Title :
Thermally induced IC package cracking
Author_Institution :
Digital Equipment Corp., Franklin, MA
Abstract :
Three methods which have demonstrated improved resistance to plastic package cracking are discussed. One is the elimination of the die paddle through the use of tape automated bonding (TAB)-type tape. The second method is the use of lead frame surface treatments prior to encapsulation to eliminate the moisture concentration at the back-side of the die paddle. The third method is the simple elimination of package moisture by baking the components just before the mass reflow operations. Each of these methods has separate advantages and disadvantages which are detailed and examined in terms of the overall manufacturability of the components. The problems encountered when trying to sidestep the thermal cracking problem by the use of sockets is discussed. Ceramic packages also suffer thermally induced cracks, including pin grid array packages which only experience the relatively mild thermal exposure of standard wave soldering. The parameters involved in this phenomenon are detailed
Keywords :
integrated circuit technology; moisture; packaging; reliability; thermal stress cracking; IC package cracking; TAB tape; advantages; baking; ceramic packages; die paddle elimination; disadvantages; elimination of package moisture; lead frame surface treatments; mass reflow operations; methods; overall manufacturability; pin grid array packages; problems with sockets; resistance to plastic package cracking; thermally induced IC; thermally induced cracks; Bonding; Encapsulation; Integrated circuit packaging; Lead; Manufacturing; Moisture; Plastic packaging; Surface cracks; Surface resistance; Surface treatment;
Conference_Titel :
Thermal Phenomena in Electronic Systems, 1990. I-THERM II., InterSociety Conference on
Conference_Location :
Las Vegas, NV
DOI :
10.1109/ITHERM.1990.113310
