Title :
Chip attach for silicon hybrid multi-chip modules
Author_Institution :
STC Technol. Ltd., Harlow, UK
Abstract :
The author describes the requirements of chip attachment techniques for silicon hybrid circuits, compares flip-chip, tape automated bonding (TAB), and wire bonding, and discusses the significance of assembly yield and test. Although area array flip-chip technology provides perhaps the ultimate electrical interconnection density, TAB can also be applied in very-high-density format. Silicon devices can be bonded face down with short beam leads and equal inner and outer lead-bonding (OLB) pitches. Assembly of high-lead-count TAB test chips onto fine-line aluminum-polyimide and copper-polyimide connections on silicon substrates has been evaluated in the RISH (Research Initiative into Silicon Hybrids) program. A range of bonding experiments was completed. Solder assembly was achieved with box thermode reflow down to OLB pitches of 175 mu m, with possible extension to bonding at 125 mu m or less. Single-point gold-gold OLB was achieved at 100- mu m bond pitches.<>
Keywords :
flip-chip devices; hybrid integrated circuits; lead bonding; modules; packaging; silicon; soldering; tape automated bonding; 100 to 175 micron; Al; Au; Cu; OLB pitches; RISH; Si hybrid circuits; Si substrate; TAB; aluminum-polyimide; assembly yield; box thermode reflow; chip attachment techniques; copper-polyimide; electrical interconnection density; flip-chip; silicon hybrid multi-chip modules; solder assembly; tape automated bonding; wire bonding; Assembly; Bonding; Costs; Fabrication; Impedance; Lead; Maintenance; Semiconductor materials; Silicon; Substrates;
Conference_Titel :
Electronic Manufacturing Technology Symposium, 1990, IEMT Conference., 8th IEEE/CHMT International
Conference_Location :
Baveno, Italy
DOI :
10.1109/IEMT8.1990.171089
