting a signal light in a first band inputted to a first input port thereof to a first output port thereof, outputting a signal light in a second band inputted to the first input port thereof to a second output port thereof, and outputting a signal light in the second band inputted to a second input port thereof to the first output port thereof, said first input port being connected to an input optical fiber connected to the first transmission path, said first output port being connected to an output optical fiber connected to the second transmission path; second wavelength dividing and multiplexing means for outputting a signal light in the first band inputted to a first input port thereof to a first output port thereof, outputting a signal light in the second band inputted to the first input port thereof to a second output port thereof, and outputting a signal light in the second band inputted to a second input port thereof to the first output port thereof, said first input port of said second wavelength dividing and multiplexing means being connected to an input optical fiber connected to the second transmission path, said second input port of said second wavelength dividing and multiplexing means being connected to the second output port of said first wavelength dividing and multiplexing means, said first output port of said second wavelength dividing and multiplexing means being connected to an output optical fiber connected to the third transmission path; and third wavelength dividing and multiplexing means for outputting a signal light in the first band inputted to a first input port thereof to a first output port thereof, outputting a signal light in the second band inputted to the first input port thereof to a second output port thereof, and outputting a signal light in the second band inputted to a second input port thereof to the first output port thereof, said first input port of said third wavelength dividing and multiplexing means being connected to an input optical fiber connected to the third transmission path, said second input port of said third wavelength dividing and multiplexing means being connected to the second output port of said second wavelength dividing and multiplexing means, said first output port of said third wavelength dividing and multiplexing means being connected to an output optical fiber connected to the first transmission path, said second output port of said third wavelength dividing and multiplexing means being connected to the second input port of said first wavelength dividing and multiplexing means. - View Dependent Claims (2, 3, 4)
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5. A branch device for use in an optical multiplex system, connected to first, second, and third transmission paths each comprising a single optical fiber for bidirectional transmission to respective stations in an optical communication network, for branching signal lights transmitted between the stations, comprising:
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first wavelength dividing and multiplexing means for bidirectionally transmitting a signal light in a wavelength band shorter than a first boundary wavelength between a first port thereof and a second port thereof, and bidirectionally transmitting a signal light in a wavelength band longer than said first boundary wavelength between said first port thereof and a third port thereof, said first port being connected to the first transmission path; second wavelength dividing and multiplexing means for bidirectionally transmitting a signal light in a wavelength band shorter than a second boundary wavelength which is larger than said first boundary wavelength between a first port thereof and a second port thereof, and bidirectionally transmitting a signal light in a wavelength band longer than said second boundary wavelength between said first port thereof and a third port thereof, said first port of said second wavelength dividing and multiplexing means being connected to the second transmission path, said second port of said second wavelength dividing and multiplexing means being connected to said second port of said first wavelength dividing and multiplexing means; and third wavelength dividing and multiplexing means for bidirectionally transmitting a signal light in a wavelength band shorter than a third boundary wavelength which is larger than said second boundary wavelength between a first port thereof and a second port thereof, and bidirectionally transmitting a signal light in a wavelength band longer than said third boundary wavelength between said first port thereof and a third port thereof, said first port of said third wavelength dividing and multiplexing means being connected to the third transmission path, said second port of said third wavelength dividing and multiplexing means being connected to said third port of said first wavelength dividing and multiplexing means, said third port of said third wavelength dividing and multiplexing means being connected to said third port of said second wavelength dividing and multiplexing means.
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Specification
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Current AssigneeFujitsu Limited
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Original AssigneeFujitsu Limited
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InventorsHarasawa, Shinichirou, Fujiwara, Haruo
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Primary Examiner(s)Healy, Brian
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Application NumberUS08/641,563Time in Patent Office328 DaysField of Search385/24, 385/27, 385/31, 385/32, 385/39, 385/42, 385/46, 385/48, 385/50, 385/123, 385/100, 385/44, 359/115, 359/119, 359/121, 359/124, 359/125, 359/127, 359/178, 359/179US Class Current385/24CPC Class CodesG02B 6/29332 Wavelength selective couple...G02B 6/2938 for multiplexing or demulti...H04J 14/0206 Express channels arrangementsH04J 14/0213 Groups of channels or wave ...H04J 14/0217 Multi-degree architectures,...
