2010
DOI: 10.1007/s10470-010-9544-y
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High-level modeling of resistor string based digital-to-analog converters

Abstract: To obtain a high performance CMOS resistor string digital-to-analog converter (DAC), one of the key design issues is the mismatch in the resistor ratio. This mismatch causes nonlinearity errors such as integral nonlinearity (INL) and differential nonlinearity (DNL), degrading the performances of the converter. Usually these matching properties are taken into account during the design phase by using time consuming and computational intensive transistor-level Monte Carlo simulations for the process technology co… Show more

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Cited by 6 publications
(2 citation statements)
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“…1 exploits the resistor string based architecture originally proposed by us in [4]. In this work the design has been optimized for 10 bits; non linearity values, INL and DNL, below 1 LSB are obtained (about 0.7 LSB in typical conditions).…”
Section: Integrated Mixed-signal Drivermentioning
confidence: 99%
“…1 exploits the resistor string based architecture originally proposed by us in [4]. In this work the design has been optimized for 10 bits; non linearity values, INL and DNL, below 1 LSB are obtained (about 0.7 LSB in typical conditions).…”
Section: Integrated Mixed-signal Drivermentioning
confidence: 99%
“…At the state of the art the resistor-string sizing is often done a priori or after comparisons by transistor-level simulations of few sizing alternatives, since transistor-level simulations are too time consuming. On the contrary, in this work we use a previously developed [14] high-level model of resistor-divider-based DACs, much faster than transistor-level simulations, to find a trade-off between good performances on nonlinearities (such as DNL and INL) and area occupation. As an example of the considered BCD technology and 10-bit resolution specifications Figure 4 shows how σ ΔR/R (which is a resistorstring mismatch parameter directly proportional to DNL and INL) varies verus resistor size W and L. The plot, that depicts the behavior of σ ΔR/R versus resistor length (L), is parametrized with W, the resistor width.…”
Section: Dac Converter Designmentioning
confidence: 99%