All-Digital FPGA-based DAC with None or Few External Components
Abstract
One of the many limitations with the mixed-signal design is physically testing circuit ideas. While it is easier to test digital circuits with FPGAs, this can not be done usually with mixed-signal circuits. Although some FPGAs have built-in analog-to-digital and digital-to-analog converters, regular commercial FPGAs development boards and low-cost FPGAs lack built-in data converters. Here we introduce an all-digital FPGA-based DAC, which is one of the main blocks to enable mixed-signal experiments. The DAC can be synthesized entirely in an FPGA and does not require the use of external components. Furthermore, and to extend its range of applications, a discussion regarding the proposed DAC's problems and possible solutions is presented. Experimental demonstration of a 4-bit and a 5-bit DAC corroborate the theoretical analysis developed in this work. This work also suggests a scheme which includes few external resistors to improve the linearity (DNL0.25LSB and an INL0.5LSB), and the power consumption (5X improvement over the standalone configuration).
Keywords
Cite
@article{arxiv.2008.00572,
title = {All-Digital FPGA-based DAC with None or Few External Components},
author = {Luis E. Rueda G. and Edward Silva and Andres Centeno and Elkim Roa},
journal= {arXiv preprint arXiv:2008.00572},
year = {2020}
}
Comments
Submitted to IEEE Transactions on Circuits and Systems I; 9 pages, 13 figures