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@ -7601,6 +7601,26 @@ for defect classification of TFTLCD panels.pdf}
file = {/home/danesabo/Zotero/storage/84GMPWDD/DBN for aircraft wing health monitoring DT.pdf}
}
@article{linInnovativeSuccessiveApproximation2021,
title = {An {{Innovative Successive Approximation Register Analog-to-Digital Converter}} for a {{Nine-Axis Sensing System}}},
author = {Lin, Chih-Hsuan and Wen, Kuei-Ann},
date = {2021-03},
journaltitle = {Journal of Low Power Electronics and Applications},
volume = {11},
number = {1},
pages = {3},
publisher = {Multidisciplinary Digital Publishing Institute},
issn = {2079-9268},
doi = {10.3390/jlpea11010003},
url = {https://www.mdpi.com/2079-9268/11/1/3},
urldate = {2025-03-28},
abstract = {With nine-axis sensing systems in 5G smartphones, mobile power consumption has become increasingly important, and ultra-low-power (ULP) sensor circuits can decrease power consumption to tens of microwatts. This paper presents an innovative successive approximation register analog-to-digital converter, which comprises fine (three most significant bits (MSBs) plus course conversion (11 least significant bits (LSBs)) capacitive digital-to-analog converters (CDACs), ULP, four-mode reconfigurable resolution (9, 10, 11, or 12 bits), an internally generated clock, meta-detection, the switching base midpoint voltage (Vm) (SW-B-M), bit control logic, multi-phase control logic, fine (three MSBs) plus course conversion (11 LSBs) switch control logic, phase control logic, and an input signal plus negative voltage (VI + NEG) voltage generator. Then, the mechanism of the discrete Fourier transform (DFT)-based calibration is applied. The scalable voltage technique was used, and the analog/digital voltage was Vanalog (1.5 V) and Vdigital (0.9 V) to meet the specifications of the nine-axis ULP sensing system. The CDACs can reconfigure four-mode resolutions, 912 bits, for use in nine-axis sensor applications. The corresponding dynamic signal-to-noise and distortion ratio performance was 50.78, 58.53, 62.42, and 66.51 dB. In the 12-bit mode, the power consumption of the ADC was approximately 2.7 μW, and the corresponding figure of merit (FoM) was approximately 30.5 fJ for each conversion step.},
issue = {1},
langid = {english},
keywords = {DFT-based,fine (3 MSBs) plus course conversion (11 LSBs) CDAC,reconfigurable,SAR-ADC},
file = {/home/danesabo/Zotero/storage/DKEJCQ8S/Lin and Wen - 2021 - An Innovative Successive Approximation Register Analog-to-Digital Converter for a Nine-Axis Sensing.pdf}
}
@article{linUncertaintyQuantificationSoftware2021,
title = {Uncertainty Quantification and Software Risk Analysis for Digital Twins in the Nearly Autonomous Management and Control Systems: {{A}} Review},
shorttitle = {Uncertainty Quantification and Software Risk Analysis for Digital Twins in the Nearly Autonomous Management and Control Systems},