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Proceedings Paper

An electrical model of VCSEL as optical transmitter for optical printed circuit board
Author(s): Do-Kyoon Kim; Young-Seol Yoon; Jin-Ho Choi; Kyung-Min Kim; Young-Wan Choi; Seok Lee
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Paper Abstract

Optical interconnection is recent issue for high-speed data transmission. The limitation of high-speed electrical data transmission is caused by impedance mismatching, electric field coupling, microwave loss, and different length of the electrical signal lines. To overcome these limitations, the electrical signal in the current electrical system has to be changed by the optical signal. The most suitable optical source in the OPCB (Optical Printed Circuit Board) is VCSEL (Vertical Cavity Surface Emitting Lasers) that is low-priced and has the characteristic of vertical surface emitting. In this paper, we propose an electrical model of the VCSEL as E/O converting devices for the OPCB. The equivalent circuit of the VCSEL based on the rate equations includes carrier dynamics and material properties. The rate equation parameters are obtained by full analysis based on rate equation and experiment results. The electrical model of the VCSEL has the series resistance determined by I-V characteristic curve, and the parallel capacitance by the parasitic response of the VCSEL chip. The bandwidth of the optical interconnection is analyzed considering those parameters. We design and fabricate the optical transmitter for OPCB considering proposed electrical model of VCSEL.

Paper Details

Date Published: 25 March 2005
PDF: 9 pages
Proc. SPIE 5729, Optoelectronic Integrated Circuits VII, (25 March 2005); doi: 10.1117/12.589968
Show Author Affiliations
Do-Kyoon Kim, Chung-Ang Univ. (South Korea)
Young-Seol Yoon, Chung-Ang Univ. (South Korea)
Jin-Ho Choi, Chung-Ang Univ. (South Korea)
Kyung-Min Kim, Chung-Ang Univ. (South Korea)
Young-Wan Choi, Chung-Ang Univ. (South Korea)
Seok Lee, Korea Institute of Science and Technology (South Korea)


Published in SPIE Proceedings Vol. 5729:
Optoelectronic Integrated Circuits VII
Louay A. Eldada; El-Hang Lee, Editor(s)

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