Microsplitter module for optical connectivity
First Claim
1. A microsplitter module adapted to optically connect an input optical fiber with at least one external output device having an associated connector type, comprising:
- a splitter chip assembly that includes a body, input and output ends, and a branching waveguide network supported by the body and that includes at least one input waveguide at its input end and at least two output waveguides each having output ends at the splitter chip assembly output end;
an input ferrule bonded to the splitter chip assembly input end and adapted to maintain optical coupling between the input optical fiber and the input waveguide of the splitter chip assembly;
a multi-fiber ferrule having a body that supports at least two output optical fibers having input and output ends, wherein the multi-fiber ferrule is arranged adjacent the splitter chip assembly output end so that the at least two output optical fiber input ends of the multi-fiber ferrule are optically coupled to corresponding at least two output ends of the at least two splitter chip assembly output waveguides; and
a housing that substantially covers at least a portion of the input ferrule, the splitter chip and the multi-fiber output ferrule so as to provide conformity with the connector type associated with the at least one external output device and to support the input ferrule, splitter chip and multi-fiber ferrule in mutual alignment.
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Accused Products
Abstract
A compact optical splitter module is disclosed. One type of compact optical splitter module is a planar attenuated splitter module that includes a branching waveguide network having j≧1 50:50 splitters that form up to n≦2j output waveguides having associated n output ports, wherein only m<n output ports are suitable for transmitting light to the at least one external output device. This provides a 1×m splitter module wherein each output port has the attenuation of a 1×n splitter module, thereby obviating the need for external attenuation. Another type of compact optical splitter module is a direct-connect splitter module that eliminates the need for an optical fiber array when coupling to external optical fibers. Another type of compact optical splitter module is a microsplitter module that serves as device and module at the same time and that eliminates the differentiation between device and module. The integration of device and module also makes manufacturing the microsplitter module cost-effect. Embodiments of microsplitter modules that account for differences in the coefficient of thermal expansion of the materials making up the microsplitter are also disclosed.
72 Citations
10 Claims
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1. A microsplitter module adapted to optically connect an input optical fiber with at least one external output device having an associated connector type, comprising:
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a splitter chip assembly that includes a body, input and output ends, and a branching waveguide network supported by the body and that includes at least one input waveguide at its input end and at least two output waveguides each having output ends at the splitter chip assembly output end; an input ferrule bonded to the splitter chip assembly input end and adapted to maintain optical coupling between the input optical fiber and the input waveguide of the splitter chip assembly; a multi-fiber ferrule having a body that supports at least two output optical fibers having input and output ends, wherein the multi-fiber ferrule is arranged adjacent the splitter chip assembly output end so that the at least two output optical fiber input ends of the multi-fiber ferrule are optically coupled to corresponding at least two output ends of the at least two splitter chip assembly output waveguides; and a housing that substantially covers at least a portion of the input ferrule, the splitter chip and the multi-fiber output ferrule so as to provide conformity with the connector type associated with the at least one external output device and to support the input ferrule, splitter chip and multi-fiber ferrule in mutual alignment. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification