Digital Fault-based Built-in Self-test and Evaluation of Low Dropout Voltage Regulators

With increasing pressure to obtain near-zero defect rates, there is a need to explore built-in self-test and other non-traditional test techniques for embedded mixed-signal components, such as PLLs, power converters, and data converters. This article presents an extremely low-cost built-in self-test...

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Veröffentlicht in:	ACM journal on emerging technologies in computing systems 2022-08, Vol.18 (3), p.1-20, Article 54
Hauptverfasser:	Ince, Mehmet, Bilgic, Bora, Ozev, Sule
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Sprache:	eng
Schlagworte:	Analog, mixed-signal and radio frequency test Defect-based test Hardware Malicious design modifications Security and privacy
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creator	Ince, Mehmet Bilgic, Bora Ozev, Sule
description	With increasing pressure to obtain near-zero defect rates, there is a need to explore built-in self-test and other non-traditional test techniques for embedded mixed-signal components, such as PLLs, power converters, and data converters. This article presents an extremely low-cost built-in self-test technique for LDOs, specifically designed for fault detection. The methodology relies on exciting the LDO loop at the voltage reference input via a pseudo-random signal with white noise characteristics and observing the response from the output of LDO via all-digital circuitry, thereby inducing low area and performance overhead. The BIST circuit along with an LDO as a device under test is designed in 65nm technology. Fault simulations performed at the transistor level show that all resistive open/short defects in circuit components can be detected even if they do not cause a catastrophic failure in the LDO response. The proposed technique is validated with hardware using off-the-shelf components.
doi_str_mv	10.1145/3510852
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title	Digital Fault-based Built-in Self-test and Evaluation of Low Dropout Voltage Regulators
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