Title :
Fusing current of short aluminum bond wire
Author :
Knecht, Sheera ; Gonzalez, Bill ; Sieber, Kimberley
Author_Institution :
Digital Equipment Corp., Hudson, MA, USA
fDate :
29 May-1 Jun 1996
Abstract :
An analytical and experimental study of steady-state fusing current of unencapsulated aluminum wirebonds was performed, in order to confirm existing analytical work with more extensive experimental data. Finite element modeling results and experimental data were compared for wire heated by constant current, with wire lengths of 30-150 mils and diameters of 0.8-1.25 mils. Die temperatures were also varied from 30-100°C. Material properties for the model were taken from the SRC/CINDAS database for Al 1%Si. Very good agreement was obtained between the experimental data and the one-dimensional finite element conduction model. A semi-empirical model was also derived to include the second order effect of convective cooling of the wire. The effect of over-bonding was shown to be minimal as was the effect of die temperature, within the range tested. Little variation was found between replicates of test conditions which were conducted in random order. Finally, the effect of CMOS transistor operating frequency above 100 MHz on wire burn-out was considered briefly
Keywords :
ULSI; convection; cooling; finite element analysis; integrated circuit metallisation; integrated circuit packaging; lead bonding; melting; 0.8 to 1.25 mil; 30 to 100 degC; 30 to 150 mil; AlSi; IC packaging; SRC/CINDAS database; ULSI; bond wire; convective cooling; die temperature; finite element modeling; over-bonding; semi-empirical model; steady-state fusing current; wire lengths; Aluminum; Bonding; Databases; Finite element methods; Material properties; Performance analysis; Steady-state; Temperature; Testing; Wire;
Conference_Titel :
Thermal Phenomena in Electronic Systems, 1996. I-THERM V., Inter-Society Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-3325-X
DOI :
10.1109/ITHERM.1996.534580
