论文信息 - PHYSICAL MODELLING OF A WAH-WAH EFFECT PEDAL AS A CASE STUDY FOR APPLICATION OF THE NODAL DK METHOD TO CIRCUITS WITH VARIABLE PARTS

PHYSICAL MODELLING OF A WAH-WAH EFFECT PEDAL AS A CASE STUDY FOR APPLICATION OF THE NODAL DK METHOD TO CIRCUITS WITH VARIABLE PARTS

The nodal DK method is a systematic way to derive a non-linear state-space system as a physical model for an electrical circuit. Unfortunately, calculating the system coefficients requires inversion of a relatively large matrix. This becomes a problem when the system changes over time, requiring continuous recomputation of the coefficients. In this paper, we present an extension of the DK method to more efficiently handle variable circuit elements. The method is exemplified with the Dunlop Crybaby wah-wah effect pedal, as the continuous change of the potentiometer position is an extremely important aspect of the wah-wah effect.

Martin Holters | Udo Zölzer | U. Zölzer | M. Holters

[1] Julius O. Smith,et al. Automated Physical Modeling of Nonlinear Audio Circuits For Real-Time Audio Effects—Part I: Theoretical Development , 2010, IEEE Transactions on Audio, Speech, and Language Processing.

[2] Kaare Brandt Petersen,et al. The Matrix Cookbook , 2006 .

[3] David T. Yeh,et al. Digital implementation of musical distortion circuits by analysis and simulation , 2009 .