Title :
Phase dynamics of a timing extraction system based on an optically injection-locked self-oscillating bipolar heterojunction phototransistor
Author :
Lasri, Jacob ; Eisenstein, Gadi
Author_Institution :
Dept. of Electr. Eng., Technion-Israel Inst. of Technol., Haifa, Israel
fDate :
11/1/2002 12:00:00 AM
Abstract :
We describe the phase dynamics of a timing extraction system based on direct optical injection locking of a multifrequency oscillator employing an InGaAs/InP heterojunction bipolar phototransistor. We present a general model for the locking range, jitter transfer function, and output phase noise. The model is confirmed by a series of locking experiments. We consider first fundamental timing extraction, that is, a 10-GHz oscillator extracting the clock from a 10-Gbit/s data stream. Second, we address superharmonic timing extraction where 40-Gbit/s data lock the fourth harmonic of the 10-GHz oscillator. In the superharmonic timing extraction case, a clock is extracted at 40 GHz as well as its subharmonics at 10, 20, and 30 GHz.
Keywords :
III-V semiconductors; gallium arsenide; heterojunction bipolar transistors; indium compounds; injection locked oscillators; optical receivers; phototransistors; synchronisation; timing jitter; 10 GHz; 10 Gbit/s; 20 GHz; 30 GHz; 40 GHz; 40 Gbit/s; InGaAs-InP; InGaAs/InP heterojunction bipolar phototransistor; data stream; direct optical injection locking; fourth harmonic; fundamental timing extraction; jitter transfer function; locking range; multifrequency oscillator; optically injection-locked self-oscillating bipolar heterojunction phototransistor; output phase noise; phase dynamics; photo-HBT-based oscillator; subharmonics; superharmonic timing extraction; timing extraction system; Clocks; Data mining; Heterojunctions; Indium gallium arsenide; Indium phosphide; Injection-locked oscillators; Jitter; Optical noise; Phototransistors; Timing;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2002.806362
