Digital optical communication device and method for transmitting and receiving data with light emission intensity controlled
First Claim
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1. A digital optical communication device comprising:
- an optical reception circuit converting an optical signal received from any external source to an electric signal;
a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed;
a reception light intensity level judgement circuit judging an intensity level of received light based on the electric signal resultant from conversion by said optical reception circuit;
a coding circuit coding transmission data;
an optical transmission circuit being configured to determine a light emission intensity based on result of the judgement by said reception light intensity level judgement circuit and result of the judgement by said decoding circuit and to convert the transmission data coded by said coding circuit to an optical signal with the light emission intensity;
wherein said optical transmission circuit determines the light emission intensity from a plurality of different light emission intensity values by referring to the intensity level judged by said reception light intensity level judgement circuit in the case where said decoding circuit judges that the decoding is normally completed, where said plurality of different light emission intensity values each correspond to a different range of reception light intensities; and
wherein said optical transmission circuit determines the light emission intensity without referring to the intensity level judged by said reception light intensity level judgement circuit in the case where if said decoding circuit judges that the decoding is not normally completed.
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Abstract
A digital optical communication device includes an optical reception circuit converting an optical signal received from any external source to an electric signal, a decoding circuit decoding the electric signal resultant from conversion by the optical reception circuit and judging whether or not the decoding is normally completed, a reception light intensity level judgement circuit judging an intensity level of received light based on the electric signal, a coding circuit coding transmission data, and an optical transmission circuit determining a light emission intensity based on result of the judgement by the reception light intensity level judgement circuit and on result of the judgement by the decoding circuit, and converting the transmission data coded by the coding circuit to an optical signal with the light emission intensity. The optical transmission circuit determines the light emission intensity based on the result of judgement by the reception light intensity level judgement circuit and on the result of judgement by the decoding circuit, so that the light emission intensity can appropriately be controlled and the power consumption can be reduced.
22 Citations
23 Claims
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1. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging an intensity level of received light based on the electric signal resultant from conversion by said optical reception circuit; a coding circuit coding transmission data; an optical transmission circuit being configured to determine a light emission intensity based on result of the judgement by said reception light intensity level judgement circuit and result of the judgement by said decoding circuit and to convert the transmission data coded by said coding circuit to an optical signal with the light emission intensity; wherein said optical transmission circuit determines the light emission intensity from a plurality of different light emission intensity values by referring to the intensity level judged by said reception light intensity level judgement circuit in the case where said decoding circuit judges that the decoding is normally completed, where said plurality of different light emission intensity values each correspond to a different range of reception light intensities; and wherein said optical transmission circuit determines the light emission intensity without referring to the intensity level judged by said reception light intensity level judgement circuit in the case where if said decoding circuit judges that the decoding is not normally completed.
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2. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging an intensity level of received light based on the electric signal resultant from conversion by said optical reception circuit; a coding circuit coding transmission data; an optical transmission circuit being configured to determine a light emission intensity based on result of the judgement by said reception light intensity level judgement circuit and result of the judgement by said decoding circuit and to convert the transmission data coded by said coding circuit to an optical signal with the light emission intensity; wherein said optical transmission circuit determines the light emission intensity from a plurality of different light emission intensity values, where the plurality of different light emission intensity values each correspond to a different range of reception light intensities; an optical fiber connected to said optical transmission circuit; and an optical fiber connected to said optical reception circuit.
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3. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit, judging whether or not the decoding is normally completed, and extracting reception light intensity information of a secondary station; a coding circuit coding transmission data; an optical transmission circuit being configured determine a light emission intensity based on the reception light intensity information of the secondary station extracted by said decoding circuit, and to convert the transmission data coded by said coding circuit to an optical signal with the light emission intensity; wherein said optical transmission circuit determines the light emission intensity from a plurality of different light emission intensity values, where the plurality of different light emission intensity values each correspond to a different range of reception light intensities; an optical fiber connected to said optical transmission circuit; and an optical fiber connected to said optical reception circuit.
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4. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging an intensity level of received light from a primary station based on the electric signal resultant from conversion by said optical reception circuit; a coding circuit generating reception light intensity information of the primary station based on result of the judgement by said decoding circuit and result of the judgement by said reception light intensity level judgement circuit and coding transmission data and said reception light intensity information, wherein the reception light intensity information being generated is one of a plurality of different light emission intensity values where the plurality of different light emission intensity values each correspond to a different range of light intensities for the primary station; an optical transmission circuit converting the reception light intensity information and the transmission data coded by said coding circuit to an optical signal; wherein said coding circuit encodes said transmission data, said reception light intensity information, and reception normal completion information judged by said decoding circuit, and wherein said optical transmission circuit converts the transmission data, the reception light intensity information, and the reception normal completion information coded by said coding circuit to the optical signal.
