Title :
New proposal for a multigigabit/s clock recovery IC based on a standard silicon bipolar technology
Author :
Wang, Zhen ; Langmann, U.
Author_Institution :
Ruhr-Universitÿt Bochum, Institut fÿr Elektronik, Bochum, West Germany
Abstract :
A clock recovery IC for optical fibre communication at multigigabit/s is proposed. The clock frequency extracted corresponds to half the bit rate. The 2:1 frequency division is carried out by a double balanced mixer and the frequency selection by an SAW filter. Circuit simulations are based on a standard 2 ¿m silicon bipolar technology. The circuit was optimisd at 3.4 Gbit/s for a power consumption of 220 mW with a 1.7 GHz SAW filter (Q = 340). The dynamic clock phase jitter, estimated from circuit simulations, is less than 0.5°. Circuit simulations predict that the operating bit rate may be exended up to 4.5 Gbit/s.
Keywords :
bipolar integrated circuits; elemental semiconductors; optical communication equipment; semiconductor technology; silicon; solid-state microwave circuits; surface acoustic wave devices; 1.7 GHz; 220 mW; 3.4 Gbit/s; Q-factor 340; SAW filter; Si bipolar chip; clock recovery IC; dynamic clock phase jitter; frequency division; frequency selection; operating bit rate; optical fibre communication; power consumption; semiconductors;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19870327
