Abstract: Optical devices, components and methods for mounting optical fibers and for side-coupling light to/from optical fibers using a modified silicon V-groove, or silicon V-groove array, wherein V-grooves, which are designed for precisely aligning/spacing optical fibers, are “recessed” below the surface of the silicon. Optical fibers can be recessed below the surface of the silicon substrate such that a precisely controlled portion of the cladding layer extending above the silicon surface can be removed (lapped). With the cladding layer removed, the separation between the fiber core(s) and optoelectronic device(s) can be reduced resulting in improved optical coupling when the optical fiber silicon array is connected to, e.g., a VCSEL array.

Abstract: An integrated optical transducer assembly includes a substrate and an optoelectronic array attached to the substrate. The optoelectronic array further includes a plurality of individual subunits bonded together to form a single array, with each of the subunits including a defined number of individual optoelectronic elements associated therewith. The elastomeric material maintains an original alignment between the plurality of subunits.

Abstract: An optoelectronic transceiver assembly includes a plurality of optical transmission devices coupled to a first end of a multimode optical fiber core. Each of the plurality of optical transmission devices generates light at a different wavelength with respect to one another. A wavelength demultiplexing device is coupled to a second end of the multimode optical fiber core, and a plurality of optical detection devices is in proximity to the demultiplexing device. The optical detection devices receive light transmitted by the plurality of optical transmission devices.

Abstract: An exemplary embodiment of the present invention is an apparatus for providing optical interprocessor communication. The apparatus comprises a multichip module and an optical module. The multichip module includes a substrate, an integrated circuit electrically connected to the substrate and a hermetically sealed cover. The hermetically sealed cover encloses a sealed portion of the substrate and the integrated circuit is inside of the sealed cover. The optical module includes an optical transceiver located on the substrate outside of the sealed portion and the optical transceiver is electrically connected to the integrated circuit through the substrate.

Abstract: Optical devices, components and methods for mounting optical fibers and for side-coupling light to/from optical fibers using a modified silicon V-groove, or silicon V-groove array, wherein V-grooves, which are designed for precisely aligning/spacing optical fibers, are “recessed” below the surface of the silicon. Optical fibers can be recessed below the surface of the silicon substrate such that a precisely controlled portion of the cladding layer extending above the silicon surface can be removed (lapped). With the cladding layer removed, the separation between the fiber core(s) and optoelectronic device(s) can be reduced resulting in improved optical coupling when the optical fiber silicon array is connected to, e.g., a VCSEL array.

Abstract: An exemplary embodiment of the present invention is an apparatus for providing optical interprocessor communication. The apparatus comprises a multichip module and an optical module. The multichip module includes a substrate, an integrated circuit electrically connected to the substrate and a hermetically sealed cover. The hermetically sealed cover encloses a sealed portion of the substrate and the integrated circuit is inside of the sealed cover. The optical module includes an optical transceiver located on the substrate outside of the sealed portion and the optical transceiver is electrically connected to the integrated circuit through the substrate.

Abstract: An initialization facility is provided for a fiber optic data link wherein the link can be initialized in one of a plurality of fiber control modes, including one or more open fiber control (OFC) modes and a non-OFC mode. Initialization may be automatic, being responsive to received optical signals, or user determined. Along with the initialization facility, safety logic is presented which allows the facility to be fully compliant with industry standard laser safety requirements for inherently safe Class 1 operation. Further, logic is provided for controlling resetting of an OFC chip. In one embodiment, the facility can be implemented in an auto-sense circuit coupled between a conventional OFC chip and a transceiver of the fiber optic data link.

Abstract: In a tool for measuring optical power on a fiber optic cable link, optical conditioning means in conjunction with a splitter are used to achieve measurement consistency and repeatability. In accordance with preferred embodiments of the present invention, light conditioning means are provided by disposing the optical fiber cable in a position so as to achieve mode filtering. This may be accomplished either by disposing the optical fiber in a coil, as for example in a mandrel, or disposing the coil in a series of serpentine or zig-zag paths.

Abstract: A fiber optic mode conditioner for obtaining an equilibrium light distribution in a multimode fiber optic link under test. Light is supplied to the link through a gap between two successive fiber optic segments, followed by a high-curvature region created by wrapping the second fiber optic segment around a mandrel. The gap functions as a mode filter, stripping off all but the lowest modes, while the curved region acts as a mode scrambler redistributing the light energy into the intermediate modes.

Abstract: Light is coupled into and out of an optical fiber from the side by providing an acute angular cut along the end of the optical fiber and locating a light source adjacent the side of the optical fiber opposite the inner facing surface of the cut such that light reflects from the cut surface substantially parallel to the optical axis of the optical fiber. The outer surface of the cut is rendered reflective. The curved optical fiber cladding material between the side located light source or detector and the inner surface of the cut end of the optical fiber acts as a lens to collimate the light from the light source.