DocumentCode
1360933
Title
Distributed ESD protection for high-speed integrated circuits
Author
Kleveland, Bendik ; Maloney, Timothy J. ; Morgan, Ian ; Madden, Liam ; Lee, Thomas H. ; Wong, S. Simon
Author_Institution
Center for Integrated Syst., Stanford Univ., CA, USA
Volume
21
Issue
8
fYear
2000
Firstpage
390
Lastpage
392
Abstract
Conventional ESD guidelines dictate a large protection device close to the pad. The resulting capacitive load causes a severe impedance mismatch and bandwidth degradation. A distributed ESD protection scheme is proposed to enable a low-loss impedance-matched transition from the package to the chip. A simple resistive model adequately predicts the ESD behavior under stress according to the charged device and human body models. The large area of the distributed ESD scheme could limit its application to designs such as distributed amplifiers, rf transceivers, A/D converters, and serial links with only a few dedicated high-speed interfaces. The distributed ESD protection is compatible with high-speed layout guidelines, requiring only low-loss transmission lines in addition to a conventional ESD device.
Keywords
analogue-digital conversion; circuit layout CAD; electrostatic discharge; high-speed integrated circuits; impedance matching; integrated circuit layout; integrated circuit modelling; transceivers; A/D converters; bandwidth degradation; capacitive load; charged device model; dedicated high-speed interfaces; distributed ESD protection; high-speed integrated circuits; high-speed layout guidelines; human body model; impedance mismatch; low-loss impedance-matched transition; low-loss transmission lines; resistive model; rf transceivers; serial links; Bandwidth; Biological system modeling; Degradation; Electrostatic discharge; Guidelines; High speed integrated circuits; Impedance; Integrated circuit packaging; Predictive models; Protection;
fLanguage
English
Journal_Title
Electron Device Letters, IEEE
Publisher
ieee
ISSN
0741-3106
Type
jour
DOI
10.1109/55.852960
Filename
852960
Link To Document