Non-return optical star coupler
First Claim
Patent Images
1. A passive optical network arrangement comprising:
- a head-end station;
a plurality of subscriber stations;
a passive optical network providing optical connectivity from each of said stations to each other station;
wherein each of said plurality of subscriber stations is arranged to transmit on a common optical wavelength λ
1 distinct from the wavelength λ
2 on which said head-end station is arranged to transmit, and each of said plurality of subscriber stations is arranged to detect when another of said subscriber stations is transmitting on said common optical wavelength λ
1 over said passive optical network, and in which the passive optical network comprises a passive optical coupler comprising a plurality of port pairs, each port pair comprising an input port and a corresponding output port;
wherein each input port is coupled to all output ports other than its corresponding output port.
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Abstract
A passive optical star coupler, and associated method of operation arranged to transmit signals received at any input port to all output ports other than an output port associated with the input port. In this way all received signals are broadcast to all connected network equipment with the exception of the transmitting equipment.
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Citations
10 Claims
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1. A passive optical network arrangement comprising:
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a head-end station;
a plurality of subscriber stations;
a passive optical network providing optical connectivity from each of said stations to each other station;
wherein each of said plurality of subscriber stations is arranged to transmit on a common optical wavelength λ
1 distinct from the wavelength λ
2 on which said head-end station is arranged to transmit, and each of said plurality of subscriber stations is arranged to detect when another of said subscriber stations is transmitting on said common optical wavelength λ
1 over said passive optical network, and in which the passive optical network comprises a passive optical coupler comprising a plurality of port pairs, each port pair comprising an input port and a corresponding output port;
wherein each input port is coupled to all output ports other than its corresponding output port. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An optical transceiver arrangement for a passive optical network arrangement including a passive optical coupler comprising a plurality of port pairs, each port pair comprising an input port and a corresponding output port;
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wherein each input port is coupled to all output ports other than its corresponding output port, said transceiver arrangement comprising;
a transmitter arranged to transmit data on a first optical frequency;
a transmission detector arranged to receive, on said first optical frequency, signals from a network indicative of a transmission by another subscriber station on said first frequency;
a medium access logic unit arranged to prevent transmission on said first frequency while said transmission detector is detecting said signals from a network indicative of a transmission by another subscriber station on said first frequency;
a receiver arranged to receive data on a second optical frequency;
a common input port arranged to receive both said data transmitted on a first optical frequency and said data on a second optical frequency; and
an optical frequency splitter arranged to provide said data transmitted on a first optical frequency to said transmission detector and said data on a second optical frequency to said receiver. - View Dependent Claims (8, 9)
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10. A method of operating a passive optical network arrangement having a head-end station, a plurality of subscriber stations, and a passive optical network providing optical connectivity from each of said stations to each other station;
- the method comprising the steps of;
at one of said plurality of subscriber stations transmitting a signal on an optical frequency common to said subscriber stations and distinct from that on which said head-end station is arranged to transmit, said signal being transmitted to a passive optical coupler comprising an input port and a corresponding output port;
wherein each input port is coupled to all output ports other than its corresponding output port; and
at one of said plurality of subscriber stations detecting when another of said subscriber stations is transmitting on said common optical frequency over said passive optical network.
- the method comprising the steps of;
Specification