论文信息 - Correction of capacitor errors during the conversion cycle of self-calibrating A/D converters

Correction of capacitor errors during the conversion cycle of self-calibrating A/D converters

The conversion cycle of self-calibrating, successive approximation (analog/digital) A/D converters (ADCs) is analyzed. The effects of capacitor ratio mismatch errors on the transfer characteristics of unipolar and bipolar ADCs are presented. Error correction during conversion is shown to eliminate linearity errors in unipolar ADCs and offset and linearity errors in bipolar ADCs. It is shown that for bipolar ADCs, the correction algorithm depends on the way the average unit capacitor is defined, which essentially depends on the calibration algorithm used during the ADC calibration cycle. High-resolution ADC considerations are presented, and computer simulations are reported. >

M. F. Wagdy | M. Wagdy

[1] D. Sealer,et al. Precision Capacitor Ratio Measurement Technique for Integrated Circuit Capacitor Arrays , 1979, IEEE Transactions on Instrumentation and Measurement.

[2] D. Hodges,et al. Self-calibration technique for A/D converters , 1983 .

[3] D.A. Hodges,et al. All-MOS charge-redistribution analog-to-digital conversion techniques. II , 1975, IEEE Journal of Solid-State Circuits.

[4] Anastasios N. Venetsanopoulos,et al. A decomposition theorem and its implications to the design and realization of two-dimensional filters , 1985, IEEE Trans. Acoust. Speech Signal Process..

[5] David A. Hodges,et al. Accuracy considerations in self- calibrating A/D converters , 1985 .