Abstract: An OSFP optical transceiver having split multiple fiber optical port using reduced amount of MPO terminations is provided that includes two adjacent sockets integrated into the optical port of the OSFP optical transceiver. The two adjacent sockets are vertically oriented with respect to the mounting baseplate of the OSFP optical transceiver, and each of the two adjacent sockets is adapted to receive an MPO receptacle that terminates the proximal end of a bundle of fibers. The OSFP optical transceiver also includes an optical connection between each socket and a corresponding lens in the OSFP optical transceiver, for transmitting optical signals received from other transceivers into the OSFP optical transceiver and optical signals generated in the OSFP optical transceiver to other transceivers.

Abstract: An OSFP optical transceiver having split multiple fiber optical port using reduced amount of MPO terminations is provided that includes two adjacent sockets integrated into the optical port of the OSFP optical transceiver. The two adjacent sockets are vertically oriented with respect to the mounting baseplate of the OSFP optical transceiver, and each of the two adjacent sockets is adapted to receive an MPO receptacle that terminates the proximal end of a bundle of fibers. The OSFP optical transceiver also includes an optical connection between each socket and a corresponding lens in the OSFP optical transceiver, for transmitting optical signals received from other transceivers into the OSFP optical transceiver and optical signals generated in the OSFP optical transceiver to other transceivers.

Abstract: Apparatuses, systems, and methods are described that provide improved networking communication systems and associated adapters. An example networking communication adapter includes an adapter housing defining a first end and a second end opposite the first end. The first end is configured to engage an Octal Small Form Factor Pluggable (OSFP) connector, and the second end is configured to receive a Quad Small Form Factor Pluggable Double Density (QSFP-DD) transceiver therein. The networking communication adapter further includes an inner connector positioned within the adapter housing. In an operational configuration in which the first end engages the OSFP connector and the second end receives the QSFP-DD transceiver, the inner connector operably connects the QSFP-DD transceiver with the OSFP connector such that signals may pass therebetween.

Abstract: An OSFP optical transceiver having split multiple fiber optical port using reduced amount of MPO terminations is provided that includes two adjacent sockets integrated into the optical port of the OSFP optical transceiver. The two adjacent sockets are vertically oriented with respect to the mounting baseplate of the OSFP optical transceiver, and each of the two adjacent sockets is adapted to receive an MPO receptacle that terminates the proximal end of a bundle of fibers. The OSFP optical transceiver also includes an optical connection between each socket and a corresponding lens in the OSFP optical transceiver, for transmitting optical signals received from other transceivers into the OSFP optical transceiver and optical signals generated in the OSFP optical transceiver to other transceivers.

Abstract: Apparatuses, systems, and methods are described that provide improved networking communication systems and associated adapters. An example networking communication adapter includes an adapter housing defining a first end and a second end opposite the first end. The first end is configured to engage an Octal Small Form Factor Pluggable (OSFP) connector, and the second end is configured to receive a Quad Small Form Factor Pluggable Double Density (QSFP-DD) transceiver therein. The networking communication adapter further includes an inner connector positioned within the adapter housing. In an operational configuration in which the first end engages the OSFP connector and the second end receives the QSFP-DD transceiver, the inner connector operably connects the QSFP-DD transceiver with the OSFP connector such that signals may pass therebetween.

Abstract: Apparatuses, systems, and methods are described that provide improved networking communication systems and associated adapters. An example networking communication adapter includes an adapter housing defining a first end and a second end opposite the first end. The first end is configured to engage an Octal Small Form Factor Pluggable (OSFP) connector, and the second end is configured to receive a Quad Small Form Factor Pluggable Double Density (QSFP-DD) transceiver therein. The networking communication adapter further includes an inner connector positioned within the adapter housing. In an operational configuration in which the first end engages the OSFP connector and the second end receives the QSFP-DD transceiver, the inner connector operably connects the QSFP-DD transceiver with the OSFP connector such that signals may pass therebetween.

Abstract: Apparatuses, systems, and methods are described that provide improved networking communication systems and associated adapters. An example networking communication adapter includes an adapter housing defining a first end and a second end opposite the first end. The first end is configured to engage an Octal Small Form Factor Pluggable (OSFP) connector, and the second end is configured to receive a Quad Small Form Factor Pluggable Double Density (QSFP-DD) transceiver therein. The networking communication adapter further includes an inner connector positioned within the adapter housing. In an operational configuration in which the first end engages the OSFP connector and the second end receives the QSFP-DD transceiver, the inner connector operably connects the QSFP-DD transceiver with the OSFP connector such that signals may pass therebetween.

