Abstract: The disclosure relates to optical fiber transmission systems, and in particular, pertains to the transceiver cards in an optical fiber transport system. In particular the disclosure teaches an improved transceiver card architecture that allows high density, flexibility and interchangeability of functionality.

Abstract: Signals entering outside plant (OSP) telecommunications enclosures typically do so through weather tight connectors, with one connector mounted to the enclosure and a mating connector connected to a cable bringing the signals to the OSP housing. Such connectors are expensive and require extensive effort to connect the wires of a cable bundle to the connectors. These problems are avoided by allowing cables pre-installed with a cable seal and pre-terminated to cable connectors to pass through an opening in the wall of an OSP housing and seal the cable bundle to the housing to prevent the ingress of environmental elements into the housing through the opening. This permits easier installation and retrofitting of electronic equipment contained within the housing.

Abstract: The disclosure relates to optical fiber transmission systems, and in particular, pertains to the transceiver cards in an optical fiber transport system. In particular the disclosure teaches an improved transceiver card architecture that allows high density, flexibility and interchangeability of functionality.

Abstract: The disclosure relates to optical fiber transmission systems, and in particular, pertains to the transceiver cards in an optical fiber transport system. In particular the disclosure teaches an improved transceiver card architecture that allows high density, flexibility and interchangeability of functionality.

Abstract: Signals entering outside plant (OSP) telecommunications enclosures typically do so through weather tight connectors, with one connector mounted to the enclosure and a mating connector connected to a cable bringing the signals to the OSP housing. Such connectors are expensive and require extensive effort to connect the wires of a cable bundle to the connectors. These problems are avoided by allowing cables pre-installed with a cable seal and pre-terminated to cable connectors to pass through an opening in the wall of an OSP housing and seal the cable bundle to the housing to prevent the ingress of environmental elements into the housing through the opening. This permits easier installation and retrofitting of electronic equipment contained within the housing.

Abstract: The disclosure relates to optical fiber transmission systems, and in particular, pertains to the transceiver cards in an optical fiber transport system. In particular the disclosure teaches an improved transceiver card architecture that allows high density, flexibility and interchangeability of functionality.

Abstract: The invention is relevant to optical fiber transmission systems, and in particular, pertains to the transceiver cards in an optical fiber transport system. In particular the invention teaches an improved transceiver card architecture that allows high density, flexibility and interchangeability of functionality.

Abstract: A flexible optical circuit comprising passive or active components is provided. The flexible optical circuit includes a first optical fiber having both first and second ends, a second optical fiber having both first and second ends, a flexible substrate attached to both the first and second optical fibers where the first and second pins of the first and second optical fibers extend to at least the edge of the flexible substrate and a component coupled to the first optical fiber between the first and second ends. The component can be used passive or active. A passive component requires no electrical trace lines to activate the component and the passive component will react upon the reception of a light-wave signal. The active component will require power from the back plane before the active component can modify or affect the light-wave signal. The first and second ends of the optical fibers extend at least to the edge of the flexible optical circuit or can extend beyond the edge of the flexible substrate.