Intermodulation Distortions of Bang-Bang Control Class D Amplifiers

Audio Class D amplifiers (CDAs) based on bang-bang architecture are arguably the most power efficient architecture of all CDAs reported to-date due to their sheer hardware simplicity. At this juncture, the intermodulation distortion (IMD), an imperative measure that defines fidelity, remains unreported for bang-bang CDAs. In this paper, we investigate the mechanisms of and circuit parameters affecting the IMD of bang-bang CDAs. An interesting phenomenon is that the even-order IMD which is usually negligible/unreported in other CDAs and linear amplifiers may be higher than odd-order IMD therein. We derive analytical expressions for the IMD of the ideal and practical bang-bang CDAs, and the derived expressions are verified against HSPICE simulations and on the basis of measurements on a physical bang-bang CDA. These derived analytical expressions are useful as they provide valuable insights to the design of bang-bang CDAs and how parameters can be tradedoff to improve the IMD.