Circuit design peculiarities of photoreceivers of multimode fiber optic communication lines rated for data transmission of up to 200 MBit/s

N. Martsev; P. Kuznetsov; Evgeni A. Khodiakov

doi:10.1117/12.429725

12 June 2001 Circuit design peculiarities of photoreceivers of multimode fiber optic communication lines rated for data transmission of up to 200 MBit/s

N. Martsev, P. Kuznetsov, Evgeni A. Khodiakov

Author Affiliations +

Proceedings Volume 4425, Selected Papers from the International Conference on Optoelectronic Information Technologies; (2001) https://doi.org/10.1117/12.429725
Event: International Conference on Optoelectronic Information Technologies, 2000, Vinnytsia, Ukraine

Abstract

Fast-acting systems and devices, using fiber-optic lines as transmission medium, the application of low-noise converters designed for transformation of optic signals into electric ones compatible with digital integrated circuits is of great importance. One of the possible methods of such converter construction is suggested in the given paper. The scheme of multimode fiber-optic lines receiver designed for data transmission rate of 125 - 140 MBit/s at the wavelength of optic radiation of (lambda) equals 1,3 micrometer has been developed. The parameters of the receiver meet the requirements of closed-loop local computing net, where fiber- optic lines (FDDI standard) are used as transmission medium. The receiver was developed on the base of bipolar transistors and p-i-n photodiode.

Citation Download Citation

N. Martsev, P. Kuznetsov, and Evgeni A. Khodiakov "Circuit design peculiarities of photoreceivers of multimode fiber optic communication lines rated for data transmission of up to 200 MBit/s", Proc. SPIE 4425, Selected Papers from the International Conference on Optoelectronic Information Technologies, (12 June 2001); https://doi.org/10.1117/12.429725

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