Title :
Determination of safe back-driving currents in bond wires and dice
Author :
Hill, G.J. ; Roberts, B.C. ; Strudwick, C.P.
Author_Institution :
ERA Technol. Ltd., Leatherhead, UK
Abstract :
The most obvious damage mechanism in backdriven bond wires during circuit-board testing is overheating which can, in extreme cases, cause melting of the wire. The authors outline experiments to assess the effects of temperature, current density and number of pulses in aluminium wires so that realistic limits may be set for backdriving. Another potential damage mechanism is overheating of the semiconductor junctions within the die, leading to second breakdown and subsequent thermal runaway. Simple algorithms have been developed to predict the junction temperature for a given device in terms of the power dissipation pulse duration and the geometry of the backdriven transistor
Keywords :
aluminium; electric connectors; printed circuit accessories; printed circuit testing; thermal stresses; wires (electric); Al; backdriven transistor; bond wires; circuit-board testing; current density; damage; dice; effects of temperature; electric connectors; geometry; junction temperature; melting; number of pulses; overheating; power dissipation pulse duration; safe back-driving currents; second breakdown; semiconductor junctions; thermal runaway; Aluminum; Bonding; Circuit testing; Current density; Electric breakdown; Lead compounds; Power dissipation; Semiconductor device breakdown; Temperature; Wires;
Conference_Titel :
Test Conference, 1988. Proceedings. New Frontiers in Testing, International
Conference_Location :
Washington, DC
Print_ISBN :
0-8186-0870-6
DOI :
10.1109/TEST.1988.207897
