Abstract :
An electronic board, called floor control module (FCM), was developed for the NEMO project, an underwater neutrino telescope. The offshore FCM is in charge of providing interfaces toward instrumental control boards, collecting data from up to eight readout channels, packing and sending streams to the onshore laboratory through an optical fiber driven by a dense wavelength division multiplexing (DWDM) electro-optical transceiver. To obtain a common timing at each level of the apparatus, communication adopts the synchronous digital hierarchy (SDH) protocol, a standard telecommunication synchronous format which allows clock recovery from bitstream, thus simplifying the distribution network. The channel is fully bidirectional to allow underwater apparatus control. The same FCM, plugged into a PCI bus, can also be used onshore for data reception and transmission. This architecture provides a complete real-time data transport layer between the onshore laboratory and the underwater detector.
Keywords :
electro-optical devices; nuclear electronics; optical fibre networks; readout electronics; synchronisation; synchronous digital hierarchy; telecommunication channels; transceivers; wavelength division multiplexing; NEMO floor control module; PCI bus; bitstream; clock recovery; data collection; data reception; data transmission; dense wavelength division multiplexing electro-optical transceiver; distribution network; electronic board; instrumental control boards; interfaces; onshore laboratory; optical fiber; packing streams; readout channels; real-time data transport layer; sending streams; standard telecommunication synchronous format; synchronous digital hierarchy protocol; underwater apparatus control; underwater detector; underwater neutrino telescope; Communication system control; Instruments; Laboratories; Neutrino sources; Optical control; Optical fibers; Synchronous digital hierarchy; Telescopes; Transceivers; Wavelength division multiplexing; DWDM; NEMO; SDH; readout electronics;
