Abstract: A buck-boost converter and a method are presented. The buck-boost converter comprises an inductor, a buck converter, and a boost converter. The buck converter controls switches according to a buck duty cycle, whereas the boost converter controls switches according to a boost duty cycle. The converter contains a voltage feedback loop for regulating an output voltage of the converter. A buck comparator generates the buck duty cycle signal by comparing the error voltage with a ramp voltage. A boost comparator generates the boost duty cycle signal by comparing a boost error voltage with the ramp voltage, wherein the boost error voltage is indicative of a sum of the error voltage and an offset voltage and the boost ramp voltage is indicative of a sum of the ramp voltage and the offset voltage. There is a duty cycle feedback loop for adjusting the buck and boost duty cycles.

Abstract: A buck-boost converter and a method are presented. The buck-boost converter comprises an inductor, a buck converter, and a boost converter. The buck converter controls switches according to a buck duty cycle, whereas the boost converter controls switches according to a boost duty cycle. The converter contains a voltage feedback loop for regulating an output voltage of the converter. A buck comparator generates the buck duty cycle signal by comparing the error voltage with a ramp voltage. A boost comparator generates the boost duty cycle signal by comparing a boost error voltage with the ramp voltage, wherein the boost error voltage is indicative of a sum of the error voltage and an offset voltage and the boost ramp voltage is indicative of a sum of the ramp voltage and the offset voltage. There is a duty cycle feedback loop for adjusting the buck and boost duty cycles.