Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC)

Autor: R.E. Leibenguth, H.A. Aispain, B.H. Tyrone, W.J. Parzygnat, M.W. Focht, J.V. Gates, R.J.S. Bates, C.C. Faudskar, S.F. Nati, S.G. Walker, D.J. Muehlner, K.G. Glogovsky, T.J. Ireland, Daniel M. Kuchta, P.J. Anthony, D.H. Lewis, R.A. Morgan, T. Mullally, J.L. Brandner, G. Guth, David K. Lewis, Yiu-Man Wong, D.F. Smith, Young H. Kwark, J.L. Zilko, John D. Crow, M. Fishteyn, Dennis L. Rogers, S. Gowda, D.B. Buchholz
Rok vydání: 1995
Předmět:
Zdroj: Journal of Lightwave Technology. 13:995-1016
ISSN: 0733-8724
Popis: A parallel, 32-channel, high density (140 /spl mu/m pitch), 500 Mb/s NRZ, point-to-point, optical data link has been fabricated using existing GaAs IC, silicon optical bench (SiOB), and multichip module (MCM-D) technologies. The main components of the transmitter and the receiver modules are a GaAs-based vertical cavity surface emitting laser (VCSEL) array at 850 mn with its IC driver array chip and an integrated metal-semiconductor-metal (MSM) receiver (photodetector and signal processing circuits) array at 850 nm. The package module uses a modified 164 I/O JEDEC premolded plastic quad flat pack (PQFP) in combination with a polymer film integrated circuit (POLYFIC) chip carrier. The electrical input and output are 500 Mb/s NRZ binary signals. The optical I/O in both modules consists of a directly-connectorized (nonpigtail) fiber array block that plugs into the 32/spl times/1 optical fiber ribbon directly on one side and accepts 32 optical signals from the SEL array or delivers them to the MSM receiver array via a gold-coated 45/spl deg/ polished fiber array mirror. The MACII-32 ribbon cable is an enhanced version of the standard MACII connector ribbon cable. This paper characterizes key components of the optical data link, describes its package design, and discusses preliminary component and optical data link test results. >
Databáze: OpenAIRE