An uncertainty-guided closed-loop method with real-time Extended Kalman Filter estimation of capacitor mismatches reduces SAR ADC linearity test time by adaptively choosing measurement points instead of dense fixed sampling.
Linearity testing of adcs using low linearity stimulus and kalman filtering
2 Pith papers cite this work. Polarity classification is still indexing.
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cs.AR 2years
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UNVERDICTED 2representative citing papers
Optimizations to uncertainty-guided live measurement sequencing for SAR ADCs, including rank-1 EKF updates and covariance inflation, achieve 8x faster convergence to accurate INL/DNL estimates in simulations for 16-bit devices.
citing papers explorer
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Uncertainty-Guided Live Measurement Sequencing for Fast SAR ADC Linearity Testing
An uncertainty-guided closed-loop method with real-time Extended Kalman Filter estimation of capacitor mismatches reduces SAR ADC linearity test time by adaptively choosing measurement points instead of dense fixed sampling.
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Advanced Strategies for Uncertainty-Guided Live Measurement Sequencing in Fast, Robust SAR ADC Linearity Testing
Optimizations to uncertainty-guided live measurement sequencing for SAR ADCs, including rank-1 EKF updates and covariance inflation, achieve 8x faster convergence to accurate INL/DNL estimates in simulations for 16-bit devices.