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Erschienen in:
Perspectives on Electronic and Optoelectronic Materials Kapitel lesen Erstes Kapitel lesen

2007 | OriginalPaper | Buchkapitel

55. Packaging Materials

verfasst von : Darrel Frear, Ph.D.

Erschienen in: Springer Handbook of Electronic and Photonic Materials

Verlag: Springer US

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Abstract

This chapter is a high-level overview of the materials used in an electronic package including: metals used as conductors in the package, ceramics and glasses used as dielectrics or insulators and polymers used as insulators and, in a composite form, as conductors. There is a need for new materials to meet the ever-changing requirements for high-speed digital and radio-frequency (RF) applications. There are different requirements for digital and RF packages that translate into the need for unique materials for each application. The interconnect and dielectric (insulating) requirements are presented for each application and the relevant materials properties and characteristics are discussed. The fundamental materials characteristics are: dielectric constant, dielectric loss, thermal and electric conductivity, resistivity, moisture absorption, glass-transition temperature, strength, time-dependent deformation (creep), and fracture toughness. The materials characteristics and properties are dependant on how they are processed to form the electronic package so the fundamentals of electronic packaging processes are discussed including wirebonding, solder interconnects, flip-chip interconnects, underfill for flip chip and overmolding. The relevant materials properties are given along with requirements (including environmentally friendly Pb-free packages) that require new materials to be developed to meet future electronics needs for both digital and RF applications.

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Vorheriges Kapitel Organic Materials for Chemical Sensing
Literatur
55.1.
D. R. Frear, W. B. Jones, K. R. Kinsman: Solder Mechanics: A State of the Art Assessment (TMS, Warrendale 1991)
55.2.
Area Array Packaging, ed. by K. Puttlitz, P. Totta (Kluwer, Dordrecht 2001)
55.3.
High Temperature Electronics, ed. by P. A. McCluskey (CRC, Boca Raton 1996)
55.4.
J. H. Lau: Ball Grid Array Technology (McGraw–Hill, New York 1995)
55.5.
G. Harmann: Wire Bonding in Microelectronics Materials, Processes, Reliability, and Yield (McGraw–Hill, New York 1997)
55.6.
R. J. Klein Wassink: Soldering in Electronics (Electrochem. Publ., Ayr, Scottland 1989)
55.7.
C. A. Harper: Electronic Packaging and Interconnection Handbook (McGraw–Hill, New York 1991)
55.8.
Electronic Materials Handbook, Vol. 1: Packaging, ed. by M. L. Minges (ASM-Int., Materials Park, OH 1989)
55.9.
E. Philofsky: Intermetallic formation in Au–Al systems, Solid State Electron. 13, 1391–99 (1970)CrossRef
55.10.
C. Horsting: Purple Plague and Au Purity, Proceedings 10th Annual IRPS (IEEE, Westmoreland, NY 1972) pp. 155–8
55.11.
L. Levine, M. Sheaffer: Wirebonding strategies to meet thin film packaging requirements – Part 1, Solid State Technol. 36, 63–70 (1993)
55.12.
L. S. Goldman: Geometric optimization of controlled collapse interconnects, IBM J. Res. Dev. 13, 251 (1969)CrossRef
55.13.
J.-K. Lin, J. Drye, W. Lytle, T. Scharr, R. Sharma: Conductive Polymer Bump Interconnects, Proceedings of the 46th Electronic Components Technology Conference (IEEE, Piscataway, NJ 1996) pp. 1059–68
55.14.
N. C. Lee: Pb-free soldering – Where the world is going, Adv. Microelectron (IEEE, Piscataway, NJ 1999) p. 29
55.15.
J. Glazer: Microstructure and mechanical properties of Pb-free solder alloys for low-cost electronic assembly: A review, J. Electron. Mater. 23, 693–700 (1994)CrossRef
55.16.
J. Glazer: Metallurgy of low temperature Pb-free solder for electronic assembly, Int. Mater. Rev. 40, 65–93 (1995)
55.17.
M. Abtew, G. Selvardery: Pb-free solder in microelectronics, Mater. Sci. Eng. 27, 95–141 (2000)CrossRef
55.18.
H. K. Seelig, D. Suraski: The Status of Pb-free Solder Alloys, Proc. 50th Electron. Comp. Tech. Conf. (IEEE, Piscataway, NJ 2000) pp. 1405–9
55.19.
K. G. Snowden, C. G. Tanner, J. R. Thompson: Pb-free Soldering Interconnects: Current Status and Future Developments, Proc. 50th Electron. Comp. Tech. Conf. (IEEE, Piscataway, NJ 2000) pp. 1416–19
55.20.
Z. Hasnain, A. Ditali: Building-in reliability: Soft errors – a case study, Ann. Proc. Reliab. Phys. (IEEE, Westmoreland, NY 1992) pp. 276–80
55.21.
M. W. Roberson, P. A. Deane, S. Bonafede, A. Huffman, S. Nangalia: Conversion between standard and low-alpha Pb in solder bumping production lines, J. Electron. Mater. 29, 1274–7 (2000)CrossRef
55.22.
H. L. Hvims: Conductive adhesives for SMT and potential applications, IEEE Trans. Components Hybrids Manuf. Technol. 18, 284–91 (1995)
55.23.
L. C. Li, H. Lizzul, I. Kim, J. E. Sacolick, J. E. Morris: Electrical, structural and processing properties of electronic conductive adhesives, IEEE Trans. Components Hybrids Manuf. Technol. 16, 843–51 (1993)CrossRef
55.24.
D. D. L. Chang, J. A. Fulton, H. C. Ling, M. B. Schmidt, R. E. Sinitiski, C. P. Wong: Accelerated life test of z-axis conductive adhesives, IEEE Trans. Component Hybrids Manuf. Technol. 16, 836–42 (1993)CrossRef
Metadaten
Titel
Packaging Materials
verfasst von
Darrel Frear, Ph.D.
Copyright-Jahr
2007
Verlag
Springer US
Buch
Springer Handbook of Electronic and Photonic Materials

Print ISBN: 978-0-387-26059-4

Electronic ISBN: 978-0-387-29185-7

Copyright-Jahr: 2007

DOI
https://doi.org/10.1007/978-0-387-29185-7_55

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