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Marini, F.; Bellato, M.; Bergnoli, A.; Brugnera, R.; dal Corso, F.; Corti, D.; Dong, J.; Garfagnini, A.; Giaz, A.; Gong, G.; Hu, J.; Isocrate, R.; Jiang, X.; Lippi, I.; von Sturm, K.; Aiello, S.; Andronico, G.; Antonelli, V.; Bandini, W.; Basilico, D.; Brigatti, A.; Barresi, A.; Budano, A.; Bruno, R.; Caccianiga, B.; Cammi, A.; Caruso, R.; Chiesa, D.; Clementi, C.; Costa, S.; Ding, X.; Dusini, S.; Fabbri, A.; Fargetta, M.; Ford, R.; Formozov, A.; Giammarchi, M.; Grassi, M.; Landini, C.; Lombardi, P.; Lombardo, C.; Mantovani, F.; Mari, S. M.; Martellini, C.; Martini, A.; Meroni, E.; Mezzetto, M.; Miramonti, L.; Montini, P.; Montuschi, M.; Nastasi, M.; Ortica, F.; Paoloni, A.; Parmeggiano, S.; Pelliccia, N.; Previtali, E.; Ranucci, G.; Riondino, D.; Re, A. C.; Ricci, B.; Romani, A.; Saggese, P.; Serafini, A.; Sirignano, C.; Sisti, M.; Stanco, L.; Strati, V.; Torri, M.; Tuve, C.; Verde, G.; Votano, L.
IEEE transactions on nuclear science, 08/2021, Volume: 68, Issue: 8Journal Article
This article describes a design of an field-programmable gate array (FPGA) implementation of a clock and data recovery (CDR) system. The core will be integrated in the FPGA configuration for the front-end electronics (FEE) board of the Jiangmen underground neutrino observatory (JUNO) experiment. The front-end will be placed on the main detector, underground and underwater, making the electronics not accessible after installation. The timing and trigger system relies on a synchronous link connection over CAT5e cable (up to 100 m long) between the front-end and the back-end electronics (BEE), where a twisted-pair is dedicated to clock-forwarding. The robustness of the recovery clock system is essential for the stability of the FPGA firmware. The proposed project is intended to improve the clock recovery operation by increasing the immunity of the link to sudden electromagnetic interference (EMI). On top of this, the core allows to free a twisted-pair in the link, since the clock can be recovered from the data and there is no more need for a clock-dedicated transmission. This will optimize the link granting the possibility to implement other features. The design is based on two components: a numerically-controlled oscillator (NCO), in order to create a controlled frequency clock signal, and a digital phase detector (PD) to match the clock frequency with the data rate. NCOs are often coupled with a digital-to-analog converter (DAC) to create direct digital synthesizers (DDSs), which are able to produce analog waveforms of any desired frequency. In the presented case instead, the NCO generates a digital clock signal of an arbitrary frequency, while the PD manages this frequency by intercepting any shifting on the relative phase between the clock and the data. A phase aligner (PA) module guarantees that data are sampled in the middle of the eye pattern, which represents the optimal sampling point. The article presents an overview of the NCO-based CDR design and implementation, together with some tests and results in order to verify the CDR reliability. Moreover, in the last section, some other possible applications of the core are illustrated.
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