Abstract

A technique to reduce in-band tones in switch-mode power supplies is described. It takes advantage of the noise-shaping properties of the delta-sigma (/spl Delta//spl Sigma/) modulator to eliminate the spikes normally present in switching power supplies. A framework is introduced for comparing the conventional pulsewidth modulated (PWM) controller and this approach. A buck converter test circuit is constructed that is designed for a PWM controller clocked at 200 kHz and then substituted with a /spl Delta//spl Sigma/ modulator controller clocked at 400 kHz. The RMS noise power of the PWM controller is 14.9 mW compared to the rms noise power for the /spl Delta//spl Sigma/ modulator of 75.85 mW measured in a 2-MHz bandwidth. Although the /spl Delta//spl Sigma/ modulator rms noise power is higher, the noise floor is below the tones seen at the output of the PWM controller. A multibit /spl Delta//spl Sigma/ modulator controller, however, provides a significant reduction in the spectral output of the power supply. Values of 3.75 and 0.24 mW rms noise power are observed at the output of a 2-bit and 4-bit /spl Delta//spl Sigma/ modulator controller, respectively.

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