Method and system for providing a return path for signals generated by legacy terminals in an optical network
First Claim
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1. A return path of an optical network system comprising:
- a subscriber optical interface for receiving upstream and propagating downstream electrical radio-frequency signals,the subscriber optical interface comprising;
an amplitude modulated optical transmitter;
a signal state detector for sensing a state of the upstream electrical radio-frequency signals without tracking any bandwidth useage and physical address requests and activating the optical transmitter when a predetermined state is detected for propagating upstream optical signals over the return path;
an analog optical receiver for converting downstream optical signals into downstream electrical radio-frequency signals;
a bidirectional optical diplexer coupled to the amplitude modulated optical transmitter and the analog optical receiver, the bidirectional optical diplexer for receiving and propagating upstream optical signals from the amplitude modulated optical transmitter and for separating and propagating downstream optical signals to the analog optical receiver; and
a radio-frequency diplexer coupled to at least one of the amplitude modulated optical transmitter and the signal state detector, for propagating upstream electrical radio-frequency signals destined for the amplitude modulated optical transmitter and signal state detector without any conditioning of the upstream electrical radio-frequency signals by a processor while propagating through the radio-frequency diplexer, and coupled to the analog optical receiver for propagating the downstream electrical radio-frequency signals produced by the analog optical receiver without any conditioning of the downstream electrical radio-frequency signals by a processor while propagating through the radio-frequency diplexer.
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Abstract
A return path system includes inserting RF packets between regular upstream data packets, where the data packets are generated by communication devices such as a computer or internet telephone. The RF packets can be derived from analog RF signals that are produced by legacy video service terminals. In this way, the present invention can provide an RF return path for legacy terminals that shares a return path for regular data packets in an optical network architecture. The invention operates independently of a legacy upstream transmission timing scheme so that the legacy upstream transmission timing scheme can remain effective in preventing data collisions. In other embodiments, the present invention allows for less complex hardware for subscribers that are not taking data services. Further, an optical signal present line in combination with a driver may be employed in order to reduce the amount of hardware in a laser transceiver node.
201 Citations
16 Claims
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1. A return path of an optical network system comprising:
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a subscriber optical interface for receiving upstream and propagating downstream electrical radio-frequency signals, the subscriber optical interface comprising; an amplitude modulated optical transmitter; a signal state detector for sensing a state of the upstream electrical radio-frequency signals without tracking any bandwidth useage and physical address requests and activating the optical transmitter when a predetermined state is detected for propagating upstream optical signals over the return path; an analog optical receiver for converting downstream optical signals into downstream electrical radio-frequency signals; a bidirectional optical diplexer coupled to the amplitude modulated optical transmitter and the analog optical receiver, the bidirectional optical diplexer for receiving and propagating upstream optical signals from the amplitude modulated optical transmitter and for separating and propagating downstream optical signals to the analog optical receiver; and a radio-frequency diplexer coupled to at least one of the amplitude modulated optical transmitter and the signal state detector, for propagating upstream electrical radio-frequency signals destined for the amplitude modulated optical transmitter and signal state detector without any conditioning of the upstream electrical radio-frequency signals by a processor while propagating through the radio-frequency diplexer, and coupled to the analog optical receiver for propagating the downstream electrical radio-frequency signals produced by the analog optical receiver without any conditioning of the downstream electrical radio-frequency signals by a processor while propagating through the radio-frequency diplexer. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A subscriber optical interface comprising:
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a port for receiving upstream electrical radio-frequency signals; a radio-frequency diplexer coupled to the port and for receiving the upstream electrical radio-frequency signals from the port and without any conditioning of the upstream electrical radio-frequency signals by a processor while propagating through the radio-frequency diplexer; an optical transmitter coupled to the radio-frequency diplexer; an analog optical receiver coupled to the radio-frequency diplexer; a signal state detector coupled to the optical transmitter and to the radio-frequency diplexer, for sensing a state of the upstream electrical radio-frequency signals without tracking any bandwidth useage and physical address requests and activating the optical transmitter when a predetermined state is detected for generating upstream optical signals; and a bidirectional optical diplexer coupled to the optical transmitter and the analog optical receiver, the bidirectional optical diplexer for receiving and propagating upstream optical signals from the optical transmitter and for separating and propagating downstream optical signals to the analog optical receiver. - View Dependent Claims (9, 10, 11)
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12. A method for providing a return path for signals in an optical network system comprising the steps of:
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receiving upstream electrical radio-frequency signals with a radio-frequency diplexer which is part of a subscriber optical interface and without any conditioning of the upstream electrical radio-frequency signals by a processor while propagating through the radio-frequency diplexer; detecting a predetermined state of the upstream electrical radio-frequency signals without tracking any bandwidth useage and physical address requests with a signal state detector which is part of the subscriber optical interface and which is coupled to the radio-frequency diplexer; if the predetermined state of upstream electrical radio-frequency signals is detected, then modulating an amplitude modulated optical transmitter using the upstream electrical radio-frequency signals in order to generate upstream optical signals; propagating the upstream optical signals to a bidirectional optical diplexer; receiving the upstream optical signals with the bidirectional optical diplexer; and propagating the upstream optical signals through the bidirectional optical diplexer. - View Dependent Claims (13, 14, 15, 16)
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Specification
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Current AssigneeARRIS Solutions, Inc. (CommScope Holding Company, Inc.)
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Original AssigneeEnablence USA Fttx Networks, Inc. (Enablence Technologies Incorporated)
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InventorsKenny, John J., Quinn, Patrick W., Anthony, Deven J., Farmer, James O.
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Primary Examiner(s)Bello; Agustin
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Application NumberUS11/654,392Publication NumberTime in Patent Office980 DaysField of Search398 66- 72US Class Current398/72CPC Class CodesH04Q 11/0067 Provisions for optical acce...H04Q 2011/0064 Arbitration, scheduling or ...
