Multilayer ceramic capacitor (MLCC) is of small size, low price, excellent frequency response and other characteristics, while at the same time it is surface mount components, so that it can be in rapid production and substantially reduce the share of components on the printed circuit board space, which currently widely used for portable products and laptop computers. As the popularity of laptop computers, users have found that the product may produce a tiny high pitched noise. Because it is extremely subtle, and can be heard only very close to the computer. Although the majority of users think that it does not affect its operation, but remains psychologically difficult to tolerate this unexpected high-pitched noise. The source of this noise is the multilayer ceramic capacitors which intensively used in laptop computers. The dielectric material of multilayer ceramic capacitor is mainly barium-titanate (BaTiO3), which has ceramic piezoelectric properties, so the vibration of its structure will occur under the AC electric field. This thesis verified that through experiments reducing ripple noise in the power trace could effectively reduce the high pitched microphonics phenomenon caused by the multilayer ceramic capacitors. The experimentation results show that the ripple noise was reduces by 26.5%, the loudness of high pitched noise was reduced by 19.4%, and the prominence ratios at 4KHz and 8KHz were lower.