Reception apparatus
First Claim
1. An optical receiver comprising:
- an optical-electrical conversion unit that converts optical signals received through a transmission line into first electrical signals and second electrical signals;
a multilevel identification unit that identifies the first electrical signals based on a plurality of identification levels and produces multinary identification signals based on the result of identification of the first electrical signals;
an optical reception quality determining unit that determines, based on the second electrical signals, quality of the optical signals and produces reliability information that indicates the quality; and
an error-correction decoding unit that corrects errors based on the multinary identification signals and the reliability information, and outputs error-corrected signals.
1 Assignment
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Accused Products
Abstract
An optical-electrical (OE) conversion unit (11) converts optical signals received through an optical transmission line into first electrical signals and second electrical signals. A multilevel identification unit (12) identifies the first electrical signals based on a plurality of identification levels, and produces multinary identification signals. A serial-parallel conversion circuit (13) converts the multinary identification signals into multinary parallel signals. An optical reception quality circuit (14) produces reliability information that indicates quality of optical signals from the second electrical signals. An error-correction decoding circuit (15) corrects errors based on the multinary parallel signals and the reliability information, and outputs error-corrected parallel signals.
46 Citations
24 Claims
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1. An optical receiver comprising:
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an optical-electrical conversion unit that converts optical signals received through a transmission line into first electrical signals and second electrical signals;
a multilevel identification unit that identifies the first electrical signals based on a plurality of identification levels and produces multinary identification signals based on the result of identification of the first electrical signals;
an optical reception quality determining unit that determines, based on the second electrical signals, quality of the optical signals and produces reliability information that indicates the quality; and
an error-correction decoding unit that corrects errors based on the multinary identification signals and the reliability information, and outputs error-corrected signals. - View Dependent Claims (2, 3, 4)
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5. An optical receiver comprising:
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an optical-electrical conversion unit that converts optical signals received through a transmission line into first electrical signals and second electrical signals;
an optical reception quality determining unit that determines, based on the first electrical signals, quality of the optical signals and produces reliability information that indicates the quality;
a multilevel identification unit that variably controls a plurality of identification levels to identify the second electrical signals, based on the reliability information, identifies the second electrical signals based on the varied identification levels, and produces multinary identification signals based on the result of identification of the second electrical signals; and
an error-correction decoding unit that corrects errors based on the multinary identification signals, and outputs the error-corrected signals. - View Dependent Claims (6, 7, 8)
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9. An optical receiver comprising:
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a first optical coupler that splits optical signals received through a transmission line into two lights;
a first photodiode that converts one of the split lights into electrical signals;
a clock extracting circuit that extracts a clock from output signals of the first photodiode;
a multilevel identification unit that identifies the output signals of the first photodiode based on a plurality of identification levels at a timing of the clock, and outputs multinary serial signals based on the result of identification of the output signals from the first photodiode;
a serial-parallel conversion circuit that converts the multinary serial signals into multinary parallel signals;
a second optical coupler that extracts a desired wavelength component from other of the split lights;
a second photodiode that converts the output light from the second optical coupler into electrical signals;
an A/D converter that converts the output signals of the second photodiode into digital signals;
an optical reception quality calculating circuit that calculates, based on the digital signals, a reliability information that indicates quality of the optical signals; and
an error-correction decoding circuit that corrects errors based on the multinary identification signals and the reliability information, and outputs error-corrected signals. - View Dependent Claims (10, 11, 12)
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13. An optical receiver comprising:
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a first optical coupler that splits optical signals received through a transmission line into two lights;
a second optical coupler that extracts a desired wavelength component from one of the split lights;
a first photodiode that converts output light of the second optical coupler into electrical signals;
an A/D converter that converts the output signals of the first photodiode into digital signals;
an optical reception calculating circuit that calculates, based on the digital signals, reliability information that indicates an optical reception quality;
an identification value control circuit that produces identification level control signals to variably control values of a plurality of identification levels according to the reliability information;
a second photodiode that converts other of the split lights into electrical signals;
a multilevel identification unit that identifies output signals of the second photodiode based on the plurality of identification levels at a timing of the clock, and outputs multinary serial signals based on the result of identification of the output signals of the second photodiode;
a serial-parallel conversion circuit that converts the multinary serial signals into multinary parallel signals; and
an error-correction decoding circuit that corrects errors using the parallel signals, and outputs error-corrected parallel signals. - View Dependent Claims (14, 15, 16)
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17. An optical receiver comprising:
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a photodiode that converts optical signals received through a transmission line into electrical signals;
a clock extracting circuit that extracts a clock from the electrical signals;
a multilevel identification unit that outputs multinary serial signals by identifying the electrical signals based on a plurality of identification levels at the clock timing;
a serial-parallel conversion circuit that converts the multinary serial signals into multinary parallel signals;
an A/D converter that converts the electrical signals into digital signals;
an optical reception quality calculating circuit that calculates, based on the digital signals, reliability information that indicates quality of the optical signals; and
an error-correction decoding circuit that corrects errors based on the multinary identification signals and the reliability information, and outputs error-corrected signals. - View Dependent Claims (18, 19, 20)
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21. An optical receiver comprising:
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a photodiode that converts optical signals received through a transmission line into electrical signals;
an A/D converter that converts the electrical signals into digital signals;
an optical reception quality calculating circuit that calculates, based on the digital signals, reliability information that indicates a quality of the optical signals;
an identification value control circuit that produces identification level control signals to variably control values of a plurality of identification levels according to the reliability information;
a clock extracting circuit that extracts a clock from the electrical signals;
a multilevel identification unit that outputs multinary serial signals by variably controlling the identification levels in accordance with the identification level control signals when identifying the electrical signals based on the plurality of identification levels at the clock timing;
a serial-parallel conversion circuit that converts the multinary serial signals into multinary parallel signals; and
an error-correction decoding circuit that corrects errors using the parallel signals, and outputs error-corrected parallel signals. - View Dependent Claims (22, 23, 24)
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Specification