Vega de la Cruz, Carlos A.
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Publication A switched opamp comparator to improve the conversion rate of low-power low-voltage successive approximation adcs(2005) Vega de la Cruz, Carlos A.; Ducoudray, Gladys O.; College of Engineering; Juan-García, Eduardo J.; Palomera, Rogelio; Department of Electrical and Computer Engineering; Bollman, DorothyThe continued drive toward technology scaling in VLSI design has provided greater integration levels in silicon chips. Thanks to the reduction in minimum feature size and the corresponding decrease in power supply voltage, digital circuits have benefited from savings in area and power consumption. This approach presents a number of challenges in Complementary Metal-Oxide Semiconductor (CMOS) analog circuit design. As the gate oxide of transistors becomes thinner and power consumption increases, a lower supply voltage must be used, even though it results in performance degradation of analog circuits. This must be done in order to avoid silicon punchthrough. In applications requiring low power consumption and moderate conversion speed, one of the most frequently used analog-to-digital converter (ADC) architectures is the successive approximation. As data converters are mixed-signal circuits, containing both analog and digital circuits, they suffer from the same problems just described. This thesis presents the design of a low-voltage successive approximation ADC based on a Switched Opamp comparator. The proposed comparator archiecture provides high-resolution and low-power consumption without compromising speed. The results obtained from extensive simulations have validated the design of the ADC prototype, showing comparable performance to those found in recent publications, while achieving a higher conversion speed.