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Built-in self-test and diagnostic support for safety critical microsystems

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published

Standard

Built-in self-test and diagnostic support for safety critical microsystems. / Olbrich, T ; Richardson, A M D ; Bradley, D A .
In: Microelectronics Reliability, Vol. 36, No. 7-8, 07.1996, p. 1125-1136.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Olbrich, T, Richardson, AMD & Bradley, DA 1996, 'Built-in self-test and diagnostic support for safety critical microsystems', Microelectronics Reliability, vol. 36, no. 7-8, pp. 1125-1136. https://doi.org/10.1016/0026-2714(96)00035-2

APA

Vancouver

Olbrich T, Richardson AMD, Bradley DA. Built-in self-test and diagnostic support for safety critical microsystems. Microelectronics Reliability. 1996 Jul;36(7-8):1125-1136. doi: 10.1016/0026-2714(96)00035-2

Author

Olbrich, T ; Richardson, A M D ; Bradley, D A . / Built-in self-test and diagnostic support for safety critical microsystems. In: Microelectronics Reliability. 1996 ; Vol. 36, No. 7-8. pp. 1125-1136.

Bibtex

@article{dee97ce4946547faaa3ddd9d65bd29a8,
title = "Built-in self-test and diagnostic support for safety critical microsystems",
abstract = "Sensors and actuators with built-in local intelligence are often described as microsystems. The integration of processing electronics at the sensor and actuator level enables the distribution of processing tasks such as calibration and filtering as well as test and diagnostic functions from upper system hierarchies to lower levels. This paper describes Built-In-Self-Test (BIST) and diagnostic strategies for Safety Critical Microsystems. It compares different approaches and demonstrates the importance of utilising Reliability Indicators (Rls) for on-chip monitoring and diagnostics. The close relationship between Design for Testability (DfT) for post-production tests and the BIST strategies for on-line monitoring is outlined. A multichip design strategy is described for an example microsystem. ",
author = "T Olbrich and Richardson, {A M D} and Bradley, {D A}",
year = "1996",
month = jul,
doi = "10.1016/0026-2714(96)00035-2",
language = "English",
volume = "36",
pages = "1125--1136",
journal = "Microelectronics Reliability",
issn = "0026-2714",
publisher = "Elsevier Limited",
number = "7-8",

}

RIS

TY - JOUR

T1 - Built-in self-test and diagnostic support for safety critical microsystems

AU - Olbrich, T

AU - Richardson, A M D

AU - Bradley, D A

PY - 1996/7

Y1 - 1996/7

N2 - Sensors and actuators with built-in local intelligence are often described as microsystems. The integration of processing electronics at the sensor and actuator level enables the distribution of processing tasks such as calibration and filtering as well as test and diagnostic functions from upper system hierarchies to lower levels. This paper describes Built-In-Self-Test (BIST) and diagnostic strategies for Safety Critical Microsystems. It compares different approaches and demonstrates the importance of utilising Reliability Indicators (Rls) for on-chip monitoring and diagnostics. The close relationship between Design for Testability (DfT) for post-production tests and the BIST strategies for on-line monitoring is outlined. A multichip design strategy is described for an example microsystem. 

AB - Sensors and actuators with built-in local intelligence are often described as microsystems. The integration of processing electronics at the sensor and actuator level enables the distribution of processing tasks such as calibration and filtering as well as test and diagnostic functions from upper system hierarchies to lower levels. This paper describes Built-In-Self-Test (BIST) and diagnostic strategies for Safety Critical Microsystems. It compares different approaches and demonstrates the importance of utilising Reliability Indicators (Rls) for on-chip monitoring and diagnostics. The close relationship between Design for Testability (DfT) for post-production tests and the BIST strategies for on-line monitoring is outlined. A multichip design strategy is described for an example microsystem. 

U2 - 10.1016/0026-2714(96)00035-2

DO - 10.1016/0026-2714(96)00035-2

M3 - Journal article

VL - 36

SP - 1125

EP - 1136

JO - Microelectronics Reliability

JF - Microelectronics Reliability

SN - 0026-2714

IS - 7-8

ER -