Title :
Oscillation-based approach applied to a low-power analog front-end for an implantable cardiac device
Author :
Miguel, J.A. ; Rivas, D. ; Lechuga, Y. ; Allende, M.A. ; Martinez, M.
Author_Institution :
Microelectron. Eng. Group, Univ. of Cantabria, Santander, Spain
Abstract :
This paper describes the evaluation of an oscillation-based approach specially thought for testing a low-power analog system that monitors an implantable biomedical device (intelligent stent). Fault simulation analysis has been performed on the basic blocks of the CUT, and oscillation parameters (frequency and amplitude) have been measured at the output of the last system block, an oscillator. Taking advantage of fault reflection from the rest of the blocks, the proposed testing method will avoid the need of adding extra circuitry to convert the different partitions of the CUT into oscillators, reducing circuit complexity and possible performance degradation. The results obtained show that a good fault coverage figure for catastrophic faults can be achieved.
Keywords :
biomedical electronics; cardiology; fault simulation; low-power electronics; stents; catastrophic faults; circuit complexity reduction; circuit under test; fault reflection; fault simulation analysis; implantable biomedical device; implantable cardiac device; intelligent stent; low-power analog front-end; oscillation parameters; oscillation-based approach; Circuit faults; Integrated circuits; Logic gates; Micromechanical devices; Oscillators; Rectifiers; Transistors; Fault injection; Implantable Biomedical Devices; Low Power Integrated Circuits; Oscillation-based Test;
Conference_Titel :
Mixed-Signal Testing Workshop (IMSTW), 2015 20th International
Conference_Location :
Paris
DOI :
10.1109/IMS3TW.2015.7177878
