16 September 1998 Monolithic 2.5-Gb/s clock and data recovery circuit based on silicon bipolar technology
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Proceedings Volume 3408, Broadband European Networks and Multimedia Services; (1998) https://doi.org/10.1117/12.321886
Event: SYBEN-Broadband European Networks and Electronic Image Capture and Publishing, 1998, Zurich, Switzerland
Abstract
A monolithic Clock and Data Recovery (CDR) circuit for SDH STM-16 (2.5 Gb/s) digital receivers has been designed and fabricated using Maxim GST-2 27 GHz Silicon bipolar technology. The main functions carried out by the IC are: signal amplification (40 dB) and limitation, clock recovery and decision. The design is intended to achieve a complete 2.5 Gb/s receiver by using the IC and a low noise preamplifier (transimpedance stage), mounted in a DIL package. The integrated circuit comprises about 400 active devices, used both for analog and digital blocks, and uses two supply voltages of 5 and -4.5 V. The input port is decoupled by external capacitors and matched to 50 (Omega) using on-chip resistors, whereas clock and data outputs are open collector type. The die size is 2 X 2 mm2 and the chip has been packaged using a TQFP 48 pins plastic package. Measurements under 231-1 PRBS data stream have shown an input sensitivity below 5 mVpp, rms output jitter below 7 ps and total power consumption of 0.8 W.
© (1998) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Andrea Pallotta, Francesco Centurelli, Francesco Loriga, Alessandro Trifiletti, "Monolithic 2.5-Gb/s clock and data recovery circuit based on silicon bipolar technology", Proc. SPIE 3408, Broadband European Networks and Multimedia Services, (16 September 1998); doi: 10.1117/12.321886; https://doi.org/10.1117/12.321886
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