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5. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging an intensity level of received light from a primary station based on the electric signal resultant from conversion by said optical reception circuit; a coding circuit generating reception light intensity information of the primary station based on result of the judgement by said decoding circuit and result of the judgement by said reception light intensity level judgement circuit and coding transmission data and said reception light intensity information, wherein the reception light intensity information being generated is one of a plurality of different light emission intensity values where the plurality of different light emission intensity values each correspond to a different range of light intensities for the primary station;
requested to the secondary station generated by said secondary station request light emission intensity control signal generation circuit; andan optical transmission circuit converting the transmission data and the light emission intensity information requested to the secondary station that are coded by said coding circuit with the light emission intensity requested from the secondary station that is extracted by said decoding circuit.
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6. A digital optical communication device comprising:
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an optical reception circuit being configured to convert an optical signal received from any external source to an electric signal; a decoding circuit configured to decode the electric signal converted by said optical reception circuit, to extract a light emission intensity requested from a secondary station, and to judge whether or not the decoding is normally completed; a reception light intensity level judgment circuit being configured to judge an intensity level of received light based on the electric signal converted by said optical reception circuit;
a secondary station light emission intensity control signal generation circuit that generates light emission intensity information requested to the secondary station based on result of the judgment by said decoding circuit and on the reception light intensity level judged by said reception light intensity level judgment circuit, wherein the reception light intensity information being generated is one of a plurality of different light emission intensity values where the plurality of different light emission intensity values each correspond to a different range of light levels of light of the secondary station;a coding circuit coding that codes data and the light emission intensity information to be transmitted by the secondary station generated by said secondary station light emission intensity control signal generation circuit; and an optical transmission circuit that converts the data and the light emission intensity information coded by said coding circuit with the light emission intensity that is extracted by said decoding circuit. - View Dependent Claims (7, 8)
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9. A digital optical communication device comprising:
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an optical reception circuit being configured to convert an optical signal received from any external source to an electric signal; a decoding circuit that decodes the electric signal converted by said optical reception circuit, that extracts a light emission intensity requested from a secondary station, and that judges whether or not the decoding is normally completed; a reception light intensity level judgment circuit that judges a reception light intensity level based on the electric signal converted by said optical reception circuit; a secondary station light emission intensity control signal generation circuit that generates light emission intensity information requested to the secondary station based the judgment by said decoding circuit and on the reception light intensity level judged by said reception light intensity level judgment circuit; a coding circuit being configured to code data data and the light emission intensity information generated by said secondary station light emission intensity control signal generation circuit for transmission by the digital optical communication device; and an optical transmission circuit being configured to convert the data and the light emission intensity information coded by said coding circuit with the light emission intensity extracted by said decoding circuit; wherein said reception light intensity level judgment circuit judges the reception light intensity level by measuring a pulse width of the electric signal converted by said optical reception circuit.
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10. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit, extracting a secondary station light emission intensity information, and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging a reception light intensity level based on the electric signal resultant from conversion by said optical reception circuit, a primary station light emission intensity control signal generation circuit determining a light emission intensity of a primary station based on the secondary station light emission intensity information extracted by said decoding circuit, on result of the judgement by said decoding circuit, and on result of the judgement by said reception light intensity level judgement circuit; wherein said primary station light emission intensity control signal generation circuit determines the light emission intensity from a plurality of different light emission intensity values, where the plurality of different light emission intensity values each correspond to a different range of reception light intensities; a coding circuit coding transmission data and information on the light emission intensity of the primary station determined by said primary station light emission intensity control signal generation circuit; and an optical transmission circuit converting the transmission data and the light emission intensity information coded by said coding circuit to an optical signal with the light emission intensity determined by said primary station light emission intensity control signal generation circuit. - View Dependent Claims (11)
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12. A digital optical communication method comprising the steps of:
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converting an optical signal received from any external source to an electric signal; decoding said converted electric signal; extracting a light emission intensity requested from a secondary station, judging whether or not the decoding is normally completed; wherein the extracted light emission intensity requested from a secondary station corresponds to one of a plurality of different light emission intensity values, where the plurality of different light emission intensity values each correspond to a different range of light intensity levels or light at the secondary station; judging a reception light intensity level based on the converted electric signal; generating light emission intensity information based on result of said judgment as to whether or not the decoding is normally completed and on said judged reception light intensity level; coding data to be transmitted and said generated light emission intensity information; and converting said coded data and said coded light emission intensity information to an optical signal with said extracted light emission intensity.
