System and method for communicating optical signals to multiple subscribers having various bandwidth demands connected to the same optical waveguide
First Claim
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1. An optical network system comprising:
- a data service hub for producing downstream optical signals comprising video information;
at least one optical tap;
at least one multi-subscriber optical interface connected to the optical tap for servicing two or more subscribers, the multi-subscriber optical interface comprising an analog optical receiver for converting the downstream optical signals from the data service hub into downstream electrical signals destined for subscribers, an RF splitter for dividing the downstream electrical signals between at least two electrical waveguides, a service disconnect switch coupled to each electrical waveguide for controlling video service for respective subscribers, the service disconnect switch having a first state that prevents all downstream video signals from reaching a respective subscriber, the service disconnect switch having a second state which allows video signals to pass through the service disconnect switch to a respective subscriber, the service disconnect switch being alternatable between the first and second states, each multi-subscriber optical interface further comprising a processor and a first routing device for managing upstream and downstream electrical, data, non-video signals and which operates independently and without controlling the service disconnect switch, and the first routing device using a first look-up table for managing at least one of upstream and downstream electrical signals;
a laser transceiver node disposed between and coupled to the data service hub and the optical tap, for communicating optical signals between the data service hub and the optical tap, the laser transceiver node comprising a second routing device for apportioning bandwidth in an electrical domain between subscribers of the optical network system and using a second look-up table for managing at least one of upstream and downstream electrical signals, andone or more optical waveguides connected between that at least one optical tap, the laser transceiver node, and the least one multi-subscriber optical interface, for carrying the upstream optical signals and the downstream optical signals, whereby optical bandwidth for subscribers is controllable by at least one of the laser transceiver node and multi-subscriber optical interface in response to subscriber demand.
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Abstract
The present invention is generally drawn to optical network architecture that can include a multi-subscriber optical interface that can service a plurality of subscribers that are located in close proximity relative to one another. For example, the multi-subscriber optical interface can service multiple dwelling units such as an apartment complex that has many different subscribers to the optical network system. Further, the invention can also service subscribers over the same optical waveguide who may have different bandwidth needs, such as businesses, personal/home users and the like.
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Citations
19 Claims
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1. An optical network system comprising:
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a data service hub for producing downstream optical signals comprising video information; at least one optical tap; at least one multi-subscriber optical interface connected to the optical tap for servicing two or more subscribers, the multi-subscriber optical interface comprising an analog optical receiver for converting the downstream optical signals from the data service hub into downstream electrical signals destined for subscribers, an RF splitter for dividing the downstream electrical signals between at least two electrical waveguides, a service disconnect switch coupled to each electrical waveguide for controlling video service for respective subscribers, the service disconnect switch having a first state that prevents all downstream video signals from reaching a respective subscriber, the service disconnect switch having a second state which allows video signals to pass through the service disconnect switch to a respective subscriber, the service disconnect switch being alternatable between the first and second states, each multi-subscriber optical interface further comprising a processor and a first routing device for managing upstream and downstream electrical, data, non-video signals and which operates independently and without controlling the service disconnect switch, and the first routing device using a first look-up table for managing at least one of upstream and downstream electrical signals; a laser transceiver node disposed between and coupled to the data service hub and the optical tap, for communicating optical signals between the data service hub and the optical tap, the laser transceiver node comprising a second routing device for apportioning bandwidth in an electrical domain between subscribers of the optical network system and using a second look-up table for managing at least one of upstream and downstream electrical signals, and one or more optical waveguides connected between that at least one optical tap, the laser transceiver node, and the least one multi-subscriber optical interface, for carrying the upstream optical signals and the downstream optical signals, whereby optical bandwidth for subscribers is controllable by at least one of the laser transceiver node and multi-subscriber optical interface in response to subscriber demand. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An optical network system comprising:
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a data service hub for producing downstream optical signals comprising video information; at least one optical tap; a least one single-subscriber optical interface connected to the optical tap for servicing a subscriber; at least one multi-subscriber optical interface connected to the optical tap for servicing two or more subscribers, the multi-subscriber optical interface comprising an analog optical receiver for converting the downstream optical signals from the data service hub into downstream electrical signals destined for subscribers, a tilt network coupled to the analog optical receiver for increasing signal strength across a frequency range suitable for coaxial cable transmissions, an RF splitter coupled to the tilt network for dividing the downstream electrical signals between at least two electrical waveguides, a service disconnect switch coupled to each electrical waveguide for controlling video service for respective subscribers, the service disconnect switch having a first state that prevents all downstream video signals from reaching a respective subscriber, the service disconnect switch having a second state which allows video signals to pass through the service disconnect switch to a respective subscriber, the service disconnect switch being alternatable between the first and second states, each multi-subscriber optical interface further comprising a processor and a first routing device for managing upstream and downstream electrical signals, and the first routing device using a first look-up table for managing at least one of upstream and downstream electrical signals; a laser transceiver node disposed between the data service hub and the optical tap, for communicating optical signals between the data service hub and the optical tap, and the laser transceiver node comprising a second routing device for apportioning bandwidth in an electrical domain between subscribers of the optical network system and using a second look-up table for managing at least one of upstream and downstream electrical, data, non-video signals and which operates independently and without controlling the service disconnect switch, and one or more optical waveguides connected between respective optical taps, the laser transceiver node, the at least one single-subscriber optical interface, and the at least one multi-subscriber optical interface, for carrying the upstream optical signals and the downstream optical signals, whereby optical bandwidth for subscribers is controllable by one of a laser transceiver node and the at least one multi-subscriber optical interface in response to subscriber demand. - View Dependent Claims (13, 14, 15)
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16. An optical network system comprising:
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a data service hub for producing downstream optical signals comprising video information; at least one optical tap; at least one multi-subscriber optical interface connected to the optical tap for servicing two or more subscribers, the at least one multi-subscriber optical interface comprising an analog optical receiver for converting the downstream optical signals from the data service hub into downstream electrical signals destined for subscribers, an RF splitter for dividing the downstream electrical signals between at least two electrical waveguides, a service disconnect switch coupled to each electrical waveguide for controlling video service for respective subscribers, the service disconnect switch having a first state that prevents all downstream video signals from reaching a respective subscriber, the service disconnect switch having a second state which allows video signals to pass through the service disconnect switch to a respective subscriber, the service disconnect switch being alternatable between the first and second states, each multi-subscriber optical interface further comprising a processor and a first routing device for managing upstream and downstream electrical signals, and the first routing device using a first look-up table for managing at least one of upstream and downstream electrical signals; a laser transceiver node disposed between the data service hub and the optical tap, for communicating optical signals between the data service hub and the optical tap, and the laser transceiver node comprising a second routing device for apportioning bandwidth in an electrical domain between subscribers of the optical network system and using a second look-up table for managing at least one of upstream and downstream electrical, data, non-video signals and which operates independently and without controlling the service disconnect switch, and one or more optical waveguides connected between respective optical taps and the laser transceiver node, and the at least one multi-subscriber optical interface, for carrying the upstream optical signals and the downstream optical signals, whereby optical bandwidth for subscribers is controllable by one of the laser transceiver node and a multi-subscriber optical interface in response to subscriber demand. - View Dependent Claims (17, 18, 19)
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Specification