A digital control approach is investigated for timeoptimal load step response of Voltage Regulation Modules (VRM) equipped with low-ESR ceramic output capacitors. The proposed time-optimal technique is insensitive to the power stage parameters, as its operation does not rely on the knowledge of the output filter inductance or capacitance. The time-optimal response is achieved through a single on/off switching action undertaken as soon as a load transient is detected and automatically incorporates Adaptive Voltage Positioning (AVP) regulation. The proposed robust timeoptimal approach is validated through both computer simulations and experimental tests on a synchronous buck converter prototype.
Time Optimal, Parameters-Insensitive Digital Controller for VRM Applications with Adaptive Voltage Positioning
CORRADINI, LUCA;COSTABEBER, ALESSANDRO;MATTAVELLI, PAOLO;
2008
Abstract
A digital control approach is investigated for timeoptimal load step response of Voltage Regulation Modules (VRM) equipped with low-ESR ceramic output capacitors. The proposed time-optimal technique is insensitive to the power stage parameters, as its operation does not rely on the knowledge of the output filter inductance or capacitance. The time-optimal response is achieved through a single on/off switching action undertaken as soon as a load transient is detected and automatically incorporates Adaptive Voltage Positioning (AVP) regulation. The proposed robust timeoptimal approach is validated through both computer simulations and experimental tests on a synchronous buck converter prototype.
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