ADDRESSING MEMORY EFFECT FOR RAIL-TO-RAIL COMPARATOR WITH NEAR-THRESHOLD SUPPLY VOLTAGE

Abstract

Ultra-low voltage comparators with rail-to-rail input ranges are critical components in the design of low-voltage low-power analog to digital converters (ADCs). This paper investigates the memory effect of a commonly used comparator when its power supply is scaled down to near transistor threshold voltage levels. It also studies when such memory effects are most likely to occur during the conversion sequences of successive approximation register (SAR) ADCs. Subsequently an improved comparator design is presented to overcome the memory effect with near-threshold voltage power supply. The impacts of the proposed design modification on comparator speed, offset voltage and power consumptions are discussed. Based on a 0.13 μm CMOS technology and with a 0.5 V power supply, the proposed comparator is compared with the original comparator in terms of memory effect, speed, power consumption and input offset voltage. The integral and differential nonlinearity (INL and DNL) of 10-bit SAR ADCs with using the proposed and original comparators are also compared.