Optical switch matrix with failure protection
First Claim
1. A multi-stage optical switch matrix having failure protection for switching P optical signals to a plurality of locations in a non-blocking manner comprising:
- a first external stage, at least one center stage and a second external stage, the first external stage optically coupled to the second external stage through the at least one center stage, with at least one connection between each module in the first and second external stages and center stage submatrices, the first external stage having R interconnected external modules, where R=P/M, each external module comprising M external input/output ports, at least one protection port having a protection switch optically coupled thereto, a plurality of redundancy switches, each optically coupled to one of the input/output ports, and a plurality of second ports for coupling input signals from the external module to a center stage or from coupling output signals from the center stage to the external module, wherein each protection switch is coupled to at least one redundancy switch of another external module of the external stage.
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Abstract
The present invention relates to a multi-stage non-blocking optical switch matrix having failure protection. The optical switch includes failure protection in the form of a capacity to provide an alternative route for any connection, including rearrangeable protection to provide alternative routes for multiple connections, as required, and to permit replacement of any failed submatrix module without service interruption. The present invention provides both internal and external protection from system failure in a multi-stage optical switch matrix by providing interconnected modules in a first external stage. The modules are interconnected by rerouting ports for redirecting signals from an input/output port on one external switch module to another external switch module. Protection is further provided through a center stage having a number of center stage switch modules, fully connected to the external modules, equal to twice the number of input/output ports and rerouting ports on an external module. With this structure, a failure at any point in the switch sub-matrices can be avoided, so that rearrangeable non-blocking performance can be obtained. In the case of a failure, a signal can be rerouted, additional signal paths can be rearranged, and faulty modules can be removed and replaced without affecting non-blocking switch performance.
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Citations
8 Claims
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1. A multi-stage optical switch matrix having failure protection for switching P optical signals to a plurality of locations in a non-blocking manner comprising:
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a first external stage, at least one center stage and a second external stage, the first external stage optically coupled to the second external stage through the at least one center stage, with at least one connection between each module in the first and second external stages and center stage submatrices, the first external stage having R interconnected external modules, where R=P/M, each external module comprising M external input/output ports, at least one protection port having a protection switch optically coupled thereto, a plurality of redundancy switches, each optically coupled to one of the input/output ports, and a plurality of second ports for coupling input signals from the external module to a center stage or from coupling output signals from the center stage to the external module, wherein each protection switch is coupled to at least one redundancy switch of another external module of the external stage. - View Dependent Claims (2, 3, 4, 5)
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6. A module for use in a switch matrix for switching P optical signals to a plurality of locations in a non-blocking manner, the module comprising
M external input/output ports, Z protection ports having each a protection switch optically coupled thereto, where Z is at least one, a plurality of redundancy switches, each optically coupled to one of the input/output ports, and 2 (M+Z) second ports for coupling input signals to said plurality of locations, wherein each protection switch is coupled to at least one redundancy switch of another external module of the external stage.
Specification