Title :
Electrical packaging impact on source components in optical interconnects
Author :
Neifeld, Mark A. ; Chou, Wu-Chun
Author_Institution :
Dept. of Electr. & Comput. Eng., Arizona Univ., Tucson, AZ, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
A simulation study of source module components for use within optical interconnect systems is described. SPICE models of laser diodes, CMOS drivers, and electrical packages are developed and exercised to evaluate overall source module performance. Performance metrics for power dissipation, signal latency, wavelength chirp, and signal fidelity are used. The effects of laser diode threshold current, bias condition, and driving current level are determined with respect to these metrics. The influence of driver type and electrical packaging technologies on source module performance is also evaluated. Transmission Line models of printed wiring board (PWB), tape automated bonding (TAB), and flip-chip bonding (C4) are used to study package related effects. It is found that under appropriate operating conditions, PWB can achieve acceptable noise, power, and latency performance for data rates up to 500 MHz while flip-chip bonding is required to exceed data rates of 800 MHz for the cases studied
Keywords :
SPICE; digital simulation; flip-chip devices; optical interconnections; packaging; printed circuit layout; semiconductor lasers; tape automated bonding; 500 MHz; 800 MHz; SPICE models; bias condition; driving current level; electrical packaging; flip-chip bonding; laser diode threshold current; optical interconnects; power dissipation; printed wiring board; signal fidelity; signal latency; source module components; tape automated bonding; transmission line models; wavelength chirp; Bonding; Delay; Diode lasers; Measurement; Optical devices; Optical interconnections; Packaging; Power system modeling; SPICE; Semiconductor device modeling;
Journal_Title :
Components, Packaging, and Manufacturing Technology, Part B: Advanced Packaging, IEEE Transactions on
