Referenced Items are not available for this document.
A key figure of merit for high-precision/performance circuit applications is the input offset voltage, which is defined as the differential input voltage necessary to produce a zero differential output voltage. The impact of hot-electron degradation on the input offset voltage of a CMOS differential amplifier is characterized. The NMOS and PMOS transistors examined were fabricated using a 1.5- mu m LOCOS-isolated, double-metal, BiCMOS process for mixed signal applications. Using the concept of a virtual source-coupled pair, may aspects of V/sub Offset/ degradation are determined directly from individual device measurements. Techniques are developed for estimating V/sub Offset/ device lifetime under operational conditions from accelerated stress measurements. Analytical models for V/sub Offset/ degradation are also developed. Performance and reliability tradeoffs for different CMOS differential amplifier designs are analyzed.<
Published in:
Reliability Physics Symposium 1992. 30th Annual Proceedings., International
Date of Conference: March 31 1992-April 2 1992
- Page(s):
- 76 - 80
- Meeting Date :
- 31 Mar 1992-02 Apr 1992
- Print ISBN:
- 0-7803-0473-X
- INSPEC Accession Number:
- 4291941
- Conference Location :
- San Diego, CA, USA
- Digital Object Identifier :
- 10.1109/RELPHY.1992.187626
- Product Type:
- Conference Publications
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