Abstract: A space active optical cable (SAOC) includes a cable including one or more optical fibers, and two or more electrical transceivers on opposing ends of the cable and interconnected by the cable. Each of the electrical transceivers includes an enclosure that encloses one or more light sources, one or more light detectors, and control electronics. Also included in the enclosure are a coupling medium to couple light into and out of the one or more optical fibers. The coupling medium can be reflecting surface or an on-axis mount. The enclosure provides a suitable heat propagation and electromagnetic interference (EMI) shielding, and the cable and the two or more electrical transceivers are radiation resistant. SAOC features optionally support a health check algorithm that allows trending optical performance in the absence of an optical connector and a potential surface treatment to increase nominally low emissivity of an EMI conductive surface.

Abstract: A space active optical cable (SAOC) includes a cable including one or more optical fibers, and two or more electrical transceivers on opposing ends of the cable and interconnected by the cable. Each of the electrical transceivers includes an enclosure that encloses one or more light sources, one or more light detectors, and control electronics. Also included in the enclosure are a coupling medium to couple light into and out of the one or more optical fibers. The coupling medium can be reflecting surface or an on-axis mount. The enclosure provides a suitable heat propagation and electromagnetic interference (EMI) shielding, and the cable and the two or more electrical transceivers are radiation resistant. SAOC features optionally support a health check algorithm that allows trending optical performance in the absence of an optical connector and a potential surface treatment to increase nominally low emissivity of an EMI conductive surface.

Abstract: A space active optical cable (SAOC) includes a cable including one or more optical fibers, and two or more electrical transceivers on opposing ends of the cable and interconnected by the cable. Each of the electrical transceivers includes an enclosure that encloses one or more light sources, one or more light detectors, and control electronics. Also included in the enclosure are a coupling medium to couple light into and out of the one or more optical fibers. The coupling medium can be reflecting surface or an on-axis mount. The enclosure provides a suitable heat propagation and electromagnetic interference (EMI) shielding, and the cable and the two or more electrical transceivers are radiation resistant. SAOC features optionally support a health check algorithm that allows trending optical performance in the absence of an optical connector and a potential surface treatment to increase nominally low emissivity of an EMI conductive surface.

Abstract: A space active optical cable (SAOC) includes a cable including one or more optical fibers, and two or more electrical transceivers on opposing ends of the cable and interconnected by the cable. Each of the electrical transceivers includes an enclosure that encloses one or more light sources, one or more light detectors, and control electronics. Also included in the enclosure are a coupling medium to couple light into and out of the one or more optical fibers. The coupling medium can be reflecting surface or an on-axis mount. The enclosure provides a suitable heat propagation and electromagnetic interference (EMI) shielding, and the cable and the two or more electrical transceivers are radiation resistant. SAOC features optionally support a health check algorithm that allows trending optical performance in the absence of an optical connector and a potential surface treatment to increase nominally low emissivity of an EMI conductive surface.

Abstract: A space active optical cable (SAOC) includes a cable including one or more optical fibers, and two or more electrical transceivers on opposing ends of the cable and interconnected by the cable. Each of the electrical transceivers includes an enclosure that encloses one or more light sources, one or more light detectors, and control electronics. Also included in the enclosure are a coupling medium to couple light into and out of the one or more optical fibers. The coupling medium can be reflecting surface or an on-axis mount. The enclosure provides a suitable heat propagation and electromagnetic interference (EMI) shielding, and the cable and the two or more electrical transceivers are radiation resistant. SAOC features optionally support a health check algorithm that allows trending optical performance in the absence of an optical connector and a potential surface treatment to increase nominally low emissivity of an EMI conductive surface.

Abstract: A space active optical cable (SAOC) includes a cable including one or more optical fibers, and two or more electrical transceivers on opposing ends of the cable and interconnected by the cable. Each of the electrical transceivers includes an enclosure that encloses one or more light sources, one or more light detectors, and control electronics. Also included in the enclosure are a coupling medium to couple light into and out of the one or more optical fibers. The coupling medium can be reflecting surface or an on-axis mount. The enclosure provides a suitable heat propagation and electromagnetic interference (EMI) shielding, and the cable and the two or more electrical transceivers are radiation resistant. SAOC features optionally support a health check algorithm that allows trending optical performance in the absence of an optical connector and a potential surface treatment to increase nominally low emissivity of an EMI conductive surface.

Abstract: A basketball net device for mounting on a raised basketball hoop or ring from a position well below the basketball hoop. The basketball net device comprises an annular member or hoop ring having a hoop ring section for coupling to the basketball ring. The annular member includes an annular skirt section configured to extend and be positioned inside the basketball ring and support a net. According to an embodiment, the net is connected to the annular skirt section utilizing fasteners configured to secure the net and allow the net to pivot or rotate relative to the annular skirt section to emulate the game play of a conventional net mounted on the basketball hoop. According to another embodiment, the net comprises cords made from a tightly weaved material resulting in a net that is stiffer than a conventional net.

Abstract: A basketball net device for mounting on a raised basketball hoop or ring from a position well below the basketball hoop. The basketball net device comprises an annular member or hoop ring having a hoop ring section for coupling to the basketball ring. The annular member includes an annular skirt section configured to extend and be positioned inside the basketball ring and support a net. According to an embodiment, the net is connected to the annular skirt section utilizing fasteners configured to secure the net and allow the net to pivot or rotate relative to the annular skirt section to emulate the game play of a conventional net mounted on the basketball hoop. According to another embodiment, the net comprises cords made from a tightly weaved material resulting in a net that is stiffer than a conventional net.

Abstract: A basketball net device for mounting on a raised basketball hoop or ring from a position well below the basketball hoop. The basketball net device comprises an annular member or hoop ring having a hoop ring section for coupling to the basketball ring. The annular member includes an annular skirt section configured to extend and be positioned inside the basketball ring and support a net. According to an embodiment, the net is connected to the annular skirt section utilizing fasteners configured to secure the net and allow the net to pivot or rotate relative to the annular skirt section to emulate the game play of a conventional net mounted on the basketball hoop. According to another embodiment, the net comprises cords made from a tightly weaved material resulting in a net that is stiffer than a conventional net.