Abstract: This invention uses fiber characteristics combined with knowledge of the 8b10b code to discover and compensate for skew between parallel data streams, caused by chromatic dispersion, in a WDM system allowing the receiver to recover both the data and timing of the data streams as they were originally launched. This skew discovery and compensation does not require the insertion or deletion of any control symbols to/from the original 8b10b streams, and does not require the use of a training or sample sequence.

Abstract: A low profile optical wavelength division multiplexer and/or demultiplexer is provided which is carried in a pluggable module and adapted for detachable connection to a host device. The device includes a three strata optical subassembly including a substrate, a molded plastic coupling module and an optical block either connected to or integrally formed with the molded coupling module. The device can be used with either horizontally or vertically pluggable modules. The device has one embodiment capable of mounting in a GBIC compliant module.

Abstract: An opto-electronic device is provided wherein an optical assembly having a first coefficient of thermal expansion is connected to a substrate having a second, different coefficient of thermal expansion. A plurality of stakes are either separately inserted or integrally formed-in the optical assembly and extend through and are adhesively bonded to passageways formed in the substrate. The stakes reduce or prevent differential thermal expansion that would otherwise occur as the device heats up during operation. The substrate may be thermally connected to a metallic housing for the device to increase transfer of unwanted heat into the ambient atmosphere.

Abstract: A cost-effective wavelength division multiplexer and demultiplexer for use in optical communication consists of three modules, including a fiber array, a lens array and a filter array/reflector. Each array is made in wafer level with very precise position control and is bonded to an adjacent wafer by conventional wafer bonding techniques. In addition to eliminating the need for active alignment in the manufacturing process of a wavelength division multiplexer (WDM) transceiver, the invention reduces the footprint of such a device to the order of a few millimeters and the process is suitable for low-cost, large quantity manufacturing. The fiber array is connected to the light sources, which optimally are fiber pig-tailed semiconductor lasers to enable repeatable and accurate placement in reference to the lens array.

Abstract: An optical wavelength multiplexer and/or demultiplexer is provided having mechanical strain relief. The mechanical strain relief is provided by mounting ears carried by a molded coupling module supporting the fiber optic cable receptacle. The mounting ears are engaged by a pair of mounting plates carried by a housing for the device. Loads applied to the fiber optic cable receptacle are transferred to the housing frame and do not adversely affect the optical pathway of the assembled device.

Abstract: An optical wavelength division multiplexer and demultiplexer is provided wherein the optical couplings and alignment of the device are achieved by forming and adhesively joining a prefabricated optical block to a molded coupling module to avoid post-fabrication alignment and adjustment of the optical pathway otherwise required. One or more adhesive overflow channels are formed in said upper surface of the molded coupling module to receive excess adhesive used to join the optical block to the molded coupling module. Dams are formed adjacent each of said adhesive overflow channels to contain adhesive used to join the optical block to the molded coupling module, and to facilitate the use of low viscosity adhesive which in turn achieves a tighter, more parallel bond between the adhesively bonded parts.

Abstract: A patterned opaque layer is applied between adjacent filters mounted on a common optical block surface in a wavelength division multiplexer and demultiplexer. The patterned opaque layer covers the optically transparent regions between adjacent filters mounted on the common surface of the optical block. The patterned opaque layer is also applied around the perimeter of the footprint of the array of filters mounted on the common surface of the optical block. The patterned opaque layer reduces cross-talk between the filters and reduces optical noise.

Abstract: An optical wavelength division multiplexer and de-multiplexer for single mode or multi-mode fiber optic communication systems is provided. The device includes in its preferred embodiment a prefabricated optical block having a reflective coating on its flat upper surface and a plurality of n filters carried on its flat lower surface. A molded plastic coupling module has a flat upper surface to which the optical block and filters are adhesively mounted and the coupling module also includes a lower surface having a plurality of n aspheric lenses. In the preferred embodiment, a fiber optic cable receptacle is molded to the coupling module along with a collimating lens and a beam reflector so that, when the components are assembled, the optical pathway is passively aligned and no postfabrication alignment adjusting or tuning is required.