Feedback Comb Filter

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Feedback Comb Filter

$\begin{figure}\centering \input fig/fbcf.pstex_t \\ {\LARGE } \end{figure}$

$\begin{eqnarray*} -a_M &=& \hbox{Feedback coefficient (need $\vert a_M\vert<1$\ for stability)}\\ M &=& \hbox{Delay-line length in samples} \end{eqnarray*}$

Direct-Form-II Difference Equation (see above figure)

$\begin{eqnarray*} v(n) &=& x(n) - a_M y(n-M)\\ y(n) &=& b_0 v(n) \end{eqnarray*}$

Direct-Form-I Difference Equation (commute gain to input)

$\displaystyle y(n) = b_0 x(n) - a_M y(n-M)$

Transfer Function

$\displaystyle H(z) = \frac{b_0}{1 + a_M z^{-M}}$

Frequency Response

$\displaystyle H(e^{j\omega T}) = \frac{b_0}{1 + a_M e^{-jM\omega T}}$

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``Computational Acoustic Modeling with Digital Delay'', by Julius O. Smith III and Nelson Lee,
REALSIMPLE Project — work supported by the Wallenberg Global Learning Network .
Released 2008-06-05 under the Creative Commons License (Attribution 2.5), by Julius O. Smith III and Nelson Lee
Center for Computer Research in Music and Acoustics (CCRMA), Stanford University