Abstract: An OSFP optical transceiver having split multiple fiber optical port using reduced amount of MPO terminations is provided that includes two adjacent sockets integrated into the optical port of the OSFP optical transceiver. The two adjacent sockets are vertically oriented with respect to the mounting baseplate of the OSFP optical transceiver, and each of the two adjacent sockets is adapted to receive an MPO receptacle that terminates the proximal end of a bundle of fibers. The OSFP optical transceiver also includes an optical connection between each socket and a corresponding lens in the OSFP optical transceiver, for transmitting optical signals received from other transceivers into the OSFP optical transceiver and optical signals generated in the OSFP optical transceiver to other transceivers.

Abstract: A communication device includes a mechanical frame, which is configured to be inserted into a multi-channel Small Form-Factor Pluggable (SFP) receptacle that is compliant with a first SFP standard and to receive inside the frame an SFP connector that is compliant with a second SFP standard, which is different from the first SFP standard. First electrical terminals, held by the mechanical frame, are configured to mate with respective first pins of the SFP receptacle, and second electrical terminals, electrically coupled within the mechanical frame to the first electrical terminals, are configured to mate with respective second pins of the SFP connector. A heat sink is mounted on the mechanical frame and configured to make a positive contact with the SFP connector when the SFP connector is inserted into the mechanical frame and to be contained completely within the SFP receptacle when the mechanical frame is inserted into the SFP receptacle.

Abstract: Apparatuses and associated methods of manufacturing are described that provide a cage receptacle assembly configured to receive a cable connector. The cage receptacle assembly includes a cage body defining a first end and a second end. The cage body includes a top cage member attached to a bottom cage member via two side portions of the top cage member, and the bottom cage member defines an opening. The cage receptacle assembly defines a heat dissipation unit disposed within the opening of the bottom cage member, and the heat dissipation unit includes one or more heat dissipation elements allowing heat to be transferred from the cable connector to an external environment of the cage receptacle assembly.

Abstract: Apparatuses and associated methods of manufacturing are described that provide a cage receptacle assembly configured to receive a cable connector. The cage receptacle assembly includes a cage body defining a first end and a second end. The cage body includes a top cage member attached to a bottom cage member via two side portions of the top cage member, and the bottom cage member defines an opening. The cage receptacle assembly defines a heat dissipation unit disposed within the opening of the bottom cage member, and the heat dissipation unit includes one or more heat dissipation elements allowing heat to be transferred from the cable connector to an external environment of the cage receptacle assembly.

Abstract: A communication device includes a mechanical frame, which is configured to be inserted into a multi-channel Small Form-Factor Pluggable (SFP) receptacle that is compliant with a first SFP standard and to receive inside the frame an SFP connector that is compliant with a second SFP standard, which is different from the first SFP standard. First electrical terminals, held by the mechanical frame, are configured to mate with respective first pins of the SFP receptacle, and second electrical terminals, electrically coupled within the mechanical frame to the first electrical terminals, are configured to mate with respective second pins of the SFP connector. A heat sink is mounted on the mechanical frame and configured to make a positive contact with the SFP connector when the SFP connector is inserted into the mechanical frame and to be contained completely within the SFP receptacle when the mechanical frame is inserted into the SFP receptacle.

Abstract: Methods and associated apparatuses are described that provide an optical waveguide structure configured for use within an optoelectronic connector. The optical waveguide structure includes a base member having a first surface defining a plurality of trenches including an optical transmission medium and one or more channels including an adhesive material. The optical waveguide structure includes a lid member having a first surface, where the first surface of the lid member is disposed against the first surface of the base member to form the optical waveguide structure. The one or more channels having the adhesive material serve to secure the lid member to the base member, and the plurality of trenches having an optical transmission medium allow optical signals to pass therethrough.

Abstract: A communication device includes a mechanical frame, which is configured to be inserted into a multi-channel Small Form-Factor Pluggable (SFP) receptacle that is compliant with a first SFP standard and to receive inside the frame an SFP connector that is compliant with a second SFP standard, which is different from the first SFP standard. First electrical terminals, held by the mechanical frame, are configured to mate with respective first pins of the SFP receptacle, and second electrical terminals, electrically coupled within the mechanical frame to the first electrical terminals, are configured to mate with respective second pins of the SFP connector. A heat sink is mounted in the mechanical frame and configured to make a positive contact with the SFP connector when the SFP connector is inserted into the mechanical frame.