Linear model-based error identification and calibration for data converters
Abstract
For the example of a 12-bit Nyquist-rate ADC, a model for nonlinearity-causing mechanisms is developed based on circuit simulations. The model is used to estimate circuit element values from measured device characteristics. Post-manufacture reconfiguration of the digital control part of the device-type that is used as a test vehicle in this work can improve the linearity performance of a device. An algorithm is proposed that searches for a locally-optimal reconfiguration based on the determined circuit element values. Applying calibration to the circuit simulation model allows one to estimate the performance improvement obtainable with the proposed calibration scheme for a given manufacturing process prior to a physical implementation. © 2003 IEEE.
Publication Title
Proceedings -Design, Automation and Test in Europe, DATE
Recommended Citation
Wegener, C., & Kennedy, M. (2003). Linear model-based error identification and calibration for data converters. Proceedings -Design, Automation and Test in Europe, DATE, 630-635. https://doi.org/10.1109/DATE.2003.1253678
