1999
DOI: 10.1109/4.808897
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A 14-b, 100-MS/s CMOS DAC designed for spectral performance

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Cited by 86 publications
(39 citation statements)
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“…The return-to-zero technique utilized in [233] yields a clear improvement in highfrequency SFDR compared to earlier reported DACs, but still has some limitations, such as the difficulty of providing large amplitudes to a low-resistance load, the complicated circuitry needed to handle signal dependent parasitics, and sensitivity to clock jitter, which is not relaxed, unlike in conventional DACs, when signal frequency is decreased. To alleviate the first two of these problems the same authors have proposed the track/attenuate technique [230], which is basically a switch put in parallel with the load to short the output during the DAC switching.…”
Section: Introduction To Current Steering Dacsmentioning
confidence: 99%
“…The return-to-zero technique utilized in [233] yields a clear improvement in highfrequency SFDR compared to earlier reported DACs, but still has some limitations, such as the difficulty of providing large amplitudes to a low-resistance load, the complicated circuitry needed to handle signal dependent parasitics, and sensitivity to clock jitter, which is not relaxed, unlike in conventional DACs, when signal frequency is decreased. To alleviate the first two of these problems the same authors have proposed the track/attenuate technique [230], which is basically a switch put in parallel with the load to short the output during the DAC switching.…”
Section: Introduction To Current Steering Dacsmentioning
confidence: 99%
“…The design of DACs based on standard CMOS technologies has been pursued to overcome these constraints with some success [2][3][4][5][6][7]. Although each of the converters have some attractive features, in the form of either consuming low power [2][3][4][5], or possessing good dynamic performance [6], all of them consist of segmented or matrix architecture, rendering a complexity to the D/A converter circuit.…”
Section: Introductionmentioning
confidence: 99%
“…This output current can be directly connected to a resistive load, for example 50Ω, to generate an output voltage. The accuracy at low frequency is mainly limited by the performance of the current sources, while at higher frequencies also the switch performance plays an important role [30]. Since there is no buffer required and switching currents can be done very fast, it is the most popular solution for high-speed DACs.…”
Section: R-2r Ladder Dacmentioning
confidence: 99%
“…During the remainder of a sampling period, the effect of these dynamic errors can be sufficiently small. Consequently, the linearity of a CS DAC can be improved if we make sure the DAC is not connected to the output during the time that the dynamic errors are significant; this is for example done in [30,36] in the form of an RZ output signal. However as mentioned in section 2.2, RZ results in much larger transients and increases demands on analog post-filtering while at the same time the delivered output power is decreased.…”
Section: The Interleaved Structurementioning
confidence: 99%
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