采用正弦插值的更高奈奎斯特范围DAC

NORCHIP 2010 Pub Date : 2010-12-17 DOI:10.1109/NORCHIP.2010.5669460

M. Sadeghifar, J. Wikner

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引用次数: 11

摘要

本工作讨论了高速数模转换器(DAC)设计中两个先前报道的思想之间的联系:模拟插值技术的线性近似和射频DAC概念，其中振荡脉冲用于将DAC与上转换混频器结合起来。提出了一种架构，其中我们利用模拟插值技术，但使用正弦而不是线性插值，以便将更多的能量分配到更高的奈奎斯特范围，这在射频dac中通常是这样做的。插值是在时域内完成的，这样它就近似了来自RF DAC概念的振荡信号，从而将信号调制到更高的奈奎斯特范围。然后，而不是从奈奎斯特范围内的输出，如在传统情况下，DAC的输出是从更高的图像。所提出的架构看起来很有希望在未来的高速DAC中实现，因为它可以用于RF DAC或修改版本的数字到RF转换器(drfc)。给出了仿真结果和理论描述来支持这一想法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A higher Nyquist-range DAC employing sinusoidal interpolation

This work discusses a link between two previously reported ideas in high-speed digital-to-analog converter (DAC) design: linear approximation with analog interpolation techniques and an RF DAC concept where oscillatory pulses are used to combine a DAC with an up-conversion mixer. An architecture is proposed where we utilize analog interpolation techniques, but using sinusoidal rather than linear interpolation in order to allocate more energy to higher Nyquist ranges as is commonly done in RF DACs. The interpolation is done in the time domain, such that it approximates the oscillating signal from the RF DAC concept to modulate the signal up to a higher Nyquist range. Then, instead of taking the output from within the Nyquist range, as in conventional case, the output of the DAC is taken from higher images. The proposed architecture looks promising for future implementations in high-speed DACs as it can be used in RF DAC or modified versions of digital-to-RF converters (DRFCs). Simulation results and theoretical descriptions are presented to support the idea.

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NORCHIP 2010

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