A 12-Bit 1.2-GS/s Current-Steering DAC in 45-NM CMOS Technology

Abstract

This research paper presents a 12-bit 8–4-segmented current-steering DAC (digital-to-analog converter) that offers notable advantages, particularly in terms of its reduced power consumption compared to other similar designs. The exceptional performance of our DAC can be attributed to two key factors: the use of a thermometer encoder and an efficient digital input bit segmentation. These features contribute to enhanced precision and reduced power requirements, setting our DAC apart from the existing solutions in the field. These enhancements significantly reduce glitches and improve the accuracy of the DAC’s output. DAC dissipates a total power of about 44.95[Formula: see text]mW when running at a sample rate of 1.2[Formula: see text]GHz with the CMOS technology of 45[Formula: see text]nm. While the supply input voltage is held constant at 1.2[Formula: see text]V, the DAC’s digital input is pulsating in nature in which the ON voltage is 1[Formula: see text]V and OFF voltage is 0[Formula: see text]V. Also, the DAC has a spurious-free dynamic range (SFDR) of 41.77[Formula: see text]dB.