Area- and power-efficient monolithic buck converters with pseudo-type III compensation

Monolithic PWM voltage-mode buck converters with a novel Pseudo-Type III (PT3) compensation are presented. The proposed compensation maintains the fast load transient response of the conventional Type III compensator; while the Type III compensator response is synthesized by adding a high-gain low-frequency path (via error amplifier) with a moderate-gain high-frequency path (via bandpass filter) at the inputs of PWM comparator. As such, smaller passive components and low-power active circuits can be used to generate two zeros required in a Type III compensator. Constant G_m/C biasing technique can also be adopted by PT3 to reduce the process variation of passive components, which is not possible in a conventional Type III design. Two prototype chips are fabricated in a 0.35-μm CMOS process with constant G _m/C biasing technique being applied to one of the designs. Measurement result shows that converter output is settled within 7 μs for a load current step of 500 mA. Peak efficiency of 97% is obtained at 360 mW output power, and high efficiency of 86% is measured for output power as low as 60 mW. The area and power consumption of proposed compensator is reduced by > 75% in both designs, compared to an equivalent conventional Type III compensator.© 2006 IEEE

Induction of autophagy improves hepatic lipid metabolism in glucose-6-phosphatase deficiency

10.1016/j.jhep.2015.10.008Journal of Hepatology642370-37