Möbius transforms provide for the definition of a family of onestep discretization methods offering a framework for alleviating
well-known limitations of common one-step methods, such as the
trapezoidal method, at no cost in model compactness or complexity. In this paper, we extend the existing theory around these methods. Here, we show how it can be applied to common frameworks
used to structure virtual analog models. Then, we propose practical strategies to tune the transform parameters for best simulation
results. Finally, we show how such strategies enable us to formulate much improved non-oversampled virtual analog models for
several historical audio circuits.