Bidirectional optical recirculation loop transmitting device
First Claim
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1. A bidirectional optical recirculation loop transmitting device for transmitting a forward directional optical signal generated from an end and a reverse directional optical signal generated from the other end to the other end and the end, respectively, the device comprising:
- an optical combiner having four ports which, when receiving an optical signal from a first port and a second port, separately outputs one to a third port and the other to a fourth port and, when receiving an optical signal from the third port and the fourth port, separately outputs one to the first port and the other to the second port;
a first optical circulator which receives the forward directional optical signal generated from the end and outputs the received forward directional optical signal to connect to the first port of the optical combiner, and receives the reverse directional optical signal from the first port of the optical combiner and outputs the received reverse directional optical signal to a receiving end of the reverse directional optical signal formed at the end;
a second optical circulator which receives the reverse directional optical signal generated from the other end and outputs the received reverse directional optical signal to connect to the third port of the optical combiner, and receives the forward directional optical signal from the third port of the optical combiner and outputs the received forward directional optical signal to a receiving end of the forward directional optical signal formed at the other end;
a first connection unit which allows an optical link and the second port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the forward directional optical signal is stopped from being input to the first optical circulator to a time point at which the input of the forward directional optical signal resumes; and
a second connection unit which allows the optical link and the fourth port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the reverse directional optical signal is stopped from being input to the second optical circulator to a time point at which the input of the reverse directional optical signal resumes.
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Abstract
This apparatus of bidirectional optical recirculation loop transmission enables bidirectional transmission system to be tested in the long transmission distance. Unidirectional optical recirculation loop is composed of two optical modulators and one 4-port optical coupler. Bidirectional optical recirculation loop is composed of four optical switches, one 4-port optical coupler and six optical circulators. Two optical circulators at the entrance (simultaneously exit) of the loop enable transmitted (received) signals to be added (dropped). Four optical circulators enable forward (reverse) signal to bypass the optical switch set for reverse (forward) signal in the inner optical loop. Forward (reverse) signal can be transmitted simultaneously with the reverse (forward) signal without interference. Two independent optical recirculation loops exist on the same fiber link in each direction.
9 Citations
15 Claims
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1. A bidirectional optical recirculation loop transmitting device for transmitting a forward directional optical signal generated from an end and a reverse directional optical signal generated from the other end to the other end and the end, respectively, the device comprising:
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an optical combiner having four ports which, when receiving an optical signal from a first port and a second port, separately outputs one to a third port and the other to a fourth port and, when receiving an optical signal from the third port and the fourth port, separately outputs one to the first port and the other to the second port; a first optical circulator which receives the forward directional optical signal generated from the end and outputs the received forward directional optical signal to connect to the first port of the optical combiner, and receives the reverse directional optical signal from the first port of the optical combiner and outputs the received reverse directional optical signal to a receiving end of the reverse directional optical signal formed at the end; a second optical circulator which receives the reverse directional optical signal generated from the other end and outputs the received reverse directional optical signal to connect to the third port of the optical combiner, and receives the forward directional optical signal from the third port of the optical combiner and outputs the received forward directional optical signal to a receiving end of the forward directional optical signal formed at the other end; a first connection unit which allows an optical link and the second port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the forward directional optical signal is stopped from being input to the first optical circulator to a time point at which the input of the forward directional optical signal resumes; anda second connection unit which allows the optical link and the fourth port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the reverse directional optical signal is stopped from being input to the second optical circulator to a time point at which the input of the reverse directional optical signal resumes. - View Dependent Claims (2, 3, 4, 5)
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6. A bidirectional optical recirculation loop transmitting device for transmitting a forward directional optical signal generated from an end and a reverse directional optical signal generated from the other end to the other end and the end, respectively, the device comprising:
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an optical combiner having four ports which, when receiving an optical signal from a first port and a second port, separately outputs one to a third port and the other to a fourth port and, when receiving an optical signal from the third port and the fourth port, separately outputs one to the first port and the other to the second port; a first interleaver which receives the forward directional optical signal from a transmitting end of the forward directional optical signal and outputs the received forward directional optical signal to connect to the first port of the optical combiner, and receives the reverse directional optical signal from the first port of the optical combiner and outputs the received reverse directional optical signal to a receiving end of the reverse directional optical signal formed at the end; a second interleaver which receives the reverse directional optical signal from a transmitting end of the reverse directional optical signal and outputs the received reverse directional optical signal to connect to the third port of the optical combiner, and receives the forward directional optical signal from the third port of the optical combiner and outputs the received forward directional optical signal to a receiving end of the forward directional optical signal formed at the other end; a first connection unit which allows an optical link and the second port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the forward directional optical signal is stopped from being input to the first interleaver to a time point at which the input of the forward directional optical signal resumes; anda second connection unit which allows the optical link and the fourth port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the reverse directional optical signal is stopped from being input to the second interleaver to a time point at which the input of the reverse directional optical signal resumes. - View Dependent Claims (7, 8, 9, 10)
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11. A bidirectional optical recirculation loop transmitting device for transmitting a forward directional optical signal generated from an end and formed of a lower band and a reverse directional optical signal generated from the other end and formed of an upper band to the other end and the end, respectively, the device comprising:
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an optical combiner having four ports which, when receiving an optical signal from a first port and a second port, separately outputs one to a third port and the other to a fourth port and, when receiving an optical signal from the third port and the fourth port, separately outputs one to the first port and the other to the second port; a first band selection filter which receives the forward directional optical signal from a transmitting end of the forward directional optical signal and outputs the received forward directional optical signal to connect to the first port of the optical combiner, and receives the reverse directional optical signal from the first port of the optical combiner and outputs the received reverse directional optical signal to a receiving end of the reverse directional optical signal formed at the end; a second band selection filter which receives the reverse directional optical signal from a transmitting end of the reverse directional optical signal and outputs the received reverse directional optical signal to connect to the third port of the optical combiner, and receives the forward directional optical signal from the third port of the optical combiner and outputs the received forward directional optical signal to a receiving end of the forward directional optical signal formed at the other end; a first connection unit which allows an optical link and the second port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the forward directional optical signal is stopped from being input to the first band selection filter to a time point at which the input of the forward directional optical signal resumes; anda second connection unit which allows the optical link and the fourth port of the optical combiner to be in an “
ON”
connection state during a period from a time point at which the reverse directional optical signal is stopped from being input to the second band selection filter to a time point at which the input of the reverse directional optical signal resumes. - View Dependent Claims (12, 13, 14, 15)
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Specification
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Current AssigneeElectronics and Telecommunications Research Institute
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Original AssigneeElectronics and Telecommunications Research Institute
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InventorsKim, Kwangjoon, Han, Jinsoo
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Primary Examiner(s)Connelly-Cushwa, Michelle
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Assistant Examiner(s)Peace, Rhonda S.
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Application NumberUS11/137,467Publication NumberTime in Patent Office369 DaysField of Search398 58- 64, 398/67, 398/68, 398 73- 79, 385/24US Class Current385/24CPC Class CodesH04J 14/02 Wavelength-division multipl...
