Bi-directional optical communications subscriber transmission system using a single wavelength
First Claim
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1. A bi-directional optical subscriber communications system, comprising:
- a base-band modulator modulating an optical single wavelength signal by one or more exchange-to-subscriber signals to produce and output a high-speed and wide-band downward signal as a lower-band signal;
a first modulator modulating from the optical single wavelength signal to one or more carrier signals having respective frequencies higher than an upper limit of frequencies of the exchange-to-subscriber signals, and a second modulator modulating the carrier signals by the corresponding one or more subscriber-to-exchange signals to produce and output a low-speed and narrow-band upward signal as a higher-band signal; and
a low-pass filter separating the high-speed and wide-band downward signal, as a lower-band signal, from the low-speed and narrow-band upward signal, as a higher-band signal.
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Abstract
With regard to an optical communications system, in a system using a single optical fiber cable between subscribers and an exchange and in which bi-directional transmission is performed using the same 1.3-μm wavelength, the exchange-to-subscriber signal is a high-speed, wideband signal which is bandwidth limited by means of a lowpass filter, and the subscriber-to-exchange signal is a carrier having a frequency higher than the upper limit of the exchange-to-subscriber signal and which is modulated with a low-speed, narrowband signal.
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Citations
17 Claims
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1. A bi-directional optical subscriber communications system, comprising:
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a base-band modulator modulating an optical single wavelength signal by one or more exchange-to-subscriber signals to produce and output a high-speed and wide-band downward signal as a lower-band signal; a first modulator modulating from the optical single wavelength signal to one or more carrier signals having respective frequencies higher than an upper limit of frequencies of the exchange-to-subscriber signals, and a second modulator modulating the carrier signals by the corresponding one or more subscriber-to-exchange signals to produce and output a low-speed and narrow-band upward signal as a higher-band signal; and a low-pass filter separating the high-speed and wide-band downward signal, as a lower-band signal, from the low-speed and narrow-band upward signal, as a higher-band signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A bi-directional optical communication system communicating between a subscriber station and an exchange over an optical fiber cable extending therebetween and using a single communication wavelength, comprising:
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in the subscriber station, a low pass filter separating a downward signal, transmitted by the exchange over the optical fiber cable to the subscriber station, from an upward signal, transmitted by the subscriber station over the optical fiber cable to the exchange; and in the exchange, a low pass filter bandwidth limiting a high-speed, wideband signal for conversion to an optical signal for coupling to and transmission over the single optical fiber cable to the subscriber station. - View Dependent Claims (9)
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10. A bi-directional optical communication method of transmitting and receiving first and second optical signals, having a common wavelength, over a common optical transmission line, comprising:
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dividing a frequency bandwidth of a modulation signal for an optical signal into higher and lower frequency regions, modulating the first optical signal with a first modulation signal having a frequency selected from the higher frequency region and modulated with first information, and modulating the second optical signal with a second modulation signal having a frequency selected from the lower frequency region and including second information having a broader bandwidth than the first information.
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11. A communications station connected to a central station via an optical transmission line, the communications station comprising:
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an optical transmitter transmitting, over the optical transmission line to the control station, a first optical signal which is modulated by a first modulation signal having a first frequency modulated with first information of a first bandwidth; and an optical receiver receiving, from the optical transmission line, a second optical signal which is modulated by a second modulation signal having a second frequency less than the first frequency and including second information having a second bandwidth broader than the first bandwidth.
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12. A central station connected to a communications station via an optical transmission line, the central station comprising:
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an optical receiver receiving, from the optical transmission line, a first optical signal which is modulated with a first modulation signal of a first frequency and modulated with first information of a first bandwidth; and an optical transmitter transmitting, over the optical transmission line, a second optical signal which is modulated with a second modulation signal of a second frequency and including second information of a second bandwidth broader than the first bandwidth.
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13. A bi-directional optical communication system, comprising:
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first and second communications stations; the first communications station further comprising; an optical transmitter transmitting, over the optical transmission line to the second communications station, a first optical signal which is modulated by a first modulation signal having a first frequency and modulated with first information of a first bandwidth, and an optical receiver receiving, over the optical transmission line from the second communications station, a second optical signal; and the second communications station further comprising; an optical receiver receiving, from the optical transmission line, the first optical signal, and an optical transmitter transmitting, over the optical transmission line to the second communications station, the second optical signal modulated with a second modulation signal of a second frequency and including second information of a second bandwidth broader than the first bandwidth. - View Dependent Claims (14)
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15. A bi-directional optical communication system for transmitting and receiving first and second optical signals, having a common wavelength, between two stations interconnected through an optical transmission line, wherein:
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a frequency bandwidth of a modulation signal for an optical signal is divided into higher and lower frequency regions, the first optical signal is modulated with a first modulation signal having a first frequency selected from the higher frequency region, modulated with first information, and the second optical signal is modulated with a second frequency signal having a second frequency selected from the lower frequency region and including second information of a broader bandwidth than the first information.
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16. A method of bi-directional optical subscriber communication, comprising:
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base-band modulating an optical single wavelength signal by one or more exchange-to-subscriber signals to produce a high-speed and wide-band downward signal, as a lower-band signal; modulating from the optical single wavelength signal to one or more carrier signals having frequencies higher than the upper limit of the exchange-to-subscriber signals, and modulating the carrier signals by the corresponding one or more subscriber-to-exchange signals to produce a low-speed and narrow-band upward signal, as a higher-band signal; and separating the high-speed and wide-band downward signal as a lower-band signal from the low-speed and narrow-band upward signal as a higher-band signal using a low-pass filter.
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17. A bi-directional optical subscriber communications system, comprising:
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a high-speed and wide-band downward signal as a lower-band signal, which is provided by base-band modulating an optical single wavelength signal by one or more exchange-to-subscriber signals; a low-speed and narrow-band upward signal as a high-band signal, which is provided by modulating the optical signal wavelength signal to one or more carrier signals having each frequency higher than an upper limit of the exchange-to-subscriber signals, and modulating the carrier signals by corresponding one or more subscriber-to-exchange signals; and a low-pass filter separating the high-speed and wide-band downstream signal as a lower-band signal from the low-speed and narrow-band upward signal as a higher-band signal.
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Specification