Design and Realization of a Digital Multiphase-Interleaved VRM Controller Using FPGA

Voltage regulator modules (VRM) are used for low- voltage, high-current dc-dc converters used for high- performance microprocessors and graphic processors. This paper describes the development of a digital PWM controller architecture in applications to multiphase-interleaved VRM A digital current control technique with interleaved PWM generation and synchronous current sampling has been developed to improve the transient response under large load disturbances. The proposed control scheme for the interleaved multiphase buck converter employs feedback signals of output voltage, output current, and per-phase inductor current. By using a synchronous over-sampling technique for the detection per-phase inductor current and double-edge PWM modulation technique, the current response can reach a dead- beat performance for step current command. Current sharing control is used to equalize the current of each phase converter under possible parameters mismatch. A computer simulation study has been carried out to illustrate the feasibility and performance of the proposed digital control technique.