Digital PWM control: application in voltage regulation modules

Abstract

Conventionally, controllers for DC/DC converters have relied on analog circuit techniques for implementation. While analog based systems have proven successful, several reasons make digital control attractive. Digital control allows for the implementation of more functional control schemes. Digital circuits are potentially less susceptible to noise and parameter variations. With the explosion of cheap computing power, and availability of advanced integrated circuit design and synthesis tools, a digital controller design can be ported to new integrated circuit technology generations with little additional effort. Current trends in microprocessor designs lead toward decreasing supply voltages and increasing current demands. Future microprocessors are projected to require between 30-60 Amps of static current and impose di/dt requirements on the power supply in the order of 5 A/ns. In this paper, we focus on the design of a digital controller for an interleaved DC/DC buck converter to supply power for microprocessor loads. Digital logic makes the generation of identical, but delayed, gate drive signals for the various phases of the interleaved converter simple.