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13. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging an intensity level of received light based on the electric signal resultant from conversion by said optical reception circuit, wherein circuitry of the reception light intensity level judgment circuit for judging an intensity level of received light is configured so as to output one intensity level judgment signal of a plurality of different intensity level judgment signals, said one intensity level judgment signal being representative of one determined light emission intensity; a coding circuit coding transmission data; an optical transmission circuit determining a light emission intensity based on result of the judgement by said reception light intensity level judgement circuit and result of the judgement by said decoding circuit and converting the transmission data coded by said coding circuit to an optical signal with the determined light emission intensity; and wherein circuitry of the optical transmission circuit for converting the transmission data to an optical signal having the light emission intensity is configured so as to be capable of outputting optical signals having any one of a plurality of light emission intensities and wherein a specific one of the plurality of light emissions intensities is selected as said determined light emission intensity responsive to said one intensity level judgment signal. - View Dependent Claims (14)
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15. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit, judging whether or not the decoding is normally completed, and extracting reception light intensity information of a secondary station; a coding circuit coding transmission data; an optical transmission circuit determining a light emission intensity based on the reception light intensity information of the secondary station extracted by said decoding circuit, and converting the transmission data coded by said coding circuit to an optical signal with the determined light emission intensity; and wherein the determined the light emission intensity is selected from a plurality of different light emission intensity values, where the plurality of different light emission intensity values each correspond to a different range of reception light intensities at the secondary station. - View Dependent Claims (16)
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17. A digital optical communication device comprising:
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an optical reception circuit converting an optical signal received from any external source to an electric signal; a decoding circuit decoding the electric signal resultant from conversion by said optical reception circuit and judging whether or not the decoding is normally completed; a reception light intensity level judgement circuit judging an intensity level of received light based on the electric signal resultant from conversion by said optical reception circuit; a coding circuit generating reception light intensity information of a primary station based on result of the judgement by said decoding circuit and result of the judgement by said reception light intensity level judgement circuit and coding transmission data and said reception light intensity information, wherein the reception light intensity information being generated is one of a plurality of different light emission intensity values where the plurality of different light emission intensity values each correspond to a different range of light intensities for the primary station; and an optical transmission circuit converting the reception light intensity information and the transmission data coded by said coding circuit to an optical signal.
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18. A digital optical communication method comprising the steps of:
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converting an optical signal received from any external source to an electric signal; decoding said electric signal resultant from conversion and judging whether or not the decoding is normally completed; judging an intensity level of received light based on said electric signal resultant from conversion and providing a specific one of a plurality of different intensity judgment signals, said specific one judgment signal being representative of one determined light emission intensity; coding transmission data; and determining a light emission intensity based on said judged intensity level of the received light and on result of said judgement as to whether or not the decoding is normally completed, and converting said coded transmission data to an optical signal with the determined light emission intensity, wherein said converting includes selecting a specific one of a plurality of different light emission intensities based on said specific one intensity level judgment signal.
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19. A digital optical communication method comprising the steps of:
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converting an optical signal received from any external source to an electric signal; decoding said electric signal resultant from conversion, judging whether or not the decoding is normally completed, and extracting reception light intensity information of a secondary station; coding transmission data; determining a light emission intensity based on said extracted reception light intensity information of the secondary station, and converting said coded transmission data to an optical signal with the light emission intensity; and wherein the determined the light emission intensity is selected from a plurality of different light emission intensity values, where the plurality of different light emission intensity values each correspond to a different range of reception light intensities of the secondary station.
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20. A digital optical communication method comprising the steps of:
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converting an optical signal received from any external source to an electric signal; decoding said electric signal resultant from conversion and judging whether or not the decoding is normally completed; judging an intensity level of received light based on said electric signal resultant from conversion; generating reception light intensity information of a primary station based on said judged intensity level of the received light and on result of said judgement as to whether or not the decoding is normally completed, and coding transmission data and said reception light intensity information, wherein the reception light intensity information being generated is one of a plurality of different light emission intensity values where the plurality of different light emission intensity values each correspond to a different range of light intensities of the secondary station; and converting said coded reception light intensity information and said coded transmission data to an optical signal.
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21. A digital optical communication method comprising the steps of:
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converting an optical signal received from any external source to an electric signal; decoding said electric signal, extracting a secondary station light emission intensity of optical signals from a primary station, and judging whether or not the decoding is normally completed; judging a reception light intensity level of optical signals from the secondary station based on said electric signal; determining a light emission intensity of a primary station based on said extracted secondary station light emission intensity of the primary station optical signals, based on said judgment as to whether or not the decoding is normally completed, and based on said judged reception light intensity level for secondary station optical signals; coding data to be transmitted and in formation on said determined light emission intensity of the primary station; and converting said coded data and said coded light emission intensity information to an optical signal with said determined light emission intensity. - View Dependent Claims (22, 23)
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Specification
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Current AssigneeSharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.)
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Original AssigneeSharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.)
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InventorsNishimura, Takashi, Ikeda, Yutaka
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Primary Examiner(s)Bello, Agustin
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Application NumberUS09/322,108Time in Patent Office2,489 DaysField of Search359/152, 359/153, 359/154, 398118-131, 398135-139US Class Current398/137CPC Class CodesH04B 10/1141 One-way transmissionH04B 10/541 Digital intensity or amplit...
